JPS63158257A - Working apparatus for printing for printing or the like - Google Patents
Working apparatus for printing for printing or the likeInfo
- Publication number
- JPS63158257A JPS63158257A JP30486186A JP30486186A JPS63158257A JP S63158257 A JPS63158257 A JP S63158257A JP 30486186 A JP30486186 A JP 30486186A JP 30486186 A JP30486186 A JP 30486186A JP S63158257 A JPS63158257 A JP S63158257A
- Authority
- JP
- Japan
- Prior art keywords
- paper
- plate cylinder
- speed
- printing
- signal
- 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
Links
- 230000032258 transport Effects 0.000 claims description 9
- 230000003247 decreasing effect Effects 0.000 claims description 3
- 238000001514 detection method Methods 0.000 abstract description 6
- 230000007274 generation of a signal involved in cell-cell signaling Effects 0.000 abstract description 5
- 238000000034 method Methods 0.000 abstract description 3
- 238000009958 sewing Methods 0.000 description 26
- 230000005540 biological transmission Effects 0.000 description 5
- 230000002093 peripheral effect Effects 0.000 description 2
- 238000004080 punching Methods 0.000 description 2
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical group [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 description 1
- 241000238413 Octopus Species 0.000 description 1
- 240000002834 Paulownia tomentosa Species 0.000 description 1
- 229910052802 copper Inorganic materials 0.000 description 1
- 239000010949 copper Substances 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000003754 machining Methods 0.000 description 1
- 230000001360 synchronised effect Effects 0.000 description 1
Landscapes
- Inking, Control Or Cleaning Of Printing Machines (AREA)
Abstract
Description
【発明の詳細な説明】
崖]」J冴旧1氷顆
本発明は、ナンバリングや氏名等を後から印刷する追加
印刷をはじめとする各種印刷のほか、ミシン口やスリッ
トの形成等、回転体を用いて用紙に各種の加工を施す加
工装置に関する。[Detailed Description of the Invention] "Cliff]" J Saekyu 1 Ice Condyle The present invention is applicable to various types of printing, including additional printing such as numbering and names, etc., as well as forming sewing holes and slits on rotating bodies. The present invention relates to a processing device that performs various processing on paper using.
従来の皮世
従来におけるこの種の加工装置では、印刷、切り込み、
打ち抜き等の加工すべきパターンに合わせて、同期回転
し得るような周長を有する版胴等の回転体を適宜選択し
たうえ、交換して使用していた。Conventional processing equipment of this type has printing, cutting,
In accordance with the pattern to be processed, such as punching, a rotating body such as a plate cylinder having a circumferential length that allows for synchronous rotation is appropriately selected and used by replacing it.
肋1が解決しようとする問題壱
このため従来にあっては、版胴等の回転体を交換する作
業が煩雑なほか、各種火きさの回転体を用意しなければ
ならないので経済的負担が大きく、特に、周長の大きな
回転体を使用するには加工装置も大型でなければならな
いので、多大の設備費を必要とするとともに、広い設置
面積も必要になるという欠点があった。Problem 1 that Section 1 aims to solve: For this reason, in the past, replacing rotating bodies such as plate cylinders was complicated, and it was necessary to prepare rotating bodies of various ignition levels, which caused an economic burden. In order to use a large rotating body, especially one with a large circumference, the processing equipment must also be large, which has disadvantages in that it requires a large amount of equipment cost and also requires a large installation area.
本発明は、この欠点を解消した印刷等の加工装置を提供
することを目的とする。An object of the present invention is to provide a processing device for printing and the like that eliminates this drawback.
。 占を”°するための
用紙を移送する用紙駆動機構と、この用紙駆動i措の駆
動源とは別の駆動源を有し、用紙に印刷等の加工を施す
ための加工部と用紙に接触しない非加工部とを周面に有
する複数の回転体と、前記用紙駆動1tlIによる用紙
の送り位置及び移送速度を検出するための検出器と、こ
の検出器より発せられる用紙の送り量信号を受け、前記
各回転体の加工部が前記用紙に対して加工を施している
時の回転速度を用紙送り速度と同一速度に調整し、かつ
前記各回転体の非加工部が前記用紙の移送径路に対向し
ている非加工時には前記用紙の移送速度に対して回転速
度を増減調整して用紙の加工位置間隔を調整すべく前記
各回転体の駆動源を電気的に制illする制御1g装置
を設けたものである。. It has a paper drive mechanism that transports the paper for reading, and a drive source that is separate from the drive source for this paper drive mechanism, and a processing unit that processes the paper such as printing and contacts the paper. a plurality of rotating bodies having non-processing parts on the circumferential surface; a detector for detecting the paper feed position and transport speed by the paper drive 1tlI; and a paper feed amount signal received from the detector. , the rotational speed of the processing section of each of the rotating bodies when processing the paper is adjusted to the same speed as the paper feeding speed, and the non-processing section of each of the rotating bodies is opposed to the transfer path of the paper. A control device is provided for electrically controlling the driving source of each of the rotary bodies in order to adjust the processing position interval of the paper by increasing or decreasing the rotational speed with respect to the transport speed of the paper during non-processing. It is something.
