1273952 九、昼g攀明: 【發明專利之技術領域】 本發明係關於螺絲釘帶自動供應裝置,尤指一種利用設於滑動塊 -側之定位7L件,以雜#]"帶每—移動位移,皆能到達定位,即利用 該定位元件落入釘帶之傳動槽,進而使釘帶定位於正確的位置,並修 正移動時產生之誤差,以使卫具鎖合螺絲更準確,提高螺絲針帶自動 供應裝置之實用價值。 【先前技術】 按習知之可自動撥送螺絲釘帶之裝置,乃如美國專利第52鲁 〇 7 4號(或台灣公告第2〇Η 5 3 ),該第-㈣知之自動撥送. 螺絲釘帶之裝置’係於撥盤轉軸末端設撥盤,該撥盤並設有均勾分布、 :齒’如此,當撥盤轉_動時,利盤之撥齒以帶動螺絲釘帶 構,第5 3 7 1 2 4號:螺_釘器改良機 體前端内物她,娜爾嘴本 ⑽釘組齒輪上的凸細對應 齒輪轉動時,可以同時帶動釘帶軸—位移。 田偏丁組之 器,知之撥送獅釘帶之裝置;騎送舒 傳_隙即自動加大' 邮、,料撥齒或齒輪傳動釘帶數次後,該. 用撥盤内之定位孔2造成釘帶移位不準確。或縣狀位方式係利 2針_'帶前進時所產生的慣性,並未能完全消 έ 1273952 除,而導致裝設於釘帶上之螺絲釘鎖合位置亦不準確,無法為螺絲刀 (bit)準確帶動鎖合,造成使用上之困擾。 為此,本發明人積多年各種新產品之設計、製造與研發經驗,乃 斜對前揭先前技術之缺點加以研究,乃發明本案。 【發明内容】 本螺絲钉帶自動供應裝置之發明目的,主要係定位元件以 確保針帶每—移動位移,皆能到達鎖合職釘之定位位置,以使工呈 鎖合螺絲釘更準確,提高螺絲釘帶自動供應裝置之實用價值。、 本螺絲钉帶自動供應裝置之發明特點有: 1、本發明之螺絲釘帶自動供應裝置,設置有本體,當本體受使 2者|鎖。螺騎時所產生之前推力量,將迫使本體與滑動塊間之结 Μ立置改變,以使滑動塊内之傳動輪驅動釘帶鶴,並令螺絲釘到達 之螺騎帶自動供顧置,於本體内設置有滑動塊, ==設軸,觸㈣__元_軸, 具有單__嶋輪敝功能,以令 得動輪可以Y動螺絲針帶移動。 3二,發明之螺絲針帶自動供應裝置,於前述滑動塊—側設定位 兀件,§螺料帶被傳動輪㈣1273952 IX, 昼g Pan Ming: [Technical Field of Invention Patent] The present invention relates to an automatic supply device for a screw belt, and more particularly to a 7L piece that is positioned on a sliding block-side, with a miscellaneous #]" The displacement can reach the positioning, that is, the positioning component is dropped into the transmission groove of the nail belt, so that the nail strip is positioned at the correct position, and the error generated during the movement is corrected, so that the aid lock screw is more accurate and the screw is improved. The practical value of the automatic belt feeder. [Prior Art] A device for automatically dialing a screw belt according to the conventional method is, for example, U.S. Patent No. 52, Luke No. 7 (or Taiwan Notice No. 2, 5 3), the first (four) known automatic dialing. Screw belt The device is provided with a dial at the end of the dial shaft, and the dial is provided with a hook distribution, and the teeth are so. When the dial is turned, the teeth of the disc are driven to drive the screw, and the fifth is 3 7 1 2 No. 4: The screw_nail is used to improve the front end of the body. Na's mouthpiece (10) The pinion on the gear of the nail group can rotate the gear to the shaft at the same time. The instrument of the slanting group of the field, knowing the device that sends the lion nail belt; riding the sufficiency _ gap will automatically increase the 'mail, the material or the gear transmission belt after several times, the positioning of the dial Hole 2 causes the belt to be displaced inaccurately. Or the county-like method is the 2 inertia _' with the inertia generated during the advancement, and can not completely eliminate the 1273952, and the screw locking position installed on the nail belt is also inaccurate, can not be a screwdriver (bit ) Accurately drive the lock, causing troubles in use. For this reason, the inventors have accumulated years of experience in designing, manufacturing, and developing various new products, and have studied the shortcomings of the prior art, and have invented the present case. SUMMARY OF THE INVENTION The purpose of the invention is to provide a positioning device to ensure that the needle belt is moved to the position of the locking nail, so that the locking screw is more accurate