200932324 九、發明說明 【發明所屬之技術領域】 本發明係關於遊藝裝置,尤其是關於代幣遊藝裝置 者。 【先前技術】 先前關於此種代幣遊藝裝置,例如公知有推幣遊藝裝 © 置。此係如以下所述構造。遊藝者藉由將代幣投入至推幣 遊藝裝置的特定場域,被往返移動於場域上的推擠部推頂 之代幣會從場域落下,而落下之代幣會支付給遊藝者。於 遊藝裝置本體係存在有可進行遊藝之遊藝者人數份的附屬 設備,遊藝者可執行在該附屬設備內,投入代幣的遊藝。 如順利的話,遊藝者係可獲得投入至推幣遊藝裝置之枚數 以上的枚數。 先前,在此種推幣遊藝機,有依據場域面上之代幣的 Ο 堆積狀況、然後遊藝者如何巧妙地投入代幣,而代幣的獲 得枚數會增減者。因爲如此遊藝會較爲單調,於日本特開 2002 — 25 3 842號公報中,揭示有具備抽選功能的推幣遊 藝裝置。 依據此習知技術,從代幣投入器投入之代幣通過代幣 卡盤時,抽選裝置的吃角子老虎盤會旋轉,所定獎項備齊 時,會供給球至堆積多數代幣的場域。遊藝者與代幣一 起,將球推落落下溝時’該球係被送至可取得更高獎賞的 中央抽選裝置。然後,在中央抽選裝置,使用該球來進行 -5- 200932324 物理性抽選,在當選時,並不是從進行通常支付的代幣支 付裝置,而是從中央抽選裝置支付大量的代幣至場域上。 因此,可使遊藝者抱持推落在先前之推幣遊藝裝置未有的 ' 代幣以外之物的積極性。 進而,日本特開2005 - 027952號公報係揭示身爲代 幣以外之膠囊與代幣一起被供給至場域,將從場域落下之 膠囊與代幣分類,作爲獎品,遊藝者可受取內有代幣之膠 〇 囊的推幣遊藝裝置。 [專利文獻1]日本特開2002 — 253 842號公報 [專利文獻2]日本特開2005 — 027952號公報 【發明內容】 [發明所欲解決之課題] 先前的推幣遊藝裝置,係爲了提升作爲遊藝裝置的價 値,因應從各附屬設備投入之代幣數,積存所定枚數的代 〇 幣,進行特別抽選,支付積存於稱爲彩金之高獎賞條件成 立之附屬設備的所有代幣。然而,彩金的表演在先前之代 幣遊藝裝置,僅停留於單純之支付積存之代幣者。在此, 本發明的目的係提供使用代幣以外之例如球等之新的遊藝 價値構件,且利用新的遊藝價値構件,提升使用代幣等原 來之遊藝價値構件之遊藝之控制及表演之程度的遊藝裝 置。 [用以解決課題之手段] -6- 200932324 爲了達成前述目的’本發明之特徵爲具備:遊藝終端 裝置,係使用複數第1遊藝價値構件,遊藝者用以進行遊 藝;貯藏手段,係貯藏前述複數第2遊藝價値構件;第1 導引手段,係使從開始端供給之前述第2遊藝價値構件, 下降移動至結束端爲止;搬送手段,係搬送到達前述第1 導引手段之結束端的前述第2遊藝價値構件,使其上升至 前述第1導引手段的開始端爲止;第2導引手段,係從前 〇 述第1導引手段分歧而設置,用以使沿著前述第1導引手 段移動之前述第2遊藝價値構件,從前述第1導引手段脫 逸而移動至前述遊藝終端裝置;回收手段,係將沿著前述 第2導引手段移動而到達前述遊藝終端裝置之前述第2遊 藝價値構件,回收至前述貯藏手段:供給手段,係將回收 至前述貯藏手段的前述第2遊藝價値構件,供給給前述搬 送手段,並使其到達前述第1導引手段的開始端;及控制 裝置,係控制至少藉由前述第1導引手段決定之前述第2 〇 遊藝價値構件的移動路徑;前述控制裝置,係依據從前述 遊藝終端裝置接收之遊藝結果,執行使沿著前述第1導引 手段移動之前述第2遊藝價値構件,移動至前述第2導引 手段的控制:前述遊藝終端裝置係具備:特性檢測手段, 係檢測經由前述第2導引手段而到達之前述第2遊藝價値 構件的特性;及遊戲處理執行手段,係依據檢測結果,執 行使用前述第1遊藝價値構件之遊藝的遊戲處理。 [發明之效果] 200932324 依據本發明,因爲可使第2遊藝價値構件的特性,反 映於使用第1遊藝價値構件的遊藝,故可提供使用代幣以 外之例如球等之新的遊藝價値構件,且利用新的遊藝價値 構件’提升使用代幣等原來之遊藝價値構件之遊藝之控制 及表演之程度的遊藝裝置。 【實施方式】 〇 以下’說明使用本發明之遊藝裝置整體之同時,針對 本發明的實施形態,詳細說明。 圖1係揭示遊藝裝置的立體圖者。該遊藝裝置1係整 體上’由大型之圓形狀框體10所構成。於此大型框體的 圓周方向’均等地整例有10台附屬設備,亦即,遊藝者 可執行代幣遊藝的終端裝置12。 於框體內係如圖2所示,分別以管狀圖示之複數路徑 從框體上部以螺旋狀朝框體下部安裝之形態,設置於框體 0 內。複數路徑係依據路徑的詳細,區分稱爲循環路徑 14A、14B、14B、彩金路徑16,然後,與機會路徑18。 各路徑的意義係於後依序詳述。於各路徑,滾動有作爲第 2遊藝價値構件的球。 符號20係將位於框體底部的球,一邊分配至各路 竟,一邊抬升至框體上部,並用以將框體上部的球,釋出 至路徑之開始端(上段)的升降機構。 升降機構2 0係如圖2所示,幾近位於框體中心,如 圖3所示,從底面板22垂直設置至頂板單元24爲止。升 -8- 200932324 降機構係具備:藉由固定於底面板22背面的電動機旋轉 之蝸線螺桿26、均等配置於蝸線螺桿26周圍之5根支柱 28、將該等支柱28沿著螺桿26的圓周方向連結之連結盤 30 ° 藉由該5根支柱,從其平面方向觀看螺桿26時,螺 桿的區域被分割成5區劃,從鄰接各區劃之其他區劃來區 別,可於各區劃收容球。因應螺桿的旋轉,位於各區劃的 ❹ 球係從螺桿下端至其上端爲止,一邊維持位於其區劃內, 一邊移動。 於螺桿15下端的周圍係設置有臨向螺桿的前述各區 劃,且與各路徑下端(結束端)結合的導引部。亦即,位於 循環路徑14A下端的導引部140A,係經由誘導導引部 144A,臨向螺桿內的區劃A。位於循環路徑14B下端的 導引部140B,係經由誘導導引部144B,臨向螺桿內的區 劃B。位於循環路徑14C下端的導引部140C,係經由誘 © 導導引部144C,臨向螺桿內的區劃C。 彩金路徑16係收集流動於循環路徑14A、14B、14C 的球,用以供給給稱爲彩金之特別高獎賞條件成立的附屬 設備者。符號16A係用以將球供給至彩金路徑的導引 部,經由該導引部16A,從各循環路徑集中之球會全部被 供給至螺桿的相同區劃。200932324 IX. Description of the Invention [Technical Field] The present invention relates to a game device, and more particularly to a token game device. [Prior Art] As for the token game device, for example, it is known to have a push coin game device. This is constructed as described below. The entertainer will drop the token from the field by the pusher who moves back and forth on the field by placing the token into the specific field of the push-to-play amusement device, and the fallen token will be paid to the entertainer. . In the amusement device, there is an accessory device for the number of players who can play the game. The player can perform the game of tokens in the accessory device. If it is successful, the entertainer can obtain the number of pieces that are put into the push-to-coin amusement device. Previously, in this type of coin-operated amusement machine, there was a situation in which the tokens on the field surface were stacked, and then the entertainer skillfully invested in the token, and the number of tokens to be increased or decreased. Because the game club is relatively monotonous, a push coin game device having a lottery function is disclosed in Japanese Laid-Open Patent Publication No. 2002-2583. According to this conventional technique, when the token input from the token dispenser passes through the token chuck, the slot machine of the drawing device will rotate, and when the prize is set, the ball will be supplied to the field where most tokens are stacked. When the player joins the token and pushes the ball down the ditch, the ball is sent to a central drawing device that can achieve higher rewards. Then, in the central drawing device, the ball is used to perform the physical drawing of -5 - 200932324. At the time of election, instead of performing the usual payment of the token payment device, the central drawing device pays a large amount of tokens to the field. on. Therefore, it is possible for the entertainer to hold the enthusiasm of the item other than the token that has not been pushed by the previous coin-operated amusement device. Further, Japanese Laid-Open Patent Publication No. 2005-027952 discloses that capsules other than tokens are supplied to the field together with tokens, and capsules and tokens that fall from the field are classified as prizes, and the entertainer can receive the contents. The coin-operated amusement device of the coin-filled capsule. [Patent Document 1] JP-A-2002-253842 [Patent Document 2] JP-A-2005-027952 SUMMARY OF INVENTION [Problems to be Solved by the Invention] The conventional coin-operated amusement device is intended to be improved. The price of the amusement device is based on the number of tokens invested in each accessory device, and the remaining number of tokens is accumulated for special deduction, and all tokens accumulated in ancillary equipment established under the high reward condition called the winnings are paid. However, the performance of the winnings in the previous token game device only stayed at the tokens of the simple payment. Here, the object of the present invention is to provide a new game price component such as a ball other than a token, and to use a new game price component to improve the control and performance of the game of the original game price component such as the token. Game equipment. [Means for Solving the Problem] -6- 200932324 In order to achieve the above object, the present invention is characterized in that the game terminal device is provided with a plurality of first game price members, and the player is used for performing a game; and the storage means stores the foregoing. a plurality of second game price members; the first guiding means moves the second game price member supplied from the start end to the end end; and the transport means transports the aforementioned end of the first guide means The second game price member is raised to the beginning end of the first guiding means; and the second guiding means is provided to be branched from the first guiding means, so as to be along the first guiding The second game price component moving by the means moves out of the first guiding means to move to the amusement terminal device; and the collecting means moves along the second guiding means to reach the aforementioned amusement terminal device (2) the storage means, the collection means, the supply means, the second amusement price component which is collected in the storage means, and supplied to the moving And means for controlling the movement of the second guide means to be determined by the first guiding means; and the control means for controlling the movement of the second guide means Controlling the movement of the second game price member along the first guiding means to the second guiding means based on the result of the game received from the amusement terminal device: the game terminal device is provided with: characteristic detection The means detects the characteristics of the second game price component that has arrived via the second guidance means, and the game processing execution means executes the game process of the game using the first game price component based on the detection result. [Effects of the Invention] According to the present invention, since the characteristics of the second game price component can be reflected in the game using the first game price component, it is possible to provide a new game price member such as a ball other than the token. And the use of the new game price component to enhance the use of tokens such as the original game price, the control of the game and the level of performance of the game device. [Embodiment] 〇 Hereinafter, an embodiment of the present invention will be described in detail while using the entire amusement apparatus of the present invention. Figure 1 is a perspective view of a game device. The amusement apparatus 1 is integrally formed of a large circular frame body 10. In the circumferential direction of the large-sized casing, there are 10 auxiliary devices in the same manner, that is, the terminal device 12 in which the player can execute the token game. As shown in Fig. 2, the frame body is placed in the casing 0 in a manner in which the upper portion of the casing is spirally attached to the lower portion of the casing, as shown in Fig. 2, respectively. The plural path is divided into loop paths 14A, 14B, 14B, lottery path 16, and then opportunity path 18, depending on the details of the path. The meaning of each path is described in detail later. For each path, the ball is scrolled as the second game price component. Reference numeral 20 is a lifting mechanism for releasing the ball at the bottom of the frame to the upper end of the frame and releasing the ball at the upper portion of the frame to the start end (upper stage) of the path. The lifting mechanism 20 is as shown in Fig. 2, which is located almost at the center of the frame, as shown in Fig. 3, and is vertically disposed from the bottom panel 22 to the top unit 24.升-8-200932324 The down mechanism is provided with a worm screw 26 that is rotated by a motor fixed to the back surface of the bottom panel 22, five pillars 28 that are equally disposed around the worm screw 26, and the pillars 28 along the screw 26 When the screw 26 is viewed from the plane direction by the five pillars, the area of the screw is divided into five divisions, and is distinguished from other divisions adjacent to each division, and the ball can be accommodated in each division. . In response to the rotation of the screw, the ball system located in each zone moves from the lower end of the screw to the upper end while remaining in the zone. Around the lower end of the screw 15, there are provided guide portions which are the aforementioned portions of the facing screw and which are coupled to the lower end (end end) of each path. That is, the guide portion 140A located at the lower end of the circulation path 14A is directed to the partition A in the screw via the induction guide portion 144A. The guide portion 140B located at the lower end of the circulation path 14B is directed to the partition B in the screw via the induction guide portion 144B. The guide portion 140C located at the lower end of the circulation path 14C is directed to the partition C in the screw via the attracting guide portion 144C. The lottery path 16 collects the balls flowing through the circulation paths 14A, 14B, and 14C for supply to an accessory device in which a special high prize condition called a lottery is established. Reference numeral 16A is a guide for supplying the ball to the color gold path, and the balls concentrated from the respective circulation paths are all supplied to the same division of the screw via the guide portion 16A.
在位於各循環路徑下端的導引部140A、140B、140C 下方,存在有將球收集於導引部16A的集合路徑16C。於 臨向各循環路徑之導引部的循環路徑16C之部份,係存在 200932324 有可開閉的閘門,通常關閉而循環路徑的球不會轉移至彩 金路徑,但是,在彩金成立時,該閘門會被開放,位於各 循環路徑之球被集中於具有環狀的集合路徑16C,接下 來,通過導引部16A後,上升於升降機構的相同區劃 內,進而,被供給至彩金路徑的開始端16B。各循環路徑 係相互常時連結,而球依序通過複數循環路徑,但是,循 環路徑與彩金路徑通常並不連結,而是在如彩金之特別狀 © 態發生時連結。 再者,連結於機會路徑18之導引部係因位於螺桿26 背面,故省略圖示。機會路徑18係將球追加至循環路徑 者。機會路徑係獨立於彩金路徑,故機會路徑的導引部係 至彩金路徑的連結手段,並無連結集合路徑。機會路徑與 循環路徑的邊際係位於與升降機構分別之位置,於此邊 際,具備使機會路徑連接循環路徑,或將機會路徑切換成 框體下部之球貯留手段的路徑切換手段。對此於後說明。 〇 於球貯留手段與升降機構的邊際,係球供給機器,框 體的控制部決定將球供給至循環路徑或供給至機會路徑, 使球供給機器得朝向切換至循環路徑的導引部或機會路徑 的導引部。切換至何方係根據附屬設備之遊藝狀況而改 變。例如,彩金發生後係使循環路徑的球全部移動至彩金 路徑’故主控制部係指示球供給機器,將必要數量份的 球’供給至循環路徑。 又’在增加循環路徑內的球之條件成立時,主控制部 係指示球供給機器,將球供給至機會路徑。再者,主控制 -10- 200932324 部不將球追加至循環路徑而將球追加至機會路徑,係依據 於機會路徑與循環路徑的連結部,存在有將球從機會路徑 交付至循環路徑的成功或失敗的表演。所以,在遊藝進行 之過程,因爲循環於循環路徑之球漸漸增加,可使遊藝者 持有在彩金成立時可獲得更多之球的期待感。 圖4係揭示遊藝裝置的控制機構者。作爲控制機構係 有存在於各附屬設備的附靥設備控制部、及進行遊藝裝置 Q 整體之控制的主控制部。附屬設備控制部係主要進行附屬 設備固有的處理,主控制部係主要進行共通於全附屬設備 的處理。 對各控制部係供給來自各種感測器的訊號,各控制部 係依據來自感測器的檢測訊號,控制各種致動器。有何種 感測器或有何種致動器係於後適切說明。 回到圖3的說明,於頂板單元24係設置有連結各路 徑上端的導引部。該等導引部係臨向螺桿的各區劃,收領 〇 被抬升至螺桿上端的球。各路徑係往重力方向,螺旋狀下 降,故離開螺桿之各區劃的球,係經由導引部進入路徑, 藉由本身重量於路徑內下降,到達路徑下端的導引部,接 著上升於螺桿內。 符號142A係路徑A用的導引部,142B係路徑B用 的導引部,142C係路徑C用的導引部。16B係彩金路徑 用導引部,18B係機會路徑用導引部。A、B、C之3條循 環路徑係使球依序滾動,於螺桿相同區劃係臨向有不同路 徑的導引部。例如,於圖3中’在藉由螺桿26與兩根鄰 200932324 接的支柱作成之區劃3 00,係於螺桿之下端有路徑14A用 的出口導引部140A’於螺桿之上端係存在有路徑14β用 的入口導引部142B。結果,離開路徑a的球係上升於螺 桿內,進入路徑B。 接著’依據圖5,針對球如何循環於框體1〇中來說 明。球上升於中央升降機(螺桿26)的區劃26A後,進入 路徑14A ’依序通過路徑14A中的表演手段之螺旋部 〇 302、盤304、環306,經由分歧機器308,從中央升降機 下端進入區劃26B。接下來,球係上升於區劃26B,進入 路徑1 4 B。 球通過路徑14B的平衡板310、漏斗312等的表演手 段,從中央升降機下端進入區劃26C。球係伴隨螺桿的旋 轉,上升於區劃26C內,進入路徑14C。 進而,球經由路徑14C的螺旋部314,進入螺桿26 的區劃26A下端,接下來,上升於同區劃內,進入路徑 Ο 14A。如上所述,球依序循環於路徑14A、14B、14C。 圖5的符號3 80係用以使圖3中說明之循環路徑 14A、14B及14C的球,不是轉移至中央升降機20而是 轉移至彩金路徑的移動路徑切換裝置(球分類手段)。集合 路徑1 6C與各循環路徑的閘門、控制此閘門之開閉的控制 部係該當於該球分類手段。圖4的主控制部係從彩金成立 的附屬設備,接收訊號時’開放閘門,使循環路徑的球移 動至彩金路徑。 在代表之形態,主控制裝置係在循環路徑中的球全部 -12- 200932324 移動至彩金路徑爲止,開放所有循環路徑之導引部的閘 門。於循環路徑的所定處,係有檢測出球通過的感測器, 主控制部係在彩金條件成立後,在一定時間沒有來自感測 器的檢測訊號時,判斷循環路徑的球全部進入彩金路徑, 之後,關閉閘門。 又,於集合路徑之彩金用導引部16A側的末端,設 置球計數器,主控制部係取得來自球計數器的資訊,在球 © 全部通過計數器爲止之間,開放閘門,之後,關閉閘門亦 可。 應進入彩金路徑16之複數球,係進入集合路徑 16C,藉由本身重量,滾動於同集合路徑,經由導引部 16A,依序進入中央升降機的區劃16D。接下來,各球係 到達彩金路徑1 6的開始端。 進入彩金路徑的複數球,係循環路徑內的球全部轉移 至彩金路徑爲止,利用彩金路徑末端附近之擋止器318, 〇 停止在彩金路徑上。擋止器係通常突出於彩金路徑上,以 遮擋彩金路徑之方式被彈撥,主控制部係在球全部到達彩 金路徑後,解除該擋止器所致之彩金路徑的封閉。無22 係揭示以彩金路徑末端爲開頭,複數球停止而整列爲一列 之狀態。彩金路徑的末端,係連通符號19所示之硏鉢型 的彩金用球迴轉盤(對應圖5的32 0)。該彩金用球迴轉盤 係從彩金路徑收集複數球,用以將其用以給彩金條件產生 的附屬設備者。 主控制裝置開放檔止器時,停止在彩金路徑上的球 -13- 200932324 17被依序供給至彩金球迴轉盤(圖23),如圖24及圖25 所示,於彩金球迴轉盤下方係存在有用以將從彩金球迴轉 盤下端落下之球依序供給至彩金成立的附屬設備的機構 19A。於供給機構19A的下端係具備具有往下方之開口的 球排出導管19B。供給機構19A係可藉由電動機旋轉。主 控制部係驅動電動機,於彩金成立之附屬設備所對應的球 誘導路徑19C,整合排出導管19B。主控制部係結束該整 © 合,並且檢測出循環路徑的球全部停止在彩金路徑上且成 立之雙方條件備齊之後,釋放彩金路徑上的擋止器。 球誘導路徑19C係對於所有附屬設備,分別存在,朝 附屬設備的遊藝場域,垂直設置。圖26係供給機構19A 的槪念圖,據此說明供給機構。前述之中央升降機20係 存在於框體中心,故球迴轉盤19及外形是筒狀的供給機 構1 9 A ’亦於中心形成使中央升降機通過的開口。於供給 機構內側係一邊彎曲成圓形,一邊下降之球移動路徑1 9 1 © 與錐形面190。從球迴轉盤內側下端的開口部192落下之 球1 7 ’係從供給機構的內側開口部1 9 3落下至其內部, 接抵錐形面190而落下至移動路徑191後,沿著移動路徑 191下降。移動路徑191係因爲形成球1個份的寬度,故 供給機構19A可將球1個個供給至附屬設備。 圖6係附屬設備的立體圖。於附屬設備係具備附屬設 備控制部用以判定彩金之成立的球迴轉盤400,及進行推 幣遊藝的各種機構。 如曰本特開2005 — 27952號公報,符號406係使推幣 -14- 200932324 遊藝的區域往箭頭方向往返移動的推擠部。又,雖然未圖 示,但是,於推擠部406上面係堆積有多數代幣,在推擠 部406進行往返移動之過程,堆積於推擠部上的代幣,係 與固定配置附屬設備內之所定位置的規制板4 1 0接觸。此 規制板410係與推擠部406 —體地往返移動之該推擠部 4 06上的代幣移動方向中,用以規制與平坦面412存在之 方向相反方向之動態的構件。 © 然後,堆積於推擠部406上的代幣,係因爲無法越過 規制板410來與推擠部406 —體移動,規制板410附近之 代幣藉由推擠部406之往返運動而接觸規制板410,藉由 規制板410推頂,故該推頂之力傳導至接觸規制板410之 其他代幣,代幣會從推擠部406上面落下至平坦面412, 落下至平坦面412上的代幣中,位於推擠部前端部的代幣 係藉由推擠部406的往返移動,被推擠部前端部推頂。 推擠部係藉由電動機的旋轉而傳達機械臂會往返移 © 動,藉由該傳達機械臂的往返移動,與傳達機械臂連結的 往返移動板係可往返移動於代幣場域上。又,此並不限定 於電動機,只要可藉由致動器或電磁閥等的驅動源,往返 移動於代幣場域上即可。 藉由前述推擠部的往返移動,在平坦面412上的代幣 積存量變大時,則藉由推擠部前端部來推頂,利用其推力 依序傳導至其他代幣,被傳導之其他代幣會從平坦面412 兩旁落下至附屬設備內部,或從平坦面412的前端側落下 傾斜面415’其中,從平坦面412兩旁落下至附屬設備內 -15- 200932324 部的代幣,係不是在推幣遊藝中贏得之代幣,故不會被支 付至代幣槽404。另一方面,從平坦面412前端側落下至 代幣落下端的代幣,係在推幣遊藝中贏得的代幣,故藉由 附屬設備內的落下代幣回收機構回收之後,被支付至代幣 槽 404。 進而,遊藝者將獲得之代幣,從代幣槽404放入代幣 投入部405,使代幣放出裝置的旋轉構件40 2旋轉。使前 © 述旋轉構件402旋轉時,代幣會從代幣投入部依序被供給 至代幣放出裝置內,藉由代幣放出裝置,代幣從代幣放出 噴頭被放出至遊藝場域。被放出之代幣係放出至推擠部 406上面或平坦面412。 進而,附屬設備係具有藉由遊藝者操作,使放出噴頭 414的朝向,朝特定方向之噴頭方向調整手段,遊藝者係 可將代幣放出至目標位置。再者,使放出噴頭414的朝 向’藉由電動機等的驅動手段旋動,亦可使代幣放出方向 © 以一定間隔變化。藉此,可使附屬設備具有與放出代幣至 目標位置之方法不同的遊藝性。 於傾斜面415係設置有顯示抽選結果的顯示部(例 如:LCD[Liquid Crystal Display])。在代幣滑落傾斜面 4 1 5的過程中,亦設置有在內部具有身爲檢測出代幣通過 之檢測手段的感測器之代幣卡盤,在代幣通過前述代幣卡 盤時’前述感測器會檢測該通過資訊,將前述通過資訊發 送至附屬設備控制部,附屬設備控制部係依據該通過資 訊’進行前述抽選處理,使對應抽選過程及抽選結果的畫 -16- 200932324 像,顯示於前述顯示部416。再者,顯示部416係不限定 於液晶畫面(LCD),以 CRT[Cathode Ray Tube]、複數 LED(發光—極體[Light Emitting Diode])構成之數位顯示 機亦可。 然後’抽選處理的抽選結果是所定獎項(例如「中 選」獎項等)時’係因應獎項種類,未圖示於附屬設備 內,從具備代幣供給斗的前述代幣支付機構408,支付代 © 幣至推擠部406上面或平坦面412上等的遊藝場域。再 者’前述通過資訊,係記憶於附屬設備控制部所具備之記 憶手段(記憶體等)。記憶手段,係可記憶通過卡盤之代幣 的枚數份,亦即,複數代幣通過資訊。所以,附屬設備控 制部係依據其記憶之資訊,可連續進行前述抽選處理。 對附屬設備的遊藝場域,係經由球迴轉盤400或經由 彩金分離機器3 20(圖26的19A),供給球。附屬設備控制 部係接受來自可識別球的顏色之感測器的訊號,識別球的 ® 顏色,從記憶手段的控制表(記憶資訊)決定相對於球的顏 色之代幣枚數,使代幣支付機構408支付對應枚數的代幣 至場域內。例如,貯藏於框體內之球的各色中,越是稀有 色則對應越多數量的代幣亦可。再者,進而,球不僅經由 球迴轉盤400或彩金分離機器320供給,利用別途設置於 附屬設備內之球支付機構部等來支付亦可。此於後詳述。 藉由與附屬設備獲得之球的對應所得之代幣,係從代 幣支付機構408或圖1的代幣膠囊430,供給至遊藝場 域。在獲得代幣數量較多時,附屬設備係從膠囊43〇接受 200932324 代幣的供給。複數膠囊係環狀地整列於附屬設備的遊藝場 域附近。於1個膠囊係例如收容有100枚代幣,獲得代幣 數超過1 〇〇枚時,則從膠囊以1 〇〇枚單位將代幣供給至附 屬設備。端數係從前述代幣支付機構408供給。再者,以 即使獲得代幣數超過100枚之狀況,也從代幣支付機構 408供給之方式來構成亦可。 如前述般,對附屬設備的遊藝場域係供給代幣與球。 © 在此,於各附屬設備係設置有代幣與球的分離裝置。圖 10係放大附屬設備的遊藝場域之傾斜面415的立體圖。 分離裝置係位於傾斜面的遊藝者側端部,分離落下傾斜面 之代幣524與球522, 該分離裝置係如圖11所示,具有電動機530、安裝 於電動機530的驅動帶輪531、經由皮帶538,連接驅動 帶輪531的從動帶輪536,於從動帶輪536係結合朝附屬 設備之寬度方向延伸之軸53 4、與以該軸爲略中心,形成 Ο 爲螺旋狀的螺旋體532。 如圖10所示,以螺旋體532擋止落下傾斜面415的 球522,藉由電動機530的旋轉,螺旋體532會旋轉,配 合螺旋體5 3 2的旋轉,球522沿著螺旋體5 3 2的旋轉方 向,一邊滑接傾斜面415,一邊往箭頭528的方向移動。 進而,於螺旋體532前端係有球回收孔540,從此如後述 般,球通過附屬設備內部後,落下至框體內部的球貯留 部。 相對於此,因爲螺旋體最下端與傾斜面之間,設置有 -18- 200932324 代幣足以通過的間隙’代幣係不抵接螺旋體532,而往箭 頭526的方向通過螺旋體532下部,落下至框體內,被前 述落下代幣回收機構回收。 再者,落下至傾斜面側的代幣,係即使被挾持於球 522與傾斜面415之間’暫時無法通過口螺旋體,因爲因 應螺旋體532的旋轉’球會往箭頭528的方向移動,球的 位置產生變化而解除代幣被球挾持。再者,分離裝置係不 © 限定於上述構造,將球搬送至所定位置,且在搬送球時, 不挾持球’可使代幣落下至代幣回收側等的話,作爲何種 構造皆可。所以’例如亦可以皮帶輸送機等來構成。 再者,上述分離裝置係置放於從遊藝者可辨識之位置 爲佳。因爲藉此,與對應後述之球的顏色的代幣支付枚數 的關係,可使遊藝者持有期待感。 於球回收孔540開口端附近,係設置有檢測出落下之 球的通過的通過感測器,落下至球回收孔540的球,係利 ® 用配置於未圖示之附屬設備內部,具有檢測出球的顏色之 感測器的顏色檢測裝置(顏色檢測手段),檢測出顏色之 後,落下至框體內部的球貯留部。通過感測器的資訊及顏 色檢測手段的資訊係被送至附屬設備控制部。再者,於球 回收孔的開口端附近,設置直接檢測出球的顏色之顏色檢 測裝置,檢測出球的顏色亦可。 進而,依據在檢測出球的顏色之後,檢測球是否弄髒 的髒球檢測手段,與前述檢測手段的資訊,使球落下至框 體內部之球貯留部側,或使被判斷有髒污之球,落下至附 -19- 200932324 屬設備內部,又或者落下至與前述框體內之球貯留部不同 處所具備的髒球回收機構亦可。 進而,基於檢測出球通過球回收孔540的通過感測器 之資訊,控制前述分離裝置的驅動源(電動機),附屬設備 控制部係調整前述分離裝置(螺旋體532)的旋轉速度亦 可〇 附屬設備控制部係讀取來自前述顏色檢測裝置之檢測 訊號等的檢測資訊,依據基於該檢測資訊之球的顏色資 訊,進行決定代幣之支付枚數的運算,並將運算結果發送 至主控制部。再者,於本實施形態中,爲了檢測出球的顏 色,使用具有感測器的顏色檢測裝置,但是,只要是可檢 測出球的顏色者即可,檢測手段係不限定於感測器。 再者,檢測出前述球的顏色之顏色檢測感測器,係於 投光元件使用3色(紅色、藍色、綠色)的LED光源,對檢 測物體照射聚光,進行來自被檢測構件之反射所致之受光 ❹ 的顏色成分(色相、彩度、亮度)之分析,依據該分析的結 果,特定顏色者亦可,但是,如記載於日本特開2006 -068161號公報般,於球內部內藏有圓板狀的1C標籤,於 該1C標籤記錄本身的球之顏色資訊,將其資訊,利用電 磁感應現象並藉由無線進行非接觸通訊,檢測出顏色亦 可。 如圖12所示,設置從傾斜面4 1 5對於球回收孔 540’伴隨朝向箭頭528方向,越增加高度的略矩形狀之 傾斜面5 3 7,球係遵從螺旋體53 2的旋轉,越過該傾斜 -20- 200932324 面,落下至球回收孔540。假設即使於球回收孔540附近 存在有代幣,因爲代幣無法越過該傾斜面’故可防止代幣 混入球回收孔。 又,設置有於球回收孔540附近,伴隨朝向箭頭526 方向,越增加高度的略矩形狀之卡止片或突出構件’球係 遵從前述螺旋體540的旋轉,越過該卡止片(突出部),落 下至球回收孔540亦可。