詐−一一四一
加工時における各回転体の回転速度を用紙の送り速度と
同一にし、かつ非加工時には各回転体の回転速度を増減
調整して制御することにより、複数の回転体のそれぞれ
において各種のパターン長に適合した印刷等の加工を施
すことができる。By making the rotational speed of each rotating body the same as the paper feed speed during processing, and controlling the rotational speed of each rotating body by increasing or decreasing the rotational speed during non-processing, each of the multiple rotating bodies can be Processing such as printing can be performed to suit various pattern lengths.
スー皇−班
以下、本発明の好適な実施例について添付図面に基づき
詳細に説明する。Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
ここにおいて、第1図は連続用紙を対象とした第1実施
例を示す概略的な側面図、第2図は同じく平面図、第3
図は同じく制御装置を示すブロック図、第4図は連続用
紙を対象とした第2実施例を示す概略的な側面図、第5
図は同じく平面図である。Here, FIG. 1 is a schematic side view showing a first embodiment intended for continuous paper, FIG. 2 is a plan view, and FIG.
The figure is a block diagram showing the control device, FIG. 4 is a schematic side view showing the second embodiment for continuous paper, and FIG.
The figure is also a plan view.
まず、第1図乃至第3図に基づき連続用紙を対象した第
1実施例を説明する。First, a first embodiment for continuous paper will be described based on FIGS. 1 to 3.
第1図に示したように、給紙ロール1には連続用紙2が
巻回されるとともに、この給紙ロール1は図示していな
い回転駆動力伝達機構を介してモータ3に連繋され回転
駆動されるものである。前記給紙ロールlに続いてマー
ジナルパンチ装置4が設けられ、このマージナルパンチ
装置4は、回転自在に対接するマージナルパンチ胴5と
受胴6とを備えている。そして前記マージナルパンチ胴
5及び受胴6は、図示していない回転駆動力伝達機構を
介してモータ3に連繋され回転駆動されるものである。As shown in FIG. 1, continuous paper 2 is wound around a paper feed roll 1, and this paper feed roll 1 is connected to a motor 3 via a rotary drive force transmission mechanism (not shown) and is driven to rotate. It is something that will be done. A marginal punch device 4 is provided following the paper feed roll 1, and this marginal punch device 4 includes a marginal punch cylinder 5 and a receiving cylinder 6 that are rotatably opposed to each other. The marginal punch cylinder 5 and the receiving cylinder 6 are connected to the motor 3 via a rotational drive force transmission mechanism (not shown) and are rotationally driven.
連続用紙2は、前記マージナルパンチ胴5と前記受胴6
とを通過する際に、その幅方向両端部に沿って、移送孔
7と切り取り用ミシン目8が設けられマージナル部9が
形成される(第2図参照)、シたがって、前記マージナ
ルパンチ胴5の回転■から連続用紙2の送り量を知るこ
とができる。The continuous paper 2 has the marginal punch cylinder 5 and the receiving cylinder 6.
When passing through the cylinder, a transfer hole 7 and a perforation 8 for cutting are provided along both ends in the width direction to form a marginal part 9 (see Fig. 2). The feed amount of the continuous paper 2 can be determined from the rotation (■) of 5.
前記マージナルパンチ装置4に続いて、印刷加工装置l
Oが設けられており、この印刷加工装置10は、回転体
たる版胴11と、この版胴11と協働して連続用紙2に
印刷を施すべく対接された圧胴12とを備えているが、
この圧胴12は、モータ3に連繋されて連続用紙2の移
送速度と同一速度で回転するよう設定されている。前記
版胴11の周面には、周長を二等分する位置に加工部た
る2つの版13が取り付°けられ、また版13が存在し
ない周面部分で非加工部を構成している。各版13は、
連続用紙2に「明細表」という表題14と明細(ljl
15を印刷すべく版面が同一に形成されている。そして
、版胴11は図示していない回転駆動力伝達機構を介し
てサーボモータ16に連繋され、回転駆動されるもので
ある。Following the marginal punch device 4, a printing processing device l
This printing processing apparatus 10 includes a plate cylinder 11 which is a rotating body, and an impression cylinder 12 that is in contact with the plate cylinder 11 to print on the continuous paper 2 in cooperation with the plate cylinder 11. There are, but
The impression cylinder 12 is connected to the motor 3 and is set to rotate at the same speed as the transport speed of the continuous paper 2. Two plates 13, which are processed parts, are attached to the circumferential surface of the plate cylinder 11 at positions that bisect the circumference, and the part of the circumferential surface where the plates 13 are not present constitutes a non-processed part. There is. Each edition 13 is
Continuous sheet 2 has the title 14 "Details" and details (ljl
The printing plates are formed to be identical in order to print No. 15. The plate cylinder 11 is connected to a servo motor 16 via a rotational drive force transmission mechanism (not shown) and is rotationally driven.
