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JPH0891678A - Paper sheet sorting method and device - Google Patents

Paper sheet sorting method and device

Info

Publication number
JPH0891678A
JPH0891678A JP25619694A JP25619694A JPH0891678A JP H0891678 A JPH0891678 A JP H0891678A JP 25619694 A JP25619694 A JP 25619694A JP 25619694 A JP25619694 A JP 25619694A JP H0891678 A JPH0891678 A JP H0891678A
Authority
JP
Japan
Prior art keywords
paper
sheet
piece
sorting
sided
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP25619694A
Other languages
Japanese (ja)
Inventor
Takashi Tanaka
孝 田中
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Toppan Edge Inc
Original Assignee
Toppan Moore Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Toppan Moore Co Ltd filed Critical Toppan Moore Co Ltd
Priority to JP25619694A priority Critical patent/JPH0891678A/en
Publication of JPH0891678A publication Critical patent/JPH0891678A/en
Pending legal-status Critical Current

Links

Landscapes

  • Delivering By Means Of Belts And Rollers (AREA)
  • Separation, Sorting, Adjustment, Or Bending Of Sheets To Be Conveyed (AREA)
  • Forming Counted Batches (AREA)

Abstract

PURPOSE: To sort paper sheets on a continuously shifting conveyance path without retaining the paper sheets. CONSTITUTION: The shifting speed of a single-piece paper sheet is temporarily increased on a conveyance path constituted of multiple conveyance belts 20 receiving the single-piece paper sheets 13 continuously discharged from a paper sheet cutting device 1 and continuously shifting single-piece paper sheets, and the interval between two single-piece paper sheets reaching the conveyance belts 20 before and after the speed change is set wider than the interval between the other single-piece paper sheets 13 for sorting.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、単片用紙を移送しなが
ら、所望枚数ずつ区分けするための用紙区分け方法及び
装置に関し、例えば、連続用紙切断装置から連続的に排
出された単片用紙を受けて、単片用紙を連続的に移送し
ながら所望枚数ずつ区分けするもので、スタッカ装置へ
の搬送径路上に設けたり、スタッカ装置に組み込んで設
けるものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sheet sorting method and apparatus for sorting a desired number of sheets while transporting the single sheet, for example, a single sheet continuously discharged from a continuous sheet cutting device. It receives and sorts the single-piece sheets by a desired number while continuously transferring them, and is provided on the conveying path to the stacker device or incorporated in the stacker device.

【0002】[0002]

【従来の技術】従来における、単片用紙の区分け処理
は、区分け位置に間紙を挿入したり、スタッカ装置の用
紙載置台を用紙幅方向に移動して区分け毎に用紙幅方向
に振り分けて行う(例えば特公平3−38991号公
報、特公平4−36993号公報)のが一般的であっ
た。
2. Description of the Related Art In the conventional sorting processing of a single piece of paper, a slip sheet is inserted at a sorting position, or a sheet stacking table of a stacker device is moved in the sheet width direction to sort the sheets in the sheet width direction. (For example, Japanese Patent Publication No. 3-38991 and Japanese Patent Publication No. 4-36993) were common.

【0003】[0003]

【発明が解決しようとする課題】このため従来の用紙の
区分け処理にあっては、前者によると用紙移送動作を一
旦停止しなければ行うことが困難であり、また、後者に
よるとスタッカ装置等の用紙を滞留させる部分でないと
行うことができず、用紙の搬送径路の途上では行うこと
ができないという不都合があった。本発明は、このよう
な不都合を解消した用紙区分け方法及び装置を提供する
ことを目的とする。
Therefore, in the conventional sheet sorting process, it is difficult to perform the sheet transport operation unless the sheet transport operation is temporarily stopped according to the former case, and according to the latter case, a stacker apparatus or the like is required. There is an inconvenience that it cannot be performed unless it is a portion where the sheet is retained, and it cannot be performed on the way of the sheet conveyance path. SUMMARY OF THE INVENTION It is an object of the present invention to provide a sheet sorting method and apparatus that eliminates such inconvenience.

【0004】[0004]

【課題を解決するための手段】本発明の用紙区分け方法
は、連続的に排出される単片用紙を受けて、単片用紙を
連続的に移送する搬送径路上で、用紙移送速度を一時的
に速め、この速度変化の前後に受けた2枚の単片用紙の
間隔を、他の単片用紙の間隔よりも広くして区分けする
ものである。そして、用紙移送速度の変化は、搬送径路
を形成する単片用紙を連続的に移送する用紙移送機構に
連繋した変速機構によって行うことができる。
SUMMARY OF THE INVENTION A sheet sorting method according to the present invention receives a continuously ejected single-sided sheet and temporarily suspends the sheet transfer speed on a transfer path for continuously transferring the single-sided sheet. The distance between the two single-piece sheets received before and after this speed change is made wider than the distance between the other single-piece sheets to divide the sheet. Then, the change of the sheet transfer speed can be performed by the speed change mechanism connected to the sheet transfer mechanism for continuously transferring the single-piece sheet forming the transfer path.