即使於球回收孔附近存在有代 Q 幣,因爲代幣無法越過該卡止片(突出部),故可從球確實 分離代幣,達成與設置上述略矩形狀的傾斜面之狀況相同 效果。 因爲螺旋體5 32係於1個凹部保持1顆球,故如圖 12所示,在螺旋體532旋轉之間,可連續地且以被螺旋 體532保持之順序來回收,位於附屬設備之遊藝場域的複 數球。 附屬設備的控制系係如圖27所示,具備附屬設備控 〇 芾tl 部 29A 、 ROM(Read Only Memory)29B 、 RAM(RandomBelow the guides 140A, 140B, 140C located at the lower end of each circulation path, there is a collection path 16C for collecting the balls on the guide portion 16A. In the part of the circulation path 16C of the guiding portion of each circulation path, there is a gate that can be opened and closed in 200932324, and the ball of the circulation path is usually closed and the ball of the circulation path is not transferred to the lottery path, but when the lottery is established, The gates are opened, and the balls located in the respective circulation paths are concentrated on the annular collecting path 16C, and then, after passing through the guiding portion 16A, they are raised in the same division of the lifting mechanism, and further, are supplied to the golden path. The beginning of the 16B. Each of the loop paths is connected to each other at a constant time, and the balls sequentially pass through the complex loop path. However, the loop path and the lottery path are usually not connected, but are connected in the case where the special state of the color gold occurs. Further, since the guide portion connected to the chance path 18 is located on the back surface of the screw 26, illustration is omitted. The opportunity path 18 is to add the ball to the loop path. The opportunity path is independent of the lottery path, so the guide of the opportunity path is a means of connecting to the lottery path, and there is no link set path. The marginal path of the opportunity path and the circulation path is located at a position separate from the elevating mechanism, and a path switching means for connecting the chance path to the circulation path or switching the opportunity path to the ball storage means at the lower portion of the frame is provided. This will be explained later. The ball is supplied to the machine at the margin of the ball storage means and the elevating mechanism, and the control unit of the casing determines to supply the ball to the circulation path or to the opportunity path, so that the ball supply machine is directed toward the guidance or opportunity to switch to the circulation path. The guide of the path. The switch to the location changes depending on the game status of the attached device. For example, after the occurrence of the winnings, all the balls of the circulation path are moved to the winnings path. Therefore, the main control unit instructs the ball supply machine to supply the necessary number of balls to the circulation path. Further, when the condition for increasing the ball in the circulation path is established, the main control unit instructs the ball supply device to supply the ball to the opportunity path. Furthermore, the main control -10-200932324 does not add the ball to the loop path and adds the ball to the chance path. Depending on the link between the opportunity path and the loop path, there is a success in delivering the ball from the opportunity path to the loop path. Or a failed performance. Therefore, as the game progresses, the ball that circulates in the loop path gradually increases, allowing the entertainer to hold a sense of expectation that more balls can be obtained when the prize money is established. Figure 4 is a diagram showing the control mechanism of the amusement device. The control unit includes an attachment device control unit existing in each accessory device and a main control unit that controls the entire game device Q. The accessory device control unit mainly performs processing unique to the attached device, and the main control unit mainly performs processing common to all attached devices. Signals from various sensors are supplied to the respective control units, and each control unit controls various actuators based on the detection signals from the sensors. What kind of sensor or actuator is available after the instructions. Referring back to the description of Fig. 3, the top plate unit 24 is provided with a guide portion that connects the upper ends of the respective paths. The guides are directed to the respective sections of the screw to receive the ball that is raised to the upper end of the screw. Each path is spirally descending in the direction of gravity, so the ball leaving each division of the screw enters the path via the guiding portion, descends from the inside by the weight, reaches the guiding portion at the lower end of the path, and then rises into the screw. . Reference numeral 142A is a guide portion for the path A, 142B is a guide portion for the path B, and 142C is a guide portion for the path C. The 16B system is a guide channel, and the 18B is a guide for the opportunity path. The three loop paths of A, B, and C are such that the balls are sequentially rolled, and the same zone of the screw is directed to the guides having different paths. For example, in Fig. 3, 'the partition formed by the strut 26 and the two adjacent pillars 200932324 is 300, and the outlet guide 140A' for the path 14A at the lower end of the screw has a path at the upper end of the screw. Entrance guide 142B for 14β. As a result, the ball system leaving the path a rises inside the screw and enters the path B. Next, according to Fig. 5, it is explained how the ball circulates in the frame 1〇. After the ball rises above the zone 26A of the central elevator (screw 26), the entry path 14A' sequentially passes through the spiral portion 302, the disk 304, and the ring 306 of the performance means in the path 14A, and enters the zone from the lower end of the central elevator via the branching machine 308. 26B. Next, the ball system rises to zone 26B and enters path 1 4 B. The ball passes through the performance section of the balance plate 310, the funnel 312, etc. of the path 14B, and enters the zone 26C from the lower end of the center elevator. The ball system, with the rotation of the screw, rises within the zone 26C and enters the path 14C. Further, the ball enters the lower end of the partition 26A of the screw 26 via the spiral portion 314 of the path 14C, and then rises into the same region and enters the path Ο 14A. As described above, the balls are sequentially cycled through the paths 14A, 14B, 14C. Reference numeral 380 of Fig. 5 is a moving path switching device (ball sorting means) for transferring the balls of the circulation paths 14A, 14B, and 14C described in Fig. 3 to the centering machine 20 instead of the central elevator. The collection path 1 6C and the gate of each circulation path and the control unit for controlling the opening and closing of the gate are the ball sorting means. The main control unit of Fig. 4 is an open gate that receives the signal from the accessory device established by the winnings, and moves the ball of the circulation path to the winning path. In the representative form, the main control device moves the ball in the circulation path all -12-200932324 to the color gold path, and opens the gate of the guide portion of all the circulation paths. At the predetermined position of the circulation path, there is a sensor that detects the passage of the ball. The main control unit determines that the ball of the circulation path enters the color when there is no detection signal from the sensor after a certain period of time. The golden path, after which the gate is closed. Further, a ball counter is provided at the end of the collecting guide portion 16A side of the collecting path, and the main control unit acquires information from the ball counter, and the shutter is opened between when the ball © passes all the counters, and then the shutter is closed. can. The plurality of balls that should enter the lottery path 16 enter the assembly path 16C, and by their own weight, roll through the same set path, and sequentially enter the division 16D of the center elevator via the guide portion 16A. Next, each ball system reaches the beginning of the lottery path 16. The plurality of balls entering the lottery path are all transferred to the winning gold path until the ball in the circulation path is used, and the stop 318 near the end of the winning gold path is used to stop on the winning path. The stopper is usually protruded from the golden thread path, and is plucked in such a manner as to block the golden thread path. The main control unit releases the closing of the golden path caused by the stopper after the ball reaches the golden path. No. 22 reveals that the end of the lottery path starts with the plurality of balls stopped and the column is in a column. The end of the color gold path is a ball-type revolving disk of the enamel type shown in the symbol 19 (corresponding to 32 0 of Fig. 5). The color gold ball is used to collect a plurality of balls from the golden thread path for use in the accessory equipment generated by the winnings. When the main control device opens the stopper, the ball 13-200932324 17 stopped on the lottery path is sequentially supplied to the color golden ball revolving disc (Fig. 23), as shown in Fig. 24 and Fig. 25, in the golden ball Below the turntable, there is a mechanism 19A for supplying the ball dropped from the lower end of the turntable to the accessory device in which the bonus is established. At the lower end of the supply mechanism 19A, a ball discharge duct 19B having an opening to the lower side is provided. The supply mechanism 19A is rotatable by a motor. The main control unit drives the motor, and the discharge guide 19B is integrated in the ball induction path 19C corresponding to the accessory device in which the color is established. The main control unit ends the integration and detects that all the balls of the circulation path stop on the lottery path and the two conditions of the establishment are ready, and then the stopper on the golden path is released. The ball inducing path 19C exists for all attached devices, and is vertically disposed toward the amusement field of the attached device. Fig. 26 is a view of the supply mechanism 19A, and the supply mechanism will be described based on this. Since the center elevator 20 is present at the center of the casing, the ball revolving disk 19 and the cylindrical supply mechanism 1 9 A ' also form an opening through which the center elevator passes. The ball is moved to a circular shape on the inner side of the supply mechanism, and the ball moving path 1 9 1 © and the tapered surface 190 are lowered. The ball 1 7 ' dropped from the opening 192 at the lower end of the inner side of the ball revolving disk falls from the inner opening portion 193 of the supply mechanism to the inside thereof, and falls to the tapered surface 190 and falls to the moving path 191, along the moving path. 191 fell. Since the movement path 191 is formed to have a width of one ball, the supply mechanism 19A can supply the balls one by one to the accessory device. Figure 6 is a perspective view of an accessory device. The accessory device is provided with a ball rotating disk 400 for determining the establishment of the winnings by the accessory device control unit, and various mechanisms for performing the coin playing game. For example, in Japanese Patent Laid-Open Publication No. 2005-27952, the symbol 406 is a pushing portion that moves the area of the push coin -14-200932324 to the direction of the arrow. Further, although not shown, a plurality of tokens are stacked on the pushing portion 406, and the tokens are stacked in the pushing portion 406, and the tokens deposited on the pushing portion are fixed to the attached device. The predetermined position of the regulatory plate 4 10 is in contact. The gauge plate 410 is a member for regulating the dynamics in the direction opposite to the direction in which the flat surface 412 exists in the direction in which the push portion of the push portion 460 is reciprocated integrally with the pushing portion 406. © Then, the token accumulated on the pushing portion 406 is moved by the pushing portion 406 because it cannot pass over the regulating plate 410, and the token near the regulating plate 410 is contacted by the reciprocating motion of the pushing portion 406. The plate 410 is pushed up by the regulating plate 410, so that the pushing force is transmitted to other tokens contacting the regulating plate 410, and the token will fall from the pushing portion 406 to the flat surface 412 and fall onto the flat surface 412. Among the tokens, the token located at the front end portion of the pushing portion is pushed by the front end portion of the pushing portion by the reciprocating movement of the pushing portion 406. The pushing portion transmits the mechanical arm to reciprocate by the rotation of the motor, and the reciprocating movement of the communication arm is reciprocated to the token field by the reciprocating movement of the communication arm. Further, this is not limited to the motor, and may be moved back and forth to the token field by a drive source such as an actuator or a solenoid valve. When the amount of token accumulation on the flat surface 412 is increased by the reciprocating movement of the pushing portion, the tip end portion of the pushing portion is pushed up, and the thrust is sequentially transmitted to other tokens, and the other is transmitted. The token will fall from both sides of the flat surface 412 to the inside of the accessory device, or fall from the front end side of the flat surface 412 to the inclined surface 415', from which the flat surface 412 is dropped to the token of the accessory device -15-200932324, which is not The token won in the push coin game, so it will not be paid to the token slot 404. On the other hand, the token that falls from the front end side of the flat surface 412 to the drop end of the token is the token that is won in the push coin game, and is then paid to the token after being recovered by the falling token recycling mechanism in the accessory device. Slot 404. Further, the token obtained by the player is put into the token input portion 405 from the token slot 404, and the rotating member 40 2 of the token dispensing device is rotated. When the front © rotation member 402 is rotated, the token is sequentially supplied from the token input unit to the token dispensing device, and the token is discharged from the token to the casino field by the token dispensing device. The discharged tokens are discharged onto the push portion 406 or the flat surface 412. Further, the accessory device has a head direction adjustment means for causing the direction of the discharge head 414 by the player to move in a specific direction, and the player can release the token to the target position. Further, the direction of the discharge head 414 can be rotated by a driving means such as a motor, and the direction in which the token is discharged can be changed at a constant interval. Thereby, the accessory device can be made to have different amusement properties than the method of releasing the token to the target position. A display portion (for example, LCD [Liquid Crystal Display]) for displaying a drawing result is provided on the inclined surface 415. In the process of the token sliding down the inclined surface 4 1 5 , a token chuck having a sensor inside the detecting means for detecting the passage of the token is also provided, when the token passes through the aforementioned token chuck. The sensor may detect the passing information, and send the foregoing information to the accessory device control unit, and the accessory device control unit performs the foregoing drawing process according to the passing information to make the corresponding drawing process and the drawing result of the drawing - 200932324 image And displayed on the display unit 416 described above. Further, the display unit 416 is not limited to a liquid crystal display (LCD), and may be a digital display device composed of a CRT [Cathode Ray Tube] or a complex LED (Light Emitting Diode). Then, when the result of the lottery is the designated prize (for example, the "elected" award, etc.), it is based on the type of award, not shown in the attached equipment, and is paid from the aforementioned token payment institution 408 having the token supply bucket. © Coin to the field of the game field above the push unit 406 or on the flat surface 412. Further, the aforementioned information is stored in a memory means (memory or the like) provided in the accessory device control unit. The memory means is a number of tokens that can be memorized through the chuck, that is, multiple tokens pass the information. Therefore, the accessory device control unit can continuously perform the aforementioned lottery process based on the information stored therein. The game field of the accessory device is supplied to the ball via the ball revolving disk 400 or via the color separation machine 3 20 (19A of Fig. 26). The accessory device control unit receives the signal from the sensor that can recognize the color of the ball, recognizes the color of the ball, and determines the number of tokens relative to the color of the ball from the control table (memory information) of the memory means to make the token. The payment institution 408 pays the corresponding number of tokens to the field. For example, among the colors of the balls stored in the casing, the more rare the color, the more the number of tokens. Further, the ball is not only supplied via the ball revolving disk 400 or the color separation machine 320, but may be paid by a ball payment mechanism unit or the like provided in the accessory device. This will be detailed later. The token obtained by the correspondence with the ball obtained by the accessory device is supplied from the token payment institution 408 or the token capsule 430 of Fig. 1 to the casino field. When the number of tokens is large, the accessory device accepts the supply of 200932324 tokens from the capsule 43〇. The plurality of capsules are arranged in a ring shape in the vicinity of the amusement field of the attached equipment. For example, when one capsule is contained in 100 tokens and the number of tokens is more than one, the token is supplied to the attached device from the capsule in units of one unit. The number of terminals is supplied from the aforementioned token payment institution 408. Further, it may be configured to be supplied from the token payment institution 408 even if the number of tokens is more than 100. As described above, the token field is supplied to the casino field of the accessory device. © Here, a separate device for tokens and balls is installed in each accessory device. Figure 10 is a perspective view of the inclined surface 415 of the amusement field of the accessory device. The separating device is located at the side of the player side of the inclined surface, and separates the token 524 and the ball 522 of the inclined surface. The separating device has a motor 530 and a driving pulley 531 attached to the motor 530, as shown in FIG. The belt 538 is connected to the driven pulley 536 of the drive pulley 531, and the driven pulley 536 is coupled to the shaft 53 4 extending in the width direction of the attachment device, and the spiral shaft is formed to be slightly centered on the shaft. 