印刷加工装置13に続いて、ミシン目加工装置17が設
けられており、このミシン目加工装置17は、回転体た
るミシン胴18と、このミシン胴18と協働して連続用
紙2に幅方向に伸びる折り兼切り用ミシン目az<@z
図参照)を形成すべく対接された受胴19とを備えてい
るが、この受胴19は、モータ3に連繋され連続用紙2
の移送速度と同一速度で回転するよう設定されている。A perforation processing device 17 is provided following the printing processing device 13, and this perforation processing device 17 works with a perforation cylinder 18, which is a rotary body, and the perforation cylinder 18 to form a pattern on the continuous paper 2 in the width direction. Perforation for folding and cutting extending to az<@z
The receiver cylinder 19 is connected to the motor 3 and is connected to the motor 3 to form the continuous paper 2.
It is set to rotate at the same speed as the transfer speed.
前記ミシン胴18の周面には、周方向に等間隔をおいて
前記折り兼切り用ミシン目32を形成するための加工部
たる4本のミシン刃20が取り付けられ、またミシン刃
20が存在しない周面部分で非加工部を構成している。Four perforation blades 20 are attached to the circumferential surface of the sewing machine barrel 18 at equal intervals in the circumferential direction and serve as processing parts for forming the folding and cutting perforations 32, and the perforation blades 20 are also present. The part of the peripheral surface that is not processed constitutes the unprocessed part.
そして、前記ミシン胴18は図示していない回転駆動力
伝達機構を介してサーボモータ21に連繋され、回転駆
動されるものである。The sewing machine barrel 18 is connected to a servo motor 21 via a rotational drive force transmission mechanism (not shown), and is rotationally driven.
なお、本実施例は連続用紙2に加工を施す位置間隔より
回転体たる版胴11あるいはミシン胴18の周面に取り
付けられた加工部たる版13あるいはミシン刃20の間
隔が小さい場合の例として以下に説明する。Note that this embodiment is an example in which the interval between the plate cylinder 11 which is a rotating body or the plate 13 which is a processing part attached to the peripheral surface of the sewing machine cylinder 18 or the sewing machine blade 20 is smaller than the position interval at which the continuous paper 2 is processed. This will be explained below.
ミシン目加工装置17に続いて、トラクタ22が設けら
れ、印刷加工及びミシン目加工を施された連続用紙2は
、このトラクタ22によってさらに、第1図上右方向へ
移送きれ、スタッカ部23に折り兼切り用ミシン目32
でジグザグ状に折り畳まれた状態で積み重ねられる。前
記トラクタ22は、図示していない回転駆動力伝達機構
を介してモータ3に連繋され回転駆動されるものであり
、マージナルパンチ胴5におけると同一の量及び速度で
連続用紙2を移送するものである。A tractor 22 is provided following the perforation device 17, and the continuous paper 2 that has been printed and perforated is further transferred to the top right in FIG. Perforation for folding and cutting 32
They can be folded in a zigzag pattern and stacked on top of each other. The tractor 22 is connected to and rotationally driven by the motor 3 via a rotational drive force transmission mechanism (not shown), and transports the continuous paper 2 at the same amount and speed as the marginal punch cylinder 5. be.
次に、版胴11とミシン胴18の回転制御を行うための
各サーボモータ16.21の制御装置について説明する
が、これらの制御装置の構成は同一構成であり、それぞ
れが設けられた加工装置の相違に起因して、印刷がミシ
ン目と、版胴がミシン胴と、それぞれ名称が相違するだ
けであるから、サーボモータ16の制御装置Kについて
のみ第3図に基づいて説明し、サーボモータ21につい
ては省略する。Next, the control devices for each servo motor 16 and 21 for controlling the rotation of the plate cylinder 11 and the sewing machine cylinder 18 will be explained, but the configuration of these control devices is the same, and the processing equipment in which each is provided is the same. Due to the difference in printing, the perforation cylinder and the plate cylinder have different names, respectively. Therefore, only the control device K of the servo motor 16 will be explained based on FIG. 3, and the servo motor 21 will be omitted.
