JP2013226752A - Perfect binding bookbinding system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce a worker's burden and to control a decrease in bookbinding processing efficiency, in perfect binding bookbinding of a paper bundle printed by a digital printer.SOLUTION: In a bookbinding system which achieves a perfect binding of an offset-printed printing sheet by connecting a perfect binding bookbinding machine 18 and a horizontal gathering machine 11 by conveyors C1-C3 and conveying a paper bundle prepared by the horizontal gathering machine 11 to the perfect binding bookbinding machine 18 through the conveyors C1-C3, a paper accumulating machine 7 for accumulating and carrying digital-printed sheets of paper carried into the horizontal gathering machine 11 in the arranged order of booklets, for each booklet, is arranged, and paper sheet bundles carried out of the paper accumulating machine 7 are mounted on a conveyor C10 derived from the horizontal gathering machine 11 and are conveyed to the perfect binding bookbinding machine 18 through the horizontal gathering machine 11. Both machine bookbinding by offset printing and machine bookbinding by digital printing are automated accordingly.

Description

本発明は、オフセット印刷とデジタル印刷両対応の無線綴じ製本システムに関するものである。   The present invention relates to a perfect binding system for both offset printing and digital printing.

図３は、オフセット印刷した刷り本を無線綴じ製本する製本所に設置された無線綴じ製本システムを示すもので、この図３において、１は丁合い部、Ｃ１は丁合いした用紙束搬出コンベア（手差し供給部）、２は丁合いミス用紙束排出部、Ｃ２は丁合いした用紙束搬送コンベア、３ａは手差し供給部，Ｃ３は丁合いした用紙束搬入コンベア、３は無線綴じ製本部、Ｃ４は無線綴じした用紙束搬出コンベア、４は無線綴じミス排出部、Ｃ５は無線綴じした用紙束搬送コンベア、５は無線綴じした用紙束集積部、Ｃ６、Ｃ７は積み重ねた無線綴じした用紙束搬送コンベア、Ｃ８積み重ねた無線綴じした用紙束搬入コンベア、６は三方断裁部、Ｃ９は断裁後の用紙束排出コンベア部である。 FIG. 3 shows a perfect binding system installed in a bookbinding place for performing perfect binding of offset printed books. In FIG. 3, 1 is a collating section, and C1 is a collated sheet bundle carrying-out conveyor ( (Manual feeding unit) 2 is a collating sheet bundle discharging unit, C2 is a collating sheet bundle conveying conveyor, 3a is a manual feeding unit, C3 is a collating sheet bundle carrying conveyor, 3 is a perfect binding bookbinding unit, and C4 is Wirelessly bound paper bundle carry-out conveyor, 4 is a wireless binding error discharge unit, C5 is wirelessly bound paper bundle conveyor, 5 is wirelessly bound paper bundle stacker, C6 and C7 are stacked wirelessly bound paper bundle conveyors, C8 is a stacked sheet bundle carry-in conveyer that is stapled, 6 is a three-way cutting section, and C9 is a sheet bundle discharge conveyor section after cutting.

丁合い部１で丁合いされた用紙束はコンベアＣ１、Ｃ２，Ｃ３により無線綴じ製本部３に搬送され、無線綴じされた製本はコンベアＣ４、Ｃ５により無線綴じした用紙束集積部５で所定数集積した後、コンベアＣ６、Ｃ７、Ｃ８で三方断裁部６に搬送され、三方断裁（小口、天、地）した後用紙束排出コンベア部Ｃ９へ排出される。 A bundle of sheets collated by the collating section 1 is conveyed to the perfect binding bookbinding section 3 by the conveyors C1, C2, and C3, and a predetermined number of the perfect bound bookbinding is performed by the sheet bundle accumulating section 5 that has been stapled by the conveyors C4 and C5. After the stacking, the paper is conveyed to the three-way cutting unit 6 by the conveyors C6, C7, and C8, and after three-way cutting (small edge, top, ground), it is discharged to the sheet bundle discharge conveyor unit C9.