532. As shown in FIG. 10, the ball 522 of the inclined surface 415 is stopped by the spiral body 532. The rotation of the motor 530 causes the spiral body 532 to rotate, and the rotation of the spiral body 523 is matched with the rotation of the ball 522 along the spiral body 5 3 2 . While sliding the inclined surface 415, it moves in the direction of the arrow 528. Further, the ball collecting hole 540 is attached to the front end of the spiral body 532. As will be described later, the ball passes through the inside of the accessory device and then falls to the ball storage portion inside the casing. In contrast, since the gap between the lowermost end of the spiral body and the inclined surface is provided with a gap of -18-200932324 token sufficient to pass, the token does not abut the spiral 532, and passes through the lower portion of the spiral 532 in the direction of the arrow 526, and falls to the frame. In the body, it is recovered by the aforementioned return token recycling agency. Further, the token dropped to the inclined surface side is held between the ball 522 and the inclined surface 415, and it is temporarily unable to pass through the mouth spiral, because the ball moves in the direction of the arrow 528 in response to the rotation of the spiral 532, the ball The position changes and the token is released by the ball. In addition, the separation device is not limited to the above-described configuration, and the ball can be transported to a predetermined position, and when the ball is transported, the ball can be dropped to the token collection side or the like, and any structure can be used. Therefore, for example, it may be constituted by a belt conveyor or the like. Furthermore, it is preferred that the separation device be placed at a position recognizable by the player. Because of this, the relationship between the number of tokens and the number of tokens corresponding to the color of the ball described later can be used to give the player a sense of expectation. In the vicinity of the open end of the ball recovery hole 540, a passing sensor that detects the passage of the falling ball is provided, and the ball that has fallen to the ball collecting hole 540 is disposed inside the accessory device not shown, and has a detection. The color detecting means (color detecting means) of the sensor for the color of the ball is dropped to the ball storage portion inside the casing after the color is detected. The information of the sensor and the information of the color detection means are sent to the accessory device control unit. Further, in the vicinity of the open end of the ball collecting hole, a color detecting device that directly detects the color of the ball is provided, and the color of the ball can be detected. Further, the dirty ball detecting means for detecting whether the ball is dirty after detecting the color of the ball, and the information of the detecting means, causes the ball to fall to the side of the ball storage portion inside the casing, or to be judged to be dirty. The ball is dropped to the inside of the device -19-200932324, or it may fall to the dirty ball collecting mechanism provided at a position different from the ball storage portion in the frame. Further, based on the information of the passing sensor that detects the passage of the ball through the ball collecting hole 540, the driving source (motor) of the separating device is controlled, and the accessory device control unit adjusts the rotational speed of the separating device (spiral 532). The device control unit reads the detection information of the detection signal from the color detecting device, calculates the number of payment of the token based on the color information of the ball based on the detection information, and transmits the calculation result to the main control unit. . Further, in the present embodiment, in order to detect the color of the ball, a color detecting device having a sensor is used. However, the detecting means is not limited to the sensor as long as it can detect the color of the ball. Further, the color detecting sensor that detects the color of the ball is an LED light source that uses three colors (red, blue, and green) in the light projecting element, and illuminates the detected object to perform reflection from the detected member. The analysis of the color component (hue, chroma, and brightness) caused by the light can be performed in accordance with the result of the analysis. However, as described in JP-A-2006-068161, it is inside the ball. The 1C label with a circular plate shape is recorded, and the color information of the ball of the 1C label is recorded, and the information is detected by using the electromagnetic induction phenomenon and wirelessly performing non-contact communication. As shown in FIG. 12, a slightly rectangular inclined surface 533 from the inclined surface 4 1 5 with respect to the direction of the arrow 528 with respect to the direction of the arrow 528 is provided, and the ball follows the rotation of the spiral 53 2 and passes over the Tilt -20- 200932324 Face, drop to the ball recovery hole 540. It is assumed that even if there is a token near the ball recovery hole 540, since the token cannot cross the inclined surface, it is possible to prevent the token from being mixed into the ball recovery hole. Further, in the vicinity of the ball collecting hole 540, the slightly rectangular locking piece or the protruding member 'ball that increases in height in the direction of the arrow 526 passes over the locking piece (protruding portion) in accordance with the rotation of the spiral body 540. It is also possible to drop to the ball recovery hole 540. Even if there is a substitute coin in the vicinity of the ball collecting hole, since the token cannot pass over the locking piece (protruding portion), the token can be surely separated from the ball, and the same effect as the case where the above-described slightly rectangular inclined surface is provided can be achieved. Since the spiral body 5 32 holds one ball in one concave portion, as shown in FIG. 12, between the rotations of the spiral body 532, it can be continuously and in the order of being held by the spiral body 532, and is located in the amusement field of the accessory device. Plural ball. The control system of the attached device is shown in Figure 27, and it has an attached device control 芾 part 29A, ROM (Read Only Memory) 29B, RAM (Random)
Access Memory)29C、感測器驅動部29D、代幣供給斗驅 動部29E、分離電動機驅動部29F,該等係經由資料匯流 排29G連接。 如圖2 8所示,附屬設備控制部係具備主控制部 3 0 A、代幣支付控制部3 0B、顏色檢測識別部3 0C、分離 電動機旋轉控制部30D及顏色比較判斷部30E。再者,構 成該等附屬設備控制部的各部,係作爲硬體構造亦可,作 爲軟體構造亦可。又,附屬設備控制部與主控制部皆經由 -21 - 200932324 資料匯流排連接亦可。 主控制部係依據記憶於ROM之所定控制程式,進行 各部的控制。作爲主要之控制,係有於圖6中所說明之讓 設置於推擠部內部的致動器等之驅動手段,往記載之箭頭 方向,使前述推擠部往返移動。 代幣支付控制部係依據記憶於ROM之所定程式及後 述之運算結果,使代幣支付機構部進行前述所定代幣支 © 付。顏色檢測識別部係因應顏色檢測感測器所致之檢測結 果,辨識被前述回收區域回收之球的顏色。再者,驅動前 述顏色前述亦由主控制部進行。 分離電動機旋轉控制部係通常以一定方向•一定速度 使分離裝置旋轉之方式來控制電動機等的驅動手段,但 是,在球進入前述回收區域,利用顏色感測器檢測出時 等,則控制前述分離裝置的旋轉速度。藉此,確實進行球 的顏色之檢測,故可確實進行後述之顏色比較判斷。 Ο 顏色比較判斷部,係比較記憶於前述ROM之顏色與 代幣支付量的對應資訊,與以前述顏色檢測識別部辨識之 球的顏色,判斷對應代幣支付量的顏色與前述被檢測出之 顏色是否一致。 於前述ROM係記憶有附屬設備控制部所致之控制所 需的所定控制程式。又,於前述RAM係記憶有附屬設備 控制部所致之所定運算結果、顏色檢測識別部所致之辨識 結果、顏色比較判斷部的判斷結果等。 感測器驅動部係例如驅動前述顔色檢測感測器,將以 -22- 200932324 顏色檢測感測器檢測出之顏色資訊,傳送至附屬設備控制 部’驅動檢測前述代幣之通過的代幣通過感測器,將以該 感測器檢測出之訊號,傳送至附屬設備控制部。又,分離 電動機旋轉驅動部係驅動設置於分離裝置之電動機530。 代幣供給斗驅動部係例如驅動前述代幣支付機構部所 具備之代幣供給斗,支付代幣。 附屬設備控制部係讀取球的特定顏色之檢測資訊,基 © 於其資訊’比較預先記憶於ROM等之記憶體的顏色與對 應其顏色的代幣支付資訊,在其資訊與特定顏色一致時, 可將多於通常設定之球的顏色與代幣的支付資訊之代幣, 從前述代幣支付機構408支付至附屬設備。 亦即,如圖1 6所示之流程圖,前述顏色檢測裝置檢 測出顏色(S 1 ),附屬設備控制部係進行顏色識別(S2)。在 是特定顏色時,進行支付所定代幣枚數η之一連串處理 (S3),接下來,結束處理。 Ο 於步驟S2中不是特定顏色時,則支付少於特定顏色 時之代幣枚數m枚(S 4)。所以,例如對於”黃色”的球支 付25枚,對於”綠色”的球支付1 00枚,藉此,利用推 擠部的往返移動,使代幣落下至遊藝場域內,可獲得更多 的代幣之外,藉由進行與球的顏色對應之代幣支付,可醞 釀出與習知的推幣遊藝裝置不同之遊藝性。 附屬設備控制部係讀取球的顏色之檢測順序的資訊, 在一致於預先記憶之顏色的順序時,可從代幣支付機構支 付多數代幣(S 5)。例如,在檢測出與檢測之顏色相同顏色 -23- 200932324 時’係可使通常個別支付之代幣數量成爲兩倍。例如’在 檢測出,,黃色”時支付25枚,而連續檢測出”黃色”時 支付5 0枚,進而又檢測出”黃色”時則支付7 5枚,每於 檢測出各個球的顏色時,支付所定枚數代幣。 再者,無關於連續檢測出,在途中檢測出其他顏色 時,例如(例:黃色—黃色—綠色—黃色)時’支付黃色2 連續份的所定代幣枚數(例:25枚+ 50枚=75枚)後’支 φ 付對應綠色之所定代幣枚數(例:1 00枚)’但是,之後即 使檢測出黃色,亦不會如上述般支付” 7 5枚”,僅會支 付” 2 5枚”。藉此,相較於習知的代幣推幣遊戲機,因 爲支付至前述遊藝場域上之代幣枚數會依據前述球的顏色 而增減,故會更增加遊藝性。 藉由與附屬設備獲得之球的對應所得之代幣,係從附 屬設備的斗408或圖1的代幣膠囊430,供給至遊藝場域 內。在獲得代幣數量較多時,附屬設備係從膠囊430接受 〇 代幣的供給。複數膠囊係環狀地整列於附屬設備的遊藝場 域附近。於1個膠囊係例如收容有1 〇 〇枚代幣。在獲得代 幣數超過100枚時,則以1〇〇單位將代幣從膠囊供給至附 屬設備。端數係從斗4〇8供給。 圖7係揭示代幣膠囊之詳細構造的立體圖。複數代幣 膠囊500係於圓形盤500,並排排列成附屬設備的數份均 等間隔。主控制部係重複使盤旋轉1個附屬設備角度份 後’使其暫時停止,進而使其再旋轉。從膠囊支付代幣 後’對空的膠囊係從斗4〇8供給代幣。於斗408係有將代 -24- 200932324 幣供給至場域內之第1供給口、將代幣供給至膠囊內之第 2供給口。第2供給口係比第1供給口更位於框體內部, 而膠囊係環繞在第2供給口與推擠部406上面之間。代幣 係從膠囊朝向推擠部上面放出。 代幣膠囊係藉由固定於圓形盤之凸座504,往附屬設 備側傾斜。代幣膠囊係上下2等份成兩個半球體,在藉由 兩者構成之內部空間內,收容有規定枚數份的代幣。 〇 於上側半球體的框體中心側,係固定有用以使球體對 於凸座504之軸506,往上方旋轉的凸緣,該凸緣朝下側 半球體被推頂時,如圖8所示,上側球體會藉由旋轉軸 506往上方旋轉,上下之球體間的開口會露出,複數代幣 從下側球體落下至附屬設備的場域。下側球體的露出面 5 〇 9係形成朝附屬設備向下傾斜之形狀的平面,故代幣會 滑落該平面。 於圓形盤5 02的框體中心側,係配置有用以開放代幣 Ο 膠囊的開放機構508。此機構係配置於各附屬設備的正 面。此開放機構508係如圖9所示,在柱狀本體510之腳 部512有螺絲固定用的孔513,腳部係被固定於框體的基 座板。於本體510上端係有藉由電動機514旋轉之曲柄 516。該曲柄的電動機旋轉軸515係於另一端側,固定滾 輪 518。 電動機514旋轉而使曲柄516的滾輪518位於最下端 之狀態下,伴隨旋轉盤502的旋轉,而代幣支付膠囊500 的板片接觸滾輪之過程中,上側球體如圖8所示,往上方 -25- 200932324 抬高而開放代幣膠囊。 各附屬設備係如圖6中說明般’進行使用代幣的抽選 處理,或藉由識別球的顏色,運算代幣的獲得枚數。該代 幣的運算枚數未滿規定枚數時,代幣僅從斗408供給至附 屬設備內。另一方面’在超過規定枚數時,則將其資訊通 知主控制部。主控制部係求出最接近獲得枚數之規定枚數 的倍數,運算出需要的膠囊數。此運算結束後,則控制電 Ο 動機514,將滾輪設定於最下端位置。 主控制部係將各膠囊的位置、於膠囊是否有代幣的資 訊,依序更新記憶於RAM,主控制部係參照該記億資 訊,到收容代幣的膠囊必要數量份與前述滾輪接觸爲止, 前述滚輪維持位於下端之狀態。代幣從必要數量份的膠囊 供給至附屬設備後,使滾輪往上方移動。 主控制部係控制電動機,充分推頂代幣膠囊的凸緣而 使上側球體與下側球體之間確實被開放,並在凸緣與滾輪 ^ 接觸之間’使扭矩充分作用在滾輪。藉由單向離合器520 押頂電動機軸515,使電動機不因作用於電動機軸515的 反輸入而破損。 主控制部係控制該斗,使代幣從該附屬設備的斗,被 供給至將代幣供給至附屬設備之空的膠囊之開口 517。主 控制部係到規定枚數代幣補給至空的斗爲止,停止旋轉盤 502的旋轉。供給代幣之附屬設備的斗正在將代幣供給至 遊藝場域等’無法補給代幣時,則代幣從隔壁的附屬設備 之斗,補給至膠囊。 -26- 200932324 如上述圖5所示’於球循環路徑途中係存在有球分歧 機器308。例如,在附屬設備進行上述之吃角子老虎抽選 而所定獎項備齊時,作爲不是彩金之小獎勵,將丨個球供 給至附屬設備。亦即,球從分歧機器308排出至連結附屬 設備之球迴轉盤400的路徑。被排出之球係被供給至附屬 設備的球迴轉盤4 00,接下來,供給至附屬設備的代幣遊 藝場域。被供給至代幣遊藝場域的球,係藉由圖10所示 〇 之球分離裝置被捕捉,並送至球的顏色識別手段316。分 歧機器的詳細構造係於後說明。 於圖5中,與彩金分離機器(圖22之19所示之彩金 球迴轉盤)3 20 —起旋轉之小路徑狀的機會機器322(圖 24、25之19E的23),係設置於機會路徑18末端。此機 會機器係構成爲可載置球的弓狀。機會機器係經由機械臂 (圖25),一體固定於筒狀的旋轉機構19。主控制部係在 彩金成立時以外,使旋轉機構旋轉,機械臂配合此旋轉機 〇 構而環繞旋轉機構19的周圍。 於機會路徑18末端,受取從機會路徑落下之球的小 球迴轉盤77固定於彩金球迴轉盤19的底面。進而,於該 小球迴轉盤下端,係存在有大直徑的球承受部78,與小 球迴轉盤對向。該球承受部係連通於將球送出至球貯藏部 的下降路徑79。 機會機器係移動於小球迴轉盤77與球承受部78之 間,滑走於機會路徑而落下小球迴轉盤之球,從小球迴轉 盤落下至球承受部78爲止之間’只要時機正確,機會機 -27- 200932324 器係可在之間捕獲球。 機會機器捕獲球時,球會抵接形成於彩金球迴轉盤底 面的突起179,球係從機會機器落下,被切換成往通常路 徑的移動。突起179係存在於通常循環路徑之任一區域正 上方。藉此,增加應進入彩金路徑之球的數量,且可使複 數遊藝者看到球。 而切合圖5持續說明的話,如上述般,球以正確時機 〇 載置於機會機器322(圖25的77)時,球係從機會路徑切 換至通常循環路徑14A。而時機不正確的話,球會被貯藏 部(球槽)3 26回收。 接受主控制部的控制訊號,貯藏部的球係藉由基座升 降機328從貯藏部抬升,經由顏色檢測機器3 3 0,到達球 供給機器(球供給方向切換機構)。 主控制部係控制球供給機器332,並判定將球供給至 機會路徑18,或是供給至循環路徑14A,又或轉移至用 © 以排出髒球的路徑。球供給機器332使球轉移至機會路徑 時,係將球供給至中央升降機的區劃18D,使球上升至機 會路徑的開始端爲止。 往機會路徑之球的供給係遵從以下條件來進行。每次 各附屬設備將代幣投入至場域時,主控制部係受取來自各 附屬設備的代幣投入資訊,進行所定運算。在此運算,以 所定機率豎立特定旗標,在旗標成立時,主制部係使球 供給機器3 32的方向朝向機會路徑,將球供給至機會路 徑。 -28- 200932324 再者,彩金產生後係環繞循環路徑之球會消失,故主 控制部係使球供給機器3 3 2朝向路徑14A的導引部 14 0A,將球供給規定數量份至循環路徑。又,圖5的虛 線係如圖25所示,表示旋轉機構1 9(320)與機會機器 77(322)成爲一體。 從貯藏部326通過基座升降機328時,球係藉由基座 升降機328的顏色檢測機器3 30,檢測出其顏色。結果, 〇 主控制部可追加各種遊藝。主遊藝是競爭上述之彩金的遊 藝的話,在此之遊戲係對於該主遊藝,相當於小遊藝者, 例如,對於所有附屬設備,在檢測出先到所定個數份的球 時,使相對於球顏色的對應代幣數量成爲數倍等之遊藝。 循環路徑等之路徑係藉由連接對合各種形狀的軌道模 組來形成。圖1 3係爲了揭示軌道模組,以立體圖揭示該 軌道模組者。軌道模組係藉由導引板700、軌道導引部 702及樹脂軌道704所構成。 〇 導引板700係金屬等之硬質的帶狀板,軌道導引部 7 02及樹脂軌道704係在後述樣態,安裝於導引板。軌道 模組之球的移動路徑係藉由導引板的形狀所決定者,如圖 1 3 ’除直線狀之外,利用將板面以平面之狀態作爲圓弧 狀’或將板面往法線方向成波浪狀,移動路徑係會成爲直 線狀、圓弧狀、波狀等。 軌道導引部係複數安裝於各導引板者,任一皆爲相同 形狀。圖1 7係揭示軌道導引部、樹脂軌道及導引板的剖 面圖者,軌道導引部係呈略U字形狀,從下端部的兩側 -29- 200932324 端朝下方相互對向之鉤爪710係從基底部712突出設置於 導引板7〇〇側。 軌道導引部係利用在以基底部712與鉤爪710形成之 空間,揷通導引板,安裝於導引板。以下端部712與鉤爪 710形成之空間係大於導引板的外形一圈者,所以,軌道 導引部係可滑動於對導引板無鉤爪之方向。 針對軌道導引部上部之個別兩腕714,於前端及基 〇 端,具有略圓形剖面的凹部(爲貫通孔亦可)705係在可對 於樹脂軌道704滑動之方向,各貫穿兩處,總計貫穿4 處。 樹脂軌道係具有圓形剖面之棒狀的樹脂,沿著導引板 7〇〇之長度,利用各兩條總計4條揷通軌道導引部的凹部 710,安裝於導引板。U字狀凹部710之至少一部份的直 徑係小於軌道導引部外形者,軌道導引部與樹脂軌道係如 後述般,成爲一體移動。球係滾動於藉由樹脂軌道形成之 Ο 溝狀空間,不接觸4條樹脂軌道以外構件。再者,樹脂軌 道的素材係只要是可彈性變形成遵循導引板的形狀者,使 用適宜的樹脂即可。 安裝於導引板之複數軌道導引部中,至少1個係以螺 絲等固定在導引板。在圖13,對於1塊導引板,存在有3 個軌道導引部,中央的軌道導引部固定於導引板,但是, 其他兩個係可滑動於導引板上。如此一來,即使在因溫度 變化的影響,樹脂軌道伸縮之狀況,藉由軌道導引部與樹 脂軌道成爲一體滑動於導引板上,可防止藉由4條樹脂軌 -30- 200932324 道形成之溝狀空間變形而球滾落,及其他軌道模組等的干 涉。 如圖14所示,於兩個軌道模組的接合部係設置有接 合部用軌道導引部708。被接合之軌道模組的導引板及接 合部用軌道導引部706,係個別於基座板金,使用螺絲等 之結合構件來固定,亦可個別進行對於基座板金的裝卸。 接合部用軌道導引部係與軌道導引部相同,構成爲略U © 字狀,於兩腕的前端及基端的凹狀部,揷通樹脂軌道。 然而’與軌道導引部不同,接合部用軌道導引部與樹 脂軌道係較鬆地嵌合,又,藉由充分隔開被接合之軌道模 組的樹脂軌道之端部彼此的間隔,可使樹脂軌道的伸縮不 會影響接合部。上述之循環路徑、彩金路徑,然後,機會 路徑皆複數連結此軌道模組來構成。 圖15〜圖20係說明圖5之分歧機器308的立體圖。 分歧機器係位於循環路徑途中,設置於各附屬設備的正 〇 面。此分歧機器係將1個滾動於循環路徑14A的球,貯 留於內部,依據附屬設備之抽選遊戲的吃角子老虎盤之排 列,將球供給至球迴轉盤400。再者,此時,主控制部係 將球補充至循環路徑。 於分歧機器的兩端係由插入口軌道模組的樹脂軌道之 兩個組件所構成之連結端726分別離開而設置。分歧機器 係具備藉由電動機701旋轉之中空圓筒狀的杯部724、可 自由旋轉於從設置於杯部曲面之開口 723突出而於球的滾 動方向上游側,臨向開放部之位置(參照圖15)及與球一起 -31 - 200932324 收容於杯部之位置的弓狀之爪725。於爪的旋轉軸係設置 有將爪往從杯部突出之方向彈撥的彈性彈簧,在爪未捕獲 球時,係成爲圖1 5、1 6所示之位置。杯部的旋轉中心係 一致於圓筒的中心軸,如後述般,通常開口朝向上方。 杯部係配置成於設置在分歧機器兩端的各連結端726 之間,旋轉軸與球的進行方向正交,且成爲水平。滾動於 路徑上之球抵接從杯部曲面突出之爪725時,爪係被球推 〇 頂,而旋動至球的進行方向。爪的旋動中心係位於杯部的 上游側曲面727,球522係在被爪725捕獲之狀態下,與 爪一起被收容於杯部內部。 在爪及球收容於杯部內時,根據爪未突出於路徑及杯 部內之球的外周從杯部曲面的開口露出,其他球係一邊滾 動於杯部內之球的外周面上,一邊通過分歧機器而進行於 路徑上。 如圖1 8所示,兩端連結部72 6設置於分歧機器,使 ❿ 成爲分歧機器兩端的上游側軌道734A與下游側軌道 7 3 4B,於上下方向發生段差。分歧機器係使下游側軌道較 低。藉此,對通過分歧機器之球’賦予段差份的落下加速 度,使球不會在分歧機器的部份停止。 分歧機器係具備檢測出在杯部724內有球的感測器 728。此感測器係由發光元件及受光元件所構成’受光元 件與發光元件係經由杯部而對向。杯部係以透明樹脂形 成,具有不會妨礙該發光元件及受光元件之間的光路徑之 充分的透光性。因爲球被爪擋止’球與爪一起被收容於杯 -32- 200932324 部內時,會遮住來自發光元件之光’光不會到達 件,主控制部係藉由分析來自感測器之訊號’檢測 收容於杯部內。又,因爲杯部是透明的’遊藝者可 容於杯部內之球,例如,在依據施加於球的彩色, 球的價値不同之狀況,藉由辨識遊藝者所求取之 球,可對遊藝者訴求此狀況。 於電動機設置編碼器等,可藉由主控制裝置檢 G 機的旋轉量,檢測出杯部的旋轉位置。杯部的開口 向上方,但是,在附屬設備進行抽選並當選時,主 係賦予電動機旋轉訊號,使電動機旋轉,讓杯部的 向下方。於杯部下方係配設有球承受導引部722, 的球係從開口落下至球承受導引部。此球承受導引 接到達各附屬設備之球迴轉盤的路徑。此時,滾動 之其他的球,係一邊滾動於杯部曲面上,一邊通過 器而往路徑進行。之後,主控制裝置係使杯部半旋 ® 杯部開口朝上而臨向路徑,同時爪725從開口突出 捕獲球。 如圖5所示般,球循環於通常循環路徑14A、 14C時,於每個附屬設備皆有分歧機器308(圖15) 被收容於分歧機器。於某附屬設備中代幣進入夾盤 抽選而特定獎項成立時,附屬設備控制部係將控制 送至分歧機器的電動機,並將球從分歧機器放出至 項成立的附屬設備410。 球迴轉盤400(圖6)係在附屬設備內之遊藝 受光元 出球被 目視收 遊藝之 價値的 測電動 通常朝 控制部 開口朝 杯部內 部係連 於路徑 分歧機 轉,讓 ,準備 14B、 ,且球 ,進行 訊號發 特定獎 場域附 -33- 200932324 近,設置於球從分歧機器移動至附屬設備之遊藝場域中的 球移動路徑3 09(圖5)。球迴轉盤係於遊藝場域,暫時保 留從分歧機器供給來之球,附屬設備控制部係檢查在球迴 轉盤中球的保留狀況,符合特定條件時,將嵌合於球迴轉 盤之球保留孔的球,釋放至遊藝場域。在符合其他特定條 件時,係判斷上述之彩金產生。 圖19係掲示球迴轉盤的整體立體圖者。球迴轉盤係 © 在框體750內側,盤737藉由電動機往箭頭752的方向通 常地旋轉。盤737係朝向中心而稍微往下方傾斜。於盤 737的外周係設置有與盤737 —體旋轉之外側盤742。外 側盤742係具有段差而配置在僅比內側盤737上方位置, 且朝向盤737中心稍微往下方傾斜。 於盤7 3 7中心係形成有可收容球5 2 2 B的球保留孔 73 9。進而,於盤73 7的外周係均等地形成有總計5個可 收容球522C的球保留孔741。 ® 如圖20(A)所示,於平面盤下係設置有干涉盤746, 使進入保留孔的球貫通保留孔。圖20(B)係干涉盤的平面 圖。干涉盤之以753所示之開閉區域,係使干涉盤缺口, 藉由於此設置閘門手段,可利用閘門手段來開閉753的區 域而控制進入保留孔的球是否被放出至排出用導管744。 排出用導管744係用以將球從球迴轉盤放出至附屬設備之 遊藝場域的推擠部上面者,從球迴轉盤稍微向下傾斜,被 放出至排出用導管744的球藉由本身重量,滾動於推擠部 上面末端的誘導路徑,落下至推擠部上面。排出用導管 -34- 200932324 744係往盤737的直徑方向,到達中央球保留孔739。 藉由附屬設備控制部在閘門手段之開閉區域的範圍, 控制閘門的位置,可僅開放中央的球保留孔73 9,或開放 中央的球保留孔及位於外周側之球保留孔741。 閘門手段的詳細構造係揭示於圖21。750A係稱爲襟 翼(flap)的閘門手段,藉由電動機757以旋轉軸752爲中 心,往箭頭784及786的方向旋轉移動,亦即,旋轉移動 Q 於通過中央的球保留孔及外周的球保留孔之中心的圓弧。 符號75 4係連結電動機之旋轉軸與襟翼之旋轉軸的曲柄。 所以,電動機係即使往相同方向旋轉,亦可使襟翼往返移 動。 以襟翼的符號75 1形成之部份係用以關閉盤之外周部 的保留孔者,符號7 82係用以關閉盤中心部的保留孔者。 符號781係用以開放保留孔的開口。襟翼往箭頭786的方 向最大限度旋轉時,閘門區域782不會重疊於中央的保留 〇 孔,且開口 781會整合於外周的保留孔,故可開放雙方保 留孔。此係襟翼的全開狀態。 另一方面,襟翼往箭頭784方向最大限度旋轉時,中 央孔係以閘門區域7 8 2關閉,外周孔係以閘門區域7 5 1關 閉。此係襟翼的全閉狀態。進而,在襟翼中間的旋轉角之 狀態,係開放中央孔,關閉外周孔。此係襟翼的半開狀 態。 在本實施形態,附屬設備控制部係釋出進入中央孔的 球,進入外周孔的球係保持到球進入中央孔爲止,在球進 -35- 200932324 入中央孔爲止,外周孔的球會全部被釋出,在所有外周孔 都擠進球時,則宣告得到彩金獎。所以,附屬設備控制部 係到球進入中央孔爲止,將襟翼設定在全閉的位置,在球 進入中央孔時係將襟翼設定在全開的位置。再者,僅釋出 位於中央孔的球時,附屬設備控制部係使襟翼的位置半 開,或在位於外側之球保留孔的球不重疊襟翼的位置,停 止盤的旋轉,接下來,使襟翼位於全開的位置即可。 〇 上述之圖21係省略圖20之干涉盤746的圖示之揭示 球迴轉盤內部構造的立體圖。電動機757、旋轉軸752係 固定於基板780的背面。於基板上係沿著旋轉盤737,設 置有3個光感測器748、中心部之1個光感測器750,總 計4個光感測器。各光感測器係分別由發光元件與受光元 件所構成,藉由收容於孔的球遮蔽該等元件之間,接受來 自感測器的檢測訊號之附屬設備控制部,係可檢測出球收 容於孔內。 Ο 3個光感測器74 8係與形成於盤7 3 7外周之5個球保 留孔對向,排列於圓周上。光感測器750係被置放於與中 央的球保留孔對向之位置。附屬設備控制部係爲了辨識盤 7 3 7的旋轉位置,藉由判斷在盤旋轉一圈之間,光感測器 748被遮住幾次,可求出外周5個球保留孔有幾個收容 球。但是,在本實施形態’爲了將3個光感測器748均等 地排列於圓周上,僅使盤1 20度旋轉即可。 如補充圖19的說明’符號522C係被供給至球迴轉 盤,滾動於外側盤742的球。往球迴轉盤之球的供給係由 -36- 200932324 與盤的旋轉方向相反之箭頭759來進行。球的供給方向係 旋轉盤的街線方向,且相對於外側盤。球被供給至球迴轉 盤時’當初球係隨著滾動於外側盤上,旋轉速度降低,朝 盤的中心方向下降。此時,根據球往中新方向開始移動之 時機與盤之旋轉的時機,球會被嵌入外周孔或中央孔。 外側盤 742係因相對於內側盤 737,具有段差 742A’故球落下段差,往盤中央方向移動時,可對球附 〇 加衝力’賦予球的動態變化。例如,藉由對球附加落下小 段差程度的衝力,亦可使球稍微難以直接於外側進入孔, 使球一旦穿越外側孔,則易於朝向中央孔。 如回到圖5持續說明,從球迴轉盤釋出之球係朝向遊 藝場域之推擠部上面移動(404)。如圖6所示,球迴轉盤 係被置放於較遊藝場域平坦面及推擠部上方位置,故從球 迴轉盤放出之球係藉由本身重量,朝向遊藝場域移動。接 下來,球係經由球與代幣的分離工程(406),經過檢測出 ® 球的顏色之工程(4 86),被球貯藏手段回收。 如上述般,附屬設備控制部宣告彩金的成立時,主控 制裝置係將彩金路徑之球全部供給給彩金成立的附屬設 備。於將所有的球供給至該附屬設備之間,主控制部係將 遊藝中斷控制訊號發送至其他附屬設備的控制部,使代幣 遊藝中斷。之間,於附屬設備的顯示手段係再生表演畫 像。在所有的球供給至彩金成立的附屬設備後,主控制部 係將規定量的球供給至通常路徑,再次開始以彩金爲目標 的代幣遊藝。 -37- 200932324 另一方面,因爲於彩金成立之附屬設備的遊藝場域係 存在有大量的球,需要檢測出球的顏色而使代幣的支付處 理結束,故此之間,附屬設備控制手段係中斷伴隨代幣遊 藝的吃角子老虎盤抽選亦可。彩金成立時之大量的球係被 朝附屬設備之遊藝場域的平坦面或推擠部上面供給。 接著,針對附屬設備控制部(圖4)執行判定彩金之成 立的有無之其他控制的實施形態加以說明。圖49係揭示 〇 其控制動作的流程圖。附屬設備控制部係重複執行此流程 圖’於步驟1 000中,檢查位於附屬設備的遊藝場域之吃 角子老虎盤的抽選結果是否是777,吃角子老虎盤抽選結 果是第1特定獎項(例如「777」)時,係如後述般,判 定”彩金機會”成立,轉移至步驟I 120。 於步驟10 02中,檢査吃角子老虎盤抽選結果是否是 第2特定獎項(例如「111」、「333」或「555」),在判 定是肯定時,則轉移至步驟1 004。在步驟1 002判定被否 ® 定時,則回到步驟1 000。在步驟1004,附屬設備控制部 係使上述分歧機器的電動機旋轉,使杯部724對合釋出球 的位置(步驟1 004)。藉此,球係從球分歧機器被供給至附 屬設備球迴轉盤。此時,上述之襟翼係設定爲全閉位置。 之後,附屬設備控制部係於步驟1 004中,從分歧機 器將球釋出後,在對於附屬設備球迴轉盤之球的得獎確定 後,亦即,於後述之步驟1 008中,判定球的位置後,使 分歧機器的杯部724回到可捕獲球的位置,在杯部724捕 獲球之後,將杯部的位置,設定爲不防礙滾動於路徑之其 -38- 200932324 他球者。附屬設備控制部係在上述之盤120度旋轉之間, 檢查上述之各感測器的輸出(步驟1 006),判定球進入哪個 孔(步驟1 0 〇 8)。 附屬設備控制部係以控制表的形式,將球進入哪個 孔,記憶於記億體。附屬設備控制部係於控制表,登記表 示各孔有球之” 1”或沒有球之” 2 ” 。 附屬設備控制部係檢查控制表,判定球是否進入中央 Ο 孔(步驟iiio)。附屬設備控制部係在此判定被肯定時,將 進入中央孔的球作爲落選球,在即使襟翼全開,從外側孔 球亦無法通過之位置,停止盤737的旋轉後,將襟翼作爲 全開狀態(步驟1112),從球迴轉盤釋出中央保留孔的球, 朝位於附屬設備之遊藝區域的代幣推擠器放出(1114)。