1302518 九、發明說明: 【發明所屬之技術領域】 本發明提供一種物件饋送匣,尤指一種承载底盤具有可自動調 整進紙角度之機制的饋紙匣。 【先前技術】 進紙匣已廣泛的應用於各種影印機、印表機或傳真機等事務 ⑩ 機器中,其主要功能為將紙張一張張地傳送至一處理元件(例如 列印模組)以做進一步之處理。 請參照第1圖,第1圖為習知進紙匣1〇〇的示意圖。進紙匣 1〇〇包含分紙斜面110以及承載底盤120,一般而言,進紙£1〇〇 的設計是希望取紙滾輪130 —次只取一張紙,但因為取紙滾輪 與紙張接觸時會產生正向力N,如果正向力n太大,其會對下一 φ 張紙&供較大的紙張間摩擦力’將增加下一張紙被帶出的機會, 亦即重送(multi-feed),然而,如果正向力n不足,則會有不送 (misfeed)的情形。習知技術會採用正向力之自我補償機構 (auto-compensated-mechanism,ACM)來避免上述正向力 N 過大 或過小所造成的問題。 - 請參照第2圖,第2圖為正向力n與取紙力p之比值(N/p) - 對應於紙張堆豐尚度h的關係示意圖。習知技術中,正向力n與 取紙力P的比值(N/p)與自我補償機構之樞紐132到承载底盤 5 1302518 120的距離丨減去紙張堆疊高^,亦即㈣),成正比,因此在d 固定的情況下,隨著紙張堆疊高度h變高,正向力⑽取紙力p 的比值(N/P)會減小。如第2圖所示,隨著紙張堆叠高度h逐漸變 间則正向力N與取紙力p的比值_)會遞減;當紙張堆疊高度 在15随時及Gmm時(可想像成是只有堆-張紙的狀態),該比值 (N/P)刀別為0.55及〇.9 ’亦即在相同的取紙力p需求下,紙張高 度〇職時自我補償機構所給予的正向力會是15mm高度時的 1.6(0.9/0.55)倍;換句話說,紙張高度雜,所需的正向力越大, 而較大的正向力p會對下—張紙提供較大的紙關摩擦力, 因而將增加下-張紙被帶㈣機會,為了避免正向力太大造成紙 張間的摩擦力過大鱗致下―張紙被帶出造成紙張重送的問題, 因此,必須由分紙斜面提供適當阻力。 請再參照第1圖,分紙斜面11〇對紙張前緣的作用力(亦即 摩擦力)會阻絕下-張紙被帶出;然而,決定此阻力的因素主要 有斜面的角度Θ紙張剛性(紙張重量)及紙張前緣與斜面間的摩捧 係數//。斜面的角度θ越大則對與紙張的阻力越小,反之,斜/ 的角度Θ越小騎與紙_阻力獻;摩擦魏讀賴提供給 紙張的阻力越大’而根據習知_,紙張可糊送出的臨界值為 #~tan (01/2)’所以分紙斜面與紙張之間之央角達到臨界角 ㈣,紙張便可棚送出;對於紙張職(紙她重的紙張而言, 角度過大會增加重送(multifeed)的機率,角度過小而有不送 (ims-fbed)甚至增㈣的問題。以設計者的角度而言面對愈加 1302518 寬廣的紙麵格f求,在魏岐計切更加的_。 習知應用在自鋪儀構上的分紙方式可依原繩分成以下 二類: ㈠類似第1圖之方式’將分紙斜面110改成具有撓性,可隨紙 張剛性做進_度爾的分紙面,·較大的鎌會將斜面 下壓(向左)以產生較大的進紙角度減少阻力;然而在實際 的應用上,齡使用者置放祕力量過大,即制性較小的 紙張恐怕亦會因為此衝力將斜面下壓影響初始進紙角度,使 補"ί員功能失去效果。 ㈡根據美國公開專利案第_821號,其揭露了—種藉由控制 ^紙斜© 110的位置,對提供給不同剛性紙張的阻力進行補 4員其針對同彳性較大的紙張使分紙斜面遠離取紙器、剛 性較小紙雖近取紙ϋ。此—作法的缺點是機構過於複雜且 補償的方式需要由使用者先行判斷置放紙張的剛性而後以手 動方式控制分紙斜面110的位置。 (三)根據美國公開專利案第5895040號,其揭露了 一種利用在分 紙斜面110上另加一挫曲元件,此挫曲元件具有相對較大的 摩擦係數值,使得紙張在取紙過程中因挫曲力而與下一張紙 分開,且挫曲元朽具有部分撓性,因此當遭遇剛性較大的厚 1302518 紙紙頭時,該挫曲元件因撓性被紙頭稍往後頂,而由摩擦係 數相對較低的斜面進行分紙工作,如此,可避免因為自我補 償機構無法提供足夠扭力使其產生不送_sfeed)甚至卡紙 (jam)的問題。 本發明欲解決問題在於兩方面,其一為紙張堆疊高度低時, 正向力N與取紙力P的比值_)過高而易造成重送問題;其二為 如何以簡單的方式提供有效阻絕下-張紙因為紙張間雜力被帶 出的分紙機構。 【發明内容】 々本發明提供-種物件饋紐在取紙滾輪取鱗,取紙滾輪與 凹陷部形成-緩衝空間而在紙張堆疊高度較低(亦即正向力N與 取紙力P的比值較高)的情況下降低所需之正向力,同時透過該 緩衝二間,使紙張與斜面的進紙角度在取紙過程中,經由正向力 的補償改變賊肖度,因而達成類婦屈分_效果,以解決上 述之問題。 一本發赂供—種物件饋勒統,其包含有-物件舰£以及 一取紙滚輪。該物件饋送s包含有一物件分離斜面及一承載底 離斜面係沿一物件饋送方向設置。該承載底盤係用 雜秘件,且該承舰她含有-本體以及一突 出部,其f部係突出於該本體而連接於該物件分離斜面^ 1302518 =:ΓίΓ間構成一凹陷部。該取紙滾輪以捲動方式 ::樣件;其中’該凹陷部與該取紙滾輪分別: 物件之兩侧以及該取紙滾輪位於該凹陷部之上方。 运 其包=繼-街崎,梅#:—物件饋輕, ^件分^斜面,沿-物件顧方向設置;—轉缝, ,至^顧送物件,該承載底盤包含有:—本體;以及—突出 =犬出於該本體而連接於該物件分離斜面,其中 ,間構成一凹陷部;以及-彈性支碰,設置於該凹= 以及—取紙滾輪,以捲動方式來饋送該物件;其中,兮凹 ==:別位於該輸物件之·及該取紙滾輪 ^發日_供-働件饋送系統,其包含有:―物件饋送卜 具包含有: 一物件分離斜面,沿-物件觀方向設置;—摊顧,包 一第-底盤,連接於該物件分離斜面;以及一第二底盤,設置於 第-底盤之上’用來承載至少—待饋送物件,其中該第二底 一彈性材料所構成;以及-取紙滾輪,以捲動方式來饋送該物:。 【實施方式】 請參閱第3圖’第3圖為本發明物件饋送系統細之一實施 1302518 例的示意圖。如第3圖所示,物件饋送系統2〇〇包含有物件饋送 匣300、取紙滾輪210以及待饋送物件33〇 (例如一紙張)。第3 圖所顯示之本發明第一實施例的物件饋送匣3〇〇係包含有物件分 離斜面310、承載底盤320以及物件隔離元件36〇,其中物件分離 斜面3HM系沿待饋送物件330的饋送方向而設置,以及承載底盤 320係用來承麟饋送物件330。如圖所示,承載底盤32〇包含有 本體322以及突出部324,其中突出部324係突出於本體322而連 接於物件分離斜面310,而且突出部324與本體322之間構成凹陷 部350。於本實施例中’凹陷部35〇位於突出部似上本體奶 之面向待饋送物件330的第一表面325係高於突出部324面向待 饋送物件330的第二表面323。此外,取紙滚輪21〇具有正向力自 我補償機構,以捲動方式來饋送物件33〇,凹陷部35〇與取紙滚輪 210分別位於待·物件33〇之兩侧以及取紙雜2叫立於該凹陷 部350之上方。 請注意,當待饋送物件330置放在物件饋送匣3〇〇内時,因 為第-表面32S係高於第二表面323,使得待饋送物件33()置放於 本體322及突出部324上時,待饋送物件33〇的前緣部分會由本 體322朝向突出部324之方向向下傾斜,使得待饋送物件现可 概分成第-物件表面332以及第二物件表面334,其中第一物件表 面332是位於第一表自325的上方,衫二物件表面辦則是位 於第^一表面323的上方。 1302518 如第3圖所示,當取紙滾輪2i〇開始運作時,會下壓碰觸到 第二物件表面334,此時,取紙滾輪210的樞紐212與承載底盤 320 (本實施例中,取紙滾輪21〇會將第一物件表面332視為^ 底盤320的表面)之距離D很明顯地小於習知技術中的距離^, 如此-來,由第2圖得知,正向力N與取紙力p的比值會降 低’因而解決了前述紙張堆疊高度較低時比值過高而造成所 需正向力過大的問題。 睛參閱第4圖’第4圖為第3圖所示之物件饋送系統2〇〇進 打取紙時的示意圖…開始,物件分離斜面31〇與第二物件表面 334的夾角為㊀’因為此時的㊀值較小,所以物件分離斜面31〇 給予物件頭335的阻礙較大,取紙滾輪21〇需補償額外的正向力 使待饋送物件330下壓,此時第二物件表面334受到取紙滾輪21〇 的壓力會產生-形變,使得第二物件表面334產生位移如第4 圖所示’物件分離斜面與位移後之第二物件表面334形成一 夾角0。當取紙滾輪210不斷下壓而使第二物件表面334與物件 分離斜面3H)的角度不斷增加(例如從㊀到❼直至剛好達到 (0 1/2)’此時待饋送物件33〇錢順利被取紙滚輪21〇取出, 此處待饋送物件33G f曲的行為即類似習知技術㈢所提及的挫 屈效應,如此一來,便可以達到分紙的效果。 請參閱第5圖,第5圖為第3圖中物件隔離元件36〇之操作 示意圖。物件隔離元件36〇,以可旋轉方式連接於該突出部324, 1302518 :當物件饋賴拉出於—機器本體(未顯示於圖上)時,物件 隔離元件360係位於垂直於承載底盤32〇之一第一位置以隔 離待饋送物件330無件分_面3ω,當物賴紐推入該 機器本體時’凸塊37G將物件隔離元件_之底部施往外推, 而物件隔離元件360之頂部368以逆時針方向旋轉至一第二位置 364以允許該待饋送物件330可被饋送。如此,待饋送物件33〇 不會雜件分離斜面接觸,所受的拘束齡,增加了紙張可 •變形的能力’可減少取紙過程中馬達扭力的需求並減少物件頭335 彎折所造成的傷害。 請參閱第6圖,第6圖為本發明第二實施例之物件饋送系統 6(H的示意圖。如第6圖所示,物件饋送系統咖包含物件饋送匿 _以及取紙雜21〇,物件饋· _包含有物件分離斜面跡 承載底盤620以及物件隔離元件_,其中物件分離斜面⑽係沿 # -物件饋送方向而設置,以及承載縫㈣係用來承載至少一待〇 饋送文件(未顯示)。承載底盤_包含有本體622、突出部必 以及彈性支碰626,其中突出部似係突出於本體必而連接於 物件分離斜面610 ’而且突出部似與本體622之間構成凹陷部 650,於本實施例中,凹陷部65〇位於突出部624上本體奶之 面向該待饋送文件之表面係高於突出部a4面向該待饋送文件之 表面。本實施例中,·支樓體626係設置於突出部似面向該 ’待饋送文件之表面上’且彈性支樓體626包含有:支樓板627以 及彈性7G件629。彈性元件幻9 (例如一彈簧)的兩端分別連接於 12 1302518 支撐板627與突出部624,用來施加一彈力予支撐板627。此外, 取紙滾輪210具有正向力自我補償機構,以捲動方式來饋送該待 饋送物件,凹陷部650與取紙滾輪210分別位於該待饋送物件之 兩侧以及取紙滚輪210位於該凹陷部650之上方。物件饋送系統 601之分紙原理與物件饋送系統2〇〇相似,亦即取紙滾輪會一併下 壓待饋送文件與支撐板627以使待饋送物件產生彎曲,故在此不 再贅述。 請參閱第7圖,第7圖為本發明第三實施例之物件饋送系統 701的示意圖。如第7圖所示,物件饋送系統701包含物件饋送匣 700以及取紙滾輪210,物件饋送匣700包含有物件分離斜面71〇、 承載底盤720以及物件隔離元件760,其中物件分離斜面71〇係沿 一物件饋送方向而設置,以及承載底盤720係用來承載至少一待 饋送文件(未顯示)。承載底盤720包含有··第一底盤722,連接 • 於物件分離斜面71〇 ;以及第二底盤724,設置於第一底盤722之 上,用來承載該待饋送文件,其中第二底盤724為一彈性材料(例 如一海綿)所構成。於此一實施例中,取紙滾輪會一併下壓待饋 送文件與第二底盤724(其由彈性材料構成)以使待饋送物件產生 彎曲,因此物件饋送系統7〇1亦會應用上述物件饋送系統2〇〇的 分紙原理。 , 睛參閱第8圖,第8圖為本發明第四實施例之物件饋送系統 801的示思圖。物件饋送系統8〇ι包含物件饋送匣以及取紙滾 13 1302518 _ 輪21(),物件饋送匣800包含有物件分離斜面810、承載底盤820 以及物件隔離元件860,其中物件分離斜面81〇係沿一物件饋送方 向而設置,以及承載底盤820係用來承載至少一待饋送文件(未 顯示)。承載底盤820包含有本體822、突出部824以及彈性支撐 體825,其中突出部824係突出於本體822而連接於物件分離斜面 810,而且突出部824與本體822之間構成凹陷部850 ,於本實施 例中,凹陷部850位於突出部824上,且彈性支撐體825係由一 彈性材料(例如一海綿)所構成。此外,取紙滚輪21〇具有正向 力自我補償機構,以捲動方式來饋送該待饋送物件,凹陷部85〇 與取紙滾輪210分別位於該待饋送物件之兩側以及取紙滾輪21〇 位於該凹陷部850之上方。