【0005】また、本発明の用紙区分け装置は、連続的
に排出される単片用紙を受けて、単片用紙を連続的に移
送する用紙移送機構と、この用紙移送機構の前段に配置
され単片用紙に設けられた区分けマークを検出するセン
サーと、前記用紙移送機構の移送速度を一時的に速める
早送り機構と、前記センサーの区分けマーク検出信号を
受けて区分けマークが設けられた単片用紙が前記用紙移
送機構に達する直前または直後に前記早送り機構を作動
する制御部を設けたものである。そして、前記早送り機
構は用紙移送機構に連繋した変速機構で構成すると好適
である。
Further, the sheet sorting apparatus of the present invention is provided with a sheet transfer mechanism for receiving continuously ejected single-sided sheets and continuously transferring the single-sided sheets, and a sheet transfer mechanism disposed before the sheet transfer mechanism. A sensor for detecting a sorting mark provided on a single-sided sheet, a fast-forward mechanism for temporarily increasing the transfer speed of the sheet transport mechanism, and a single-sided sheet provided with a sorting mark in response to a sorting mark detection signal from the sensor are provided. A control unit for operating the fast-forwarding mechanism is provided immediately before or immediately after reaching the paper transport mechanism. Further, it is preferable that the fast-forwarding mechanism is composed of a speed change mechanism connected to the sheet transporting mechanism.

【0006】上述したセンサーに換えて、単片用紙を検
出するセンサーを設けるとともに、上述した制御部に換
えて、前記センサーの検出信号を受けて単片用紙の枚数
をカウントし、単片用紙があらかじめ設定された所定枚
数になると、区分けする最後の単片用紙が用紙移送機構
に達した直後、または次の区分けする1枚目となる単片
用紙が前記用紙移送機構に達する直前に、早送り機構を
作動する制御部を設けることもできる。
In place of the above-mentioned sensor, a sensor for detecting a single-sided sheet is provided, and in place of the above-mentioned control unit, the detection signal of the sensor is received to count the number of the single-sided sheets. When the predetermined number of sheets set in advance is reached, immediately after the last single-piece sheet to be sorted reaches the sheet transport mechanism, or immediately before the first single-sheet sheet to be sorted next reaches the sheet transport mechanism, the fast-forward mechanism. It is also possible to provide a control unit for operating the.

【0007】[0007]

【作用】連続的に排出される単片用紙を受けて、単片用
紙を連続的に移送する搬送径路上で、用紙の移送速度を
一時的に速めると、その後搬送径路に達した単片用紙と
その直前の単片用紙との間隔は、他の単片用紙間の間隔
よりも広くなり、この単片用紙間の間隔の広狭によって
区分け処理することができる。
The single-piece sheet reaches the conveying path after the sheet transfer speed is temporarily increased on the conveying path for continuously transferring the single-piece sheet in response to the continuously discharged single-piece sheet. The interval between the single-piece sheet immediately before and the single-piece sheet is wider than the interval between the other single-piece sheets, and the separation processing can be performed depending on the width of the single-piece sheet.

【0008】[0008]

【実施例】以下、本発明を用紙切断装置からスタッカ装
置への搬送径路上に配置した一実施例について添付図面
に基づき詳細に説明する。ここにおいて、図1は用紙切
断装置とスタッカ装置に組み込んだ用紙区分け装置を示
す概略的な側面図、図2は単片用紙に切断される連続用
紙を示す概略的な平面図、図3は用紙区分け装置の一部
を示す概略的な斜視図、図4は変速機構を示す概略的な
正面図である。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment in which the present invention is arranged on a conveying path from a sheet cutting device to a stacker device will be described in detail below with reference to the accompanying drawings. Here, FIG. 1 is a schematic side view showing a sheet cutting device and a sheet sorting device incorporated in a stacker device, FIG. 2 is a schematic plan view showing a continuous sheet to be cut into single-piece sheets, and FIG. 3 is a sheet diagram. FIG. 4 is a schematic perspective view showing a part of the sorting device, and FIG. 4 is a schematic front view showing a transmission mechanism.