丁合い部１には、図４（ａ）に示すような万力型丁合い機１１が設置されている。万力型丁合い機１１は、複数の給紙装置１１ａ〜１１ｆが横方向に配列されている。なお、図３では１２台の給紙装置が並べている。各給紙装置１１ａ〜１１ｆの用紙集積台上には丁合する折丁１２ａ〜１２ｆが配列順に集積されており、給紙指令により、その最下部の折丁一枚を一部繰り出す。繰り出した折丁の一部を、所定のタイミングで駆動軸１３に固定したスイングアーム１３ａ〜１３ｆの先端に取付けた指で摘み出し搬送路１４へ供給する。 In the collating unit 1, a vise type collating machine 11 as shown in FIG. In the vise collating machine 11, a plurality of paper feeding devices 11a to 11f are arranged in the horizontal direction. In FIG. 3, twelve paper feeders are arranged. The signatures 12a to 12f to be collated are stacked in the arrangement order on the paper stacking table of each of the paper feeding devices 11a to 11f, and a part of the lowermost signature is fed out according to a paper feeding command. A part of the drawn signature is picked up by a finger attached to the tip of the swing arms 13a to 13f fixed to the drive shaft 13 at a predetermined timing, and supplied to the conveyance path 14.

搬送路１４の中央部には、周回移動するチェーン１５に一定の間隔（給紙装置から供給する用紙の最大サイズよりも多少長くした間隔）で固定された搬送爪１６が移動する通路が形成されており、チェーン１５の移動に伴う搬送爪１６の移動で搬送路１４へ供給された折丁を推し進める（以下、搬送爪１６と隣接の搬送爪１６の間をコンベア駒と言う。つまり、搬送爪６が移動することはコンベア駒が移動することである。）。なお、駆動軸１３およびチェーン１５を駆動するモータなどは丁合機の筐体１７内に設置されており、モータの回転で駆動軸１３が所定の角度間を往復回動する。 In the central portion of the transport path 14, a path is formed in which the transport pawl 16 fixed to the chain 15 that moves in a revolving manner is moved at a constant interval (interval slightly longer than the maximum size of the paper supplied from the paper feeder). The signature is supplied to the transport path 14 by the movement of the transport claw 16 accompanying the movement of the chain 15 (hereinafter, the space between the transport claw 16 and the adjacent transport claw 16 is referred to as a conveyor piece. (6 means that the conveyor piece moves). In addition, the motor etc. which drive the drive shaft 13 and the chain 15 are installed in the housing | casing 17 of a collation machine, and the drive shaft 13 reciprocates between predetermined angles with rotation of a motor.

丁合運転時、スイングアーム１３ａ〜１３ｆは搬送爪１６の移動と同期してスイングし、搬送爪１６が各給紙装置の直前に位置するとき、一部繰り出した折丁を把持してその各搬送爪１６の前、つまり各コンベア駒に一斉に供給する。丁合運転当初は第１番目の給紙装置の折丁１２ａのみが一部繰り出されているので、その給紙装置の直前に位置する搬送爪１６の前のコンベア駒のみに供給される。 During the collating operation, the swing arms 13a to 13f swing in synchronism with the movement of the transport claws 16, and when the transport claws 16 are positioned immediately in front of each sheet feeding device, the swing arms 13a to 13f are gripped by the partially fed signatures. It is supplied to the front of the conveyance claw 16, that is, to all the conveyor pieces. At the beginning of the collating operation, only the signature 12a of the first paper feeding device is partially fed out, so that it is supplied only to the conveyor piece in front of the conveying claw 16 located immediately before the paper feeding device.