附 靥設備控制部係檢査中央孔的感測器之輸出,確認球從中 央孔被釋出後,使襟翼回到全閉狀態,回到步驟1 000(步 驟 11 14)。 ® 附屬設備控制部係在步驟111 〇被判定否定後,進而 檢查控制表,判定球是否進入位於盤外周部的所有保留孔 (步驟1118)。附屬設備控制部係在步驟1118的判定被肯 定之後,其他附屬設備是彩金或挑戰彩金之狀態時,等待 其他附屬設備中該狀態結束爲止(步驟1119)。 接下來,附屬設備控制部係作爲彩金機會(獲得對於 彩金的挑戰權),停止盤73 7的旋轉,使襟翼移動至全開 的位置後,使盤旋轉。附屬設備控制部係檢查對於外側孔 的感測器之輸出,確認球全部從外側孔被釋出至代幣遊藝 -39- 200932324 區域後,使襟翼回到全閉狀態(步驟1 122、步驟1 124)。 接下來,附屬設備控制部係控制分歧機器(圖15),將 球釋出至附屬設備球迴轉盤內(步驟112 6)。之後,附屬設 備控制部係與上述之步驟1〇〇6與1008相同,檢查感測器 輸出(步驟1125),進而判定球的位置(步驟1125A)。 附屬設備控制部係檢查控制表,判定球是否進入中央 孔(步驟1128)。附屬設備控制部係在步驟1128肯定判定 © 時,作爲獲得彩金的權利,對中央控制部(圖4)通知(步驟 1130)。中央控制部係接受來自附屬設備控制部的通知, 進行彩金的處理。附屬設備控制部係等待彩金的處理結束 爲止,接下來,折回到起始爲止。在步驟1128中附屬設 備控制部判定否定時,則回到步驟1 000。 再者,如挑戰彩金、彩金,決定依據抽選結果之特殊 利益狀態、球相對於球迴轉盤之孔的得獎狀態、球進入中 央孔或外側孔的區別、或進入幾個孔的區別,係不限定於 © 上述形態。 又’在上述實施形態’將複數附屬設備組合作爲遊藝 裝置來說明,但是,附屬設備單體亦該當遊藝裝置者。亦 即,在各附屬設備,提供在依據第1遊藝價値(代幣)之視 訊遊戲(吃角子老虎•輪盤抽選手段)中特定獎項成立時, 將第2遊藝價値(球)支付至第2抽選手段(球迴轉盤),在 球迴轉盤中依據第2遊藝價値之第2特定獎項(持續於彩 金機會的彩金)成立時,對使用第1遊藝價値的遊藝場 域,支付大量第2遊藝價値的新穎遊藝裝置。 -40- 200932324 於上述實施形態中,於框體下部具備複數發光手段, 朝框體上方發光時,藉由軌道模組的軌道利用白色可反射 光之樹脂來構成,可將軌道模組上色。藉此可提高設計之 效果之同時,藉由主控制部配合遊戲的處理狀態來變更發 光顏色,可將遊戲狀態,通知遊藝者。 再者,上述之實施形態係爲本發明適切之實施的一 例,但是,並不是限定於此者,在不脫出本發明要旨的範 © 圍中,可實施各種變形。例如,在上述實施形態,作爲分 歧機器3 08之一例,已說明由弓狀的爪725所構成者(參 照圖15等),但是,以下作爲關於本發明之分歧裝置之其 他實施形態,揭示分歧機器3 08之其他例(參照圖29〜 32) ° 與上述實施形態相同,本實施形態的分歧機器308係 亦爲了 1次地貯留而捕獲遊藝對象之球522,位於各附屬 設備正面地設置於循環路徑途中的機器,具備藉由電動機 ® 7〇1旋轉之通道形的杯部724、檢測出杯部724內有球的 感測器728、形成於杯部724等周圍的板狀構件729。杯 部724係作爲用以1次性收容球522的部位(收容部)而作 用。再者,於本實施形態中不設置用以彈撥爪725的彈性 體彈簧等之彈撥手段,僅以電動機701的驅動力來使杯部 724及爪725旋轉。 爪725係杯部724使其開口 723朝上方之狀態(參照 圖30)中’形成爲在該杯部724的下游側(球522的轉動方 向下游側)’幾近直線往上方突出之狀態(在本說明書,稱 -41 - 200932324 爲突出位置)。如此包含爪725,本實施形態的杯部724 係前視成爲略J字形狀(參照圖30等)。在該突出位置, 爪725係防礙沿著路徑(通常循環路徑14A、14B、14C)循 環之球5 22的進行,而誘導至杯部724(參照圖30)。此 時’形成爲幾近直線之本實施形態的爪725,係可確實捕 獲(catch)循環之球522,並誘導至杯部724(參照圖29 等)。 © 感測器728係與上述實施形態相同,由挾持杯部724 配置之發光元件及受光元件所構成(參照圖32)。此時,杯 部724係以可確保感測器光之透過性的透明樹脂形成亦 可,如本實施形態’於一部份具備用以使感測器光通過的 缺口(例如,縫隙724S)亦可(參照圖32)。 護蓋721係形成於杯部724等的周圍,覆蓋該杯部 7 24等。例如,於本實施形態中,彎曲板狀護蓋721的兩 側部,從球轉動方向之上游側及下游側覆蓋杯部724等 ® (參照圖29)。進而,於杯部724之下游側係設置有板狀構 件 72 9。 藉由電動機701旋轉的杯部724,係於收容球522之 狀態的收容位置,與將球522朝球承受導引部722放出之 放出位置(參照圖3 1)變化。亦即,藉由爪724將球522誘 導至杯部724時’感測器728係檢測出該球522。如此一 來,驅動電動機701而使杯部724略90度旋轉,在收容 球5 2 2之狀態待機,亦即,變化至貯留球5 2 2的收容位 置。於該收容位置中,球522係以杯部724及爪725與板 -42- 200932324 狀構件72 9圍繞之狀態被保持。又,從該收容位置更使杯 部724略90度旋轉時,開口 723變化至朝下方的放出位 置(參照圖31)。於放出位置中,杯部724係將球522朝向 球承受導引部722放出並使其落下。 又,球522收容於杯部724內之收容位置或放出位置 中,爪725並未突出於路徑,故其他球522係滾動於該杯 部724上,通過分歧機器308。在此,在本實施形態,將 〇 杯部724的外周形狀,作爲不妨礙該杯部724的各位置中 滾動於路徑上之其他球(被貯留之球以外的球)的動態之形 狀。具體來說,藉由複數平坦部724A、724B的組合來構 成杯部724的外周,至少在收容位置及放出位置,作爲圓 滑地聯繫上游側軌道734A與下游側軌道734B的形狀(參 照圖31等)。此時,各平坦部724A、724B係於收容位置 及放出位置中成爲水平亦可,但是,理想爲如本實施形 態,形成爲僅向下傾斜狀的話,則可使球522更順暢地滾 ❹ 動。 進而,於分歧機器308係設置有用以檢測杯部724之 旋轉量或旋轉方向位置的檢測裝置800。例如,本實施形 態的檢測裝置800係於連接電動機701與杯部724的旋轉 軸707,設置與該旋轉軸707 —體旋轉的遮光片801,藉 由複數光感測器802來檢測該遮光片801的位置。此時的 光感測器之個數及配置係可適宜設定者,但是,例如於本 實施形態中,以旋轉軸707爲中心’於上下左右配置4個 光感測器802,經由遮光片801,可每隔90度檢測出杯部 -43- 200932324 7 24的旋轉量或旋轉方向位置。如利用如此檢測裝置800 所致之檢測結果,可將杯部724在所定各位置(收容位 置、放出位置或爪725的突出位置)正確地加以定位。 再者,上述之爪725由複數片構成亦爲佳。例如,本 實施形態的爪725係不干涉板狀構件7 29,藉由以所定間 隔配置之2條平行的突起所形成。如此一來,有一邊抑制 爪72 5的重量增加,一邊可更確實地捕獲(catch)球522之 〇 優點。而且,依據如此形狀之爪725,有在杯部724從突 出位置往收容位置,進而往放出位置變化之間,可使球 522接近寬度方向中央,以穩定之狀態來移動之優點。 又,身爲球5 2 2之收容部的杯部7 2 5係以具有透光性 的構件形成爲佳。如此一來,遊藝者係可從自身的附屬設 備(可執行遊藝的終端裝置12)在遊戲中辨識,於杯部724 內是否收容有球522,進而,辨識出施加於該球522的色 彩。例如於本實施形態中,藉由具有可從外部目視被收容 Ο 之狀態的球522程度之透過性的透明或半透明構件來形成 杯部724(參照圖29)。又,無關於構件的透過性,爲了可 易於目視出杯部724之球522的一部份,例如亦可將複數 透孔724H ’設置於該杯部724的附屬設備側之側面(參照 圖 29)。 進而在本實施形態,於杯部724的球滾動方向兩側, 設置有防止球5 22的滾落之側邊護蓋731、73 2(參照圖29 等)。該等側邊護蓋731、732亦與上述杯部724相同,以 具有透光性的構件(例如,塑膠製板材料等)所形成。 -44- 200932324 如此本實施形態的分歧機器3 08係配置於循環路徑途 中,使其位於附屬設備正面,捕獲(catch)l個滾動於循環 路徑14A的球5 22,貯留於內部,依據附屬設備之抽選遊 戲的吃角子老虎盤之排列,將該球522供給至球迴轉盤 400。又,本實施形態的分歧機器3 08中,不使用彈性彈 簧等的彈撥手段,僅藉由電動機701來使杯部724(及爪 725)旋轉。爲此,不存在有利用彈性彈簧等的彈撥手段來 © 進行杯部724及爪725的旋轉時之該彈撥手段的疲乏(彈 性惡化,即彈性疲乏),不需要考慮如此狀態。 再者,於圖29〜圖32所示之實施形態中,已揭示形 成爲幾近直線,易於捕獲(catch)球522的爪725,但是此 僅爲一例,此外,當然亦可採用例如在第1實施形態揭示 之弓狀等的爪。 (關於球供給機器(基座分類機器)) 在此,針對本實施形態之遊藝裝置1之球供給機器 © (以下亦稱爲基座分類機器),舉出範例在以下詳述(參照 圖33〜圖39)。 基座分類機器(球供給機器)3 3 2,係作爲選擇進行將 球522供給至機會路徑18,或是供給至循環路徑14A, 又或排出髒污之球522之任一的裝置而設置。例如,本實 施形態之基座分類機器322係配置於遊藝裝置1的中央底 部附近,將暫時貯藏於貯藏部(球槽)326的球5 22,選擇 性地供給或排出至任一路徑(參照圖3 9等)。 於基座分類機器332係設置有作爲顏色檢測手段及髒 -45- 200932324 球檢測手段而作用的顏色檢測機器3 3 0 (參照圖3 4等)。該 顏色檢測機器3 3 0係例如使用檢測由白色LED所構成之 發光元件3 3 0a與光的受光元件330b(參照圖37、圖38 等),利用照射由透光性素材所構成之球522時的透過 光,檢測出該球5 22的顏色。更具體來說,分析在受光元 件3 30b所檢測出之透過光的RGB成分,依據該分析結果 來檢測出顏色。進而,本實施形態的顏色檢測機器330係 €) 亦依據透過光的光量,檢測出髒球。亦即,透過光的光量 少於所定値時,則判斷該球522已經有所定程度或其以上 的髒污。被判斷髒屋的球522係於後段的基座分類機器 3 3 2中被排出。 又,於顏色檢測機器3 3 0係設置有使球522適宜停 止,進行顏色檢測,之後,用以1個個送出的送出機構。 例如,於本實施形態中,於球5 22的通路,設置送球用的 凸輪330c,藉由該送球凸輪330c,適切地使球522停 Ο 止,進而1個個送出(參照圖3 7)。該送球凸輪33 0c係例 如因爲於圓板周圍部’對向設置切合球形狀之圓弧形狀的 一對缺口者,故每在通路上180度旋轉時’則各將球522 送出1個,又藉由抵接缺口以外的部份’可使球522停 止。 於該送球凸輪330c的旋轉軸上係設置有與該送球凸 輪 330c同量旋轉的凸輪位置檢測用觸片(被檢測 片)330d。該凸輪位置檢測用觸片330d係與送球凸輪330c 略相似形的小片’以設置於'附^近之凸輪位置確認感測器 -46- 200932324 3 3 0e,檢測旋轉位置(參照圖37)。 電動機33 Of係作爲用以使上述送球凸輪33 0c及凸輪 位置檢測用觸片3 3 0d旋轉的驅動源而設置(參照圖37)。 該電動機3 3 0f的旋轉係經由電動機側帶輪3 3 0g、皮帶 3 3 0h、凸輪側帶輪3 3 0i,傳達至送球凸輪3 3 0c及凸輪位 置檢測用觸片3 3 0d的旋轉軸(傳達圖38) » 又,基座分類機器332係具備將球522供給至機會路 〇 徑18或循環路徑14A,或用以排出的分歧機構(參照圖33 等)。例如,本實施形態的分歧機構係具備導引藉由顏色 檢測機器3 3 0的送球凸輪3 3 0c送入之球5 22,在所定位 置從孔落下之球導引部3 3 2a、及配置於該球導引部3 32a 之落下孔下部的旋轉分歧路332b。 旋轉分歧路33 2b係用以將球522分類至3方向的裝 置,以朝供給(或排出)目的地傾斜之溝槽狀的導引部藉由 以電動機332c的驅動力旋轉(旋回)來改變送出方向,切 © 換路徑之方式設置。本實施形態之電動機332c係配置於 旋轉分歧路332b下方,經由齒輪等的減速機構332d,使 旋轉分歧路3 32b旋轉(旋回)(參照圖33等)。 又,可適切設定以基座分類機器332爲中心的各路徑 等之配置。例如於本實施形態中,在顏色檢測手段330之 球進行方向爲上方向時(參照圖36),分別於上方向(約0 點〜1點方向)設置髒球522的排出路徑3 3 3,於右方向 (約3點〜4點方向)設置往機會路徑18的誘導路徑334, 於下方向(約6點方向)設置往循環路徑14A的誘導路徑 -47- 200932324 335(參照圖36、圖37、圖39等)。 髒球522的排出路徑3 3 3係以縱型框體構成(參照圖 37) ’誘導該球522,排出至圖39中以虛線所示線的方 向’滾動至特定附屬設備的出口邊爲止(參照圖39)。所 以’藉由顏色檢測機器330判斷已髒污所定程度以上的球 522’係經由基座分類機器332及排出路徑333,從路徑 被排除。 〇 往機會路徑18的誘導路徑334係例如藉由具備前端 較細之壁部的傾斜板所形成(參照圖37等)。該誘導路徑 3 34係以將球522供給至中央升降機的區劃18D之方式配 置(參照圖39)。 往循環路徑14A的誘導路徑335係以將球5 22供給 至中央升降機的區劃之方式配置(參照圖39)。又,本實施 形態的誘導路徑3 3 5係通過顏色檢測機器330的框體下 部,在途中彎曲而轉往右方向(約3點方向),形成爲與中 © 央升降機連接的形狀(參照圖34等)。 又,於上述之排出路徑3 33及誘導路徑3 34、335係 分別設置有球感測器33 3s、3 34s、3 3 5 s(參照圖36等)。 該等球感測器3 3 3 s、3 3 4s、3 3 5 s係例如由光感測器所構 成者,檢測出被排出之球522或被誘導至各路徑18' 14A 的球522。球感測器3 34 s係被配置於誘導路徑3 34中前 端較細部份,可個別檢測出球522,並計算個數。 (關於移動路徑切換裝置380) 針對本實施形態之遊藝裝置1之移動路徑切換裝置 -48- 200932324 380,舉出範例在以下詳述(參照圖39〜圖47)。 本實施形態的移動路徑切換裝置380係爲具備切換路 徑381八、3818、連桿384、385、搖桿386、電動機387 等的構造(參照圖40等)。該移動路徑切換裝置3 80係組 入循環路徑14A及循環路徑14B的途中(參照圖39等)。 例如在本實施形態之狀況,移動路徑切換裝置3 80係上下 兩段的構造,以循環路徑14A通過上段,循環路徑14B 〇 通過下段之方式來形成,在所定時切換路徑,將球522送 入彩金路徑16與連接之集合路徑16C(參照圖40等)。 切換路徑381A、381B係以設置於框架383之支點 3 82A、3 82B爲中心,可旋動於上下地設置(參照圖 43 等)。上段的切換路徑381A係切換通常路徑14A與集合 路徑16C(彩金路徑16),下段的切換路徑381B係切換通 常路徑14B與集合路徑16C(彩金路徑16)。 上下的切換路徑381A、381B係藉由左右連桿384連 〇 接,使其同時同量旋動於上下(參照圖41等)。連桿384 係對於各切換路徑3 8 1 A、3 8 1 B的一部份(例如底部),以 螺栓結合,可相對旋轉之狀態。 於下段的切換路徑381B底部係螺栓結合有其他連桿 385的上端部(參照圖41等)。該連桿385的下端係對於安 裝於電動機387的旋轉軸之搖桿386,從該電動機387的 旋轉軸偏移之位置中螺栓結合(參照圖46等)。 電動機387係作爲使切換路徑381A、381B旋動上下 時的驅動源而作用。驅動該電動機387時,安裝於旋轉軸 -49- 200932324 之搖桿386會旋轉,經由其他連桿385,連桿384及上下 的切換路徑381A、381B會升降(參照圖43等)。 如此,於一體升降之連桿3 84及上下的切換路徑 381A、381B的一部份(例如,連桿3 84與上段的切換路徑 381A螺栓結合之部份附近)係設置有被檢測片3 8 8(參照圖 44等)。又,於框架3 83係設置有檢測該被檢測片3 8 8之 上下的感測器3 89A、3 89B(參照圖43等)。依據該等感測 〇 器3 89A、3 89B所致之被檢測片3 8 8的檢測結果,可確認 切換路徑3 8 1 A、3 8 1 B的上下位置。再者,例如利用具有 長孔的基座板3 90等,可進行感測器3 89A、3 89B之安裝 位置的變更的話,可易於變更感測器3 89A、3 89B的上下 位置(變更圖44)。 又,於連接彩金路徑16的集合路徑16C途中係設置 有例如藉由光感測器所構成之感測器391 A、391B(參照圖 47)。依據該等感測器 391A、391B,藉由切換路徑 Ο 381A、381B路徑被切換時,可藉由檢測出實際的球522 來確認球522被送入至集合路徑16C。 進而,如上述般,移動路徑切換裝置380係因應需 要,具備(或倂設)用以遮蔽球522的流向的閘門手段爲 佳。彩金轉移時,將切換路徑381A、381B切換至集合路 徑16C側時,有可能產生上段的球522與下段的球522在 途中相互干涉而妨礙順暢的流動,但是,只要利用該閘門 手段,可適宜遮斷一方的流動,將球522順暢地送入彩金 路徑16。例如在本實施形態,從移動路徑切換裝置380 -50- 200932324 至中央升降機(升降機構)2 0爲止,形成上下兩段球路徑 (圖39中以符號392表示)之同時,設置僅對於上段的球 路徑392,遮斷球522之流向的閘門裝置3 93 (參照圖 3 9)。該閘門裝置393係對於上段的球路徑392,使遮蔽 物(例如,遮蔽板、遮蔽護蓋等)突出,構成爲遮蔽球522 者,具備使該遮蔽物作動的電動機3 94。 如上述般,本實施形態的移動路徑切換裝置380係形 〇 成爲使循環路徑14Α與循環路徑14Β雙方通過上下,且 以連桿384連接上下段的切換路徑381Α、381Β,使其同 時動作,故即使藉由單一的動力源(例如電動機),亦可控 制複數條移動路徑。而且,在本實施形態,藉由需要最小 限度(在本實施形態,僅對於上下兩段的球路徑3 82之上 段)個數的閘門裝置3 93,實現彩金轉移時之球522的順 暢流動,可抑制裝置數量及成本。又,使用閘門裝置 393,在彩金轉移時,順暢地送入球5 22,故有不會在途 Ο 中妨礙遊戲的流程之優點。 (關於清潔機器) 接下來,針對本實施形態的清潔機器3 70,加以說明 (參照圖4 8 )。 清潔機器3 70係用以清潔附著於球522表面之污垢的 裝置,因應必要,設置於遊藝裝置1內。例如,於本實施 形態中,係設置於循環路徑Β(14Β)途中。 本實施形態的清潔機器3 70係以電動機371、搬送用 螺桿372、清潔器373等構成的裝置(參照圖48)。其中, -51 - 200932324 搬送用螺桿3 72係由螺旋狀搬送用突起形成於周圍的構件 所構成,藉由旋轉於一定方向,將球522搬送至軸方向。 於該搬送用螺桿372的附近係倂設有球導引部374。 該球導引部3 74係以在與搬送用螺桿3 72之間,形成球 5 22可收容程度的間隔之方式配置,作爲不使球522落下 的抑制部而作用(參照圖48)。 清潔器373係例如由在表面具備不織布等之清潔體的 Q 滾輪所構成(參照圖48)。該清潔器3 73係使其旋轉軸幾近 平行於搬送用螺桿3 72的旋轉軸,且設置爲可使清潔體的 表面抵接搬送中的球522表面之狀態。又,設置於清潔器 373之旋轉軸的帶輪373a,與設置於搬送用螺桿372之旋 轉軸的帶輪3 72a之間,係旋繞有用以傳達旋轉的皮帶 3 75(參照圖48)。 清潔機器370的電動機371係作爲用以使搬送用螺桿 3 72及清潔器3 73旋轉的動力源而作用。例如在本實施形 〇 態,作爲藉由該電動機371的動力使搬送用螺桿3 72直接 旋轉之同時,利用上述皮帶375,使清潔器373往同方向 旋轉的構造,以單一動力源使複數機器同時動作(參照圖 48” 依據如此清潔機器370,在藉由搬送用螺桿372搬送 球522之間,可使清潔器3 73接觸該球522,清潔附著之 污垢。而且,搬送用螺桿372及球導引部374並不是妨礙 球5 22本身的旋轉者,故於該清潔機器3 70中,可一邊允 許球522旋轉,一邊擦拭其表面廣泛範圍而清潔污垢。 -52- 200932324 在上述實施形態,球循環之路徑由路徑A、路徑B及 路徑C所構成,但是,可適宜增減。圖50係由路徑A及 路徑B構成循環路徑者,原來的循環路徑C變更爲將球 供給至循環路徑A途中的球供給專用路徑BS(Ball Supply) 之控制流程圖,圖5的控制流程圖之變形例。 與圖5比較可知,在圖50的控制流程,路徑BS係 對於循環路徑A(14A)及循環路徑B(14B)爲非連續,但 © 是,連接球供給機器332。 球從球供給機器332供給至對應循環路徑BS的導引 部140C時,球係上升於中央升降機26C,到達路徑BS 的開始端。球係從路徑BS的開始端落下路徑BS,於路徑 BS與路徑A的合流部20 00中,從路徑BS的末端移動至 路徑A。路徑BS係在與路徑A的合流部2000結束。 於圖50的控制流程圖中,藉由機會機器322獲得的 球係被供給至循環路徑B(14B)的漏斗3 12。又,設置位於 Ο 路徑B(14B)的漏斗312下游之清潔機器370(圖48)。 圖51係以路徑BS與路徑A的合流部2000爲中心揭 示的立體圖,路徑BS係形成爲從與路徑A的合流部上方 朝路徑A下降。於合流部2000中,對於路徑A,於垂直 方向設置防護壁2002,使從路徑BS朝路徑A落下之球不 會從路徑A脫離。假設即使從路徑Bs路徑之球將要脫離 路徑A ’亦可藉由防護壁2002,使其不從路徑A脫落。 [產業上之利用可能性] -53- 200932324 本發明係適用於遊藝裝置,尤其適用於代幣遊藝裝置 者。 【圖式簡單說明】 [圖1]遊藝裝置整體的立體圖。 [圖2]揭示球用以移動於遊藝裝置之框體的路徑的立 體圖。 〇 [圖3]用以將球從路徑的下端抬升至上端之升降機構 的立體圖。 [圖4]遊藝裝置之控制機構的槪念區塊圖。 [圖5]揭示球移動於框體內的路徑之過程的控制流 程。 [圖6]身爲遊藝終端之附屬設備的立體圖。 [圖7]身爲代幣的補給手段之代幣杯的立體圖。 [圖8]揭示開放代幣杯之狀態的立體圖。 Ο [圖9]揭示用以使代幣從代幣杯排出之機構的立體 圖。 [圖10]附屬設備之遊藝場域的放大圖,分離球與代幣 之分離手段的立體圖。 [圖11]該分離手段之驅動部的立體圖。 [圖12]揭示被分離之球在從遊藝場域至回收機構附近 的放大立體圖。 [圖13]用以構成路徑之軌道模組的放大立體圖° [圖14]複數軌道模組之接合部的放大立體圖。 -54- 200932324 [圖15]在路徑途中,用以從路徑分離球之分離手段的 立體圖。 [圖16]揭示檢測出球的顏色,用以決定代幣的獲得枚 數之處理動作的流程圖。 [圖17]路徑模組的剖面圖。 [圖18]置放於路徑模組的連結部之分歧手段的前視 圖。 〇 [圖19]身爲附屬設備中之球保留手段的球迴轉盤的立 體圖。 [圖20]用以強調球迴轉盤的旋轉碟而說明的立體圖。 [圖21]揭示球迴轉盤之內部構造的立體圖。 [圖22]揭示在高獎賞控制狀態之彩金產生時,於彩# 路徑上整列有多數球之狀態的立體圖。 [圖23]揭示球從彩金路徑供給至彩金球迴轉盤之狀@ 的立體圖。 〇 [圖24]彩金球迴轉盤的前視圖。 [圖25]同正面前視的放大圖。 [圖26]揭示在彩金球迴轉盤下方與彩金球迴轉盤一胃 構成,將複數球供給至彩金成立之附屬設備的供給機 動作,用以說明同供給機構之內部構造的立體圖。 [圖27]附屬設備控制部的硬體區塊構造圖。 [圖28]附屬設備控制部的功能區塊圖。 [圖29]揭示本發明的分歧機器之一實施形態之自前方 (遊藝者側)的立體圖。 -55- 200932324 [圖30]在爪位於突出位置時之分歧機器的前視圖(從 遊藝者側觀看之圖)。 [圖31]在杯部位於放出位置時之分歧機器的前視圖。 [圖32]解開連結端等之狀態之分歧機器的平面圖。 [圖33]揭示本實施形態的顏色檢測機器與基座分類機 器(球供給機器)之立體圖。 [圖34]揭示從其他角度所視之顏色檢測機器與基座分 0 類機器的立體圖。 [圖35]揭示從另其他角度所視之顏色檢測機器與基座 分類機器的立體圖。 [圖3 6]揭示顏色檢測機器與基座分類機器的平面圖。 [圖37]從另一其他角度所視之顏色檢測機器與基座分 類機器的立體圖。 [圖38]揭示顏色檢測機器的驅動系統側之構造例的立 體圖。 G [圖3 9]揭示遊藝裝置的底部附近之構造的平面圖。 [圖40]揭示移動路徑切換裝置之構造的側視圖。 [圖41]揭示從球下游側所視之移動路徑切換裝置之構 造的圖。 [匾I 42]揭示從球上游側所視之移動路徑切換裝置之構 造的立體圖。 [圖43]揭示移動路徑切換裝置之構造的圖40反對側 的側視圖。 44]揭示從球下游側所視之移動路徑切換裝置之構 -56- 200932324 造的立體圖。 [圖45]揭示從球上游側所視之移動路徑切換裝置之構 造的另一立體圖。 [圖46]揭示移動路徑切換裝置之構造的圖40反對側 的側視圖。 [圖47]揭示從球下游側所視之移動路徑切換裝置之構 造的另一立體圖。 〇 [圖48]揭示清潔機器之構造例的立體圖。 [圖49]揭示附屬設備控制部的球迴轉盤之控制動作的 流程圖。 [圖50]揭示由兩條路徑構成循環路徑,而球移動於框 體內的路徑之過程的控制流程(圖5的變形例)。 [圖5 1 ]以球供給路徑與球循環路徑的合流部作爲中 心’遊藝裝置的立體圖。 G 【主要元件符號說明】 1 :遊藝裝置 1 0, 75 0 :框體 12 :終端裝置 14A, 14B,14C :循環路徑 1 6 :彩金路徑 16A,140A〜C:導引部 16B :開始端 16C :集合路徑 -57- 200932324 17 :球 1 8 :機會路徑 18D,26A~C:區劃 19 :彩金球迴轉盤 19A :供給機構 19B :球排出導管 19C :球誘導路徑 〇 20 :升降機構 22 :底面板 24 :頂板單元 2 6 :蝸線螺桿 26A, 26C :中央升降器 2 8 :支柱Access Memory) 29C, Sensor driving unit 29D, Token Supply Bucket Drive Department 29E, Separating the motor drive unit 29F, These are connected via data sink 29G. As shown in Figure 28, The accessory device control unit includes a main control unit 3 0 A, Token Payment Control Department 3 0B, Color detection and recognition unit 3 0C, The motor rotation control unit 30D and the color comparison determination unit 30E are separated. Furthermore, Forming the departments of the auxiliary equipment control department, As a hardware structure, It can also be used as a soft structure. also, The accessory device control unit and the main control unit are also connected via the -21 - 200932324 data bus. The main control unit is based on the control program stored in the ROM. Conduct control of each department. As the main control, There is a driving means for allowing an actuator or the like provided inside the pushing portion as illustrated in Fig. 6. In the direction of the arrow of the record, The pushing portion is moved back and forth. The token payment control department is based on the program stored in the ROM and the calculation results described later. Let the token payment agency department carry out the above-mentioned fixed currency payment © pay. The color detection and recognition unit responds to the detection result of the color detection sensor. The color of the ball recovered by the aforementioned recovery area is identified. Furthermore, The driving of the aforementioned color is also performed by the main control unit. The separation motor rotation control unit normally controls the driving means of the motor or the like by rotating the separation device at a constant speed and a constant speed. But yes, When the ball enters the aforementioned recycling area, Use color sensor to detect time, etc. Then, the rotational speed of the aforementioned separating device is controlled. With this, Indeed, the color of the ball is detected, Therefore, the color comparison judgment described later can be surely performed. Ο Color comparison judgment section, Comparing the information of the color of the aforementioned ROM with the amount of payment of the token, And the color of the ball recognized by the identification portion by the aforementioned color detection, It is judged whether or not the color of the corresponding token payment amount coincides with the aforementioned detected color. In the ROM, the predetermined control program required for the control by the accessory device control unit is stored. also, In the RAM, the predetermined calculation result by the accessory control unit is stored, Identification result by the color detection and recognition unit, The judgment result of the color comparison judgment unit, and the like. The sensor driving unit drives, for example, the aforementioned color detecting sensor, The color information detected by the -22- 200932324 color detection sensor will be Transfer to the accessory device control unit' drive to detect the passage of the aforementioned token through the sensor, The signal detected by the sensor, Transfer to the accessory device control unit. also, The split motor rotation drive unit drives the motor 530 provided in the separating device. The token supply bucket drive unit drives, for example, a token supply bucket provided by the aforementioned token payment mechanism department. Pay the token. The accessory device control unit reads the detection information of the specific color of the ball. Based on its information, 'Compare the color of the memory that is pre-memorized in the ROM and the token payment information corresponding to its color, When its information matches a specific color, A token that is more than the color of the ball normally set and the payment information of the token, Payment is made from the aforementioned token payment institution 408 to the accessory device. that is, As shown in the flow chart shown in Figure 16. The color detecting device detects the color (S 1 ), The accessory device control unit performs color recognition (S2). When it is a specific color, Performing a series of processing of the number of tokens η of the payment (S3), Next, End processing. 时 When it is not a specific color in step S2, Then, the number of tokens that are less than a specific color is m (S 4). and so, For example, for a "yellow" ball, 25 pieces are paid. Paying 100 pieces for the "green" ball, With this, Using the reciprocating movement of the pushing part, Drop the token into the field of the casino, In addition to more tokens, By making a token payment corresponding to the color of the ball, It can be different from the customary push-to-play amusement equipment. The accessory device control unit reads information on the detection order of the color of the ball, When consistent with the order of the pre-memorized colors, Most tokens can be paid from the token payment agency (S 5). E.g, When the same color as the detected color is detected -23- 200932324, the number of tokens that are usually paid individually is doubled. For example, 'detected, , 25 when paying "yellow" When the "yellow" is continuously detected, 50 pieces are paid. When it detects "yellow", it pays 75 pieces. Every time the color of each ball is detected, Pay the specified number of tokens. Furthermore, Nothing to detect continuously, When other colors are detected on the way, For example (example: Yellow-yellow-green-yellow) When paying yellow 2 consecutive copies of the number of tokens (eg: 25 pieces + 50 pieces = 75 pieces) After the 'branch φ pays the number of coins corresponding to the green (example: 100 pieces), however, After that, even if yellow is detected, Will not pay "75" as mentioned above, Only "25" will be paid. With this, Compared to the conventional token push coin game machine, Because the number of tokens paid to the aforementioned casino field will increase or decrease according to the color of the aforementioned ball. Therefore, it will increase the entertainment. The token obtained by the corresponding ball obtained from the accessory device, From the bucket 408 of the accessory device or the token capsule 430 of Figure 1, Supply to the casino field. When you get a lot of tokens, The accessory device receives the supply of the token from the capsule 430. The plurality of capsules are arranged in a ring shape in the vicinity of the amusement field of the attached equipment. For example, one capsule is contained in one 〇 代 token. When you get more than 100 tokens, The token is supplied from the capsule to the attached device in units of 1 unit. The number of ends is supplied from the bucket 4〇8. Fig. 7 is a perspective view showing a detailed configuration of a token capsule. The plurality of tokens 500 are attached to the circular disc 500. The number of adjacent devices is arranged side by side at equal intervals. The main control unit repeatedly rotates the disk by one accessory angle and then temporarily stops it. Then it is rotated again. After the token is paid from the capsule, the capsule that is empty is supplied with the token from the bucket 4〇8. The Yudou 408 has a supply port of -24- 200932324 to the first supply port in the field. The token is supplied to the second supply port in the capsule. The second supply port is located inside the casing more than the first supply port. The capsule is wound between the second supply port and the upper surface of the pushing portion 406. The token is released from the capsule toward the pusher. The token capsule is secured to the boss 504 of the circular disk. Tilt to the side of the accessory. The token capsule is divided into two equal parts into two hemispheres. In the internal space formed by the two, Contains a specified number of tokens. 