and improved. The practical value of the screw belt automatic supply device. The invention has the following features of the automatic screw supply device: 1. The automatic screw supply device of the present invention is provided with a body, and when the body is subjected to two locks. Pushing the force before the swaying will force the knot between the body and the sliding block to change, so that the driving wheel in the sliding block drives the nail to carry the crane, and the screw reaches the screw riding belt automatically for placement. The body is provided with a sliding block, == set the axis, touch (four) __ yuan _ axis, has a single __ 嶋 rim function, so that the moving wheel can move the screw needle belt. 3, the invention of the screw needle belt automatic supply device, in the aforementioned sliding block - side setting position, § screw belt is driven wheel (four)
Mr _ y, ^ 勒疋位移,且到達定位時,可以 猎由此讀71:料精|粒, 必要之義誤差,工讀雜會產生不 之實用價值。 π準確呤尚螺絲钉帶自動供應裝置 1273952 4、本發明之螺絲釘帶自動供應裝置,定位方式係利用前述定位 元件之鋼珠“釘帶之侧槽,吟其定位啦生較絲量以固定釘 帶,並直接消除釘帶前進之慣性。 5、本發明之螺雜帶自動供應裝置,定位方式係儀鋼珠作為 定位元件,並細雜元件使其產生釘帶軸之阻尼效果蚊位時的 下壓力力量,而且其力f傳遞是成—直線,對於定位元件之製作與組 合誤差,較易於控制。 【實施方式】 如此,為使貴審查員可充份了解本發明,茲依附圖式解說如下: 如圖-〜三所示’本發明之螺絲釘帶自動供應裝置,包含: 本版1,本體1设中空槽丄〇,以為後述之壓縮彈簧3 (或稱彈 性元件)及滑動塊4設置,及中空槽2 〇之後壁面丄〇 〇設有貫穿孔 1 〇 1以為鎖螺絲之工具2⑽)可以穿過,以鎖合螺絲釘。中空槽 上0之後_ i ο 〇又設有壓縮彈簣3之容置槽丄◦2,方便壓縮彈 貝3之-端可抵頂定位(如圖二所示)。及本體丄之上、下壁面皆設 置有長缺槽1 1以為螺絲釘帶5設置(如圖五、七、九及十一所示》 =螺騎帶5之移動。本體1之邊壁又对定向孔i 2,該定向孔 之銘魅為⑺動塊4之定位螺栓4 Q 2設置,以限制滑動塊4為一定 ί η以αΓ本體1之邊壁並設驅動孔1 3,驅動孔1 3設長形孔1 跡ρ冑鬼4之螺栓4 4 3設置,雜產生限制滑動塊4移動執 跡之功忐,而驅動;1 , . 則知又設弧形孔131,弧形孔131可以 為屬4傳較件44之· 4 4 3設置。她再設微調孔丄 1273952 ,:微調孔15可以為微調元件463設置。 壓縮彈菁3 ’墨縮彈簧3係設於前述本體1之中空槽10後壁面 月動塊4之間(如圖二所示),壓縮彈簣3之—端設於前述本體工 中二槽10之容置槽1〇 2,及另一端則設置於滑動塊4之容設槽4 2 §使用者鎖合螺絲釘之動作產生對本體1前推之力量時,由於此 日寸β動塊之前端係抵頂於工作物7 (如圖七所示),因此,本來是滑-動鬼應和動’但因滑動塊不動,只好由本體前移,且當鎖合完成後,‘ 使用者稱放開前推之力量時,本體1或滑動塊4再利用被壓縮之壓縮_ 彈黃3之回復力量,可以令滑動塊或本體自動回位。 # 滑動塊4,滑動塊4由左、右二元件4 〇、41組合而成(如圖, 一所不),左、右二元件4 〇、41之結合係利用螺栓4 0 0、4 0 1检合形成。又於滑動塊4一侧設螺栓4 〇 2,利用螺栓4 0 2設置 於W述本體1邊壁之定向孔12,以如前述產生限制滑動塊4為一定 移動軌跡之功能。滑動塊4乃設有前述壓縮彈簧3之容設槽42,以 如前述由壓縮彈簧4之一端容設。及於滑動塊4内設有傳動輪43, · 該傳動輪4 3設複數之傳動齒4 3 0,該傳動齒4 3 0之間隔距離係 配合螺絲釘帶5傳動槽5 0之間隔距離(如圖五所示)最為理想。及 於傳動輪43—側又設有傳動元件44,傳動元件44一側與滑動塊 · 間再設有彈性元件4 5,如此利用一由滑動塊4之軸孔4 3 2穿入之 軸4 31,以穿設於前述之傳動輪4 3、傳動元件4 4及彈性元件4 5。又傳動元件4 4設一體之連桿4 4 〇,連桿4 4 0一端設棘齒面 4 41,另一端設滚動元件4 4 2。該棘齒面4 41必須於連桿4 4 1273952 〇4 ί 7=時,棘齒面4 4 1才触合於前述傳動輪4,即棘齒面 4 產生單向驅動前述傳動輪4 3轉動之效果,而令傳動輪4 3只此順時針方向轉動,並傳動螺絲釘帶5向上移動(如圖五 九及十—所示)。反之,當連桿4 4 0呈向上 驅動前述傳動輪4 3轉動,以如前述傳動輪4 3只能以順時針 動二=動元件4 4 2則係設於前述本體丄之驅動孔i 3前端之弧 形孔131 ’並利用一螺检4 4 3以固設。如此,當前述本 前推進時,_該弧形孔丄3 i以驅動滑動塊4之傳動元件之螺糾 4 3以產生向下擺動力量(如圖七、九及十—所示),以驅使傳動元 ^ 4產生向下擺動位移,如此以利用傳動元件4 4之擺動位移可帶 俩輪4 3轉動之功能。反之,當前述本體i被放開往後退時,利用 淡弧形孔1 3 1以驅崎動塊4之傳動元件之嫌4 4 3以產生 =之擺動力量(如圖三、五、九及十—所示),以驅使傳動元件4 生向上擺動位移,如前述,傳動元件4 4之回位位移無法帶傳動 :3轉動’防止傳動輪轉。再為配合各種螺崎之長度及鎖合時螺 …頂面與工作物7平面深淺,乃於滑動塊4-側以螺栓4 6 〇固設-扶持44 6 ’及扶持元件4 6之末端面4 6 2為斜向面,以配合微 .件4 6 3之斜面4 6 3 0。及微調元件4 6 3係設置於前述本體 之微舰1 5中’且於微調元件4 6 3下方栓設有長螺栓4 6 4, 、螺检4 6 4係自微調孔!5之下方往上鎖設於微調元件4 6 3,以 改變微調元件4 6 3於微調孔工5之位置,且同時改變扶持元件W 之末端面4 6 2與微調元件4 6 3斜面4 6 3 ◦之結合位置,達到配 10 1273952 合螺絲針之長度進行微調之結果。及滑動塊4又設有釘帶容設孔4 7 ’該容設孔4 7可以為縣釘帶5穿設,並賴、騎帶5可以為前 述傳動輪4 3帶動向上移動之功能。另於滑動塊4—侧又設置與前^ 容没孔4 7幾乎呈現垂直狀態之定位元件6設置孔4 8。 定位元件6,定位元件6可以依據需要設置一組或複數組(如圖 十-)或配合螺絲釘帶5之設置於前述滑動塊4設置孔4 ^之位置而 改變其位置。