前記版胴11の版13の位置は前記サーボモータ16の
回転量として、検出器24、例えばパルスタコ発電機に
より版13の位置を示す基準点からのパルスとして検出
され、この検出信号が版胴位は信号発生部25に送られ
て、版胴位置信号が版胴駆動制御部26に送られる。ま
た、前記版胴11の回転速度は前記サーボモータ16の
回転速度として検出されるものであり、前記検出器24
からのパルスを版胴回転量信号発生部27において、版
胴回転の移動量及び速度信号として版胴駆動制御部26
にフィードバックされる。この版胴11の回転速度検出
にあたっては、検出器24とは別に、例えばタコ発ti
をサーボモータ16に直結してその直流出力を検出信号
とすることもできる。The position of the plate 13 of the plate cylinder 11 is detected as the amount of rotation of the servo motor 16 by a detector 24, for example, a pulse tacho generator, as a pulse from a reference point indicating the position of the plate 13, and this detection signal is used as the plate cylinder position. is sent to the signal generating section 25, and a plate cylinder position signal is sent to the plate cylinder drive control section 26. Further, the rotational speed of the plate cylinder 11 is detected as the rotational speed of the servo motor 16, and the rotational speed of the plate cylinder 11 is detected as the rotational speed of the servo motor 16.
The pulses from the plate cylinder rotation amount signal generator 27 output the pulses from the plate cylinder rotation amount as movement amount and speed signals of the plate cylinder rotation to the plate cylinder drive control unit 26.
will be given feedback. In order to detect the rotational speed of the plate cylinder 11, for example, an octopus generator is used separately from the detector 24.
It is also possible to connect directly to the servo motor 16 and use its DC output as the detection signal.
一方、連続用紙2の移動量はマージナルバンチvA5に
おける連続用紙送り量、すなわちマージナルパンチ胴5
の回転量として、検出器28、例えばパルスタコ発電機
によってパルスとして検出され、この検出信号が用紙送
り量信号発生部29に送られて、パルス数が送り可信号
として版胴駆動制御n部26に送られる。また、前記連
続用紙2の移動速度は前記用紙送り■信号発生部29の
信号に基づいて用紙送り速度信号発生部30において、
例えば周波数電圧変換器により直流電圧に変換し、送り
速度信号として版胴駆動制御部26に送られる。On the other hand, the moving amount of the continuous paper 2 is the continuous paper feeding amount in the marginal bunch vA5, that is, the moving amount of the continuous paper 2
The amount of rotation is detected as pulses by the detector 28, for example, a pulse tacho generator, and this detection signal is sent to the paper feed amount signal generation section 29, and the number of pulses is sent as a feed enable signal to the plate cylinder drive control section 26. It will be done. Further, the moving speed of the continuous paper 2 is determined by a paper feed speed signal generator 30 based on a signal from the paper feed ■ signal generator 29.
For example, it is converted into a DC voltage using a frequency-voltage converter and sent to the plate cylinder drive control section 26 as a feed rate signal.
また、連続用紙2に対する印刷パターンとして、加工部
たる版13の版胴11における周方向の長さ、及び版胴
11に取り付けた版13の数等の情報のほか、用紙に対
する印刷位置及びその印刷位置間の長さが、印刷パター
ン入力部31に人力される。この入力は電気(3号、例
えばパルス数として版胴駆動制御n26に送られる。In addition, as a printing pattern for the continuous paper 2, in addition to information such as the circumferential length of the plate 13 serving as the processing section on the plate cylinder 11 and the number of plates 13 attached to the plate cylinder 11, the printing position on the paper and its printing The length between positions is input manually to the print pattern input section 31. This input is sent to the plate cylinder drive control n26 as an electrical signal (number 3, eg, number of pulses).
そして、版胴駆動制御部2Gに送られた各信号が比較演
算され、版胴!Iの回転を、加工作業時にのみ、より詳
細には版13による加工位置間の版胴11における角度
の前後各2〜5度の範囲内でのみ、連続用紙2の送り速
度と同速回転を行い、それ以外の場合には加工作業終了
後減速回転させ、所定位置で停止待機するように、速度
指令信号としてサーボモータ16に出力される。Then, each signal sent to the plate cylinder drive control section 2G is compared and calculated, and the plate cylinder! Rotation I is rotated at the same speed as the feed speed of the continuous paper 2 only during processing work, more specifically, only within a range of 2 to 5 degrees before and after the angle of the plate cylinder 11 between the processing positions of the plate 13. otherwise, it is output as a speed command signal to the servo motor 16 so that it is decelerated and rotated after finishing the machining work, and stops and waits at a predetermined position.
続いて、本実施例の動作について説明する。Next, the operation of this embodiment will be explained.