〇 on the center side of the frame of the upper hemisphere, Fixing the shaft 506 for the ball against the boss 504, a flange that rotates upwards, When the flange is pushed toward the lower hemisphere, As shown in Figure 8, The upper sphere rotates upward by the rotation axis 506. The opening between the upper and lower spheres will be exposed. The multiple tokens fall from the lower sphere to the field of the attached device. The exposed surface of the lower sphere 5 〇 9 is formed into a plane that is inclined downward toward the attachment device, Therefore, the token will slide down the plane. On the center side of the frame of the circular disk 5 02, An open mechanism 508 is provided that is useful for opening tokens. This mechanism is configured on the front side of each accessory device. This open mechanism 508 is shown in Figure 9. A hole 513 for fixing the screw is provided at the leg portion 512 of the columnar body 510. The foot is fixed to the base plate of the frame. At the upper end of the body 510 is a crank 516 that is rotated by a motor 514. The crank motor shaft 515 is attached to the other end side. Fixed roller 518. The motor 514 is rotated such that the roller 518 of the crank 516 is at the lowermost end. With the rotation of the rotating disk 502, While the token pays for the sheet of the capsule 500 to contact the roller, The upper sphere is shown in Figure 8. Going up -25- 200932324 Raise the open tokens. Each accessory device is subjected to lottery processing using tokens as illustrated in FIG. Or by identifying the color of the ball, Calculate the number of tokens obtained. When the number of operations of the token is less than the specified number of pieces, The token is only supplied from the bucket 408 to the accessory device. On the other hand, when it exceeds the specified number, Then inform the main control department of its information. The main control unit finds a multiple of the specified number of the closest number of acquisitions, Calculate the number of capsules needed. After this operation ends, Controlling the motor motivation 514, Set the wheel to the lowest position. The main control department will position each capsule, Whether the capsule has token information, Update the memory in RAM sequentially, The main control department refers to the record of billions of information. The necessary quantity of the capsule containing the token is in contact with the aforementioned roller, The aforementioned roller maintains the state at the lower end. After the token is supplied from the necessary number of capsules to the accessory equipment, Move the roller up. The main control unit controls the motor, Fully push the flange of the token capsule so that the upper sphere and the lower sphere are indeed opened. And between the flange and the roller ^ contact, the torque is fully applied to the roller. The motor shaft 515 is abutted by the one-way clutch 520, The motor is not damaged by the reverse input acting on the motor shaft 515. The main control department controls the bucket, Make the token from the bucket of the accessory device, The opening 517 of the capsule supplied to the empty space for supplying the token to the accessory device. The main control department is up to the bucket where the specified number of tokens is replenished to the air. The rotation of the rotating disk 502 is stopped. The bucket that supplies the accessory equipment of the token is supplying the token to the amusement field, etc., when the token cannot be replenished. Then the token is from the bucket of the accessory equipment next door, Replenish to capsules. -26- 200932324 As shown in Fig. 5 above, there is a ball branching machine 308 in the middle of the ball circulation path. E.g, When the attached equipment is used for the above-mentioned slot machine selection and the prizes are set, As a small reward that is not a lottery, Feed one ball to the attached device. that is, The ball is discharged from the diverging machine 308 to the path of the ball revolving disk 400 that is attached to the accessory device. The discharged ball system is supplied to the ball revolving disk 4 00 of the accessory device, Next, The token field that is supplied to the attached equipment. The ball that is supplied to the token game field, It is captured by the ball separating device shown in Fig. 10, And sent to the color recognition means 316 of the ball. The detailed construction of the dissimilar machine will be described later. In Figure 5, A chance machine 322 that rotates in a small path with the color gold separating machine (the golden ball rotating disk shown in Fig. 22, 19) (Fig. 24, 23 of 19E 19), The system is placed at the end of the opportunity path 18. This machine mechanism is configured as an arch that can hold the ball. The opportunity machine is via a robotic arm (Figure 25), The rotation mechanism 19 is integrally fixed to the cylindrical shape. The main control department is outside the time when the winnings are established. Rotating the rotating mechanism, The robot arm surrounds the periphery of the rotating mechanism 19 in conjunction with the rotating mechanism. At the end of the opportunity path 18, The ball rotating disk 77, which receives the ball dropped from the opportunity path, is fixed to the bottom surface of the golden ball rotating disk 19. and then, At the lower end of the small ball turntable, There is a large diameter ball receiving portion 78, Contrast with the ball turntable. The ball receiving portion is in communication with a descending path 79 for delivering the ball to the ball storage portion. The chance machine moves between the ball rotating plate 77 and the ball receiving portion 78, Sliding off the path of the opportunity and dropping the ball of the small ball, From the time when the ball rotary disk falls to the ball receiving portion 78, as long as the timing is correct, Opportunity Machine -27- 200932324 The system can capture the ball between them. When the opportunity machine captures the ball, The ball will abut the protrusion 179 formed on the bottom surface of the golden ball rotating disc. The ball system falls from the opportunity machine, Switched to move to the usual path. The projections 179 are present directly above any of the generally circulating paths. With this, Increase the number of balls that should enter the lottery path, And the player can see the ball. And if it continues to be explained in conjunction with Figure 5, As above, When the ball is placed at the correct opportunity 〇 on the chance machine 322 (77 of Figure 25), The ball system switches from the opportunity path to the normal cycle path 14A. If the timing is not correct, The ball will be recovered by the storage unit (ball slot) 3 26 . Accept the control signal from the main control unit, The ball system of the storage portion is lifted from the storage portion by a pedestal elevator 328. Via the color detection machine 3 3 0, Arrival ball supply machine (ball supply direction switching mechanism). The main control unit controls the ball supply machine 332, And determining to supply the ball to the opportunity path 18, Or supply to the circulation path 14A, Or transfer to the path to use the © to drain the dirty ball. When the ball supply machine 332 transfers the ball to the chance path, The ball is supplied to the division 18D of the central lift. Raise the ball to the beginning of the machine path. The supply of the ball to the opportunity path is performed in accordance with the following conditions. Each time an accessory device puts a token into the field, The main control department receives the token input information from each accessory device. Perform the calculated operation. In this operation, Erect specific flags at a given probability, When the flag is established, The main system directs the direction of the ball supply machine 32 to the opportunity path. Feed the ball to the opportunity path. -28- 200932324 Again, After the color gold is generated, the ball that surrounds the circulation path will disappear. Therefore, the main control unit causes the ball supply device 3 3 2 to face the guide portion 14 0A of the path 14A, The ball is supplied to a prescribed number of parts to the circulation path. also, The dotted line of Figure 5 is shown in Figure 25. The rotating mechanism 1 9 (320) is integrated with the chance machine 77 (322). When passing from the storage unit 326 through the pedestal lift 328, The ball system detects the machine 3 30 by the color of the pedestal lift 328, The color is detected. result, 〇 Various functions can be added to the main control unit. The main game is a game that competes for the above-mentioned prize money. The game here is for the main game, Equivalent to a small entertainer, E.g, For all attached equipment, When detecting the first few balls, The number of corresponding tokens relative to the color of the ball is increased by several times. The path of the circulation path or the like is formed by connecting the orbital modules of various shapes. Figure 1 3 is to reveal the track module, The track module is revealed in a perspective view. The track module is guided by the guide plate 700, The track guide 702 and the resin rail 704 are formed. 导引 The guide plate 700 is a rigid strip plate of metal or the like. The track guide portion 702 and the resin rail 704 are described later. Installed on the guide plate. The path of the ball of the track module is determined by the shape of the guide plate. As shown in Figure 1 3 ’, except for the straight line, By using the state of the plate surface as a circular arc or making the plate surface wavy toward the normal direction, The moving path will become straight, Arc-shaped, Wavy and so on. The track guiding portion is installed in plural guide plates, Any one of the same shape. Figure 1 7 shows the track guide, a cross-section of the resin track and the guide plate, The track guide is slightly U-shaped. The hook claws 710 which are opposite to each other from the both sides -29 to 200932324 of the lower end portion are protruded from the base portion 712 on the side of the guide plate 7 . The track guide portion utilizes a space formed by the base portion 712 and the claws 710. Through the guide plate, Installed on the guide plate. The space formed by the lower end portion 712 and the hook claw 710 is larger than the outer shape of the guide plate. and so, The track guide is slidable in the direction in which the guide plates are free of hooks. For the individual two wrists 714 on the upper part of the track guide, At the front end and the base end, A recess having a substantially circular cross section (which may be a through hole) 705 is attached to the direction in which the resin rail 704 can slide. Each two runs through, It runs through 4 places in total. The resin track is a rod-shaped resin having a circular cross section. Along the length of the guide plate 7〇〇, Using two recesses 710 each of which has a total of four through-track guides, Installed on the guide plate. The diameter of at least a portion of the U-shaped recess 710 is smaller than the shape of the track guide. The track guide and the resin track are as described later. Become one move. The ball system rolls over a groove-like space formed by a resin track. Do not touch the components other than the four resin rails. Furthermore, The material of the resin track is as long as it can be elastically deformed to follow the shape of the guide plate. A suitable resin can be used. Installed in a plurality of track guides of the guide plate, At least one of them is fixed to the guide plate with a screw or the like. In Figure 13, For one guide, There are 3 track guides, The central track guide is fixed to the guide plate. but, The other two systems can be slid on the guide plate. As a result, Even in the event of temperature changes, The condition of the resin track expansion, By sliding the track guide and the resin track into the guide plate, It can prevent the ball from rolling down by the deformation of the groove-like space formed by the four resin rails -30- 200932324. And other rail module and other interventions. As shown in Figure 14, A joint rail guide portion 708 is provided at the joint portion of the two rail modules. The guide plate of the joined track module and the track guide 706 for the joint portion, Is separate from the base plate gold, Use a joint member such as a screw to fix it, The loading and unloading of the base plate gold can also be performed individually. The rail guiding portion of the joint portion is the same as the rail guiding portion. The composition is slightly U © word, On the front end of the two wrists and the concave end of the base end, Pass through the resin track. However, unlike the track guide, The rail guide portion of the joint portion is loosely fitted to the resin rail system. also, By sufficiently spacing the ends of the resin tracks of the joined track modules, The expansion and contraction of the resin track can be made without affecting the joint. The above loop path, Lottery path, then, The opportunity path is composed of a plurality of links to the track module. 15 to 20 are perspective views illustrating the branching machine 308 of Fig. 5. The divergent machine is on the way to the circulation path. Set on the front side of each accessory device. This divergent machine will roll one ball to the loop path 14A. Stored inside, According to the slot machine of the selection game of the accessory equipment, The ball is supplied to the ball revolving disk 400. Furthermore, at this time, The main control unit replenishes the ball to the circulation path. The connecting ends 726 formed by the two components of the resin track of the insertion port track module are respectively disposed at both ends of the branching machine. The branching machine is provided with a hollow cylindrical cup portion 724 that is rotated by the motor 701, It is freely rotatable from the opening 723 provided on the curved surface of the cup to the upstream side in the rolling direction of the ball. The position of the opening portion (refer to Fig. 15) and the ball -31 - 200932324 The arcuate claw 725 accommodated at the position of the cup. The elastic shaft of the claw is provided with an elastic spring that plucks the claw toward the direction in which the cup protrudes. When the claw does not catch the ball, The system becomes Figure 15. The position shown in Figure 16. The center of rotation of the cup is consistent with the central axis of the cylinder. As will be described later, Usually the opening is facing upwards. The cup portion is configured to be disposed between the respective joint ends 726 at both ends of the branching machine. The axis of rotation is orthogonal to the direction of the ball. And become a level. When the ball rolling on the path abuts the claw 725 protruding from the curved surface of the cup, The claws are pushed by the ball, And turn to the direction of the ball. The center of rotation of the claw is located on the upstream side curved surface 727 of the cup portion. The ball 522 is in a state of being caught by the claw 725. It is contained inside the cup together with the claw. When the claws and balls are contained in the cup, Exposed from the opening of the curved surface of the cup according to the outer circumference of the ball that does not protrude from the path and the inside of the cup, The other ball system rolls on the outer peripheral surface of the ball in the cup. It is carried out on the path while passing through the divergent machine. As shown in Figure 18, The two end connecting portions 72 6 are disposed on the branching machine. ❿ becomes the upstream side rail 734A and the downstream side rail 7 3 4B at both ends of the divergent machine, A step difference occurs in the up and down direction. The divergent machine system makes the downstream side track lower. With this, The acceleration of the drop is given to the ball passing through the machine of the divergence machine, The ball will not stop at the part of the machine. The different machine system has a sensor 728 that detects a ball in the cup portion 724. This sensor is composed of a light-emitting element and a light-receiving element. The light-receiving element and the light-emitting element are opposed via the cup portion. The cup is made of transparent resin. It has sufficient light transmittance which does not hinder the light path between the light-emitting element and the light-receiving element. Because the ball is blocked by the claws, when the ball is held together with the claws in the cup -32- 200932324, Will block the light from the illuminating element. The main control unit detects that it is contained in the cup by analyzing the signal from the sensor. also, Because the cup is transparent, the entertainer can accommodate the ball inside the cup. E.g, In terms of the color applied to the ball, The price of the ball is different, By identifying the ball that the entertainer seeks, This situation can be appealed to gamers. Set the encoder on the motor, etc. The amount of rotation of the G machine can be checked by the main control unit. The rotational position of the cup is detected. The opening of the cup is upwards, but, When the attached equipment is selected and elected, The main system gives the motor a rotation signal, Rotate the motor, Let the cup go down. A ball receiving guide 722 is disposed below the cup portion, The ball is dropped from the opening to the ball receiving guide. This ball is subjected to a path leading to