【0009】まず、図1及び図2に基づいて、用紙区分
け装置を組み込んだ用紙切断装置とスタッカ装置、及び
単片用紙に切断される連続用紙について説明する。用紙
切断装置1は、折り兼切り用ミシン目2でジグザグに折
り畳まれた連続用紙3を載置する載置台4を備えるとと
もに、載置台4上から引き出された連続用紙3をガイド
するガイド板5を備えている。ガイド板5に続いて、連
続用紙3の移送孔6を係合するピン(図示せず)を有す
るトラクタ7が設けられ、このトラクタ7の移送方向端
には連続用紙3のマージナル部8を切断除去するための
トラクタスリッタ9が設けられている。
First, a sheet cutting device and a stacker device incorporating a sheet sorting device, and continuous sheets to be cut into single-piece sheets will be described with reference to FIGS. 1 and 2. The sheet cutting device 1 includes a placing table 4 for placing the continuous sheet 3 folded in zigzag at the perforation / cutting perforations 2 and a guide plate 5 for guiding the continuous sheet 3 pulled out from the placing table 4. Is equipped with. Following the guide plate 5, there is provided a tractor 7 having a pin (not shown) for engaging the transfer hole 6 of the continuous paper 3, and the marginal portion 8 of the continuous paper 3 is cut at the end of the tractor 7 in the transfer direction. A tractor slitter 9 for removing is provided.

【0010】このトラクタスリッタ9に続いて、上下一
対の低速ローラ10a,10bと、この低速ローラ10
a,10bよりも高速に回転する上下一対の高速ローラ
11a,11bが設けられ、これら各ローラ10a,1
0b,11a,11bの移送速度差によって連続用紙3
に張力が付与され、折り兼切り用ミシン目2にブレード
12が当接して、連続用紙3を単片用紙13に切断する
よう構成されている。前記ブレード12近傍の前記高速
ローラ11a,11b側には、所定の単片用紙13aに
あらかじめ設けられた区分けマーク14を検出するため
の光反射型のセンサー15が設けられている。なお、図
示したセンサー15aは受光素子であり、切断すべき用
紙の先端を検出する場合に、発光素子に換えられたセン
サー15とともに一対のセンサーとして使用されるもの
で、本実施例では使用されないものである。用紙切断装
置1の駆動源は駆動モータ25であり、この駆動モータ
25にトラクタ7、各ローラ10a,10b,11a,
11bが連繋されている。また、前記センサー15の区
分けマーク検出信号は制御部26に送られるよう構成さ
れている。
After the tractor slitter 9, a pair of upper and lower low speed rollers 10a and 10b and the low speed roller 10 are provided.
A pair of upper and lower high speed rollers 11a and 11b, which rotate at a higher speed than a and 10b, are provided.
Continuous paper 3 due to the difference in the transfer speed of 0b, 11a, 11b
The blade 12 is brought into contact with the folding / cutting perforation 2 so that the continuous paper 3 is cut into the single-piece paper 13. On the side of the high-speed rollers 11a, 11b near the blade 12, a light-reflecting sensor 15 for detecting a sorting mark 14 provided in advance on a predetermined single-piece sheet 13a is provided. The illustrated sensor 15a is a light receiving element and is used as a pair of sensors together with the sensor 15 replaced with a light emitting element when detecting the leading edge of the sheet to be cut, and is not used in this embodiment. Is. The drive source of the sheet cutting apparatus 1 is a drive motor 25, and the drive motor 25 includes a tractor 7, rollers 10a, 10b, 11a,
11b are connected. Further, the division mark detection signal of the sensor 15 is configured to be sent to the control unit 26.