及定位元件6設於前述滑動塊4之設置孔4 8中,定位 元件6設有定位珠6 Q,奴位珠6 0之直徑·大於前述設置孔4 8之孔徑’嫌繼定位珠6 Q適有部分突出於設置孔4 8之—侧(如 圖二所不)。及定位珠6 〇一侧設有彈性元件〈或彈菁)6丄,彈性 元件6 1 —侧再為—固設元件6 2 _於設置孔4 8之外侧。 2此’當如細及五騎示,#將螺絲釘帶5裝設於前述滑動塊 4之合。X孔4 7後,該工具係處於待機狀態。當使用者操作本工且時, 使用者之力量產生對本體前推之稱,此時因騎動塊擔側係與工 作物7抵頂為疋位,只能由本體i前進,再本體丨被向前推進時, 本妝1弧I孔1 31將以驅動滑動塊4之傳動元件4 4螺栓4 4 3 (如圖六及七所示),絲本體1之前進位移,而改變前述滑動塊4 之傳動兀件44螺栓4 4 3於前述本體!弧形孔丨3 i之位置 八、力及+、4- _ '、 曰 不以驅使傳動元件之棘齒面4 4 ]_嘆合傳動 輪4 3之轉動,而使傳動輪4 3之傳動則3◦可驅動螺絲钉帶產生 向上位移且到達定位時,利用前述定位元件6追緊螺絲釘帶5之 傳動槽5 0 ’以強迫螺絲釘帶定位,確保螺絲釘帶每一移動位移無誤 1273952 絲釘帶自動供應裝置之實用價 呈’以使n貞合螺絲更科,提高螺 值0 【圖式簡單說明】 第一圖:本發明之分解圖。 第二圖:本發明之側視透視圖。 第三圖:本發明之部分剖視圖。 第四圖.本發明之部分剖視放大圖。 第五圖:本發明之部分側視圖。 第六圖:本發明战合動作―之部分剖視放大圖 第七圖:本發明之栓合動作—之部分側視圖。 第八圖:本糾之栓合_二之部相視放大圖。 弟九圖:本發明之栓合動作二之部分侧視圖。 奸圖:本發明之酿相視放大圖。 =十-圖:本發明之雜動作1部分側視圖。 第十二圖:本發明之另一實施例立體圖。 【主要元件符號說明】 中空槽1 〇 容置槽1〇 2 驅動孔1 3 微調孔1 5 滑動塊4 定位螺拾4 0 2 本體1 貫穿孔101 定向孔1 2 弧形孔131 壓縮彈簧3 螺栓 4 0 〇、4 〇1 後壁面10 0 長缺槽1 1 長形孔13 0 工具2 左、右二元件4 0 容設槽4 2Mr _ y, ^ Pulling the displacement, and when reaching the positioning, you can hunt this reading 71: material fine | grain, the necessary meaning error, work and reading will produce no practical value. π accurate 呤 螺丝 螺丝 螺丝 127 127 127 127 127 127 127 127 127 127 127 127 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 And directly eliminate the inertia of the advancement of the nail strip. 5. The automatic supply device of the spiral ribbon of the present invention, the positioning method is the steel ball of the instrument as the positioning component, and the fine components make the damping force of the nail belt shaft the downward pressure of the mosquito bit. Strength, and its force f transmission is a straight line, which is easier to control for the manufacturing and combination errors of the positioning components. [Embodiment] Thus, in order to enable the examiner to fully understand the present invention, the following is explained as follows: As shown in FIG. 3 to 3, the automatic screw supply device of the present invention comprises: the present invention 1. The main body 1 is provided with a hollow slot, which is provided as a compression spring 3 (or elastic member) and a sliding block 4, which will be described later, and After the hollow groove 2, the wall surface is provided with a through hole 1 〇1, so that the tool 2 (10) for locking the screw can pass through to lock the screw. After the hollow groove is 0, the _i ο 〇 is pressed again. The magazine 3 is provided with a slot 丄◦2, which is convenient for the top end of the compressed scallop 3 to be positioned against the top (as shown in Fig. 2), and the upper and lower walls of the body 皆 are provided with a long vacant slot 1 1 for the screw belt 5 setting (as shown in Figure 5, VII, IX and XI) = movement of the sling belt 5. The side wall of the body 1 is opposite to the directional hole i 2, the enchantment of the directional hole is (7) the positioning bolt 4 of the moving block 4 Q 2Setting to limit the sliding block 4 to a certain value 以 以 to the side wall of the body 1 and to set the driving hole 13 3, the driving hole 1 3 to set the long hole 1 trace ρ 胄 ghost 4 bolt 4 4 3 set, the noise is limited The sliding block 4 moves the function of the execution, and drives; 1, . . . then knows that the arc hole 131 is also provided, and the arc hole 131 can be set for the 4th piece of the 44 piece. 