各搬送爪１６は前進し第２番目の給紙装置の直前に位置すると第２番目の給紙装置の折丁１２ｂが、第１番目の給紙装置で供給された折丁１２ａの上に供給され、直後のコンベア駒に第１番目の給紙装置の折丁１２ａが供給される。以下これを繰り返し第１番目の給紙装置の折丁１２ａを押し進めた搬送爪１６が最終番目図示では第６番目の給紙装置の直前に位置すると、その搬送抓１６の前のコンベア駒に第６番目の給紙装置の折丁１２ｆが、折丁１２ａ〜１２ｅを順次積み重ねた上に供給され、そのコンベア駒での丁合を完成する。その搬送抓１６の前のコンベア駒に第６番目の給紙装置の折丁１２ｆが供給されるとき、後続の搬送抓１６の前のコンベア駒にそれぞれ第１番目ないし第５番目の給紙装置の折丁１２ａないし１２ｅが供給される。以下この動作が繰り返され折丁２ａ〜１２ｆを順次積み重ねた丁合を完成した折丁束１２ｇが丁合機１１から順次搬出される。
なお、複数の給紙装置を横方向に並べた丁合い機を横型丁合い機と呼ぶ。 When each conveying claw 16 moves forward and is positioned immediately before the second paper feeding device, the signature 12b of the second paper feeding device is supplied onto the signature 12a supplied by the first paper feeding device. Then, the signature 12a of the first sheet feeding device is supplied to the immediately following conveyor piece. Thereafter, when the conveying claw 16 that has repeatedly pushed the signature 12a of the first sheet feeding device is positioned immediately before the sixth sheet feeding device in the final illustration, the conveyor pawl 16 in front of the conveying rod 16 A signature 12f of the sixth sheet feeding device is supplied after the signatures 12a to 12e are sequentially stacked, and the collation at the conveyor piece is completed. When the signature 12f of the sixth sheet feeding device is supplied to the conveyor piece in front of the conveying rod 16, the first to fifth sheet feeding devices are respectively supplied to the conveyor pieces in front of the succeeding conveying rod 16. The signatures 12a to 12e are supplied. Thereafter, this operation is repeated, and the signature bundle 12g which has completed the collation in which the signatures 2a to 12f are sequentially stacked is sequentially carried out from the collation machine 11.
A collating machine in which a plurality of paper feeding devices are arranged in the horizontal direction is called a horizontal collating machine.

横型丁合機１１から順次排出され折丁束１２ｇは、無線綴じ製本部３（図３に示す）に搬送される。無線綴じ製本部３には、図４（ｂ）に示す無線綴じ製本機１８が設置されている。無線綴じ製本機１８は、周回移動するチェーン１９の経路に沿って、折丁束１２ｇの背面をフライス盤で切り揃え処理するミーリング部１９、その背面に糊付け処理する糊付け部２０、表紙供給部２１から供給される表紙２１ａを糊付けした背面に貼り付ける表紙貼付け部２２、貼り付けた表紙を成形処理するニッピング部２３、排出部２４が設けられ、チェーン１９には、搬送された折丁束１２ｇを固定板２５ａと可動板２５ｂで挟持するクランパ２５が固定されている。 The signature bundle 12g sequentially discharged from the horizontal collating machine 11 is conveyed to the perfect binding section 3 (shown in FIG. 3). In the saddle stitching unit 3, a perfect binding bookbinding machine 18 shown in FIG. 4B is installed. The saddle stitching machine 18 includes a milling unit 19 that trims the back of the signature bundle 12g with a milling machine along the path of the chain 19 that moves around, a gluing unit 20 that performs gluing on the back, and a cover supply unit 21. A cover sheet pasting unit 22 for pasting the supplied cover sheet 21a on the back side, a nipping unit 23 for forming the pasted cover sheet, and a discharge unit 24 are provided. The chain 19 fixes the conveyed signature bundle 12g. A clamper 25 sandwiched between the plate 25a and the movable plate 25b is fixed.

横型丁合機１１から搬送されてくる折丁束１２ｇは、周回移動するチェーン１９に固定したクランパ２５に順次挟持され、チェーン１９の移動に伴うクランパ２５の移動でクランパ２５に挟持した折丁束１２ｇの背面をミーリングし、その背面に糊付けし、表紙を貼付け成形して搬出して三方断裁部６（図３に示す）に送る。 The signature bundle 12g conveyed from the horizontal collating machine 11 is sequentially clamped by a clamper 25 fixed to the chain 19 that moves around, and the signature bundle that is clamped by the clamper 25 as the chain 19 moves. The back surface of 12 g is milled, glued to the back surface, a cover sheet is pasted, molded, carried out, and sent to the three-way cutting unit 6 (shown in FIG. 3).