【0011】図1に示すように、上述した用紙切断装置
1に続いて、単片用紙13を所望枚数ずつ区分けする用
紙区分け装置16と区分けした単片用紙13をスタック
するスタッカ装置17が設けられている。このスタッカ
装置17は、前記用紙区分け装置16よりも下方に位置
し、図1上時計方向に間欠的に循環移動する並設された
複数本の搬送ベルト18と、これら各搬送ベルト18に
単位用紙13のデプスよりも若干広い間隔を有して立設
された各係止杆19a,19bを二対備えている。な
お、一対の各係止杆19a,19bの間隔は、区分け処
理する単片用紙13のデプスに適合するよう調整可能に
構成されている。そして、前記各係止杆19a,19b
は、前記搬送ベルト18の間欠的な循環移動にともなわ
れて、常に同一位置に対応するよう移動するものであ
る。スタッカ装置17の駆動源も駆動モータ25であ
り、クラッチ機構27を介して連繋される一方、前記ク
ラッチ機構27は制御部26からの制御信号によって作
動制御するよう構成され、前記クラッチ機構27が繋が
っている間だけ、前記搬送ベルト18は循環移動するも
のである。
As shown in FIG. 1, after the above-described sheet cutting device 1, a sheet sorting device 16 for sorting the desired single sheet 13 into a desired number of sheets and a stacker device 17 for stacking the sorted single sheet 13 are provided. ing. The stacker device 17 is located below the paper sorting device 16 and has a plurality of conveyor belts 18 arranged side by side that intermittently circulate in the clockwise direction in FIG. Two pairs of locking rods 19a and 19b are provided upright with a spacing slightly wider than the depth of 13. The interval between the pair of locking rods 19a and 19b is adjustable so as to match the depth of the single-piece sheet 13 to be sorted. And, each of the locking rods 19a, 19b
Is always moved so as to correspond to the same position due to the intermittent circulating movement of the conveyor belt 18. The drive source of the stacker device 17 is also the drive motor 25, which is connected via the clutch mechanism 27, while the clutch mechanism 27 is configured to be operated and controlled by a control signal from the control unit 26, and the clutch mechanism 27 is connected. The conveyor belt 18 circulates only during the operation.

【0012】続いて、用紙区分け装置16を図1及び図
3に基づいて説明する。用紙区分け装置16は、用紙切
断装置1から連続的に排出された単片用紙13を受け
て、同じく連続的に移送する搬送径路である用紙移送機
構たる、図1上時計方向に連続的に循環移動する並設さ
れた複数本の搬送ベルト20と、これら搬送ベルト20
のうち2本に対応するようそれぞれ設けられた2つのラ
イダーディスク21を備えている。これらライダーディ
スク21は、装置機枠(図示せず)に固定された一対の
支持脚(図示せず)に水平に支持された固定バー22に
固定された固定アーム23に回転可能に取り付けられて
いる。また、用紙区分け装置16の終端側には単片用紙
13aの区分けマーク14を検出する光反射型のセンサ
ー40が設けられている。この用紙区分け装置16の駆
動源も駆動モータ25であり、駆動軸24は変速機構2
8を介して前記駆動モータ25に連繋されるとともに、
前記変速機構28は制御部26からの制御信号によって
作動制御するよう構成されている。
Next, the sheet sorting device 16 will be described with reference to FIGS. The sheet sorting device 16 receives the single-sided sheets 13 continuously discharged from the sheet cutting device 1 and similarly circulates continuously in a clockwise direction in FIG. 1, which is a sheet transfer mechanism that is a transfer path for continuously transferring. A plurality of moving conveyor belts 20 arranged side by side, and these conveyor belts 20
Two rider disks 21 are provided so as to correspond to two of them. These rider discs 21 are rotatably attached to a fixed arm 23 fixed to a fixed bar 22 which is horizontally supported by a pair of support legs (not shown) fixed to a machine frame (not shown). There is. Further, a light reflection type sensor 40 for detecting the sorting mark 14 of the single piece sheet 13a is provided on the end side of the sheet sorting device 16. The drive source of the sheet sorting device 16 is also the drive motor 25, and the drive shaft 24 is the transmission mechanism 2.
8 is connected to the drive motor 25 via
The speed change mechanism 28 is configured to be operated and controlled by a control signal from the controller 26.

【0013】次に、変速機構28の構成を図4に基づい
て説明する。駆動モータ25の出力軸に連繋された回転
軸29には歯車30が固定され、この歯車30は回転軸
31に固定された歯車32と噛合し、さらに歯車32は
駆動軸24にワンウェイクラッチ33を介して取り付け
られた歯車34と噛合している。また、前記回転軸31
には、電磁クラッチ35を介して歯車36が取り付けら
れ、この歯車36は駆動軸24に固定された歯車37と
噛合している。そして、各歯車30,32,34の歯数
は同一であり、歯車36の歯数は前記各歯車30,3
2,34の歯数よりも多い一方、歯車37の歯数は前記
各歯車30,32,34の歯数よりも少なく構成されて
いる。前記電磁クラッチ35は制御部26からの作動信
号によって所定時間励磁されるものである。
Next, the structure of the speed change mechanism 28 will be described with reference to FIG. A gear 30 is fixed to a rotary shaft 29 connected to the output shaft of the drive motor 25, the gear 30 meshes with a gear 32 fixed to the rotary shaft 31, and the gear 32 further connects a one-way clutch 33 to the drive shaft 24. It meshes with the gear 34 attached via the. Also, the rotating shaft 31
A gear 36 is attached to the gear via an electromagnetic clutch 35, and the gear 36 meshes with a gear 37 fixed to the drive shaft 24. The gears 30, 32 and 34 have the same number of teeth, and the gear 36 has the same number of teeth.
The number of teeth of the gear 37 is smaller than the number of teeth of the gears 2, 32 and 34, while the number of teeth of the gear 37 is smaller than that of the gears 30, 32 and 34. The electromagnetic clutch 35 is energized for a predetermined time by an operation signal from the control unit 26.