連続用紙2が給紙ローラ1から繰り出されてマージナル
パンチ装置4に移送されると、マージナルパンチ胴5と
受胴6とによって、移送孔7と切り取り用ミシン目8と
が形成されてマージナル部9が設けられる一方、前記マ
ージナルパンチ胴5の回転■は検出器28によって検出
され、検出信号を受けた用紙送り量信号発生部29と用
紙送り速度信号発生部30とから、それぞれ用紙送り可
信号と用紙送り速度信号が版胴駆動制御部26に送られ
る。When the continuous paper 2 is fed out from the paper feed roller 1 and transferred to the marginal punch device 4, the marginal punch cylinder 5 and the receiving cylinder 6 form a transfer hole 7 and a perforation 8 for cutting, and a marginal portion 9 is formed. The rotation (2) of the marginal punch cylinder 5 is detected by the detector 28, and the paper feed amount signal generator 29 and paper feed speed signal generator 30, which have received the detection signal, generate a paper feed enable signal and a paper feed speed signal, respectively. is sent to the plate cylinder drive control section 26.
連続用紙2が印刷加工装置10に移送されて来ると、n
;I袋側信号に基づき、連続用紙2の所定の印刷位置が
版胴11に対応する直前に、停止待機状態にあったサー
ボモータ16に対して版胴駆動制御部26から駆動信号
が発せられ、前記版胴11が所定方向に回転される。こ
の版11MIIの回転は、検出器24によってサーボモ
ータ16の回転位置及び回転量として検出され、この検
出信号を受けた版胴位置信号発生部21及び版胴回転量
信号発生部22とから、それぞれ版胴の位置信号と版胴
の回転速度信号として版胴駆動側′41部26に対して
フィードバックされ為、そして前記版胴駆動制御部26
において、これらの版銅位置信号及び版胴回転速度信号
が、上述した用紙送り量信号及び用紙速度(8号と比較
演算され、版胴11の回転を用紙送り速度と同一速度に
なるよう速度指令1δ号がサーボモータ16に対して出
力される。When the continuous paper 2 is transferred to the printing processing device 10, n
Based on the I-bag side signal, immediately before a predetermined printing position on the continuous paper 2 corresponds to the plate cylinder 11, a drive signal is issued from the plate cylinder drive control unit 26 to the servo motor 16, which was in a standby state. , the plate cylinder 11 is rotated in a predetermined direction. The rotation of the plate 11MII is detected as the rotation position and rotation amount of the servo motor 16 by the detector 24, and the plate cylinder position signal generation section 21 and the plate cylinder rotation amount signal generation section 22, which have received this detection signal, respectively The plate cylinder position signal and plate cylinder rotational speed signal are fed back to the plate cylinder drive side '41 section 26, and the plate cylinder drive control section 26
, these plate copper position signal and plate cylinder rotation speed signal are compared with the paper feed amount signal and paper speed (No. 8) mentioned above, and a speed command No. 1δ is set so that the rotation of the plate cylinder 11 is the same speed as the paper feed speed. is output to the servo motor 16.
このようにして、版胴11が連続用紙2の送り速度に合
わせて所定量回転され、その一方の版13が連続用紙2
の所定位置に当接すると、第2図に示したように、明細
表の表題14と明細欄15とが所定位置に印刷される。In this way, the plate cylinder 11 is rotated by a predetermined amount in accordance with the feeding speed of the continuous paper 2, and one of the plates 13 is
When it comes into contact with a predetermined position, the title 14 and detail column 15 of the statement are printed at the predetermined position, as shown in FIG.
そして、版胴11における版13の長さ分の回転量に対
応するサーボモータ16の回転が検出器24によって検
出されると、版胴駆動制御部26から停止信号が発せら
れ、前記サーボモータ16は再び停止待機状態となり、
他方の版13による次の印刷動作に備えるものである。When the detector 24 detects the rotation of the servo motor 16 corresponding to the length of the plate 13 on the plate cylinder 11, the plate cylinder drive control section 26 issues a stop signal, and the servo motor 16 returns to the standby state,
This is to prepare for the next printing operation using the other plate 13.
続いて、印刷加工が施された連続用紙2がミシン目加工
装Z17に移送されて来ると、ここでも上述した印刷加
工処理装置10におけると同様にして、サーボモータ2
1に駆動信号が発せられるとともに、ミシン胴18の回
転を用紙送り速度と同一速度になるよう速度指令信号が
サーボモータ21に対して出力される。こうして、ミシ
ン胴18が連続用紙2の送り速度に合わせて所定量回転
され、その一つのミシン刃20が連続用紙2の所定位置
に当接すると、第2図に示したように、折り兼切り用の
ミシン目32が所定の位置に形成される。そして、上述
したサーボモータ16と同様、サーボモータ21の所定
量の回転が検出されると、ミシン胴駆動制御部から停止
信号が発せられ、前記サーボモータ21は再び停止待機
状態となり、他のミシン刃20による次のミシン目形成
動作に備えるものである。Next, when the printed continuous paper 2 is transferred to the perforation processing device Z17, the servo motor 2 is operated in the same manner as in the printing processing device 10 described above.