特開２００１−８０２３３号公報JP 2001-80233 A 特開２００１−１９１６６２号公報JP 2001-191662 A 特開２０１１−７９１５９号公報JP 2011-79159 A

以上のような無線綴じ製本システムでは、丁合い機の各用紙集積台上に丁合をする用紙を集積し、製本開始するだけで、丁合いから製本処理が自動的に実行され、製本処理に携わる作業者の負担も軽く製本処理効率も高い。ところで、最近、刷り本が小部数の場合が多くなり、この場合、オフセット印刷よりも経済的に有利なデジタル印刷を選択されるようになってきている。このデジタル印刷機では、冊子の配列順に印刷して排出するため、排出された印刷紙を一冊分ごと集積した用紙束を、前記のような無線綴じ製本機のクランパに手差しすれば製本することができる。しかし、一冊分ごと集積した用紙束を手差しするには作業者の負担も大きく、また、手差しする分無線綴じ製本機による製本処理効率も大きく低下するという問題があった。   In the above-described perfect binding system, the sheets to be collated are accumulated on each sheet stacking table of the collating machine, and the bookbinding process is automatically executed from the collation just by starting the bookbinding. The burden on the workers involved is light and binding efficiency is high. By the way, recently, there are many cases where a printed book has a small number of copies, and in this case, digital printing which is more economically advantageous than offset printing has been selected. Since this digital printing machine prints and discharges in the order of the booklet layout, it can be bound by manually feeding a bundle of paper that is a stack of the discharged printed paper into the clamper of the above-described perfect binding machine. Can do. However, there is a problem that the burden on the operator is large when manually feeding a bundle of sheets that are collected for each book, and the bookbinding processing efficiency by the saddle stitching bookbinding machine is greatly reduced.

本発明が解決しようとする課題は、デジタル印刷機で印刷された用紙束の無線綴じ製本において、作業者の負担を軽減するとともに製本処理効率の低下を抑制し、斯かる問題を解消する点にある。 The problem to be solved by the present invention is to reduce the burden on the operator and suppress the decrease in the bookbinding processing efficiency in the case of the perfect binding of the bundle of sheets printed by the digital printing machine, and to solve such a problem. is there.

上記の課題を解決するために、本発明は、無線綴じ製本機と横型丁合機とをコンベアで連結し、前記横型丁合機で作成した用紙束を、前記コンベアを介して前記無線綴じ製本機に搬送して前記無線綴じ製本機で製本してなる製本システムにおいて、前記横型丁合機と冊子の配列順に搬入される用紙を一冊分ごと集積して搬出する用紙集積機とをコンベアで連結し、前記用紙集積機から搬出された一冊ごとの用紙束を、前記横型丁合機を経由して前記無線綴じ製本機に搬送する構成とした。 In order to solve the above-described problems, the present invention connects a perfect binding bookbinding machine and a horizontal collating machine with a conveyor, and a sheet bundle created by the horizontal collating machine is connected to the perfect binding bookbinding via the conveyor. In the bookbinding system that is transported to a machine and bound by the saddle stitching machine, the horizontal collating machine and a paper stacking machine that stacks and transports the papers that are loaded in the order of the booklet are conveyed by a conveyor. The paper bundles connected to each other and transported from the paper stacker are transported to the perfect binding machine via the horizontal collating machine.

本発明では、横型丁合機と冊子の配列順に搬入される用紙を一冊分ごと集積して搬出する用紙集積機とをコンベアで連結しているので、その用紙集積機にデジタル印刷機を連結することにより、デジタル印刷された一冊分ごとの用紙束の製本処理が自動的に実行され、デジタル印刷された一冊分ごとの用紙束の製本処理に携わる作業者の負担が軽減され、その製本処理効率も高めることができる。また、デジタル印刷された一冊分ごとの用紙束は横型丁合機を経由するので、その用紙束に別に印刷された用紙を積み重ねることが機械的にできる。 In the present invention, since the horizontal collating machine and the paper stacking machine for collecting and carrying out the papers to be loaded one by one in the order of the booklet are connected by the conveyor, the digital printing machine is connected to the paper stacking machine. By doing this, the bookbinding process for each digitally printed sheet bundle is automatically executed, reducing the burden on the workers involved in the bookbinding process for each digitally printed sheet bundle. The bookbinding efficiency can also be increased. Further, since the digitally printed sheet bundle for each book passes through the horizontal collating machine, it is possible to mechanically stack separately printed sheets on the sheet bundle.