【0014】したがって、電磁クラッチ35が励磁され
ていない場合には、駆動モータ25による回転軸29の
回転力は、各歯車30,32,34を介して駆動軸24
に伝達され、駆動軸24の回転速度は回転軸29と同一
となる。一方、前記電磁クラッチ35が励磁された場合
には、駆動モータ25による回転軸29の回転力は、前
記各歯車30,32を介して回転軸31に伝達された
後、各歯車36,37を介して駆動軸24に伝達され
る。したがって、この場合には、駆動軸24の回転速度
は回転軸29よりも速くなる。この際、各歯車32,3
4は噛合状態にあるが、前記歯車34と前記駆動軸24
は同一方向に回転するので、ワンウェイクラッチ33の
作用により、前記歯車34の回転速度よりも前記駆動軸
24が速く回転することに支障は生じない。
Therefore, when the electromagnetic clutch 35 is not excited, the rotational force of the rotary shaft 29 by the drive motor 25 is transmitted through the gears 30, 32 and 34 to the drive shaft 24.
The rotation speed of the drive shaft 24 becomes the same as that of the rotation shaft 29. On the other hand, when the electromagnetic clutch 35 is excited, the rotational force of the rotary shaft 29 by the drive motor 25 is transmitted to the rotary shaft 31 via the gears 30 and 32, and then the gears 36 and 37 are driven. It is transmitted to the drive shaft 24 via. Therefore, in this case, the rotation speed of the drive shaft 24 becomes faster than that of the rotation shaft 29. At this time, the gears 32, 3
4 is in a meshed state, the gear 34 and the drive shaft 24
Rotate in the same direction, so that the one-way clutch 33 does not interfere with the rotation of the drive shaft 24 faster than the rotation speed of the gear 34.

【0015】次いで、上述した用紙区分け装置16を用
いた用紙区分け動作について説明する。図1に示すよう
に、用紙切断装置1の載置台4上に折り兼切り用ミシン
目2でジグザグに折り畳まれて載置された連続用紙3
は、載置台4上から引き出されてガイド板5にガイドさ
れ、その移送孔6をトラクタ7のピン(図示せず)に係
合される。トラクタ7の駆動によって連続用紙3は所定
方向に移送され、前記トラクタ7の移送方向端に設けた
トラクタスリッタ9によって、前記連続用紙3のマージ
ナル部8は切断除去される。さらに移送されたマージナ
ル部8が切断除去された連続用紙3は、上下一対の低速
ローラ10a,10bに送り込まれ、さらに、この上下
一対の低速ローラ10a,10bと同じく上下一対の高
速ローラ11a,11bとの移送速度差によって張力が
付与され、折り兼切り用ミシン目2にブレード12が当
接して、単片用紙13に切断される。単片用紙13は用
紙区分け装置16に連続的に送り込まれ、ライダーディ
スク21に押さえられてガイドされ、搬送ベルト20に
よって所定方向に連続的に移送される。
Next, a paper sorting operation using the above paper sorting device 16 will be described. As shown in FIG. 1, the continuous paper 3 is folded and zigzag-folded by the folding and cutting perforations 2 and placed on the placing table 4 of the sheet cutting apparatus 1.
Is pulled out from the mounting table 4 and guided by the guide plate 5, and its transfer hole 6 is engaged with a pin (not shown) of the tractor 7. The continuous paper 3 is transferred in a predetermined direction by driving the tractor 7, and the tractor slitter 9 provided at the end of the tractor 7 in the transfer direction cuts and removes the marginal portion 8 of the continuous paper 3. Further, the transported continuous paper 3 from which the marginal portion 8 has been cut and removed is sent to a pair of upper and lower low-speed rollers 10a and 10b, and further, a pair of upper and lower high-speed rollers 11a and 11b, like the pair of upper and lower low-speed rollers 10a and 10b. Tension is applied due to the difference in transfer speed between the sheet and the sheet, and the blade 12 comes into contact with the perforation / cutting perforation 2 and is cut into the single-piece sheet 13. The single-piece paper 13 is continuously fed to the paper sorting device 16, is pressed and guided by the rider disk 21, and is continuously transferred in a predetermined direction by the conveyor belt 20.