物件饋送系統8〇1的分紙操作係與上 述物件饋送統701的分紙操作相同,而兩者主要的不同處在於物 件饋送匣800並未鋪設整層的彈性材料於承載底盤82〇上,如第3 圖所示,取紙滾輪210僅會與待饋送文件330的前方區域接觸, 鲁 因此只要於取紙滚輪210的下方區域設置彈性材料即可達到所要 的分紙效果。 請參閱第9圖,第9圖為本發明第五實施例之物件饋送系統 9〇1的示意圖。第9圖所示,物件饋送系統901包含物件饋送匣 9〇〇以及取紙滾輪210,物件饋送匣900包含有物件分離斜面91〇、 • 承載底盤920以及物件隔離元件960,其中物件分離斜面91〇係沿 一物件饋送方向而設置,以及承載底盤92〇係用來承載至少一待 饋送文件930。承載底盤920包含有本體922、突出部924,其中 14 1302518 突出部924係突出於本❺22 *連接於物件分離斜面_,而且突 出部924與本體922之間構成凹陷部95〇,於本實施例中,凹陷部 位於本體922上,本體922之面向待饋送物件93〇的第 925係低於突出部924面向待饋送物件93〇的第二表面923。此外, 取紙滾輪210具有正向力自我補償機構,以捲動方式來饋送1302518 IX. Description of the Invention: [Technical Field] The present invention provides an object feeding cassette, and more particularly to a paper feeding cassette having a mechanism for automatically adjusting the paper feeding angle. [Prior Art] The paper cassette has been widely used in various machines such as photocopiers, printers or facsimile machines. Its main function is to transfer sheets of paper one by one to a processing element (such as a printing module). For further processing. Please refer to Fig. 1, which is a schematic view of a conventional paper cassette. The paper cassette 1〇〇 includes a paper separation slope 110 and a carrier chassis 120. Generally, the design of the paper feed sheet is that the paper take-up roller 130 is required to take only one sheet of paper, but the paper take-up roller is in contact with the paper. When the positive force n is too large, it will increase the friction between the next φ sheets of paper and the larger paper will increase the chance that the next piece of paper will be taken out, that is, Multi-feed, however, if the positive force n is insufficient, there will be a case of misfeed. Conventional techniques use an auto-compensated-mechanism (ACM) to avoid problems caused by excessive or too small positive force N. - Please refer to Fig. 2, and Fig. 2 is a diagram showing the relationship between the positive force n and the paper take-up force p (N/p) - corresponding to the paper stacking degree h. In the prior art, the ratio of the positive force n to the paper take-up force P (N/p) is the distance from the hub 132 of the self-compensating mechanism to the carrying chassis 5 1302518 120 minus the stack of papers, ie (four)). In proportion, therefore, when d is fixed, as the paper stack height h becomes higher, the ratio (N/P) of the positive force (10) paper pulling force p decreases. As shown in Fig. 2, as the stack height h of the paper gradually changes, the ratio of the positive force N to the pick-up force p is decremented; when the stack height of the paper is at any time and Gmm (conceivable as a pile only) - the state of the sheet of paper), the ratio (N/P) is 0.55 and 〇.9', that is, under the same paper-pulling force p, the positive force given by the self-compensation mechanism when the paper is highly dereliction of duty It is 1.6 (0.9/0.55) times at 15mm height; in other words, the paper is highly miscellaneous, the greater the positive force required, and the larger positive force p will provide a larger paper for the next sheet. Friction, thus increasing the chance that the lower-sheet will be taken (four), in order to avoid the problem that the positive force is too large, the friction between the papers is too large, and the paper is brought out to cause the paper to be re-sent. Therefore, it is necessary to divide The paper bevel provides the appropriate resistance. Referring again to Figure 1, the force of the paper leading edge 11〇 on the leading edge of the paper (ie, the frictional force) will prevent the lower-sheet from being taken out; however, the factors determining this resistance are mainly the angle of the bevel, the rigidity of the paper. (paper weight) and the coefficient of friction between the leading edge and the bevel of the paper //. The larger the angle θ of the slope is, the smaller the resistance to the paper is. On the contrary, the smaller the angle/angle Θ is, the smaller the riding and the paper _ resistance is provided; the greater the resistance provided by the friction reading is to the paper, and according to the conventional _, the paper The threshold value that can be sent out is #~tan (01/2)', so the central angle between the paper slant and the paper reaches the critical angle (4), and the paper can be sent out; for the paper job (the paper is heavy, The angle is too large to increase the probability of multifeed. The angle is too small and there is a problem of not sending (ims-fbed) or even increasing (four). From the designer's point of view, facing the more than 1302518 wide paper face f, in Wei岐 切 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Paper rigidity is made into the paper surface of _ 尔, · Large 镰 will press the slope down (to the left) to produce a larger paper feed angle to reduce drag; however, in practical applications, the age user puts the secret force If the paper is too large, it will probably be affected by the impact of the slope. The paper angle makes the supplement function lose its effect. (2) According to U.S. Patent No. _821, it discloses that the resistance provided to different rigid papers is compensated by controlling the position of the paper skew © 110. For the four members, the paper is inclined away from the paper picker for the paper with the same homogeneity, and the paper with a small rigidity is close to the paper