JPS5847742A - Transfer mechanism of paper card - Google Patents

Abstract

PURPOSE:To make the relative position between a magnetic head and a magnetic medium on a paper card tally by a method wherein the paper card is pushed against the running surface, on which the paper card runs in an upright posture by being pinchingly supported between one roller made of freely deformable elastic material and the other roller. CONSTITUTION:When a paper card C is fed by means of a feed roller or the like in an posture upright to a running surface W with mirror-finished surface between the rollers 6 and 8, the roller 6 is put into drive by the detection of the feeding of the paper card in order to drag the paper card in between the rollers 6 and 8. At this time, because of the roller 6 made of freely deformable, the lower peripheral end part 6a, the diameter of which is larger than that of the upper peripheral end part, deforms toward the running surface W or downward while urging the paper card C together with the roller 8, resulting in acting the forward trasferring force and the thrust force against the running surface W to the paper card C. Accordingly, the paper card C goes straight ahead along the running surface W notwithstanding that the paper card C is not provided with any member to support its upper edge C'' and the rollers 6 and 8 support and drive only near one side edge in the direction of its width. Consequently, the relative position between the magnetic medium M on the paper card C and the magnetic heat 4 for reading data can be tallied.

Description

【発明の詳細な説明】 本りａ明は勢カードの＃送機尋易ζ関する。[Detailed description of the invention] This book is related to the #transmission card of the force card.

近時、生産エルや物流の過程において、　８５品や商品
のｇ理で紙製の磁気カード（以下紙カードという）を作
成し、この紙カードに設けたストライブ状のｍｇ媒体に
、その部品・名、コードナンバー、単価、数量りの内６
をなすデータを予めｌｌｌｌ１しておき、人出症の都度
この紙カードをホッパーから順次移送して磁気ヘッド等
ををするデータの読みに 取り装置にかけ、コンビ≧−タ等参より入出庫のｖ３録
の歩進等の処理を行なりでいる。Recently, in the process of production and distribution, paper magnetic cards (hereinafter referred to as paper cards) have been created by processing 85 items and products, and the parts have been placed on strip-shaped MG media provided on the paper cards.・Name, code number, unit price, quantity 6
llll1 in advance, and each time there is a crowd out, these paper cards are sequentially transferred from the hopper and placed on a device to read the data using a magnetic head, etc. Processing such as recording progress is still being carried out.

一般にこれらの紙カードを移送するに−よ以下のような
構造が採られている。Generally, the following structure is used to transport these paper cards.

すなわち第１２および沼２図に示すように１紙カードＣ
の一側縁を駆動ローラ１および従動ローラ２によツーて
上下から犠持し、駆動ローラｌを回転せしめる一方、紙
カードＣの他軸縁を適宜なガイド板３によりスプリング
等にてｌｌｌｌ発的に支すし、紙カードＣが走１３面Ｗ
上を直進するようにしている。なお、図１０１は紙カー
ドＣ上に付ａされかり槌々のデータを記ＦＡしてなる６
Ｂ気罷体、４はこのデータを醜み取るための磁気ヘッド
、６は紙カードＣの他側縁のガイドである。In other words, as shown in Figure 12 and Swamp 2, one paper card C
One side edge is supported from above and below by a driving roller 1 and a driven roller 2, and the driving roller 1 is rotated, while the other axial edge of the paper card C is held by an appropriate guide plate 3 using a spring or the like. The paper card C has 13 sides W.
I try to go straight above. In addition, FIG. 101 is a paper card C with the data of each hammer written on it.
4 is a magnetic head for removing the data, and 6 is a guide for the other edge of the paper card C.