At the same time, a speed command signal is output to the servo motor 21 so that the sewing machine cylinder 18 rotates at the same speed as the paper feed speed. In this way, the sewing machine barrel 18 is rotated by a predetermined amount in accordance with the feeding speed of the continuous paper 2, and when one of the sewing machine blades 20 comes into contact with a predetermined position of the continuous paper 2, it folds and cuts as shown in FIG. perforations 32 are formed at predetermined positions. Similar to the servo motor 16 described above, when a predetermined amount of rotation of the servo motor 21 is detected, a stop signal is issued from the sewing machine barrel drive control section, and the servo motor 21 returns to the stop standby state, and other sewing machines This is to prepare for the next perforation forming operation by the blade 20.
なお、本実施例の場合は、連続用紙2に加工を施す位置
間隔よりも版胴11あるいはミシン胴18に取り付けら
れた版13あるいはミシン刃20の間隔が小さく、また
この間隔差が大きいので、版胴11あるいはミシン胴1
8の回転制御に停止待機状態が存在しているが、この間
隔差が小さい場合には必ずしも停止するこなく回転制御
されるものであり、また、連続用紙2に加工を施す位置
間隔よりも版胴11あるいはミシン胴1Bに取り付けら
れた版13あるいはミシン刃20の間隔が大きい場合は
、版胴11あるいはミシンw41Bにおける版13ある
いはミシン刃20が取り付けられていない非加工部が連
続用紙2に対向すると、用紙送り速度よりも高速回転し
、次ぎの版13あるいはミシン刃20による加工に備え
るよう回転制御されるものである。In the case of this embodiment, the interval between the plates 13 or the sewing machine blades 20 attached to the plate cylinder 11 or the sewing machine cylinder 18 is smaller than the position interval at which the continuous paper 2 is processed, and this interval difference is large. Plate cylinder 11 or sewing machine cylinder 1
There is a stop standby state in the rotation control of 8, but if the difference in interval is small, the rotation is controlled without necessarily stopping, and the plate is shorter than the position interval at which continuous paper 2 is processed. If the distance between the plates 13 or the sewing machine blades 20 attached to the cylinder 11 or the sewing machine cylinder 1B is large, the unprocessed part of the plate cylinder 11 or the sewing machine w41B where the plate 13 or the sewing machine blade 20 is not attached faces the continuous paper 2. Then, the rotation is controlled to be rotated at a higher speed than the paper feeding speed and to prepare for the next processing by the plate 13 or the sewing machine blade 20.
次に、第4図及び第5図に基づき、本発明の第2実施例
について説明する。Next, a second embodiment of the present invention will be described based on FIGS. 4 and 5.
本実施例は、あらかじめ移送孔40と切り取り用ミシン
目41を形成したマージナル部42が幅方向両端部に設
けられた連続用紙43を対象とするものであり、したが
って第1実施例のマージナルパンチ装置4は必要なく、
これに換えて連続用紙43を移送するためのトラクタ4
4が設けられている。そして、このトラクタ44の送り
量に基づいて連続用紙43の移動量及び移動速度を検出
して、図示していない第1実施例と同様な制御装置の検
出器により検出されるものである。This embodiment is intended for a continuous paper 43 in which a marginal portion 42 in which a transport hole 40 and a perforation for cutting 41 are formed in advance is provided at both ends in the width direction. Therefore, the marginal punch device of the first embodiment is used. 4 is not necessary,
Instead, a tractor 4 for transporting continuous paper 43
4 is provided. Then, the moving amount and moving speed of the continuous paper 43 are detected based on the feed amount of the tractor 44, and are detected by a detector of a control device (not shown) similar to the first embodiment.
また、前記トラクタ44に続いて設けられた印刷加工装
置45の版胴46には、局長のほぼ3分の2を占める1
つの版47が設けられており、その版面は、「一覧表」
の表題48と日付欄49及び表50を有する一覧表51
と、「ご案内」の表a52及び案内文53を有する案内
文表示票54とを印刷すべく形成されている。Further, a plate cylinder 46 of a printing processing device 45 provided subsequent to the tractor 44 is provided with a plate cylinder 46 that occupies approximately two-thirds of the length of the station.
There are two editions 47, and the editions are "list".