【0016】単片用紙13は、トラクタ7の移送速度が
一定で、各ローラ10a,10b,11a,11bによ
る切断動作も一定のタイミングで行われるので、一定間
隔をおいて搬送ベルト20上に連続的に供給される。こ
こで、センサー15が単片用紙13aの区分けマーク1
4を検出し、区分けマーク検出信号が制御部26に送ら
れると、切断された単片用紙13aが搬送ベルト20に
達した直後に、制御部26から変速機構28に対して作
動信号が発せられ、前記変速機構28の電磁クラッチ3
5が励磁されて、駆動軸24の回転速度は所定時間だけ
速くなる。これによって搬送ベルト20の移動速度が速
くなり、この搬送ベルト20に送られた単片用紙13a
とその後の単片用紙13との間隔は、他の単片用紙13
同士の間隔よりも広くなる。このようにして、単片用紙
13は、区分けマーク14を設けた単片用紙13a毎に
間隔が広くなった状態で移送されることにより、区分け
されるものである。
The single-piece sheet 13 has a constant transfer speed of the tractor 7 and the cutting operation by the rollers 10a, 10b, 11a, 11b is also performed at a constant timing, so that the single-sheet sheet 13 is continuously placed on the conveyor belt 20 at regular intervals. Is supplied in a regular manner. In this case, the sensor 15 is the sorting mark 1 of the single-sided paper 13a.
When 4 is detected and the sorting mark detection signal is sent to the control unit 26, an operation signal is issued from the control unit 26 to the speed change mechanism 28 immediately after the cut single piece paper 13a reaches the conveyor belt 20. , The electromagnetic clutch 3 of the speed change mechanism 28
5 is excited, and the rotation speed of the drive shaft 24 increases for a predetermined time. As a result, the moving speed of the conveyor belt 20 is increased, and the single-sheet paper 13a sent to the conveyor belt 20 is moved.
The distance between the single piece of paper 13 and the other single piece of paper 13 is
It is wider than the distance between them. In this manner, the single-piece sheets 13 are sorted by being transported in a state where the intervals are wide between the single-piece sheets 13a provided with the sorting marks 14.

【0017】区分けされた単片用紙13は、搬送ベルト
20の移動にともない移動し、順次スタッカ装置17の
停止状態にある搬送ベルト18上における各係止杆19
a,19bの間に落下し、積み上げられて行く。ここ
で、センサー40によって単片用紙13aの区分けマー
ク14が検出されると、検出信号が制御部26に送ら
れ、単片用紙13aが搬送ベルト18に落下した直後
に、制御部26からクラッチ機構28に対して作動信号
が発せられ、前記クラッチ機構28が所定時間繋がっ
て、前記搬送ベルト18は所定距離だけ駆動され、区分
け処理された一群の単片用紙13は、図示していないバ
ケット等に収納される。
The separated single-piece sheets 13 move with the movement of the conveyor belt 20, and the respective locking rods 19 on the conveyor belt 18 in which the stacker device 17 is stopped sequentially.
It falls between a and 19b and is piled up. Here, when the sensor 40 detects the sorting mark 14 of the single-sided sheet 13a, a detection signal is sent to the control unit 26, and immediately after the single-sided sheet 13a drops on the conveyor belt 18, the control unit 26 causes the clutch mechanism to move. 28, an operation signal is issued, the clutch mechanism 28 is connected for a predetermined time, the conveyor belt 18 is driven for a predetermined distance, and the grouped single-sided sheets 13 are sorted into a bucket or the like (not shown). It is stored.

【0018】なお、本発明は上述した実施例に限定され
るものではなく、例えば、単片用紙13の区分け処理
を、区分けマーク14を設けた単片用紙13aが1枚目
となるように、区分けマーク14をセンサー15で検出
すると、前記単片用紙13aが用紙区分け装置16の搬
送ベルト20に達する直前に、搬送ベルト20の移送速
度を速めるよう制御部26から変速機構28に作動信号
を送るよう構成してもよい。
The present invention is not limited to the above-described embodiment. For example, the sorting process of the single-sided sheet 13 is performed so that the single-sided sheet 13a provided with the sorting mark 14 is the first sheet. When the sorting mark 14 is detected by the sensor 15, the control unit 26 sends an operation signal to the speed change mechanism 28 immediately before the single sheet 13a reaches the transport belt 20 of the sheet sorting device 16 so as to increase the transport speed of the transport belt 20. It may be configured as follows.