しかしながらこの方法では、ａｌ気＾ツド４のａ下に磁
ｇｉｒｌ媒体昶が位置する状廟で０紙カードＣが走行す
るように、ガイド３によりて紙カードＣの−側縁に一定
の押圧力を加える仁とが不可欠であるが、かかる押圧力
は駆動ローラ１による紙カードＣの送出に妨げとならな
い程度の力で、かつ紙カードＣに必要以上のブレーキを
加えるようなものであってはならないことから設定が難
かしい不都合がある。加えて図示の如＜ｍ側縁の１ｙ局
すなわち幅の広いｈ４形の紙カードＣ／を送出する湯合
にあっては、紙カードＣ／の重心よりもかなり龍れた一
側縁にＫＭ　＊　ｑ−ラｌによる駆動力が加わり、骨−
の反面、重心から遠＜　１３れた他側縁にガイド３によ
るブレーキ力が加わるため紙カードＤ／のＲｆｆｉＪＩ
の移動速度に櫃かながうも差を生じ、これが紙カードＣ
ｖｖｉ進を妨げてひいては＃気ヘッド４番ζよる磁ｇ＆
奴体翼内のデータの続み取りが不可鉤となる欠点があり
た。However, in this method, a certain pressing force is applied to the -side edge of the paper card C by the guide 3 so that the paper card C runs in a position where the magnetic girl medium is located under the a of the air 4. However, the pressing force should be such that it does not interfere with the feeding of the paper card C by the drive roller 1, and must not be such as to apply more brake than necessary to the paper card C. This has the disadvantage that it is difficult to set. In addition, as shown in the figure, in the case of sending out a wide h4-shaped paper card C/ with a 1y station on the <m side edge, there is a KM on one side edge that is considerably bent out from the center of gravity of the paper card C/. * Driving force from q-ra l is added, and the bone-
On the other hand, since the braking force by the guide 3 is applied to the other side edge which is far from the center of gravity, the RffiJI of the paper card D/
There is a difference in the moving speed of the paper card C.
The magnetic g&
There was a drawback that it was impossible to continue the data within the body wing.

本ｆａ明は軟土の点に鑑みａｔ＊されたものであり、そ
の目的とするところは、紙カードを直立曽しめた状態で
移送するようにし、しかもＩＩＫｍローラ、従動ローラ
等の４１１造憂に改良を加えることによって紙カードの
形状や大きさに拘わらずＪＥＩＷに輌カ讐ドを直進させ
得るように５１ｃ紙カードの移送機構を提供するにある
。This fa-mei was developed in consideration of the soft soil, and its purpose was to transport paper cards in an upright position, and to use 411 features such as IIKm rollers and driven rollers. To provide a transport mechanism for 51c paper cards, which allows a JEIW vehicle to travel straight regardless of the shape or size of the paper card by improving the above.

以下、図番ζ沿りて本発口ｑの実施７例を詳細にｗ４１
１１する。Below, 7 examples of implementation of this opening q are shown in detail along the drawing number ζ w41
11.

范３Ｕにおいて、６は硬＊：ｆＡ響の弾性体からなる変
形自在な第１のローラであり、その外形は略円櫨臼状を
量し、大径の下１４　Ｑ　ａｌｌ　６蟲が紙カードｑの
走行面Ｗに近１にするように旧設される一ローラ６のシ
ャフト７は図示されていな１％駆動モータに連結されて
いる。一方、ｔＨｌのローラ６に対向するように１かな
間−を隔て″ｃ第２のローラ８が旧設されてｉる。この
データ８は従動側、とし′Ｃ後述する如く第１のローラ
６との間に挟持する紙カードＣの走行につれてシャフト
９を中心に回＠可能である。なお、第２のローラ８のａ
ｓ２ｙ向の中心はｍｌのローラ６のそれよりも、’ａ−
ｐ低く位置するようもζ設定、されている。In the 3U, 6 is a deformable first roller made of a hard elastic material, and its outer shape is approximately circular, and the lower part of the large diameter is a paper card. The shaft 7 of one roller 6, which was previously installed so as to be close to the running surface W of q, is connected to a 1% drive motor (not shown). On the other hand, a second roller 8 is previously installed at a distance of 1 inch so as to face the roller 6 of tHL. It can be rotated around the shaft 9 as the paper card C held between the rollers runs.
The center in the s2y direction is 'a-' than that of the ml roller 6.
ζ is also set so that p is located low.

ｍｌのローラ６の下層篩部６畠と、第２のローラ８の外
周面とのＩ！Ｊ−は平常時で紙カードＣの１枚分の肉厚
よりも嶺かに短く、家な両ローラ５．８１＋４１に紙カ
ードＣが強制的に挿入された状態で下層端部６龜が紙カ
ードＣの側１ｆＫて押圧され変形することで紙カードＣ
がｍ遍し得るような長さに設定されている。I! of the lower sieve part 6 of the roller 6 of ml and the outer peripheral surface of the second roller 8! Under normal conditions, J- is much shorter than the thickness of one paper card C, and when the paper card C is forcibly inserted into both rollers 5.81+41, the lower end 6 corners are covered with paper. The paper card C is pressed and deformed by the side 1fK of the card C.
The length is set such that it can be repeated m times.