1273952, the fine adjustment hole 15 can be set for the fine adjustment element 463. The compression elastic 3 is formed between the rear wall of the hollow groove 10 of the body 1 (shown in FIG. 2), and the compression bomb The end of the 篑3 is disposed in the accommodating groove 1〇2 of the two slots 10 in the body, and the other end is disposed in the accommodating groove 4 of the sliding block 4. When the force of the body 1 is pushed forward, since the front end of the β-movement block is at the top of the work object 7 (as shown in Fig. 7), it is originally a slip-moving ghost should move and move, but because the sliding block does not move, It has to be moved forward by the body, and when the lock is completed, the user said that when the force of the front push is released, the body 1 or the sliding block 4 can use the compression force of the compressed compression _ 弹 yellow 3 to make the sliding block or The body is automatically returned. # Sliding block 4, the sliding block 4 is composed of the left and right two components 4 〇, 41 (as shown in the figure, one is not), and the combination of the left and right two components 4 〇, 41 utilizes the bolt 4 0 0, 4 0 1 is formed by the check. Further, a bolt 4 〇 2 is provided on the side of the sliding block 4, and the directional hole 12 is disposed on the side wall of the body 1 by the bolt 420, so as to generate the limiting sliding block 4 as described above. The function of moving the track. The slider 4 is provided with a receiving groove 42 of the aforementioned compression spring 3 to be received by one end of the compression spring 4 as described above. And a driving wheel 43 is disposed in the sliding block 4, the transmission wheel 43 is provided with a plurality of transmission teeth 430, and the distance between the transmission teeth 430 is matched with the distance between the screw belts 5 and the transmission slots 50 (eg Figure 5) is the most ideal. A transmission element 44 is further disposed on the side of the transmission wheel 43. The elastic element 45 is further disposed between the transmission element 44 side and the sliding block. Thus, the shaft 4 penetrated by the shaft hole 4 3 2 of the sliding block 4 is used. 31, for passing through the aforementioned transmission wheel 43, the transmission element 44 and the elastic member 45. Further, the transmission element 4 4 is provided with an integral connecting rod 4 4 〇, and the connecting rod 4 4 0 is provided with a ratchet surface 4 41 at one end and a rolling element 4 4 2 at the other end. The ratchet surface 4 41 must be in contact with the aforementioned transmission wheel 4 when the connecting rod 4 4 1273952 〇4 ί 7=, that is, the ratchet surface 4 generates a one-way driving of the aforementioned transmission wheel 43 The effect is that the drive wheel 4 3 is only rotated clockwise, and the drive screw belt 5 is moved upward (as shown in Figures 5-9 and 10). On the other hand, when the connecting rod 480 is driven upward to drive the transmission wheel 43, the driving wheel 4 can be driven only