【0019】また、あらかじめ設定された枚数毎に単位
用紙13を区分け処理してもよく、この場合には発光素
子に換えたセンサー15と受光素子であるセンサー15
aによって単片用紙13の先端を検出し、この検出信号
をカウントして区分けする所定枚数に達したところで、
最後の単片用紙13が用紙区分け装置16の搬送ベルト
20に達した直後、あるいは次の区分けする1枚目の単
片用紙13が区分け処理装置16の搬送ベルト20に達
する直前に、搬送ベルト20の移送速度を速めるよう制
御部26から変速機構28に作動信号を送るよう構成し
てもよい。
Further, the unit sheets 13 may be divided and processed according to a preset number of sheets. In this case, the sensor 15 replaced with a light emitting element and the sensor 15 which is a light receiving element.
When the leading edge of the single-sided sheet 13 is detected by a and the number of detection signals is counted to reach a predetermined number of sheets,
Immediately after the last single-piece sheet 13 reaches the conveyor belt 20 of the sheet sorting apparatus 16, or immediately before the first sheet 13 of the next sheet to be sorted reaches the conveyor belt 20 of the sorting apparatus 16, the conveyor belt 20. The control unit 26 may be configured to send an operation signal to the speed change mechanism 28 so as to increase the transfer speed.

【0020】さらに、本発明に係る用紙区分け装置16
は、用紙切断装置1及びスタッカ装置17に組み合わさ
れるほか、印刷物、カード、郵便物、折帳などの区分け
処理を行う他の用紙処理装置と組み合わせたり、あるい
は一般的な用紙搬送装置の途上に設けてもよい。
Further, the sheet sorting device 16 according to the present invention.
In addition to being combined with the paper cutting device 1 and the stacker device 17, it is combined with other paper processing devices that perform sorting processing of printed matter, cards, mails, signatures, etc., or is provided on the way of a general paper conveying device. May be.

【0021】[0021]

【発明の効果】以上説明したところで明らかなように、
本発明によれば、簡潔な構成によって、単片用紙を滞留
させずに、連続的に移送しながら区分け処理することが
できるという効果を奏する。
As is apparent from the above description,
Advantageous Effects of Invention According to the present invention, it is possible to carry out sorting processing while continuously transferring single-piece paper sheets without retaining the single-piece paper sheets with a simple configuration.

【図面の簡単な説明】[Brief description of drawings]

【図1】用紙切断装置とスタッカ装置に組み込んだ用紙
区分け装置を示す概略的な側面図。
FIG. 1 is a schematic side view showing a sheet sorting device incorporated in a sheet cutting device and a stacker device.

【図2】単片用紙に切断される連続用紙を示す概略的な
平面図。
FIG. 2 is a schematic plan view showing a continuous sheet that is cut into single-piece sheets.

【図3】用紙区分け装置の一部を示す概略的な斜視図。FIG. 3 is a schematic perspective view showing a part of a sheet sorting device.

【図4】変速機構を示す概略的な正面図。FIG. 4 is a schematic front view showing a speed change mechanism.

【符号の説明】[Explanation of symbols]

1 用紙切断装置 13,13a 単片用紙 14 区分けマーク 15,15a,40 センサー 16 用紙区分け装置 17 スタッカ装置 18,20 搬送ベルト 19a,19b 係止杆 24 駆動軸 25 駆動モータ 26 制御部 27 クラッチ機構 28 変速機構 30,32,34,36,37 歯車 33 ワンウェイクラッチ 35 電磁クラッチ 1 Paper Cutting Device 13, 13a Single Piece Paper 14 Sorting Marks 15, 15a, 40 Sensor 16 Paper Sorting Device 17 Stacker Device 18, 20 Conveyor Belts 19a, 19b Locking Rod 24 Drive Shaft 25 Drive Motor 26 Control Unit 27 Clutch Mechanism 28 Transmission mechanism 30, 32, 34, 36, 37 Gear 33 33 One-way clutch 35 Electromagnetic clutch

Claims (5)