A list 51 having a title 48, a date column 49 and a table 50.
It is formed to print a guide text display sheet 54 having a "guidance" table a52 and a guide text 53.
本実施例におけるその他の構成については、制i:II
l装置をも含め第1実施例と同様であるからその説明は
省略する。Regarding other configurations in this embodiment, see Control i: II.
Since the second embodiment is the same as the first embodiment, including the L device, the explanation thereof will be omitted.
本実施例にあっては、第5図に示したように、トラクタ
44によって印刷加工装W45に送り込まれた連続用紙
43は、版胴46に設けた版47により、一覧表51と
案内文表示票54の所定事項が所定位置に印刷され、続
いてミシン目加工装置17において、前記一覧表51と
案内文表示票54との境界部分に折り兼切り用ミシン目
55が各ミシン刃20によって順次形成されるものであ
る。なお、版胴46及びミシン胴18の制御も含め他の
作用については、第1実施例と同様であるからその説明
は省略する。In this embodiment, as shown in FIG. 5, the continuous paper 43 fed into the printing processing device W45 by the tractor 44 is printed with a list 51 and a guide by a plate 47 provided on the plate cylinder 46. The predetermined items on the slip 54 are printed at predetermined positions, and then in the perforation processing device 17, perforations 55 for folding and cutting are sequentially made by each perforation blade 20 at the boundary between the list 51 and the information display slip 54. It is something that is formed. Note that other functions including control of the plate cylinder 46 and the sewing machine cylinder 18 are the same as those in the first embodiment, so a description thereof will be omitted.
なお、本発明は上述した各実施例に限定されるものでは
なく、例えば、回転体は版胴11.46とミシン胴1B
の2種類を1個ずつ設けたが、版胴11.46のみある
いはミシン胴18のみを複数設けたり、版胴、ミシン胴
のほかナンバリング装置、打ち抜き装置、切り込み装置
等の異なる種類の回転体を3個以上設けてもよい、また
、版13.47の大きさや数が上述した各実施例のもの
に限られず、ミシン刃20の数や取り付は位置も上述し
た各実施例のものに限られないことはもちろんである。It should be noted that the present invention is not limited to the above-mentioned embodiments; for example, the rotating bodies include the plate cylinder 11.46 and the sewing machine cylinder 1B.
However, it is also possible to provide only a plurality of plate cylinders 11, 46 or only sewing machine cylinders 18, or to use different types of rotating bodies such as plate cylinders, sewing machine cylinders, numbering devices, punching devices, cutting devices, etc. Three or more plates may be provided, and the size and number of the plates 13.47 are not limited to those in each embodiment described above, and the number and mounting position of the sewing machine blades 20 are also limited to those in each embodiment described above. Of course, it cannot be done.
さらに、対象となる用紙は連続用紙2.43のみならず
、枚葉紙であってもよい、またさらに、印刷加工装置1
0.45の前段に従来公知の印刷ユニットを配置し、こ
の印刷ユニットで印刷される印刷パターンに合わせて、
前記印刷加工装置i10,45によりさらに印刷を施す
よう構成することもできる。さらに加えて、複数の回転
体に異なるパターンの版を取り付け、用紙に順次印刷加
工することにより、この複数の回転体に取り付けた各版
の長さを合計した長パターンの印刷が行なえる等の特殊
な加工も可能となる。Furthermore, the target paper is not only continuous paper 2.43, but also sheet-fed paper.
A conventionally known printing unit is placed in front of the 0.45, and according to the printing pattern printed by this printing unit,
It is also possible to configure the print processing apparatus i10, 45 to perform further printing. In addition, by attaching plates with different patterns to multiple rotating bodies and sequentially printing them on paper, it is possible to print a long pattern that is the sum of the lengths of the plates attached to the multiple rotating bodies. Special processing is also possible.
羞−−−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
、回転体の回転駆動を制御することによつて、回転体を
交換することなく1つの回転体で各種の加工を施すこと
ができ、しかも複数の回転体を有するので、複数の異な
る加工が行えるとともに、作業効率が714的に向上す
るという効果を奏することができる。As is clear from the above explanation, according to the present invention, by controlling the rotational drive of the rotating body, various types of processing can be performed with one rotating body without replacing the rotating body. Moreover, since it has a plurality of rotating bodies, it is possible to perform a plurality of different processes, and the work efficiency can be improved 714 times.