clockwise by the second driving member 4 4 2 to be driven by the driving hole i 3 of the main body 如. The curved hole 131' at the front end is fixed by a screw inspection 4 4 3 . Thus, when the foregoing advancement, the arcuate aperture 3 i drives the screw of the transmission component of the slider 4 to generate a downward swinging force (as shown in FIGS. 7, 9, and 10). The driving element 4 is driven to generate a downward swinging displacement, so that the swinging displacement of the transmission member 44 can be used to rotate the two wheels 43. Conversely, when the body i is released to retreat, the light arc hole 1 3 1 is used to drive the transmission component of the block 4 to generate a swinging force (see Figures 3, 5, and 9). X—shown) to drive the transmission element 4 to swing upward. As mentioned above, the return displacement of the transmission element 4 4 cannot be transmitted: 3 rotation 'prevents the transmission rotation. In order to match the length of the various snails and the locking, the top surface and the workpiece 7 are shallow and shallow, and the sliding block 4 side is fixed with bolts 4 6 - - support 44 6 ' and the end surface of the supporting member 46 4 6 2 is an oblique surface to match the slope of the micro-piece 4 6 3 4 6 3 0. And the fine adjustment component 4 6 3 is disposed in the micro-ship 1 5 of the main body and has a long bolt 4 6 4 under the fine adjustment component 4 6 3 , and the screw inspection 4 6 4 is a self-tuning hole! The lower side of the 5 is locked to the fine adjustment element 4 6 3 to change the position of the fine adjustment element 463 to the fine adjustment hole 5, and simultaneously change the end surface 4 6 2 of the support element W and the fine adjustment element 4 6 3 slope 4 6 3 The combination position of the ◦ is the result of fine adjustment with the length of the 10 1273952 screw. And the sliding block 4 is further provided with a nail-receiving hole 4 7 '. The receiving hole 47 can be worn for the county nail tape 5, and the riding belt 5 can drive the upward movement of the driving wheel 43. Further, the sliding member 4 is disposed on the side of the slider block 4, and the positioning member 6 is disposed in a vertical state with respect to the front surface. The positioning member 6 and the positioning member 6 can be provided with a set or a plurality of arrays as shown in Fig. 10 or with the position of the screw belt 5 disposed at the position of the sliding block 4 in the hole 4^. And the positioning component 6 is disposed in the setting hole 48 of the sliding block 4, the positioning component 6 is provided with the positioning bead 6 Q, and the diameter of the slave bead 60 is larger than the aperture of the aforementioned setting hole 48. Appropriate parts protrude from the side of the hole 48 (as shown in Figure 2). And on the side of the positioning bead 6 设有, an elastic member (or an elastic phthalocyanine) 6 设有 is provided, and the elastic member 6 1 - the side is again - the fixing member 6 2 _ is disposed on the outer side of the hole 48. 