直立状層で鑵ロー５６．８ｎＲの同ＫＫ供給される紙カ
ードＣには１ｍ　ｆｅｄ　Ｌｌだ如く種々のデータをＩ
Ｉ＋３録したストライブ状のａ気媒体昶が付着され、仁
のａ４Ａ媒体舅の走行路上にはデータを睨み取るた中 めの磁気ヘッド４が臨設されている。なお、３御１０は
紙カードＣのガイドであり、また、紙カードＣ・が走行
する走行面Ｗは鏡面状に仙上げられて摩擦抵抗を輌め、
てｌＪｌさくしである。The paper card C supplied by the same KK with an upright layer and iron row 56.8nR contains various data such as 1m fed Ll.
A strip-shaped a-air medium recorded with I+3 is attached, and a medium-sized magnetic head 4 is installed on the running path of the A4A medium. Note that 3 and 10 are guides for the paper cards C, and the running surface W on which the paper cards C run is raised to a mirror surface to create frictional resistance.
It is te l Jl sakushi.

次にこのｆｊ８作を説明する。Next, this fj8 work will be explained.

、、先ず図示されていない送りキーラ等により、紙カー
ドＣは鏡面状の走行面Ｗに対して直立した状態で、第３
図の紙面の裏面から咬面方向に第１のローラ６と謬２の
ローラ８との間の開織に向Ｐって送出されてくる。紙カ
ードＣがＩＩＵ記間暢にｔｇ達すると検出１ｇのセンサ
ー等により駆動モータに、４８号が送られ、駆ｆＪ　（
＋Ｉ＋Ｉの［１のローラ６が―転して紙カードＣを台含
込む。この時、ローラ６は弾性体からなり変形自在であ
るため、その下Ｂ端１１ｇ６ｍは紙カードＣを第２のロ
ーラ８との間に圧接レフつ涛行面Ｗ方向（図中下方）へ
と変形し、これｋよフて紙カードＣのローラ６．８゛と
のｆｆ　Ｍ　Ｂ６に紘ローラ６．８　（Ｄ　ＵＥＪ　’
ｔ　＋Ｃ−１：２　”Ｃｍ　＃−ドＣＪｔ−前方に移送
しようとする力と、紙カードＣＪＩ７ｅ＊行ｓｗｇ押し
付ける力とが作用する。従りで２紙カーｔｔｃはその上
縁Ｃ夕を支持する［５材がなく、錫方向の一側縁近彷の
みをローラ６．８にて支持されかつａｍさ かれているにも拘わらず、走行面Ｗに沿って直進するこ
とができるものである−０ なお、この実ｍＧ１１ではｍｌのローラ６を駆動側に、
他力第２のローラを従ａ側としたが、これに限られるも
のではなく、ｍｌのローラ６を従ｍａとし、第２のロー
ラ８を駆動側としても同様の効果を得ることができる。,, First, by means of a feeding keel (not shown) or the like, the paper card C is held upright against the mirror-like running surface W and moved to the third position.
It is sent out from the back side of the paper in the occlusal direction toward the opening P between the first roller 6 and the second roller 8. When the paper card C reaches tg during IIU, a sensor with a detection value of 1g sends No. 48 to the drive motor, and the drive fJ (
The roller 6 of +I+I [1 rolls - and contains the paper card C. At this time, since the roller 6 is made of an elastic body and is deformable, its lower B end 11g6m presses the paper card C between it and the second roller 8 in the direction of the rolling surface W (downward in the figure). Transform this k, then ff M B6 with the roller 6.8 of the paper card C (D UEJ'
t+C-1:2 "Cm#-deCJt-The force to move the paper card CJI7e* row swg forward acts. Therefore, the two-paper cart ttc supports its upper edge CJt. [5] Although there is no material and only one side edge in the tin direction is supported by rollers 6.8 and am cut, it is possible to move straight along the running surface W. -0 In addition, in this actual mG11, the ml roller 6 is on the drive side,
Although the second roller is set as the slave a side, the present invention is not limited to this, and the same effect can be obtained by using the ml roller 6 as the slave ma and the second roller 8 as the drive side.