pick. The disadvantage of this method is that the mechanism is too complicated and the compensation method needs to be judged by the user. The rigidity of the paper is then used to manually control the position of the separation slanting surface 110. (3) According to U.S. Patent No. 5,895, 040, it is disclosed that a buckling element is additionally provided on the separation slanting surface 110, the smashing element having The relatively large coefficient of friction value causes the paper to be separated from the next sheet due to the buckling force during the picking process, and the buckling element has a partial flexibility, so when encountering a thick and thick 1302518 paper head The buckling element is separated from the paper by a slight back-to-back due to the flexibility, and the paper is separated by a relatively low-friction bevel. Therefore, it is avoided that the self-compensating mechanism cannot provide sufficient torque to generate the paper. Send _sfeed) or even a paper jam (jam) of. The problem to be solved by the present invention lies in two aspects. One is that when the stack height of the paper is low, the ratio of the positive force N to the paper take-up force P is too high to easily cause a double feed problem; the second is how to provide an effective method in a simple manner. A paper separation mechanism that blocks the sheet-sheet due to the miscellaneous force between sheets. SUMMARY OF THE INVENTION The present invention provides a kind of object feeding button for taking scales on a paper take-up roller, a paper take-up roller and a recessed portion forming a buffer space and having a low stacking height (ie, a positive force N and a paper take-up force P) In the case of a higher ratio, the required positive force is reduced, and at the same time, through the buffering two, the paper feeding angle of the paper and the inclined surface is changed during the paper-taking process, and the thief is changed by the compensation of the positive force, thereby achieving the class. Women are divided into _ effects to solve the above problems. A hairpin is supplied to the object, which includes an object ship £ and a pickup roller. The article feed s includes an object separating bevel and a carrying bottom beveling surface disposed along an object feeding direction. The carrier chassis is provided with a miscellaneous member, and the carrier has a body and a protruding portion, and the f portion protrudes from the body and is connected to the object separating inclined surface ^ 1302518 =: ΓίΓ constitutes a depressed portion. The paper take-up roller is in a scrolling manner: a sample; wherein the recessed portion and the pick-up roller are respectively: the two sides of the object and the pick-up roller are located above the recessed portion. Yunqibao = Ji-Jingqi, Mei #: - object feeding light, ^ part is divided into inclined, set along the direction of the object; - seam, to ^ to send the object, the carrier chassis contains: - body; And - protruding = the dog is connected to the object separating slope for the body, wherein the space constitutes a recess; and - the elastic bump is disposed on the concave = and - the pickup roller, feeds the object in a rolling manner Wherein, 兮 concave ==: not located in the input object and the paper take-up roller _ _ _ 働 働 feeding system, which includes: ― object feeding ware includes: an object separation slope, along - The object is arranged in a direction; the cover is attached to the object separating the inclined surface; and a second chassis is disposed on the first chassis to carry at least the object to be fed, wherein the second bottom An elastic material is formed; and a paper take-up roller feeds the object in a rolling manner: [Embodiment] Please refer to Fig. 3, which is a schematic view showing an example 1302518 of an article feeding system of the present invention. As shown in Fig. 3, the article feeding system 2 includes an article feeding cassette 300, a pickup roller 210, and an object to be fed 33 (e.g., a sheet of paper). The article feeding cassette 3 of the first embodiment of the present invention shown in Fig. 3 includes an object separating bevel 310, a carrying chassis 320, and an object separating member 36, wherein the object separating bevel 3HM is fed along the object to be fed 330. The orientation is provided, and the carrier chassis 320 is used to receive the article 330. As shown, the carrier chassis 32 includes a body 322 and a protrusion 324. The protrusion 324 protrudes from the body 322 and is coupled to the object separation ramp 310, and the protrusion 324 forms a recess 350 with the body 322. In the present embodiment, the recessed portion 35 is located on the protrusion like the first surface 325 of the body milk facing the object to be fed 330, and the second surface 323 facing the object to be fed 330 is higher than the protrusion 324. In addition, the paper take-up roller 21 has a positive force self-compensation mechanism for feeding the object 33 卷 in a rolling manner, and the recessed portion 35 〇 and the pickup roller 210 are respectively located on both sides of the object 33 以及 and the paper picking 2 Standing above the recess 350. Please note that when the object to be fed 330 is placed in the object feeding cassette 3, since the first surface 32S is higher than the second surface 323, the object to be fed 33() is placed on the body 322 and the protrusion 324. At this time, the leading edge portion of the object to be fed 33 is inclined downward by the body 322 toward the protruding portion 324, so that the object to be fed can now be roughly divided into the first object surface 332 and the second object surface 334, wherein the first object surface 332 is located above the first table from 325, and the surface of the two objects is located above the first surface 323. 