2 This is the case where the screw belt 5 is attached to the sliding block 4 as shown in the figure. After the X hole 4 7 , the tool is in the standby state. When the user operates the work, the power of the user is called the forward push of the body. At this time, because the rider side support and the work object 7 are in the top position, the body i can only advance, and then the body 丨When being advanced, the 1 arc I hole 1 31 of the makeup will drive the transmission element 4 4 bolt 4 4 3 of the sliding block 4 (as shown in Figs. 6 and 7), and the wire body 1 is displaced to change the aforementioned sliding. The drive member 44 of the block 4 is bolted to the aforementioned body! The position of the arcuate hole 3 i is eight, the force and +, 4- _ ', 曰 does not drive the ratchet surface of the transmission element 4 4 ] _ sway the rotation of the transmission wheel 4 3, and the drive wheel 4 3 is driven Then, when the screw can drive the screw belt to generate an upward displacement and reach the positioning, the positioning member 6 is used to chase the transmission slot 50 of the screw belt 5 to force the positioning of the screw belt, and ensure that the movement of the screw belt is correct. 1273952 The practical price of the automatic supply device is 'to make the n-pin screw more scientific, and to increase the screw value 0. [Simplified description of the drawing] First figure: an exploded view of the present invention. Second Figure: A side perspective view of the invention. Third Figure: A partial cross-sectional view of the present invention. Figure 4 is a partial cross-sectional enlarged view of the present invention. Fifth Figure: A partial side view of the invention. Fig. 6 is a partial cross-sectional enlarged view of the battle action of the present invention. Fig. 7 is a partial side view of the stitching action of the present invention. The eighth picture: the correction of the tie _ two parts of the phase of the magnified view.九九图: A side view of a portion of the splicing action 2 of the present invention. Rape: A magnified view of the brewing of the present invention. = 十-图: Side view of the heterozygous part 1 of the present invention. Twelfth Figure: A perspective view of another embodiment of the present invention. [Description of main component symbols] Hollow groove 1 〇 置 1 1 Drive hole 1 3 Fine adjustment hole 1 5 Slide block 4 Positioning screw 4 0 2 Body 1 Through hole 101 Directional hole 1 2 Curved hole 131 Compression spring 3 Bolt 4 0 〇, 4 〇1 Rear wall 10 0 Long missing slot 1 1 Long hole 13 0 Tool 2 Left and right two components 4 0 Capacity slot 4 2
1273952 傳動輪4 3 傳動齒4 3 0 轴孔4 3 2 傳動元件4 4 棘齒面4 4 1 滚動元件4 4 2 彈性元件4 5 扶持元件4 6 末端面4 6 2 微調元件4 6 3 長螺栓4 6 4 釘帶容設孔4 7 螺絲釘帶5 傳動槽5 0 定位珠6〇 彈性元件61 工作物7 轴4 3 1 連桿4 4 Ο 螺栓4 4 3 螺栓4 6 0 斜面4 6 3 0 設置孔4 8 定位元件6 固設元件62 · 131273952 Drive wheel 4 3 Drive tooth 4 3 0 Shaft hole 4 3 2 Drive element 4 4 Ratchet face 4 4 1 Rolling element 4 4 2 Elastic element 4 5 Support element 4 6 End face 4 6 2 Fine-tuning element 4 6 3 Length Bolt 4 6 4 Nail tape accommodating hole 4 7 Screw band 5 Transmission groove 5 0 Positioning bead 6〇 Elastic element 61 Work item 7 Axis 4 3 1 Connecting rod 4 4 Ο Bolt 4 4 3 Bolt 4 6 0 Bevel 4 6 3 0 Setting hole 4 8 positioning element 6 fixing element 62 · 13