【特許請求の範囲】[Claims] 【請求項1】 連続的に排出される単片用紙を受けて、
単片用紙を連続的に移送する搬送径路上で、用紙移送速
度を一時的に速め、この速度変化の前後に受けた2枚の
単片用紙の間隔を、他の単片用紙の間隔よりも広く設定
して区分けすることを特徴とする用紙区分け方法。
1. Receiving continuously ejected single-sided paper,
On the transport path that continuously transfers single-sided paper, the paper transfer speed is temporarily increased, and the distance between the two single-sided papers received before and after this speed change is greater than the distance between other single-sided papers. A paper sorting method characterized by setting widely and sorting.
【請求項2】 用紙移送速度の変化を、搬送径路を形成
する単片用紙を連続的に移送する用紙移送機構に連繋し
た変速機構によって行うことを特徴とする請求項1記載
の用紙区分け方法。
2. The paper sorting method according to claim 1, wherein the change of the paper transfer speed is performed by a speed change mechanism connected to a paper transfer mechanism for continuously transferring the single-piece paper forming the conveying path.
【請求項3】 連続的に排出される単片用紙を受けて、
単片用紙を連続的に移送する用紙移送機構と、この用紙
移送機構の前段に配置され単片用紙に設けられた区分け
マークを検出するセンサーと、前記用紙移送機構の移送
速度を一時的に速める早送り機構と、前記センサーの区
分けマーク検出信号を受けて区分けマークが設けられた
単片用紙が前記用紙移送機構に達する直前または直後に
前記早送り機構を作動する制御部を設けたことを特徴と
する用紙区分け装置。
3. Receiving continuously ejected single-sided paper,
A paper transfer mechanism that continuously transfers single-piece paper, a sensor that is placed in front of the paper transfer mechanism and that detects a sorting mark provided on the single-piece paper, and a transfer speed of the paper transfer mechanism that is temporarily increased. A fast-forwarding mechanism and a control unit for operating the fast-forwarding mechanism immediately before or immediately after the single-piece sheet provided with the sorting mark in response to the sorting mark detection signal of the sensor reaches the sheet transport mechanism are provided. Paper sorting device.
【請求項4】 連続的に排出される単片用紙を受けて、
単片用紙を連続的に移送する用紙移送機構と、この用紙
移送機構の前段に配置され単片用紙を検出するセンサー
と、前記用紙移送機構の移送速度を一時的に速める早送
り機構と、あらかじめ設定された区分けする所定枚数の
単位用紙が前記センサーで検出されると区分けする最後
の単片用紙が前記用紙移送機構に達した直後または次の
単片用紙が前記用紙移送機構に達する直前に前記早送り
機構を作動する制御部を設けたことを特徴とする用紙区
分け装置。
4. Receiving continuously ejected single-sided paper,
A paper transfer mechanism that continuously transfers single-sided paper, a sensor that is arranged in front of the paper transfer mechanism to detect the single-sided paper, a fast-forward mechanism that temporarily increases the transfer speed of the paper transfer mechanism, and a preset When a predetermined number of unit sheets to be sorted are detected by the sensor, the fast-forward is performed immediately after the last single piece sheet to be sorted reaches the sheet transport mechanism or immediately before the next single sheet sheet reaches the sheet transport mechanism. A sheet sorter characterized by having a control unit for operating the mechanism.
【請求項5】 早送り機構は用紙移送機構に連繋した変
速機構で構成したことを特徴とする請求項3または請求
項4記載の用紙区分け装置。
5. The sheet sorter according to claim 3, wherein the fast-forward mechanism is composed of a speed change mechanism connected to the sheet transfer mechanism.
JP25619694A 1994-09-26 1994-09-26 Paper sheet sorting method and device Pending JPH0891678A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP25619694A JPH0891678A (en) 1994-09-26 1994-09-26 Paper sheet sorting method and device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP25619694A JPH0891678A (en) 1994-09-26 1994-09-26 Paper sheet sorting method and device

Publications (1)

Publication Number Publication Date
JPH0891678A true JPH0891678A (en) 1996-04-09

Family

ID=17289250

Family Applications (1)

Application Number Title Priority Date Filing Date
JP25619694A Pending JPH0891678A (en) 1994-09-26 1994-09-26 Paper sheet sorting method and device

Country Status (1)

Country Link
JP (1) JPH0891678A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2014019542A (en) * 2012-07-18 2014-02-03 Dainippon Printing Co Ltd Continuous form processing apparatus
CN113233242A (en) * 2021-05-11 2021-08-10 深圳若贝特智能机器人科技有限公司 High-speed paper feeding mechanism and counting machine
CN114194899A (en) * 2021-12-09 2022-03-18 安徽耐科装备科技股份有限公司 Die-cut pay-off guide rail mechanism and cut muscle system

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2014019542A (en) * 2012-07-18 2014-02-03 Dainippon Printing Co Ltd Continuous form processing apparatus
CN113233242A (en) * 2021-05-11 2021-08-10 深圳若贝特智能机器人科技有限公司 High-speed paper feeding mechanism and counting machine
CN114194899A (en) * 2021-12-09 2022-03-18 安徽耐科装备科技股份有限公司 Die-cut pay-off guide rail mechanism and cut muscle system

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