1302518 As shown in FIG. 3, when the pickup roller 2i is started to operate, the second object surface 334 is pressed down, and at this time, the hub 212 of the pickup roller 210 and the carrier chassis 320 (in this embodiment, The distance D of the pick-up roller 21 〇 will regard the first object surface 332 as the surface of the chassis 320 is significantly smaller than the distance ^ in the prior art, so that, as shown in FIG. 2, the positive force N The ratio of the paper pulling force p is lowered, thus solving the problem that the ratio of the paper stack is too high and the required forward force is too large. Referring to Fig. 4', Fig. 4 is a schematic view of the object feeding system 2 shown in Fig. 3 when the paper is fed in. When the object separation slope 31〇 is at an angle to the second object surface 334, When the value of the object is small, the object separating slope 31 〇 is greatly hindered by the object head 335, and the pickup roller 21 is required to compensate for the additional positive force to press the object to be fed 330, and the second object surface 334 is subjected to the second object surface 334. The pressure of the pickup roller 21 is deformed such that the second object surface 334 is displaced. As shown in Fig. 4, the 'object separation slope' forms an angle 0 with the displaced second object surface 334. When the pickup roller 210 is continuously pressed to increase the angle of the second object surface 334 and the object separation slope 3H) (for example, from one to ❼ until just (0 1/2)', the object to be fed 33 is saved smoothly. It is taken out by the pickup roller 21, and the behavior of the object to be fed 33G f is similar to the frustration effect mentioned in the prior art (3), so that the effect of the separation can be achieved. See Fig. 5, Figure 5 is a schematic view of the operation of the object isolation member 36 in Figure 3. The object isolation member 36 is rotatably coupled to the projection 324, 1302518: when the object is pulled out - the machine body (not shown) In the figure, the object isolation member 360 is located at a first position perpendicular to the carrier chassis 32 to isolate the object to be fed 330 from the surface to the surface 3ω. When the object is pushed into the machine body, the bump 37G will The bottom of the article isolation element _ is extrapolated, and the top 368 of the object isolation element 360 is rotated in a counterclockwise direction to a second position 364 to allow the item to be fed 330 to be fed. Thus, the item to be fed 33 is not miscellaneous Separate bevel contact, The restrained age, the ability to deform the paper can reduce the need for motor torque during the paper take-up process and reduce the damage caused by the bending of the object head 335. Please refer to Figure 6 and Figure 6 is the second of the present invention. The object feeding system 6 of the embodiment (H is a schematic view of the object. As shown in Fig. 6, the object feeding system coffee includes the object feeding _ and the paper picking 〇 21, the object feeding _ includes the object separating slant carrying chassis 620 and the object The spacer element _, wherein the object separating slope (10) is disposed along the #-object feeding direction, and the bearing seam (4) is for carrying at least one to-be-feed file (not shown). The carrier chassis _ includes the body 622, the protrusion portion and The elastic support 626, wherein the protruding portion protrudes from the main body and is connected to the object separating inclined surface 610 ′ and the protruding portion forms a concave portion 650 with the main body 622 . In the embodiment, the concave portion 65 〇 is located at the protruding portion 624 . The surface of the upper body milk facing the document to be fed is higher than the surface of the protruding portion a4 facing the document to be fed. In the embodiment, the branch body 626 is disposed on the protruding portion to face the The surface of the feed file is 'and the elastic slab body 626 includes: a slab 627 and an elastic 7G member 629. The two ends of the elastic element phantom 9 (for example, a spring) are respectively connected to the 12 1302518 support plate 627 and the protruding portion 624, To apply a spring force to the support plate 627. In addition, the pickup roller 210 has a positive force self-compensation mechanism for feeding the object to be fed in a rolling manner, and the recessed portion 650 and the pickup roller 210 are respectively located at the object to be fed. The side and the pickup roller 210 are located above the recess 650. The separation principle of the object feeding system 601 is similar to that of the object feeding system 2, that is, the pickup roller presses the document to be fed and the support