本発明の実施例に係る無線綴じ製本システムの構成図である。It is a block diagram of the perfect binding system which concerns on the Example of this invention. 図１に示す横型丁合機に用紙集積機へ向かうコンベアの連結を示す側面図である。It is a side view which shows the connection of the conveyor which goes to a paper stacking machine in the horizontal type collating machine shown in FIG. 従来の無線綴じ製本システムの構成図である。It is a block diagram of the conventional perfect binding system. 横型丁合機と無線綴じ製本機の一例の構成を示す図で、（ａ）横型丁合機の斜視図、（ｂ）無線綴じ製本機の平面図である。It is a figure which shows the structure of an example of a horizontal type | mold collating machine and a perfect binding bookbinding machine, (a) A perspective view of a horizontal type | mold collating machine, (b) A top view of a perfect binding bookbinding machine.

以下、本発明の実施例に係る無線綴じ製本システムについて、図１および図２を参照して説明する。なお、図３および図４に示す無線綴じ製本システムと同一または対応する部分には同一の符号を付し、その部分の詳細な説明は省略する。 Hereinafter, a simple binding system according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. Note that the same or corresponding parts as those in the perfect binding system shown in FIGS. 3 and 4 are denoted by the same reference numerals, and detailed description thereof is omitted.

図１において、Ｃ１０は横型丁合機１の搬送爪を固定したチェーンを横型丁合機１から導出したコンベア、７は送り出し機７ａと集積機７ｂとからなる搬入される用紙を一冊分ごと集積して搬出する用紙集積機、８は紙折機、Ｃ１１はペラ用紙を折り機８に搬送するコンベア、９はデジタル印刷された用紙を巻き取ったロール紙巻出し機９ｂとカッター９ａとからなるデジタル印刷した用紙を搬出する印刷用紙搬出機である。なお、印刷用紙搬出機はペラ用紙一枚ごと印刷して排出するデジタル印刷機であってもよい。また、そのペラ用紙が冊子の１頁を構成する場合は、紙折機８は不要である。 In FIG. 1, C10 is a conveyor in which a chain that fixes a conveying claw of the horizontal collating machine 1 is led out from the horizontal collating machine 1, and 7 is a sheet of paper to be carried in each consisting of a feeding machine 7a and a stacking machine 7b. A paper stacking machine for stacking and carrying out, 8 is a paper folding machine, C11 is a conveyor for transporting pelagic paper to the folding machine 8, and 9 is a roll paper unwinding machine 9b and a cutter 9a for winding digitally printed paper. This is a printing paper carry-out machine for carrying out digitally printed paper. Note that the printing paper carry-out machine may be a digital printing machine that prints and discharges one sheet of pella paper. Further, when the pella paper forms one page of a booklet, the paper folding machine 8 is not necessary.