図は本発明の好適な実施例を示し、第1図は連続用紙を
対象とした第1実施例を示す概略的な側面図、第2図は
同じく平面図、第3図は同じく制御装置を示すブロック
図、第4図は連続用紙を対象とした第2実施例を示す概
略的な側面図、第5図は同じく平面図である。
2・・・連続用紙 3・・・モータ5・・・マージ
ナルパンチ桐 10・・・印刷加工装置 11
・・・版胴 13・・・版 16・・・サーボ
モータ 17・・・ミシン目加工装置 1日・
・・ミシン胴20・・・ミシン刃 21・・・サーボ
モータ22・・・トラクタ 24・・・検出器26
・・・版胴駆動制御部 2日・・・検出器43・・・
連続用紙 44・・・トラクタ45・・・印刷加工
装置i!t 46・・・版胴47・・・版The figures show preferred embodiments of the present invention, with FIG. 1 being a schematic side view showing the first embodiment intended for continuous paper, FIG. 2 being a plan view, and FIG. 3 similarly showing the control device. FIG. 4 is a schematic side view showing a second embodiment intended for continuous paper, and FIG. 5 is a plan view. 2... Continuous paper 3... Motor 5... Marginal punch paulownia 10... Printing processing device 11
... Plate cylinder 13... Plate 16... Servo motor 17... Perforation processing device 1 day...
... Sewing machine barrel 20 ... Sewing machine blade 21 ... Servo motor 22 ... Tractor 24 ... Detector 26
...Plate cylinder drive control section 2nd...Detector 43...
Continuous paper 44...Tractor 45...Print processing device i! t 46... plate cylinder 47... plate
Claims (1)
駆動源とは別の駆動源を有し、用紙に印刷等の加工を施
すための加工部と用紙に接触しない非加工部とを周面に
有する複数の回転体と、前記用紙駆動機構による用紙の
送り位置及び移送速度を検出するための検出器と、この
検出器より発せられる用紙の送り量信号を受け、前記各
回転体の加工部が前記用紙に対して加工を施している時
の回転速度を用紙送り速度と同一速度に調整し、かつ前
記各回転体の非加工部が前記用紙の移送径路に対向して
いる非加工時には前記用紙の移送速度に対して回転速度
を増減調整して用紙の加工位置間隔を調整すべく前記各
回転体の駆動源を電気的に制御する制御装置を設けたこ
とを特徴とする印刷等の加工装置。It has a paper drive mechanism that transports paper and a drive source that is separate from the drive source of this paper drive mechanism, and has a processing section that performs processing such as printing on the paper and a non-processing section that does not contact the paper. a plurality of rotating bodies, a detector for detecting the paper feeding position and transport speed by the paper drive mechanism, and a processing section for each of the rotating bodies that receives a paper feeding amount signal emitted from the detector. adjusts the rotational speed when processing the paper to the same speed as the paper feed speed, and when the non-processing portion of each rotating body faces the transport path of the paper, the paper is not processed. A processing device for printing, etc., characterized in that it is provided with a control device that electrically controls the driving source of each of the rotating bodies to adjust the processing position interval of the paper by increasing or decreasing the rotational speed with respect to the transfer speed of the paper. .
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP30486186A JPS63158257A (en) | 1986-12-20 | 1986-12-20 | Working apparatus for printing for printing or the like |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP30486186A JPS63158257A (en) | 1986-12-20 | 1986-12-20 | Working apparatus for printing for printing or the like |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPS63158257A true JPS63158257A (en) | 1988-07-01 |
Family
ID=17938162
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP30486186A Pending JPS63158257A (en) | 1986-12-20 | 1986-12-20 | Working apparatus for printing for printing or the like |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS63158257A (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2008023742A (en) * | 2006-07-18 | 2008-02-07 | Miyakoshi Printing Machinery Co Ltd | Interchangeable cylinder type rotary press |
| JP2008081895A (en) * | 2006-09-28 | 2008-04-10 | Daio Paper Corp | Disposable glove |
| JP2012111637A (en) * | 2010-11-05 | 2012-06-14 | Dainippon Printing Co Ltd | Continuous business form processing device, and continuous business form printing processing system |
Citations (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5770665A (en) * | 1980-10-20 | 1982-05-01 | Kyokuto Shibousan Kk | Method and apparatus for printing on travelling web |
-
1986
- 1986-12-20 JP JP30486186A patent/JPS63158257A/en active Pending
Patent Citations (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5770665A (en) * | 1980-10-20 | 1982-05-01 | Kyokuto Shibousan Kk | Method and apparatus for printing on travelling web |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2008023742A (en) * | 2006-07-18 | 2008-02-07 | Miyakoshi Printing Machinery Co Ltd | Interchangeable cylinder type rotary press |
| JP2008081895A (en) * | 2006-09-28 | 2008-04-10 | Daio Paper Corp | Disposable glove |
| JP2012111637A (en) * | 2010-11-05 | 2012-06-14 | Dainippon Printing Co Ltd | Continuous business form processing device, and continuous business form printing processing system |
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