plate 627 together so that The object to be fed is bent, so it will not be described here. Referring to Figure 7, Figure 7 is a schematic illustration of an article feeding system 701 in accordance with a third embodiment of the present invention. As shown in Fig. 7, the article feeding system 701 includes an article feeding cassette 700 and a pickup roller 210. The article feeding cassette 700 includes an object separating inclined surface 71, a carrying chassis 720, and an object separating member 760, wherein the object separating inclined surface 71 is attached. It is disposed along an object feeding direction, and the carrier chassis 720 is used to carry at least one document to be fed (not shown). The carrying chassis 720 includes a first chassis 722 connected to the object separating slope 71〇, and a second chassis 724 disposed on the first chassis 722 for carrying the document to be fed, wherein the second chassis 724 is An elastic material (for example, a sponge) is formed. In this embodiment, the pickup roller presses the document to be fed together with the second chassis 724 (which is made of an elastic material) to cause the object to be fed to be bent, so that the object feeding system 7〇1 also applies the above object. The separation principle of the feeding system 2〇〇. Fig. 8 is a view showing the object feeding system 801 of the fourth embodiment of the present invention. The article feeding system 8 包含 includes an article feeding cassette and a pickup roller 13 1302518 _ wheel 21 (), the object feeding cassette 800 includes an object separating slope 810, a carrying chassis 820, and an object separating member 860, wherein the object separating slope 81 is along the edge An object feed direction is provided, and the carrier chassis 820 is used to carry at least one document to be fed (not shown). The carrier chassis 820 includes a body 822, a protrusion 824, and an elastic support body 825. The protrusion 824 protrudes from the body 822 and is connected to the object separation slope 810, and the protrusion 824 and the body 822 form a recess 850. In the embodiment, the recessed portion 850 is located on the protruding portion 824, and the elastic supporting body 825 is composed of an elastic material (for example, a sponge). In addition, the pickup roller 21A has a positive force self-compensation mechanism for feeding the object to be fed in a rolling manner, and the recessed portion 85 and the pickup roller 210 are respectively located on both sides of the object to be fed and the pickup roller 21〇. Located above the recess 850. The paper feeding operation of the object feeding system 8〇1 is the same as the paper separating operation of the above object feeding system 701, and the main difference between the two is that the object feeding cassette 800 does not lay the entire layer of elastic material on the carrying chassis 82〇. As shown in FIG. 3, the pickup roller 210 is only in contact with the front area of the document 330 to be fed, so that the desired paper separation effect can be achieved by providing an elastic material in the lower area of the pickup roller 210. Referring to Figure 9, Figure 9 is a schematic view of an article feeding system 9〇1 according to a fifth embodiment of the present invention. As shown in Fig. 9, the article feeding system 901 includes an article feeding cassette 9 and a pickup roller 210. The article feeding cassette 900 includes an object separating inclined surface 91, a carrying chassis 920, and an object separating member 960, wherein the object separating inclined surface 91 The tether is disposed along an object feeding direction, and the carrier chassis 92 is configured to carry at least one document to be fed 930. The carrier chassis 920 includes a body 922 and a protrusion 924, wherein the protrusion 1324 is protruded from the body 22 and is connected to the object separation slope _, and the protrusion 924 and the body 922 form a recess 95, in this embodiment. The recess is located on the body 922, and the 925th portion of the body 922 facing the object 93 to be fed is lower than the protrusion 924 facing the second surface 923 of the object 93 to be fed. In addition, the pickup roller 210 has a positive force self-compensation mechanism for feeding in a scrolling manner.
送物件930 ’凹陷部950與取紙滾輪·分別位於待饋送物件930 之兩侧以及取紙滾輪210位於該凹陷部mo之上方。 本實施例之物件饋送系統901操作原理與物件饋送系統勘 類似,但需注意是取紙滾輪21G _紐212與承載底盤伽(本實 施例中,取紙滾輪2U)會將第一物件表面932視為承載底盤92〇 的表面)之距離D與習知技術中的距離d並無明顯差異,如此一 來,由第2圖得知,正向力N與取紙力p的比值⑼增無法獲得 改善,但取紙時對進紙角度一樣有補償作用。 請參閱第10圖’第10圖為本發明第六實施例之物件饋送系 統1001的示意圖。第10圖所示,物件饋送系統麵&含物件饋 送E誦以及取紙滾輪21〇,物件饋送E麵包含有物件分離斜 面1010、承載底盤1〇2〇以及物件隔離元件1〇6〇,其中物件分離 斜面1_係沿-物件饋送方向而設置,以及承似盤刪係用 來承載至少一待饋送文件(未顯示)。承載底盤1〇2〇包含有本體 1022、突出部1024,其中突出部刪係突出於本體1〇22而連接 於物件分離斜面1010’於本實施例中,凹陷部1〇5〇位於本體⑴ 15 1302518 上彈性支撐體1026係设置於凹陷部1050面向該待饋送文件之 表面上,且彈性支撐體1026包含有:支撐板1〇27以及彈性元件 1029。彈性元件1029(例如一彈簧)的兩端分別連接於支撐板1〇27 與突出部1024,用來施加一彈力予支撐板1027。此外,取紙滾輪 21〇具有正向力自我補償機構,以捲動方式來饋送該待饋送物件, 凹陷部1050與取紙滾輪210分別位於該待饋送物件之兩側以及取 紙滾輪210位於該凹陷部川5〇之上方。物件饋送系統1001之分 紙原理與物件饋送系統901相似,亦即取紙滾輪會一併下壓待饋 送文件與支撐板1027以使待饋送物件產生彎曲,故在此不再贅述。 請參閱第11圖,第Π圖為本發明第七實施例之物件饋送系 統1101的示意圖。第11圖所示,物件饋送系統1〇〇1包含物件饋 送匣1000以及取紙滾輪210,物件饋送匣11〇〇包含有物件分離斜 面1110、承載底盤1120以及物件隔離元件116〇,其中物件分離 • 斜面1110係沿一物件饋送方向而設置,以及承載底盤1120係用 來承載至少一待饋送文件(未顯示)。本實施例中,承載底盤112〇 包含有本體1122、突出部Π24以及彈性支撐體1125,其中突出 部1124係突出於本體1122而連接於物件分離斜面111〇,凹陷部 1150位於本體1122上,彈性支撐體1125係設置於凹陷部115〇面 向该待饋送文件之表面上,彈性支撐體1125係由一彈性材料(例 如-海絲)所構成。