the ball revolving disk of each accessory device. at this time, Rolling other balls, Rolling on the surface of the cup, Go through the path while passing the device. after that, The main control unit is such that the cup half rotation + cup opening faces up and the approach path. At the same time, the claw 725 protrudes from the opening to capture the ball. As shown in Figure 5, The ball circulates in the normal circulation path 14A, At 14C, The branching machine 308 (Fig. 15) is housed in a branch machine for each accessory device. When a token is selected in a subsidiary device and a specific prize is established, The accessory equipment control unit sends the control to the motor of the branch machine. The ball is released from the disparate machine to the accessory device 410 established. The ball revolving disk 400 (Fig. 6) is attached to the path of the game by the optical element. The output of the game is measured by the optical element. The motor is usually connected to the control unit opening to the inside of the cup. Let , Preparation 14B, , And the ball, Sending a signal to the specific award field -33- 200932324 Set to the ball movement path 3 09 (Fig. 5) in which the ball moves from the divergent machine to the amusement field in the attached device. The ball revolving disk is attached to the amusement field. Temporarily retain the ball from the different machines, The accessory equipment control department checks the retention of the ball in the ball return dial. When certain conditions are met, a ball that fits into the ball retaining hole of the ball reel, Released to the casino field. When it meets other specific conditions, It is judged that the above-mentioned winnings are generated. Fig. 19 is a perspective view showing the entire perspective view of the ball revolving disk. Ball Rotating Disc System © Inside the frame 750, Disk 737 is normally rotated by the motor in the direction of arrow 752. The disk 737 is tilted slightly downward toward the center. The outer peripheral portion of the disk 737 is provided with a side disk 742 that rotates integrally with the disk 737. The outer side disk 742 has a step and is disposed only above the inner disk 737. And it is slightly inclined downward toward the center of the disk 737. A ball retaining hole 73 9 that can accommodate the ball 5 2 2 B is formed in the center of the disk 7 3 7 . and then, A ball retaining hole 741 having a total of five accommodating balls 522C is formed uniformly on the outer circumference of the disk 73 7 . ® as shown in Figure 20(A), An interference disk 746 is disposed under the plane plate, Pass the ball entering the retention hole through the retention hole. Fig. 20 (B) is a plan view of the interference disk. The opening and closing area of the interference disk indicated by 753, The interference plate is notched, By virtue of this setting of gate means, The gate means can be used to open and close the area of the 753 to control whether or not the ball entering the reserved hole is discharged to the discharge duct 744. The discharge duct 744 is for releasing the ball from the ball revolving disk to the pushing portion of the amusement field of the accessory device. Tilt down slightly from the ball turntable, The ball that is discharged to the discharge conduit 744 is by its own weight, Rolling the induced path at the top end of the push section, Drop onto the pusher. The discharge conduit -34- 200932324 744 is in the diameter direction of the disk 737, The central ball retaining hole 739 is reached. By the range of the opening and closing area of the shutter means by the accessory device control unit, Control the position of the gate, Only open the central ball retention hole 73 9, Or open the central ball retaining hole and the ball retaining hole 741 on the outer peripheral side. The detailed structure of the gate means is shown in FIG. The 750A is called the flap means of the flap. The motor 757 is centered on the rotating shaft 752. Rotate in the direction of arrows 784 and 786, that is, Rotate the movement Q through the arc of the center of the ball retaining hole and the center of the outer ball retaining hole. Reference numeral 75 4 is a crank that connects the rotating shaft of the motor and the rotating shaft of the flap. and so, Even if the motor rotates in the same direction, The flaps can also be moved back and forth. The portion formed by the flap symbol 75 1 is used to close the remaining hole in the outer periphery of the disc. Symbol 7 82 is used to close the retaining hole in the center of the disk. Symbol 781 is used to open the opening of the retention aperture. When the flap is rotated to the maximum of the direction of the arrow 786, The gate region 782 does not overlap the central retaining bore. And the opening 781 is integrated into the outer peripheral retaining hole. Therefore, both sides can be opened. This is the fully open state of the flaps. on the other hand, When the flap is rotated to the maximum in the direction of arrow 784, The central hole is closed with the gate area 728. The peripheral hole is closed by the gate region 753. This is the fully closed state of the flaps. and then, In the state of the rotation angle in the middle of the flap, Open the central hole, Close the peripheral hole. This is a half-open state of the flaps. In this embodiment, The accessory equipment control department releases the ball into the central hole, The ball that enters the peripheral hole remains until the ball enters the center hole. Into the ball into the hole, -35- 200932324, The balls of the outer hole will be released. When all the peripheral holes are scoring goals, Then announced the winning prize. and so, The accessory device control unit is connected to the ball into the center hole. Set the flap to a fully closed position. Set the flap to the fully open position when the ball enters the center hole. Furthermore, Only release the ball in the center hole, The accessory equipment control unit makes the position of the flap half open. Or the ball in the outer ball retaining hole does not overlap the position of the flap, Stop the rotation of the disk, Next, Let the flaps be in the fully open position. Fig. 21 is a perspective view showing the internal structure of the ball revolving disk in which the illustration of the interference disk 746 of Fig. 20 is omitted. Motor 757, The rotating shaft 752 is fixed to the back surface of the substrate 780. Attached to the rotating disk 737 on the substrate, There are 3 light sensors 748, a light sensor 750 in the center, A total of 4 light sensors are used. Each of the photosensors is composed of a light-emitting element and a light-receiving element, respectively. Shielding the elements by a ball received in the hole, Receiving an accessory device control unit from the sensor's detection signal, The ball can be detected to be contained in the hole. Ο 3 photo sensors 74 8 are opposed to 5 ball retaining holes formed on the outer circumference of the disk 7 3 7 , Arranged on the circumference. The photo sensor 750 is placed at a position opposite to the center ball retaining hole. The accessory device control unit recognizes the rotational position of the disk 7 3 7 , By judging between the rotation of the disk, The light sensor 748 is covered several times, It can be found that there are several containment balls for the five ball retention holes in the periphery. but, In the present embodiment, in order to equally align the three photo sensors 748 on the circumference, Only the disk 1 can be rotated by 20 degrees. As the explanation of Fig. 19 is added, the symbol 522C is supplied to the ball reel, The ball that rolls on the outer disk 742. The supply of the ball to the ball revolving disk is performed by an arrow 759 which is opposite to the direction of rotation of the disk from -36 to 200932324. The supply direction of the ball is the street direction of the rotating disk. And relative to the outer disk. When the ball is supplied to the ball reel, 'the ball was rolled onto the outer plate as it was. The rotation speed is reduced, Descent toward the center of the disk. at this time, According to the timing of the movement of the ball and the rotation of the disk in the direction of the new direction, The ball will be embedded in the peripheral hole or the center hole. The outer disk 742 is opposite to the inner disk 737. With a step difference of 742A', the ball falls down, When moving in the center of the disk, The ball can be attached to the ball to give the ball a dynamic change. E.g, By attaching a small amount of momentum to the ball, It can also make the ball slightly difficult to enter the hole directly on the outside. Once the ball passes through the outer hole, It is easy to face the central hole. As continued back to Figure 5, The ball released from the ball revolving disk moves over the pushing portion of the field of play (404). As shown in Figure 6, The ball revolving disc is placed above the flat surface of the amusement field and above the pushing section. Therefore, the ball released from the ball back to the turntable is by its own weight. Move towards the playground field. Next, The ball is separated from the token by the ball (406), After the detection of the color of the ® ball (4 86), It is recycled by ball storage. As above, When the subsidiary equipment control department announces the establishment of the winnings, The main control device supplies all the balls of the winning gold path to the auxiliary equipment established by the winnings. Supplying all the balls between the accessory devices, The main control unit sends the game interruption control signal to the control unit of other accessory devices. The token game is interrupted. between, The display means of the attached device reproduces the performance image. After all the balls are supplied to the auxiliary equipment set up by the winnings, The main control unit supplies a predetermined amount of balls to the normal path. Start the token game with the target of winning the prize again. -37- 200932324 On the other hand, Because there are a large number of balls in the field of amusement equipment of the subsidiary equipment established by Choi Jin, It is necessary to detect the color of the ball and the payment processing of the token ends. Between the two, The accessory device control means is to interrupt the slot machine selection that is accompanied by the token game. At the time of the establishment of the lottery, a large number of ball systems were supplied to the flat surface or the pushing portion of the amusement field of the attached equipment. then, An embodiment in which the accessory control unit (Fig. 4) executes other control for determining the presence or absence of the creation of the winnings will be described. Figure 49 is a flow chart showing the control action of 〇. The accessory device control department repeats this flow diagram in step 1 000, Check if the lottery result of the slot machine in the amusement field of the attached device is 777. When the slot machine selection result is the first specific award (for example, "777"), As described later, Determined that the "Golden Opportunity" was established. Transfer to step I 120. In step 10 02, Check if the slot machine result is the second specific award (eg "111", "333" or "555"), When the judgment is affirmative, Then go to step 1 004. In step 1 002, it is judged by No. Then go back to step 1 000. At step 1004, The accessory device control unit rotates the motor of the above-mentioned branch machine. The cup portion 724 is brought to the position where the ball is released (step 1 004). With this, The ball system is supplied from the ball divergence machine to the accessory device ball reel. at this time, The above-described flap system is set to a fully closed position. after that, The accessory device control unit is in step 1 004, After releasing the ball from the divergent machine, After the prize for the ball of the accessory device ball reel is determined, that is, In step 1 008, which will be described later, After determining the position of the ball, Returning the cup portion 724 of the diverging machine to the position where the ball can be captured, After the cup 724 captures the ball, Position the cup, Set to prevent it from rolling in the path -38- 200932324 He is a player. The accessory device control unit is between the above-mentioned 120 degrees of rotation, Check the output of each sensor described above (step 1 006), Determine which hole the ball enters (step 1 0 〇 8). The accessory equipment control department is in the form of a control table. Which hole to put the ball into, Memory in the billion body. The accessory equipment control department is attached to the control table. The registration indicates that there is a ball "1" or no ball "2" in each hole. The accessory equipment control department checks the control table, It is determined whether the ball has entered the center hole (step iiio). When the accessory control unit is affirmed, Take the ball that enters the center hole as the ball of the ball. Even if the flaps are fully open, From the outside hole, the ball can not pass the position, After stopping the rotation of the disk 737, The flap is fully open (step 1112), Release the ball of the central retention hole from the ball revolving disk, The token pusher located in the entertainment area of the accessory device is released (1114). The device control department checks the output of the sensor of the central hole. After confirming that the ball is released from the center hole, Returning the flaps to a fully closed state, Go back to step 1 000 (step 11 14). ® The accessory device control unit is judged to be negative after step 111 Then check the control table, It is determined whether the ball has entered all of the remaining holes located at the outer circumference of the disk (step 1118). The accessory device control unit is determined after the determination in step 1118 is confirmed. When other accessory equipment is in the state of winning or challenging the prize money, Wait for the other device to end the state (step 1119). Next, The Affiliated Equipment Control Department acts as a winnings opportunity (to gain a challenge to the winnings), Stop the rotation of the disk 73 7 , After moving the flap to the fully open position, Rotate the disk. The accessory device control unit checks the output of the sensor for the outer hole, After confirming that the ball is all released from the outer hole to the token game -39- 200932324 area, Returning the flap to a fully closed state (step 1 122, Step 1 124). Next, The accessory equipment control department controls the divergent machine (Fig. 15), The ball is released into the accessory device ball reel (step 112 6). after that, The accessory device control unit is the same as steps 1〇〇6 and 1008 described above. Check the sensor output (step 1125), Further, the position of the ball is determined (step 1125A). The accessory equipment control department checks the control table, It is determined whether the ball has entered the center hole (step 1128). When the accessory device control unit positively determines © in step 1128, As a right to receive the winnings, The central control unit (Fig. 4) is notified (step 1130). The central control department accepts notifications from the auxiliary equipment control department. Handling of the winnings. The accessory device control unit waits for the processing of the winnings to be completed. Next, Fold back to the beginning. When the accessory device control unit determines negative in step 1128, Then go back to step 1 000. Furthermore, Such as challenging the gold, Lottery, Decide on the special interest status based on the results of the selection, The award status of the ball relative to the hole of the ball revolving disc, The difference between the ball entering the center hole or the outside hole, Or the difference between entering a few holes, It is not limited to the above form. Further, in the above embodiment, a plurality of accessory devices are combined as a game device. but, The accessory device unit should also be a game device. That is, In each accessory device, Providing a specific award in the video game based on the first game price (token) (slots • roulette selection) Pay the second game price (ball) to the second lottery (ball turn), When the second specific prize (the winning prize that lasts for the opportunity of the lottery) is established in the ball turntable according to the second game price, For the playground area where the first game price is used, A novel amusement device that pays a large amount of the second game price. -40- 200932324 In the above embodiment, There are multiple light-emitting means in the lower part of the frame. When lighting up above the frame, The track of the track module is constructed by using a white reflective resin. The track module can be colored. This can improve the design while The color of the light is changed by the main control unit in accordance with the processing state of the game. Can play the game state, Notify the entertainer. Furthermore, The above embodiment is an example of an appropriate implementation of the present invention. but, Not limited to this, In the context of not leaving the gist of the present invention, Various modifications can be implemented. E.g, In the above embodiment, As an example of the dissimilar machine 3 08, The case of the arched claw 725 has been described (refer to Fig. 15 and the like), but, As other embodiments of the diverging device of the present invention, Another example of the divergent machine 3 08 is disclosed (see FIGS. 29 to 32) ° is the same as the above embodiment. The branching machine 308 of the present embodiment also captures the ball 522 of the game object in order to store it once. a machine located on the way of the auxiliary equipment on the way of the circulation path. a cup-shaped portion 724 having a channel shape rotated by a motor ® 7〇1, Detecting a sensor 728 having a ball in the cup portion 724, A plate member 729 formed around the cup portion 724 or the like. The cup portion 724 functions as a portion (accommodating portion) for accommodating the ball 522 once. Furthermore, In the