印刷用紙搬出機９から搬出した用紙はコンベアＣ１１により紙折機８に搬送されて折丁に形成され、その折丁を用紙集積機７に送られる。用紙集積機７は紙折機８から送られてくる折丁を一冊分集積してコンベアＣ１０に搬出する。コンベアＣ１０は図２に示すように、横型丁合機１１の、搬送爪１６を固定したチェーン１５からなる丁合い用のコンベアであり、コンベアＣ１０により搬送された一冊分の用紙束は搬送爪１６の前に載せられ、その搬送爪１６で押し進められて横型丁合機１１を経由して無線綴じ製本機３に搬送される。この場合、用紙集積機７は横型丁合機１１の一つの給紙装置として機能することとなる。 The paper unloaded from the printing paper unloader 9 is conveyed to the paper folding machine 8 by the conveyor C11 and formed into a signature, and the signature is sent to the paper stacker 7. The paper stacking machine 7 collects one signature sent from the paper folding machine 8 and carries it out to the conveyor C10. As shown in FIG. 2, the conveyor C <b> 10 is a collating conveyor composed of a chain 15 to which the conveyance claw 16 of the horizontal collating machine 11 is fixed, and a bundle of sheets conveyed by the conveyor C <b> 10 is a conveyance claw. 16, is pushed forward by the conveyance claw 16, and is conveyed to the perfect binding apparatus 3 via the horizontal collating machine 11. In this case, the sheet stacking machine 7 functions as one sheet feeding device of the horizontal collating machine 11.

この図２において、３０は主駆動モータ、３１は減速機、３２は駆動軸、３３は駆動ギア、３４は主軸、３５はスイングアーム１３ａ〜１３ｆ駆動カム、３６はスイングアーム駆動リンク、３７は搬送爪駆動モータ、３８は搬送爪駆動軸、３９は搬送爪駆動チェーン、４０は駆動スプロケット、４１は従動スプロケットであり、搬送爪駆動チェーン３９は駆動スプロケット４０と従動スプロケット４１に掛け渡たされ、横型丁合機１１から導出した搬送爪１６を固定したチェーン１５は従動スプロケット４１に掛け渡たされている。 In FIG. 2, 30 is a main drive motor, 31 is a speed reducer, 32 is a drive shaft, 33 is a drive gear, 34 is a main shaft, 35 is a swing arm 13a-13f drive cam, 36 is a swing arm drive link, and 37 is transported. A claw drive motor, 38 is a conveyance claw drive shaft, 39 is a conveyance claw drive chain, 40 is a drive sprocket, and 41 is a driven sprocket. The conveyance claw drive chain 39 is stretched over the drive sprocket 40 and the driven sprocket 41, and is a horizontal type. A chain 15 to which the conveying claw 16 led out from the collating machine 11 is fixed is stretched around a driven sprocket 41.

丁合い開始により主駆動モータ３０と搬送爪駆動モータ３７が駆動する。主駆動モータ３０の回転により、減速機３１を介して駆動軸３２が回転する。駆動軸３２の回転は駆動ギア３３を介して主軸３４に伝達され主軸３４は回転する。主軸３４の回転は駆動カム３５を回転し、スイングアーム駆動リンク３６を介して駆動軸１３が駆動カム３５にしたがい所定の角度往復回動し、各スイングアーム１３ａ〜１３ｆがスイングする。 The main drive motor 30 and the conveyance claw drive motor 37 are driven by the collation start. As the main drive motor 30 rotates, the drive shaft 32 rotates via the speed reducer 31. The rotation of the drive shaft 32 is transmitted to the main shaft 34 via the drive gear 33, and the main shaft 34 rotates. The rotation of the main shaft 34 rotates the drive cam 35, the drive shaft 13 reciprocates at a predetermined angle according to the drive cam 35 via the swing arm drive link 36, and the swing arms 13a to 13f swing.

また、搬送爪駆動モータ３７の回転により、搬送爪駆動軸３８が回転し、駆動スプロケット４０が回転する。この駆動スプロケット４０の回転で 搬送爪駆動チェーン３９が移動して従動スプロケット４１が回転する。この従動スプロケット４１の回転で搬送爪１６を固定したチェーン１５が移動する。なお、チェーン１５の他端は横型丁合機１１の出口部に設置されたスプロケット４２に掛け渡されており、チェーン１５はスプロケット４２と従動スプロケット４１との間を周回移動する。また、コンベアＣ１０に位置する搬送爪１６が短かく図示され、復路側のチェーン１５には搬送爪１６は図示されていないが、これは搬送爪１６がチェーン１５の上に倒されてくことを表わし、コンベアＣ１０において立ち上がる様子を示している。用紙集積機７から搬出された一冊分の用紙束は搬送爪１６の前に載せれる。 Further, the conveyance claw drive shaft 37 is rotated by the rotation of the conveyance claw drive motor 37, and the drive sprocket 40 is rotated. With this rotation of the drive sprocket 40, the conveying claw drive chain 39 moves and the driven sprocket 41 rotates. The rotation of the driven sprocket 41 moves the chain 15 to which the conveying claw 16 is fixed. The other end of the chain 15 is stretched over a sprocket 42 installed at the outlet of the horizontal collator 11, and the chain 15 moves between the sprocket 42 and the driven sprocket 41. In addition, the conveyance claw 16 located on the conveyor C10 is illustrated in a short form, and the conveyance claw 16 is not illustrated in the chain 15 on the return path, but this indicates that the conveyance claw 16 is fallen on the chain 15. The state which stands up in conveyor C10 is shown. A bundle of sheets unloaded from the sheet stacker 7 is placed in front of the conveyance claw 16.