以上述べたように本発明によれば、ｍｌのローラと第２
のローラのうち一方を変形自在な弾性体にて形成し、他
方のローラとの間に紙カードを狐持した際に一方のロー
ラを変形せしめ、紙カードを直立させてなる走行面方向
に紙カードを押し付けるよう番ζしたから、自重により
走８ｒＩｔＪに直立された紙カードをローラによって走
行面にｍ典に押し付け、走行面に沿って正確に直進させ
ることができる効果がある。Ｃれにより移送される紙カ
ード上のａＳＳ体とデータの読み取りＨＪの磁気ヘラる ドとの位ｆｌ！！関係は常に一致させることができよか
う、データの読み取りを正確に行なうことがで台る。As described above, according to the present invention, the ml roller and the second
One of the rollers is made of a deformable elastic body, and when a paper card is held between it and the other roller, one roller is deformed, and when the paper card is held upright, the paper moves in the direction of the running surface. Since the card is pressed against the paper card, the paper card, which is held upright due to its own weight, is pressed firmly against the running surface by the rollers, and has the effect of being able to accurately move straight along the running surface. The position fl! ! If the relationships can always be matched, it will be possible to read the data accurately.

また紙カードをその自重とローラとにより走行路上に直
立させる１成であるから、紙カードの上縁を＊持するガ
イド等が不要で構造の簡略化が図れると共に、従来の如
くローうにより駆動される側とは反Ｎ４１ＩＪＪｆＪ紙
カード端部に負荷がかからず、紙カードの直進性に一層
寄与で窃る利点がある。In addition, since the paper card is made to stand upright on the running path using its own weight and rollers, there is no need for a guide to hold the upper edge of the paper card, simplifying the structure, and driving it by rowing as in the past. There is an advantage that no load is applied to the end of the N41IJJfJ paper card, which is opposite to the side where it is played, and it contributes more to the straightness of the paper card.

加えて紙カードの外形や大台さに拘わらず１２．＠カー
ドの一側縁近傍のみをローラで筏持し移送できる構造で
あるから、従来各工湯毎に形状響が興なる紙カードを使
用していたことによりてデータを読み取り処理する紙カ
ード処１ｉｉａｔ置の構造仕様等も多様化し、処理装置
の統一が不可曲であったのに対し、本発明では紙カード
の形状による制約がなく処理装置の統一も可能である等
の効果がある。In addition, regardless of the shape or size of the paper card, 12. ＠The structure allows only one edge of the card to be held and transported by rollers, so paper card processing that reads and processes the data has become more difficult than the conventional paper cards, which have different shape effects for each hot spring. The structural specifications, etc. of 1IIIAT machines have diversified, making it impossible to unify the processing equipment, but the present invention has the advantage that there is no restriction due to the shape of the paper card, and it is possible to unify the processing equipment.

【図面の簡単な説明】[Brief explanation of the drawing]

ｔｉＸｌｒｇＪは従来の移送機構を示す正面図、７８２
図は同じく平面図、第３因は本発明の一実施例を示す正
面図である。 ６−・＃第１のローラ、６ｍ−・下ｍ　＃　部、８０−
１８２のローラ、Ｃ・・０紙カード、Ｗ・・昏走ｅ面り
許出Ｌ１１人　　マグデータ株式会社γ１図 ７２図 第３図tiXlrgJ is a front view showing a conventional transfer mechanism, 782
The figure is also a plan view, and the third factor is a front view showing an embodiment of the present invention. 6-・#1st roller, 6m-・lower m# section, 80-
182 rollers, C...0 paper cards, W...Komasu e-face permission L11 people Magdata Co., Ltd. γ1 Figure 72 Figure 3

Claims (1)

【特許請求の範囲】[Claims] 第１のローラ６と第２のローラ８との関に紙カードＣを
圧接後持し、前記ローラ６．８を回転曽しめて前記紙カ
ードＣを走行面Ｗ上にて移送するようにした移送綴４．
ｉ　において、前記ローラ６．８のうちの一方のローラ
をｉｉ２形自在な弾性体にて形成し、他方のローラとの
間に前記紙カードＣを筏持した際に、前記一方のローラ
をｊｌ！２形せしめ、前記紙カードＣを自重により直立
させてなる前ｒｆｄ走５ＩＩＩＪｗ方向に前記紙カード
Ｃを押し付けるようにしたことを特徴とする紙カードの
膠送ｇｉ　ａ　６A paper card C is held after being pressed between a first roller 6 and a second roller 8, and the paper card C is transferred on a running surface W by rotating the roller 6.8. Tsuzuri 4.
In i, one of the rollers 6.8 is formed of an elastic body that can be freely shaped into ii2, and when the paper card C is held between it and the other roller, the one roller is jl. ! 2-type paper card glue feeding gi a 6, characterized in that the paper card C is held upright by its own weight and the paper card C is pressed in the front rfd direction 5IIIJw direction.