present embodiment, the plucking means for the elastic spring or the like for the plucking claw 725 is not provided. The cup portion 724 and the claw 725 are rotated only by the driving force of the motor 701. In the state in which the opening 723 of the cup 725 is upward (see FIG. 30), the cup portion 724 is formed so as to protrude upward from the line on the downstream side of the cup portion 724 (the downstream side in the rotation direction of the ball 522). In this manual, Said -41 - 200932324 for the prominent position). So including the claw 725, The cup portion 724 of the present embodiment has a slightly J-shaped front view (see Fig. 30 and the like). In this prominent position, The claw 725 is obstructed along the path (usually the circulation path 14A, 14B, 14C) The circulation of the ball 5 22, It is induced to the cup portion 724 (see Fig. 30). At this time, the claw 725 of the present embodiment which is formed in a nearly straight line is formed. The ball 522 can be caught in the loop. It is induced to the cup portion 724 (see Fig. 29, etc.). The sensor 728 is the same as the above embodiment. The light-emitting element and the light-receiving element are disposed by the holding cup portion 724 (see FIG. 32). at this time, The cup portion 724 is formed of a transparent resin that ensures the transparency of the sensor light. As in this embodiment, a portion is provided with a notch for passing light through the sensor (for example, The slit 724S) may also be (refer to FIG. 32). The cover 721 is formed around the cup portion 724 and the like. Cover the cup 7 24 and so on. E.g, In this embodiment, Bending the two sides of the plate-shaped cover 721, The cup portion 724 or the like is covered from the upstream side and the downstream side in the ball rotation direction (see Fig. 29). and then, A plate-like member 72 9 is provided on the downstream side of the cup portion 724. The cup portion 724 rotated by the motor 701, Attached to the storage position in the state in which the ball 522 is accommodated, The position at which the ball 522 is discharged toward the ball receiving guide portion 722 (see Fig. 31) is changed. that is, When the ball 522 is induced by the pawl 724 to the cup 724, the sensor 728 detects the ball 522. In this way, The motor 701 is driven to rotate the cup portion 724 by 90 degrees. Stand by in the state of receiving the ball 5 2 2 that is, Change to the storage position of the storage ball 5 2 2 . In the shelter position, The ball 522 is held in a state in which the cup portion 724 and the claw 725 are surrounded by the plate -42 - 200932324 member 72 9 . also, When the cup portion 724 is rotated by 90 degrees from the accommodating position, The opening 723 changes to a discharge position toward the lower side (refer to Fig. 31). In the release position, The cup portion 724 releases the ball 522 toward the ball receiving guide portion 722 and causes it to fall. also, The ball 522 is received in the receiving position or the releasing position in the cup portion 724. The claw 725 does not protrude from the path. Therefore, the other ball 522 is rolled on the cup portion 724. Pass the divergence machine 308. here, In this embodiment, The outer shape of the cup portion 724, The shape of the movement of the other balls (balls other than the balls to be stored) which are rolled on the path in each position of the cup portion 724 is not hindered. Specifically, By a plurality of flat portions 724A, The combination of 724B forms the outer circumference of the cup 724, At least in the receiving position and the releasing position, The shape of the upstream side rail 734A and the downstream side rail 734B is smoothly connected (refer to Fig. 31 and the like). at this time, Each flat portion 724A, The 724B can be leveld in the storage position and the release position. but, Ideally as in this embodiment, Formed to be only inclined downward, The ball 522 can be rolled more smoothly. and then, A detection device 800 for detecting the amount of rotation or the direction of rotation of the cup portion 724 is provided in the branching machine 308. E.g, The detecting device 800 of the present embodiment is coupled to a rotating shaft 707 that connects the motor 701 and the cup portion 724. Providing a light shielding sheet 801 that rotates integrally with the rotating shaft 707, The position of the light shielding sheet 801 is detected by a plurality of photo sensors 802. The number and configuration of the photosensors at this time can be appropriately set. but, For example, in this embodiment, Four photo sensors 802 are disposed on the upper, lower, left, and right sides with the rotation axis 707 as the center. Via the light shielding sheet 801, The rotation amount or the rotational direction position of the cup portion -43- 200932324 7 24 can be detected every 90 degrees. If the detection result by the detecting device 800 is utilized, The cup portion 724 can be placed at each position (housing position, The release position or the protruding position of the claw 725 is correctly positioned. Furthermore, It is also preferable that the above-mentioned claws 725 are composed of a plurality of sheets. E.g, The claw 725 of the present embodiment does not interfere with the plate member 7 29, It is formed by two parallel protrusions arranged at a predetermined interval. As a result, One side suppresses the weight increase of the claw 72 5 , One side can more accurately capture the advantages of the ball 522. and, According to the claw 725 of such a shape, There is a cup portion 724 from the protruding position to the accommodating position, And then to the release position change, The ball 522 can be brought close to the center in the width direction. The advantage of moving in a stable state. also, It is preferable that the cup portion 725 which is the accommodating portion of the ball 5 2 2 is formed of a member having light transmissivity. As a result, The player can be identified in the game from his own accessory device (the terminal device 12 that can execute the game). Whether the ball 522 is contained in the cup portion 724, and then, The color applied to the ball 522 is recognized. For example, in this embodiment, The cup portion 724 is formed by a transparent or translucent member having a degree of transparency of the ball 522 which can be accommodated in a state of being externally viewed from the outside (see Fig. 29). also, Regardless of the permeability of the component, In order to be able to visually visualize a portion of the ball 522 of the cup portion 724, For example, a plurality of through holes 724H' may be provided on the side of the attachment portion side of the cup portion 724 (see Fig. 29). Further, in this embodiment, On both sides of the ball rolling direction of the cup portion 724, a side cover 731 provided to prevent the ball 5 22 from rolling off, 73 2 (Refer to Figure 29, etc.). The side covers 731, 732 is also the same as the cup portion 724 described above. a member having light transmissivity (for example, Formed from plastic sheet materials, etc.). -44- 200932324 The branching machine 3 08 of the present embodiment is arranged in the middle of the circulation path. Keep it on the front of the accessory, Catching a ball 5 22 that rolls over the loop path 14A, Stored inside, Arrangement of slot machines according to the selection of ancillary equipment, The ball 522 is supplied to the ball revolving disk 400. also, In the divergent device 3 08 of the present embodiment, Do not use plucking means such as elastic springs, The cup portion 724 (and the claw 725) is rotated only by the motor 701. to this end, There is no plucking means using an elastic spring or the like. © When the cup portion 724 and the claw 725 are rotated, the plucking means is fatigued (elasticity is deteriorated, That is, the elasticity is fatigued, There is no need to consider such a state. Furthermore, In the embodiment shown in FIGS. 29 to 32, Has revealed that the shape is almost straight, It is easy to catch the claw 725 of the ball 522, But this is only an example. In addition, Needless to say, for example, a claw such as a bow shape disclosed in the first embodiment can be used. (About the ball supply machine (base classification machine)) Here, The ball supply device of the amusement device 1 of the present embodiment (hereinafter also referred to as a pedestal sorting machine), An example will be described in detail below (see Figs. 33 to 39). Base sorting machine (ball supply machine) 3 3 2, The ball 522 is supplied to the opportunity path 18 as an option. Or supply to the circulation path 14A, Alternatively, it is provided by a device that discharges any of the dirty balls 522. E.g, The pedestal sorting machine 322 of the present embodiment is disposed near the center bottom of the amusement device 1, The ball 5 22 temporarily stored in the storage portion (ball slot) 326, It is selectively supplied or discharged to any path (refer to Fig. 39, etc.). The pedestal sorting machine 332 is provided with a color detecting device 303 (see Fig. 34 and the like) that functions as a color detecting means and a dirty detecting means. The color detecting device 380 uses, for example, a light-receiving element 330b that detects a light-emitting element 333a composed of a white LED and light (see Fig. 37, Figure 38, etc.), By transmitting the transmitted light when the ball 522 composed of the light-transmitting material is irradiated, The color of the ball 5 22 is detected. More specifically, The RGB components of the transmitted light detected by the light-receiving element 3 30b are analyzed, The color is detected based on the analysis result. and then, The color detecting device 330 of the present embodiment is also based on the amount of light transmitted through the light. Dirty balls are detected. that is, When the amount of light transmitted through the light is less than the predetermined amount, Then, it is judged that the ball 522 has been soiled to a certain extent or more. The ball 522 of the dirty house is judged to be discharged from the pedestal sorting machine 3 3 2 in the rear stage. also, The color detecting machine 3 3 0 is provided to make the ball 522 suitable to stop, Color detection, after that, A delivery mechanism for sending one by one. E.g, In this embodiment, On the path of the ball 5 22, Set the cam 330c for sending the ball, With the delivery cam 330c, Properly stop the ball 522, Furthermore, it is sent one by one (refer to FIG. 37). The ball feeding cam 33 0c is, for example, a pair of notches that are formed in a circular arc shape that is formed in a spherical shape in the vicinity of the disk portion. Therefore, each time the ball is rotated 180 degrees, then each ball 522 is sent out. The ball 522 can be stopped by abutting the portion other than the notch. A cam position detecting contact piece (detected piece) 330d that rotates in the same amount as the ball feeding cam 330c is provided on the rotating shaft of the ball feeding cam 330c. The cam position detecting contact piece 330d is a small piece similar to the delivery ball 330c, and is disposed at the 'closed cam position confirmation sensor-46-200932324 3 3 0e, The rotational position is detected (refer to Fig. 37). The motor 33 Of is provided as a drive source for rotating the delivery cam 33 0c and the cam position detecting contact 3303d (see Fig. 37). The rotation of the motor 3 3 0f is via the motor side pulley 3 3 0g, Belt 3 3 0h, Cam side pulley 3 3 0i, The rotation axis of the delivery cam 3 3 0c and the cam position detecting contact 3 3 0d (transfer Fig. 38) » The pedestal sorting machine 332 is provided with a ball 522 supplied to the chance path 18 18 or the circulation path 14A. Or a branching mechanism for discharge (see Figure 33, etc.). E.g, The branching mechanism of the present embodiment is provided with a ball 5 22 that is fed by the ball feeding cam 3 3 0c of the color detecting device 330. The ball guiding portion 3 3 2a that is positioned to fall from the hole, And a rotation branching path 332b disposed at a lower portion of the drop hole of the ball guiding portion 3 32a. The rotating divergence path 33 2b is a device for classifying the ball 522 into three directions. The groove-shaped guide portion that is inclined toward the supply (or discharge) destination is rotated (rotated) by the driving force of the motor 332c to change the delivery direction. Cut © to change the path setting. The motor 332c of the present embodiment is disposed below the rotation branching path 332b. Through the speed reduction mechanism 332d of a gear or the like, The rotation branch path 3 32b is rotated (rotated back) (see Fig. 33 and the like). also, The arrangement of each path or the like centering on the pedestal sorting machine 332 can be appropriately set. For example, in this embodiment, When the direction of the ball of the color detecting means 330 is the upward direction (refer to Fig. 36), The discharge path 3 3 3 of the dirty ball 522 is set in the upper direction (about 0 o'clock to 1 o'clock direction), respectively. In the right direction (about 3 o'clock to 4 o'clock direction), the inductive path 334 to the opportunity path 18 is set, The guidance path to the circulation path 14A is set in the lower direction (about 6 o'clock direction) -47- 200932324 335 (refer to FIG. 36, Figure 37, Figure 39, etc.). The discharge path 3 3 3 of the dirty ball 522 is configured by a vertical frame (see FIG. 37) to induce the ball 522. The flow is discharged to the direction of the line indicated by the broken line in Fig. 39 until the exit edge of the specific accessory device (see Fig. 39). Therefore, the color detecting device 330 determines that the ball 522' having been stained or more is passed through the pedestal sorting machine 332 and the discharge path 333. The path is excluded. The induction path 334 to the chance path 18 is formed, for example, by an inclined plate having a wall portion having a narrow tip end (see Fig. 37 and the like). The induction path 3 34 is arranged to supply the ball 522 to the zone 18D of the center elevator (see Fig. 39). The induction path 335 to the circulation path 14A is arranged such that the ball 5 22 is supplied to the division of the center elevator (see Fig. 39). also, The induction path 3 3 5 of the present embodiment passes through the lower portion of the casing of the color detecting device 330. Bend on the way and turn to the right (about 3 o'clock), It is formed into a shape that is connected to the center elevator (see Fig. 34, etc.). also, In the above-mentioned discharge path 3 33 and the induced path 3 34, The 335 series is provided with a ball sensor 33 3s, 3 34s, 3 3 5 s (refer to Figure 36, etc.). The ball sensors 3 3 3 s, 3 3 4s, 3 3 5 s is for example composed of a light sensor, The discharged ball 522 or the ball 522 induced to each path 18' 14A is detected. The ball sensor 3 34 s is disposed in the thinner portion of the leading end of the induced path 3 34. The ball 522 can be detected individually, And calculate the number. (About the movement path switching device 380) The moving path switching device of the amusement device 1 of the present embodiment -48-200932324 380, An example will be described in detail below (see FIGS. 39 to 47). The movement path switching device 380 of the present embodiment is provided with a switching path 381. 3818, Link 384, 385, Rocker 386, The structure of the motor 387 or the like (refer to FIG. 40 and the like). The movement path switching device 380 is incorporated in the middle of the circulation path 14A and the circulation path 14B (see Fig. 39 and the like). For example, in the case of this embodiment, The moving path switching device 3 80 is constructed in two stages, Pass the upper path with the loop path 14A, The circulation path 14B 形成 is formed by the lower stage, Switch the path at the time, The ball 522 is sent to the lottery path 16 and the connected set path 16C (see Fig. 40 and the like). Switch path 381A, 381B is set at the fulcrum of the frame 383 3 82A, 3 82B is the center, It can be rotated up and down (refer to Figure 43 etc.). The switching path 381A of the upper stage switches the normal path 14A and the set path 16C (the goldens path 16). The lower switching path 381B switches between the normal path 14B and the set path 16C (the goldens path 16). Up and down switching path 381A, The 381B is connected by the left and right links 384. Rotate the same amount at the same time (see Figure 41, etc.). The link 384 is for each switching path 3 8 1 A, 3 8 1 part of B (eg bottom), Bolted, Relatively rotatable state. The upper end portion of the other link 385 is coupled to the bottom of the switching path 381B in the lower stage (see Fig. 41 and the like). The lower end of the link 385 is attached to the rocker 386 of the rotating shaft of the motor 387. The bolt is coupled from a position shifted by the rotation axis of the motor 387 (see Fig. 46 and the like). The motor 387 is used as the switching path 381A, The 381B acts by rotating the drive source up and down. When the motor 387 is driven, The rocker 386 mounted on the rotary axis -49- 200932324 will rotate. Via other links 385, Link 384 and upper and lower switching paths 381A, The 381B will move up and down (see Figure 43, etc.). in this way, The connecting rod 3 84 and the upper and lower switching paths 381A, Part of 381B (for example, The link 3 84 is provided near the portion where the upper switching path 381A is bolted, and the detected piece 388 is provided (see Fig. 44 and the like). also, The frame 3 83 is provided with a sensor 3 89A for detecting the upper and lower sides of the detected piece 38 8 , 3 89B (refer to Figure 43, etc.). According to the sensing device 3 89A, 3 89B caused by the test piece 3 8 8 test results, Can confirm the switching path 3 8 1 A, 3 8 1 B up and down position. Furthermore, For example, using a base plate 3 90 having a long hole, etc. Can be used for sensor 3 89A, 3 89B installation location change, Easy to change sensor 3 89A, 3 89B up and down position (change Fig. 44). also, On the way to the collection path 16C connecting the color gold path 16, a sensor 391 A composed of, for example, a photo sensor is provided. 