以上のように構成した無線綴じ製本システムでは、オフセット印刷による機械製本もデジタル印刷による機械製本もともに同一の速度間隔で無線綴じ製本機へ搬送することができる。なお、横型丁合機１１の給紙装置の数は丁合いする用紙束の数に応じて適宜決められる。 In the perfect binding system configured as described above, both the machine binding by offset printing and the mechanical binding by digital printing can be conveyed to the perfect binding machine at the same speed interval. Note that the number of sheet feeding devices of the horizontal collating machine 11 is appropriately determined according to the number of sheet bundles to be collated.

１ 丁合部
１１ 横型丁合い機
３ 無線綴じ製本部
１８ 無線綴じ製本機
６ 三方断裁部
７ 用紙集積機
８ 紙折機
９ 印刷用紙搬出機
Ｃ１〜Ｃ１１ コンベア
１５ チェーン
１６ 搬送爪
３７ 搬送爪駆動モータ
３８ 搬送爪駆動軸
３９ 搬送爪駆動チェーン
４０ 駆動スプロケット
４１、４２ 従動スプロケット
DESCRIPTION OF SYMBOLS 1 Collating part 11 Horizontal type | mold collating machine 3 Perfect binding bookbinding part 18 Perfect binding bookbinding machine 6 Three-way cutting part 7 Paper stacking machine 8 Paper folding machine 9 Printing paper take-out machine C1-C11 Conveyor 15 Chain 16 Conveyance nail 37 Conveyance nail drive motor 38 Transport claw drive shaft 39 Transport claw drive chain 40 Drive sprocket 41, 42 Driven sprocket

Claims (2)

無線綴じ製本機と横型丁合機とをコンベアで連結し、前記横型丁合機で作成した用紙束を、前記コンベアを介して前記無線綴じ製本機に搬送して前記無線綴じ製本機で製本してなる製本システムにおいて、前記横型丁合機と冊子の配列順に搬入される用紙を一冊分ごと集積して搬出する用紙集積機とをコンベアで連結し、前記用紙集積機から搬出された一冊ごとの用紙束を、前記横型丁合機を経由して前記無線綴じ製本機に搬送することを特徴とする無線綴じ製本システム。 A simple binding machine and a horizontal collating machine are connected by a conveyor, and a sheet bundle created by the horizontal collating machine is transported to the perfect binding machine via the conveyor and bound by the simple binding machine. In this bookbinding system, the horizontal collating machine and a paper stacking machine that collects and transports the paper that is carried in the order of the booklet are connected by a conveyor, and one book that is transported from the paper stacking machine. A sheet binding system for conveying a sheet bundle for each sheet to the perfect binding apparatus via the horizontal collating machine. 横型丁合機と冊子の配列順に搬入される用紙を一冊分ごと集積して搬出する用紙集積機とを連結するコンベアは前記横型丁合機からの導出した丁合い用のコンベアであることを特徴とする請求項１に記載の無線綴じ製本システム。 The conveyor that connects the horizontal collating machine and the paper accumulating machine that collects and carries out the papers that are loaded in the order of the booklet is the collating conveyor derived from the horizontal collating machine. The perfect binding system according to claim 1, wherein:

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