此外,取紙滚輪21〇具有正向力自我補償機 構’以捲動方式來饋送該待饋送物件,凹陷部115〇與取紙滾輪21〇 分別位於該待饋送物件之兩側以及取紙滾輪21〇位於該凹陷部 16 1302518 .U50之上方。物件饋送系統1101的分紙操作係與上述物件饋送系 統901的分紙操作相同,在此不再贅述。 /、 請參閱第12圖’第12圖為本發八實施例之物件饋送系 統12〇1的不思圖。第12圖所示,物件饋送系統⑽&含物件饋 送E 12GG錢取贿輪細,物件舰E丨細包含有物件分離斜 ® 1210、承載底盤咖以及物件隔離元件聽,其中物件分離 斜面1210係沿一物件饋送方向而設置,以及承載底盤㈣係用 來承載至少-待饋送文件(未顯示)。承載底盤122〇包含有本體 1222、突出部1224 ’其中突出部1224係突出於本體1222而連接 於物件分離斜面1210,於本實施例中,凹陷部125〇位於本體啦 與突出部1224之間,此外,取紙滾輪21〇具有正向力自我補償機 構,以捲動方式來饋送該待饋送物件,凹陷部㈣與取紙滚輪⑽ 分別位於該待績送物件之兩側以及取紙滾輪21〇位於該凹陷部 • 1250之上方。請注意,本實施例之物件饋送系統1201操作原理與 物件饋送系統901類似,在此不在贅述。 請參閱第13圖,第13圖為本發明第九實施例之物件饋送系 統1301的不意圖。第13圖所示,物件饋送系統包含物件饋 送E 1300以及取紙滾輪21〇,物件饋送£ 13〇〇包含有物件分離斜 Φ mo、承载底盤1320以及物件隔離元件⑽,其中物件分離 .斜面1310係沿一物件饋送方向而設置,以及承載底盤1320係用 來承載至J -待饋送文件(未顯示)。承載底盤1320包含有本體 17 1302518 1322、突出部1324,其中突出部1324係突出於本體i322而連接 於物件分離斜面1310,於本實施例中,凹陷部135〇位於本體1222 與突出部1224之間,彈性支樓體1326係設置於凹陷部135〇面向 該待饋送文件之表面上’且彈性支撐體1326包含有:支撐板1327 以及彈性元件1329。彈性元件1329 (例如—彈簣)的兩端分別連 接於支撐板1327與突出部1324,絲施加—彈力予支撐板1327。 此外’取紙滾輪210具有正向力自我補償機構,以捲動方式來饋 送該待馈送物件’凹陷部1350與取紙滾輪210分別位於該待饋送 物件之兩侧以及取紙滚輪21〇位於該凹陷部135〇之上方。物件饋 送系統1301之分紙原理與物件饋送系統9〇1相似,亦即取紙滾輪 會-併下麟饋奴件與支雜1327以麟親物件產生彎曲, 故在此不再贅述。此外在本實施例中,亦可採用一撓性材料(例 如一投影片)’置於凹陷部1350上方,連接本體1322與突出部1324 之間,來取代支撐板1327以及彈性元件1329。 明參閱第14圖,第14圖為本發明第十實施例之物件饋送系 統1401的示意圖。第14圖所示,物件饋送系統14〇1包含物件饋 送匣1400以及取紙滾輪210,物件饋送匣14〇〇包含有物件分離斜 面1410與承載底盤1420,其中物件分離斜面141〇係沿一物件饋 送方向而設置,以及承載底盤1420係用來承載至少一待饋送文件 (未顯示)。本實施例中,承載底盤142〇包含有本體1422、突出 部1424以及彈性支撐體1425,其中突出部1424係突出於本體1422 而連接於物件分離斜面1410,凹陷部1450位於本體1422與突出 1302518 部1424之間,且彈性支撐體1425係由一彈性材料(例如一海綿) 所構成。此外,取紙滾輪210具有正向力自我補償機構,以捲動 方式來饋送該待饋送物件,凹陷部1450與取紙滾輪21〇分別位於 該待饋送物件之兩側以及取紙滾輪210位於該凹陷部145〇之上 方。物件饋送系統1401的分紙操作係與上述物件饋送系統9〇1的 分紙操作相同,在此不再贅述。 請注意,在上述實施例中,該物件隔離元件是可選擇性地搭 S己物件饋送祕,沒有物件隔離元件,物件饋送㈣—樣是可操 作此外第實施例為本發明之最佳實施例,凡在取紙滾輪的' 下方區域具有一緩衝區來達到的分紙效果之物件饋送系統均落入 本發明之範疇。 、’上所述,本發明物件饋送系統在取紙滾輪取紙時,取紙滾 輪與凹碑形成—緩衝空間,因而可避免習知在紙張堆疊高度較 低時比值(N/P)過南而造成正向力過大的問題;同時透過該緩衝空 間’使紙張與斜面的進紙角度在取紙過程中,、經由正向力的補償 改變進紙角度,達成類似挫齡紙的效果。 以上所述僅為本發明之較佳實施例,凡依本發明申請專利範 圍所做之均等變化絲飾,皆應屬本發明之涵蓋範圍。 【圖式簡單說明】 1302518 第1圖為習知進紙匣的示意圖。 第2圖為正向力與取紙力之比值對應於紐厚度賴係示意圖。 第3圖為本發明物件饋送系統(其包含本發明第—實施例的物件 饋送匣)之一實施例的示意圖。 第4圖為第3 ®所示之物件饋送紐進行取紙時的示意圖。 第5圖為第3圖中物件隔離元件之操作示意圖。 第6圖為本發明第二實施例之物件饋送匣的示意圖。 第7圖為本發明第三實施例之物件饋送匣的示意圖。 第8圖為本發明第四實施例之物件饋送匣的示意圖。 第9圖為本發明第五實施例之物件饋送匣的示意圖。 第10圖為本發明第六實施例之物件饋送匣的示意圖。 第11圖為本發明第七實施例之物件饋送匣的示意圖。 第12圖為本發明第八實施例之物件饋送匣的示意圖。 第13圖為本發明第九實施例之物件饋送匣的示意圖。 第14圖為本發明第十實施例之物件饋送匣的示意圖。 【主要元件符號說明】The object 930' recess 950 and the pickup roller are respectively located on both sides of the object to be fed 930 and the pickup roller 210 is positioned above the recess mo. The operation principle of the article feeding system 901 of the present embodiment is similar to that of the article feeding system, but it should be noted that the pickup roller 21G_new 212 and the carrier chassis gamma (in this embodiment, the pickup roller 2U) will have the first object surface 932. The distance D regarded as the surface carrying the chassis 92〇 is not significantly different from the distance d in the prior art. Thus, as shown in the second figure, the ratio of the positive force N to the paper take-up force p (9) cannot be increased. Improved, but the same as the paper feed angle when taking paper. Referring to Fig. 10, Fig. 10 is a schematic view of an article feeding system 1001 according to a sixth embodiment of the present invention. As shown in Fig. 10, the article feeding system face & article feeding E 诵 and the take-up roller 21 〇, the article feeding E bread containing the object separating slope 1010, the carrying chassis 1 〇 2 〇 and the object separating member 1 〇 6 〇, wherein The object separating ramp 1_ is disposed along the object feeding direction, and the tray is used to carry at least one document to be fed (not shown). The carrying chassis 1〇2〇 includes a body 1022 and a protruding portion 1024, wherein the protruding portion is protruded from the body 1〇22 and is connected to the object separating inclined surface 1010′. In the embodiment, the concave portion 1〇5〇 is located on the body (1) 15 1302518 The upper elastic support body 1026 is disposed on the surface of the recessed portion 1050 facing the document to be fed, and the elastic support body 1026 includes: a support plate 1〇27 and an elastic member 1029. Two ends of the elastic member 1029 (for example, a spring) are respectively coupled to the support plate 1〇27 and the protrusion 1024 for applying an elastic force to the support plate 1027. In addition, the pickup roller 21A has a positive force self-compensation mechanism for feeding the object to be fed in a rolling manner, and the recessed portion 1050 and the pickup roller 210 are respectively located on both sides of the object to be fed and the pickup roller 210 is located at the Above the depression 5 川. The separation principle of the article feeding system 1001 is similar to that of the article feeding system 901, that is, the pickup roller presses the document to be fed and the support plate 1027 together to bend the object to be fed, and therefore will not be described herein. Referring to Fig. 11, there is shown a schematic view of an article feeding system 1101 according to a seventh embodiment of the present invention. As shown in Fig. 11, the article feeding system 1〇〇1 includes an article feeding cassette 1000 and a pickup roller 210, and the object feeding cassette 11 includes an