391B (refer to Figure 47). According to the sensors 391A, 391B, By switching the path Ο 381A, When the 381B path is switched, The ball 522 can be confirmed to be fed to the collection path 16C by detecting the actual ball 522. and then, As above, The moving path switching device 380 is required as needed. It is preferable to have (or set up) a shutter means for obscuring the flow of the ball 522. When the prize money is transferred, Will switch path 381A, When 381B is switched to the side of the set path 16C, It is possible that the upper ball 522 and the lower ball 522 interfere with each other on the way to hinder smooth flow. but, Just use the gate means, It is suitable to block the flow of one side, The ball 522 is smoothly fed into the winnings path 16. For example, in this embodiment, From the moving path switching device 380 -50- 200932324 to the central elevator (lifting mechanism) 20, Forming the upper and lower ball paths (indicated by symbol 392 in Fig. 39), Set only the ball path 392 for the upper segment, A shutter device 3 93 that blocks the flow of the ball 522 (see Fig. 39). The gate device 393 is for the ball path 392 of the upper segment. Make a shield (for example, Masking board, Covering cover, etc.) Constructed as a shadow ball 522, An electric motor 3 94 for actuating the shield is provided. As above, The movement path switching device 380 of the present embodiment is configured such that both the circulation path 14A and the circulation path 14Β pass through the upper and lower sides. And the connecting path 384 is connected to the upper and lower sections by the connecting rod 384, 381Β, Make it move at the same time, Therefore, even with a single power source (such as an electric motor), It is also possible to control a plurality of moving paths. and, In this embodiment, By the minimum required (in this embodiment, Only for the upper and lower two ball paths 3 82 above the number of gate devices 3 93, The smooth flow of the ball 522 when the bonus is transferred, The number and cost of the device can be suppressed. also, Using the gate device 393, When the winnings are transferred, Smoothly send the ball 5 22, Therefore, there is an advantage that the process of the game will not be hindered in the way. (about cleaning the machine) Next, With respect to the cleaning machine 3 70 of the present embodiment, Explain (see Figure 4 8). The cleaning machine 3 70 is a device for cleaning the dirt attached to the surface of the ball 522, If necessary, It is disposed in the amusement device 1. E.g, In this embodiment, It is set on the way to the loop path Β (14Β). The cleaning device 3 70 of the present embodiment is a motor 371, Transfer screw 372, A device composed of a cleaner 373 or the like (see Fig. 48). among them, -51 - 200932324 The transfer screw 3 72 is composed of a member formed by a spiral conveying projection. By rotating in a certain direction, The ball 522 is transported to the axial direction. A ball guiding portion 374 is provided in the vicinity of the conveying screw 372. The ball guiding portion 3 74 is disposed between the conveying screw 3 72 and the conveying screw 3 72. The formation of the ball 5 22 can be arranged in such a manner as to accommodate the interval. It acts as a suppressing portion that does not drop the ball 522 (see Fig. 48). The cleaner 373 is composed of, for example, a Q roller having a cleaning body such as a nonwoven fabric on its surface (see Fig. 48). The cleaner 3 73 has its rotation axis nearly parallel to the rotation axis of the conveying screw 3 72, Further, the surface of the cleaning body is brought into contact with the state of the surface of the ball 522 in the conveyance. also, a pulley 373a disposed on a rotating shaft of the cleaner 373, Between the pulley 3 72a provided on the rotation shaft of the conveying screw 372, The belt is rotated to convey the rotating belt 3 75 (refer to Fig. 48). The motor 371 of the cleaning machine 370 functions as a power source for rotating the conveying screw 3 72 and the cleaner 3 73. For example, in this embodiment, The conveying screw 3 72 is directly rotated by the power of the motor 371, Using the above belt 375, a structure in which the cleaner 373 is rotated in the same direction, Simultaneously operating a plurality of machines with a single power source (refer to FIG. 48), according to the cleaning machine 370, Between the balls 522 being transported by the transport screw 372, The cleaner 3 73 can be brought into contact with the ball 522, Clean the attached dirt. and, The conveying screw 372 and the ball guiding portion 374 are not obstructing the rotation of the ball 5 22 itself. Therefore, in the cleaning machine 3 70, Allowing the ball 522 to rotate while allowing Clean the dirt while wiping a wide range of surfaces. -52- 200932324 In the above embodiment, The path of the ball cycle is route A, Path B and path C, but, May be suitable for increase or decrease. Figure 50 is a path composed of path A and path B, The original circulation path C is changed to a control flow chart of the ball supply dedicated path BS (Ball Supply) which supplies the ball to the circulation path A. A modification of the control flowchart of Fig. 5. As can be seen from comparison with Figure 5, In the control flow of Figure 50, Path BS is discontinuous for loop path A (14A) and loop path B (14B). But © Yes, The ball supply machine 332 is connected. When the ball is supplied from the ball supply machine 332 to the guide portion 140C corresponding to the circulation path BS, The ball system rises to the central lift 26C, Arrives at the beginning of the path BS. The ball system drops the path BS from the beginning of the path BS, In the junction 20 00 of the path BS and the path A, Move from the end of the path BS to the path A. The path BS ends at the merging unit 2000 with the path A. In the control flow chart of FIG. 50, The ball system obtained by the chance machine 322 is supplied to the funnel 3 12 of the circulation path B (14B). also, A cleaning machine 370 (Fig. 48) downstream of the funnel 312 located at Ο path B (14B) is provided. Figure 51 is a perspective view showing the center of the junction BS of the path BS and the path A, The path BS is formed to descend toward the path A from above the merging portion of the path A. In the confluence department 2000, For path A, The protective wall 2002 is disposed in the vertical direction, The ball that falls from the path BS toward the path A is not detached from the path A. It is assumed that even if the ball from the path Bs path is to be separated from the path A', the protective wall 2002 can be used. So that it does not fall off from path A. [Industrial use possibility] -53- 200932324 The present invention is applicable to a game device, Especially suitable for token gamers. BRIEF DESCRIPTION OF THE DRAWINGS [Fig. 1] A perspective view of the entire amusement device. Fig. 2 is a perspective view showing a path of a ball for moving to a frame of a game device. 〇 [Fig. 3] A perspective view of the elevating mechanism for lifting the ball from the lower end to the upper end of the path. [Fig. 4] A commemorative block diagram of the control mechanism of the amusement device. [Fig. 5] A control flow of a process of revealing a path of a ball moving inside a casing. [Fig. 6] A perspective view of an accessory device as a game terminal. [Fig. 7] A perspective view of a coin cup as a supply means for a token. [Fig. 8] A perspective view showing a state of an open token cup. Ο [Fig. 9] A perspective view of a mechanism for discharging tokens from a token cup is disclosed. [Fig. 10] an enlarged view of the amusement field of the accessory device, A perspective view of the separation of the ball from the token. Fig. 11 is a perspective view of a driving unit of the separating means. [Fig. 12] An enlarged perspective view showing the separated ball in the vicinity from the amusement field to the recovery mechanism. [Fig. 13] An enlarged perspective view of a track module for constituting a path. [Fig. 14] An enlarged perspective view of a joint portion of a plurality of track modules. -54- 200932324 [Fig. 15] On the way, A perspective view of the separation means used to separate the balls from the path. [Fig. 16] reveals the color of the detected ball, A flow chart for determining the processing action of obtaining tokens for tokens. [Fig. 17] A cross-sectional view of a path module. Fig. 18 is a front elevational view showing a distracting means placed in a joint portion of a path module. 〇 [Fig. 19] A perspective view of a ball reel which is a ball retaining means in an accessory device. Fig. 20 is a perspective view for explaining a rotating disk of a ball rotating disk. Fig. 21 is a perspective view showing the internal structure of a ball revolving disk. [Fig. 22] reveals that when the winnings of the high prize control state are generated, On the #彩彩# path, a perspective view of the state of the majority of the balls is displayed. [Fig. 23] A perspective view showing the supply of the ball from the color gold path to the color gold ball reel. 〇 [Fig. 24] Front view of the color gold ball revolving disk. [Fig. 25] An enlarged view of the front front view. [Fig. 26] discloses a stomach composition of a golden golden ball revolving disk under the color golden ball revolving disk, Supplying a plurality of balls to a feeder of an accessory device established by the company, A perspective view for explaining the internal structure of the same supply mechanism. FIG. 27 is a diagram showing a hardware block structure of an accessory device control unit. FIG. 28 is a functional block diagram of an accessory device control unit. Fig. 29 is a perspective view showing the front side (the player side) of an embodiment of the bifurcation device of the present invention. -55- 200932324 [Fig. 30] Front view of the diverging machine when the claw is in the protruding position (viewed from the player side). [Fig. 31] A front view of the diverging machine when the cup portion is in the discharge position. [Fig. 32] A plan view of a bifurcated machine in which the state of the joint end or the like is released. Fig. 33 is a perspective view showing a color detecting device and a susceptor sorting machine (ball feeding device) according to the embodiment. Fig. 34 is a perspective view showing a color detecting machine and a pedestal class 0 machine viewed from other angles. Fig. 35 is a perspective view showing a color detecting machine and a pedestal sorting machine viewed from other angles. [Fig. 36] A plan view showing a color detecting machine and a susceptor sorting machine. Fig. 37 is a perspective view of a color detecting machine and a susceptor sorting machine viewed from another angle. Fig. 38 is a perspective view showing a configuration example of the drive system side of the color detecting device. G [Fig. 39] A plan view showing the configuration near the bottom of the amusement device. Fig. 40 is a side view showing the configuration of a moving path switching device. Fig. 41 is a view showing the configuration of a moving path switching device viewed from the downstream side of the ball. [匾I 42] A perspective view showing the configuration of the moving path switching device viewed from the upstream side of the ball. Fig. 43 is a side view showing the opposite side of Fig. 40 showing the configuration of the moving path switching device. 44] A perspective view of a moving path switching device viewed from the downstream side of the ball - 56-200932324 is disclosed. Fig. 45 is another perspective view showing the configuration of the moving path switching device viewed from the upstream side of the ball. Fig. 46 is a side view showing the opposite side of Fig. 40 showing the configuration of the moving path switching device. Fig. 47 is another perspective view showing the configuration of the moving path switching device viewed from the downstream side of the ball. 〇 [Fig. 48] A perspective view showing a configuration example of a cleaning machine. Fig. 49 is a flow chart showing the control operation of the ball revolving disk of the accessory device control unit. [Fig. 50] discloses that a loop path is formed by two paths, The control flow of the process of moving the ball in the path in the frame (variation of Fig. 5). [Fig. 5 1] A merging portion of the ball supply path and the ball circulation path is taken as a perspective view of the center amusement device. G [Main component symbol description] 1 : Recreational device 1 0, 75 0 : Frame 12: Terminal device 14A, 14B, 14C : Loop path 1 6 : Lottery path 16A, 140A~C: Guide portion 16B: Start 16C: Collection path -57- 200932324 17 : Ball 1 8 : Opportunity path 18D, 26A~C: Zoning 19 : Golden Golden Ball Rotary Disk 19A : Supply mechanism 19B: Ball discharge conduit 19C : Ball induced path 〇 20 : Lifting mechanism 22 : Bottom panel 24 : Top unit 2 6 : Helical screw 26A, 26C : Central lift 2 8 : pillar
29A :附屬設備控制部 29B : ROM 〇 29C : RAM 29D :感測器驅動部 29E =代幣供給斗驅動部 29F :分離電動機驅動部 29G :資料匯流排 30 :連結盤 3 〇 A :主控制部 3 0B :代幣支付控制部 30C :顏色檢測識別部 -58- 200932324 3 0D:分離電動機旋轉控制部 3 0E :顏色比較判斷部 77 :小球迴轉盤 7 8 :球承受部 7 9 :下降路徑 1 79 :突起 1 40A :出口導引部 ◎ 140B :入口導引部 144A〜C :誘導導引部 1 9 0 :錐形面 1 9 1 :球移動路徑 1 9 2 :開口部 193 :內側開口部 A,B , C , 3 0 0 :區畫tj 3 02, 3 1 4 :螺旋 ❿ 304, 737 :盤 3 06 :環 3 08 :分歧機器 3 09 :球移動路徑 310 :平衡板 312 :漏斗 3 1 6 :顏色識別手段 318 :擋止器 3 20 :彩金分離機器 -59- 200932324 322 :機會機器 3 2 6 :貯藏部 3 2 8 :基座升降機 3 3 0 :顏色檢測機器 3 3 0a :發光元件 3 3 0b :受光元件 3 3 0c :送球凸輪 〇 3 3 0d :凸輪位置檢測用觸片 3 3 0e :凸輪位置確認感測器 3 3 0g :電動機側帶輪 330h, 375, 538 :皮帶 3 3 0i :凸輪側帶輪 330 f, 33 2c, 371,387,394, 5 1 4, 5 3 0, 701,757:電動 機 3 3 2 :球供給機器 〇 3 3 2a :球導引部 3 3 2b :旋轉分歧路 3 32d :減速機構 3 3 3 :排出路徑 3 3 3 s,3 3 4 s, 3 3 5 s :球感測器 3 3 4, 3 3 5 :誘導路徑 3 70 :清潔機器 3 72 :搬送用螺桿 372a, 373a :帶輪 -60- 200932324 3 73 :清潔器 3 74 :球導引部 3 80:移動路徑切換裝置 381A, 381B:切換路徑 382A, 382B ··框架 3 8 3 :支點 384,385:連桿 ❹ 386 :搖桿 3 8 8 :被檢測片 3 89A, 3 8 9B, 391A, 391B, 728 :感測J 器 3 90 :基座板 3 9 2 :球路徑 3 93 :閘門裝置 400 :球迴轉盤 402 :旋轉構件 〇 404 :代幣槽 405 :代幣投入部 406 :推擠器 408 :代幣支付機構 4 1 〇 :規制板 4 1 2 :平坦面 4 1 4 :代幣放出噴嘴 4 1 5,5 3 7 :傾斜面 416 :顯示部 -61 - 200932324 430, 500:代幣膠囊 5 0 2 :圓形盤 5 0 4 :凸座 506 :旋轉軸 508 :開放機構 509 :露出面 510 :本體 ❹ 512 :腳部 5 13 :孔 5 1 5 :電動機軸 516,754:曲柄 5 1 7, 723, 7 8 1 :開口 518 :滾輪 522, 522B, 522C :球 520 :單向離合器 〇 5 2 4 :代幣 526, 528, 759, 784, 786 :箭頭 5 3 1 :驅動帶輪 5 32 :螺旋體 534 :軸 53 6 :從動帶輪 540 :球回收孔 700 :導引板 702 :軌道導引部 -62- 200932324 704 :樹脂軌道 706 :接合部用軌道導引部 710 :鉤爪(凹部) 712 :基底部(下端部) 714 :兩腕 721 :護蓋 722 :球承受導引部 0 724 :杯部 724A, 724B :平坦部 724H :透孔 724S :縫隙 725 :爪 726 :連結端 727 :上游側曲面 729 :板狀構件 〇 7 3 1 , 7 3 2 :側邊護蓋 73 4A :上游側軌道 734B :下游側軌道 73 7 :內側盤 7 3 9 :球保留孔 742 :外側盤 742A :段差 744 :排出用導管 746 :干涉盤 -63- 200932324 748, 7 50, 802 :光感測器 750A :襟翼 75 1, 782 :閘門區域 752 :旋轉軸 75 3 :開閉區域 780 :基板 800 :檢測裝置 〇 801 :遮光片 2000 :合流部 2002 :防護壁 B S :球供給專用路徑 ❹ -6429A : accessory device control unit 29B : ROM 〇 29C : RAM 29D : sensor drive unit 29E = token supply bucket drive unit 29F : separation motor drive unit 29G : data bus 30 : connection disk 3 〇 A : main control unit 3 0B : Token payment control unit 30C : Color detection recognition unit - 58 - 200932324 3 0D : Separation motor rotation control unit 3 0E : Color comparison determination unit 77 : Small ball rotary disk 7 8 : Ball receiving portion 7 9 : Down path 1 79 : protrusion 1 40A : outlet guide portion ◎ 140B : inlet guide portion 144A to C : induction guide portion 1 9 0 : tapered surface 1 9 1 : ball movement path 1 9 2 : opening portion 193 : inside opening Department A, B, C, 3 0 0 : District painting tj 3 02, 3 1 4 : spiral ❿ 304, 737 : disk 3 06 : ring 3 08 : divergent machine 3 09 : ball movement path 310 : balance plate 312 : funnel 3 1 6 : Color recognition means 318 : Stopper 3 20 : Color gold separation machine - 59 - 200932324 322 : Opportunity machine 3 2 6 : Storage part 3 2 8 : Base lift 3 3 0 : Color detection machine 3 3 0a : Light-emitting element 3 3 0b : Light-receiving element 3 3 0c : Ball-feeding cam 〇 3 3 0d : Cam position detecting contact 3 3 0e : Cam position confirmation sensor 3 3 0g : Motor side pulleys 330h, 375, 538 : Belt 3 3 0i : Cam side pulleys 330 f, 33 2c, 371, 387, 394, 5 1 4, 5 3 0, 701, 757: Motor 3 3 2 : Ball supply Machine 〇 3 3 2a : Ball guide 3 3 2b : Rotating branch road 3 32d : Speed reduction mechanism 3 3 3 : Discharge path 3 3 3 s, 3 3 4 s, 3 3 5 s : Ball sensor 3 3 4 , 3 3 5 : induction path 3 70 : cleaning machine 3 72 : conveying screw 372a, 373a: pulley - 60- 200932324 3 73 : cleaner 3 74 : ball guiding portion 3 80: moving path switching device 381A, 381B : switching path 382A, 382B · frame 3 8 3 : fulcrum 384, 385: link 386 386 : rocker 3 8 8 : detected piece 3 89A, 3 8 9B, 391A, 391B, 728 : sensing J 3 90 : Base plate 3 9 2 : ball path 3 93 : gate device 400 : ball rotating disk 402 : rotating member 〇 404 : token groove 405 : token input portion 406 : pusher 408 : token payment mechanism 4 1 〇: Regulatory board 4 1 2 : Flat surface 4 1 4 : Token discharge nozzle 4 1 5, 5 3 7 : Inclined surface 416 : Display part -61 - 200932324 430, 500: Token capsule 5 0 2 : Round disc 5 0 4: the boss 506: the rotating shaft 508: the opening mechanism 509: dew Exit 510: body ❹ 512: foot 5 13 : hole 5 1 5 : motor shaft 516, 754: crank 5 1 7, 723, 7 8 1 : opening 518: roller 522, 522B, 522C: ball 520: one-way clutch 〇 5 2 4 : Token 526, 528, 759, 784, 786: arrow 5 3 1 : drive pulley 5 32 : spiral 534 : shaft 53 6 : driven pulley 540 : ball recovery hole 700 : guide plate 702 : track Guide portion-62- 200932324 704: Resin rail 706: joint guide portion 710: hook (recess) 712: base portion (lower end portion) 714: two wrists 721: cover 722: ball receiving guide portion 0 724: cup portion 724A, 724B: flat portion 724H: through hole 724S: slit 725: claw 726: joint end 727: upstream side curved surface 729: plate member 〇 7 3 1 , 7 3 2 : side cover 73 4A : Upstream side rail 734B: Downstream side rail 73 7 : Inner side disc 7 3 9 : Ball retaining hole 742 : Outer disc 742A : Step difference 744 : Discharge duct 746 : Interference disc - 63 - 200932324 748, 7 50, 802 : Light sensing 750A: flap 75 1, 782 : gate area 752 : rotating shaft 75 3 : opening and closing area 780 : substrate 800 : detecting device 〇 801 : visor 2000 : merging portion 2002 : protection Wall B S : ball supply dedicated path ❹ -64