object separating inclined surface 1110, a bearing chassis 1120, and an object separating member 116, wherein the object is separated. • The ramp 1110 is disposed along an object feed direction, and the carrier chassis 1120 is configured to carry at least one document to be fed (not shown). In this embodiment, the carrying chassis 112 includes a body 1122, a protruding portion 24, and an elastic supporting body 1125. The protruding portion 1124 is protruded from the body 1122 and connected to the object separating inclined surface 111, and the concave portion 1150 is located on the body 1122. The support body 1125 is disposed on the surface of the recessed portion 115 facing the document to be fed, and the elastic support body 1125 is composed of an elastic material (for example, a sea wire). In addition, the pickup roller 21 has a positive force self-compensation mechanism 'feeding the object to be fed in a rolling manner, and the recess 115 〇 and the pickup roller 21 〇 are respectively located on both sides of the object to be fed and the pickup roller 21 The crucible is located above the recess 16 1302518 . U50. The paper separation operation of the article feeding system 1101 is the same as that of the above-described article feeding system 901, and will not be described herein. /, Please refer to Fig. 12', and Fig. 12 is a diagram of the object feeding system 12〇1 of the eighth embodiment of the present invention. As shown in Fig. 12, the object feeding system (10) & article contains E 12 GG money to take the bribe wheel fine, the object ship E 丨 fine contains the object separation oblique ® 1210, the carrying chassis coffee and the object isolation component to listen, wherein the object separation slope 1210 series It is disposed along an object feeding direction, and the carrier chassis (four) is used to carry at least a file to be fed (not shown). The carrier chassis 122 includes a body 1222 and a protrusion 1224. The protrusion 1224 protrudes from the body 1222 and is connected to the object separation slope 1210. In this embodiment, the recess 125 is located between the body and the protrusion 1224. In addition, the paper take-up roller 21 has a positive force self-compensation mechanism for feeding the object to be fed in a rolling manner, and the recessed portion (4) and the pickup roller (10) are respectively located on both sides of the goods to be retrieved and the pickup roller 21〇. Located above the recess • 1250. Please note that the principle of operation of the article feeding system 1201 of the present embodiment is similar to that of the article feeding system 901 and will not be described herein. Referring to Figure 13, Figure 13 is a schematic view of the article feeding system 1301 of the ninth embodiment of the present invention. As shown in Fig. 13, the article feeding system includes an article feeding E 1300 and a pickup roller 21 〇, and the object feeding member 13 13 includes an object separating oblique Φ mo, a carrying chassis 1320, and an object separating member (10), wherein the object is separated. The inclined surface 1310 The system is disposed along an object feeding direction, and the carrier chassis 1320 is for carrying to a J-to-be-fed document (not shown). The carrier chassis 1320 includes a body 17 1302518 1322, a protrusion 1324, wherein the protrusion 1324 protrudes from the body i322 and is connected to the object separation slope 1310. In the embodiment, the recess 135 is located between the body 1222 and the protrusion 1224. The elastic branch body 1326 is disposed on the surface of the recess 135 facing the document to be fed, and the elastic support 1326 includes a support plate 1327 and an elastic member 1329. Both ends of the elastic member 1329 (e.g., the magazine) are respectively connected to the support plate 1327 and the projection 1324, and the wire is applied to the support plate 1327. In addition, the pickup roller 210 has a positive force self-compensation mechanism for feeding the object to be fed in a rolling manner. The recessed portion 1350 and the pickup roller 210 are respectively located on both sides of the object to be fed and the pickup roller 21 is located at the same. Above the recess 135. The paper-splitting principle of the object feeding system 1301 is similar to that of the object feeding system 9〇1, that is, the paper-taking roller will be--and the lower-spinning slaves and the branching 1327 are bent by the nucleophile, so no further details are provided here. In addition, in this embodiment, a flexible material (e.g., a transparencies) can be placed over the recesses 1350 to connect the body 1322 with the protrusions 1324 instead of the support plate 1327 and the elastic member 1329. Referring to Figure 14, Figure 14 is a schematic illustration of an article feeding system 1401 in accordance with a tenth embodiment of the present invention. As shown in Fig. 14, the article feeding system 14〇1 includes an article feeding cassette 1400 and a pickup roller 210, and the object feeding cassette 14 includes an object separating inclined surface 1410 and a carrying chassis 1420, wherein the object separating inclined surface 141 is attached to an object. The feed direction is set, and the carrier chassis 1420 is used to carry at least one document to be fed (not shown). In this embodiment, the carrier chassis 142 includes a body 1422, a protrusion 1424, and an elastic support body 1425. The protrusion 1424 is protruded from the body 1422 and connected to the object separation slope 1410. The recess 1450 is located at the body 1422 and the protrusion 1302518. Between 1424, and the elastic support 1425 is composed of an elastic material (for example, a sponge). In addition, the pickup roller 210 has a positive force self-compensation mechanism for feeding the object to be fed in a rolling manner, and the recessed portion 1450 and the pickup roller 21 are respectively located on both sides of the object to be fed and the pickup roller 210 is located at the Above the depression 145. The paper separation operation of the article feeding system 1401 is the same as that of the above-described article feeding system 910, and will not be described herein. It is to be noted that, in the above embodiment, the object isolation member is selectively detachable, the object isolation member is not provided, and the article feeding (four) is operable. Further, the first embodiment is a preferred embodiment of the present invention. An object feeding system having a paper-buffering effect achieved by a buffer zone in the lower area of the pickup roller falls within the scope of the present invention. As described above, the object feeding system of the present invention forms a buffer space between the paper take-up roller and the intaglio when the paper take-up roller picks up the paper, thereby avoiding the conventional ratio (N/P) over the paper when the paper stack height is low. The problem of excessive positive force is caused. At the same time, the paper feeding angle of the paper and the inclined surface is used to change the paper feeding angle through the compensation of the positive force during the paper picking process, thereby achieving the effect of the paper of the same age. The above description is only a preferred embodiment of the present invention, and the equivalent variations of the silk fabrics according to the scope of the present invention should be within the scope of the present invention. [Simple description of the diagram] 1302518 Figure 1 is a schematic diagram of a conventional paper tray. Figure 2 is a schematic diagram of the ratio of the positive force to the paper take-up force corresponding to the thickness of the New Zealand. Fig. 3 is a schematic view showing an embodiment of the article feeding system of the present invention including the article feeding cassette of the first embodiment of the present invention. Figure 4 is a schematic view of the object feeding button shown in the third ® when the paper is taken. Figure 5 is a schematic view of the operation of the article isolation element in Figure 3. Fig. 6 is a schematic view showing the article feeding cassette of the second embodiment of the present invention. Figure 7 is a schematic view of the article feeding cassette of the third embodiment of the present invention. Fig. 8 is a view showing the article feeding cassette of the fourth embodiment of the present invention. Figure 9 is a schematic view showing the article feeding cassette of the fifth embodiment of the present invention. Fig. 10 is a schematic view showing the article feeding cassette of the sixth embodiment of the present invention. Figure 11 is a schematic view showing the article feeding cassette of the seventh embodiment of the present invention. Figure 12 is a schematic view showing the article feeding cassette of the eighth embodiment of the present invention. Figure 13 is a schematic view showing the article feeding cassette of the ninth embodiment of the present invention. Figure 14 is a schematic view showing the article feeding cassette of the tenth embodiment of the present invention. [Main component symbol description]
Too-- 進紙匣 no ~ * — 分紙斜面 130、210 ~ 取紙滾輪 330、930 " 物件 310、610、710、810、910、1010、1110、 物件分離斜面 —-—---1 20 1302518 1210、1310、1410 120、320、620、720、820、920、1020 1120、1220、1320、1420 322、622、822、922、1022、1122、1222、 1322 、 1422 324、624、824、924、1024、1124、1224 1324、1424 323、923 325、925 332 334 132、212 承栽底盤 本j 突出部 弟一表面 第二表面 第一物件表面 第二物件表面 物件饋送系統 200、601,701,801,901,1001,1101,1201, 1301,1401 物件饋送匣 300、600、700、800、900、1000、1100 1200 、 1300 、 1400 626、825、1026、1125、1326、1425 彈性支撐體 627、1027、1327 支撐板Too-- Tray no ~ * — Separation bevel 130, 210 ~ Pickup roller 330, 930 " Objects 310, 610, 710, 810, 910, 1010, 1110, Object separation bevel—----1 20 1302518 1210, 1310, 1410 120, 320, 620, 720, 820, 920, 1020 1120, 1220, 1320, 1420 322, 622, 822, 922, 1022, 1122, 1222, 1322, 1422 324, 624, 824, 924, 1024, 1124, 1224 1324, 1424 323, 923 325, 925 332 334 132, 212 bearing chassis present j protruding part one surface second surface first object surface second object surface object feeding system 200, 601, 701 , 801, 901, 1001, 1101, 1201, 1301, 1401 object feeding cassettes 300, 600, 700, 800, 900, 1000, 1100 1200, 1300, 1400 626, 825, 1026, 1125, 1326, 1425 elastic support 627 , 1027, 1327 support plate
21 1302518 1260、1360、1460 362 第一位置 364 第二位置 366 底部 368 頂部 370 凸塊 335 物件頭 350、650、850、950、1050、1150、1250、 凹陷部 1350、1450 2221 1302518 1260, 1360, 1460 362 First position 364 Second position 366 Bottom 368 Top 370 Bumps 335 Object heads 350, 650, 850, 950, 1050, 1150, 1250, recesses 1350, 1450 22