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JPS6211101B2 - - Google Patents
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JPS6211101B2 - - Google Patents

Info

Publication number
JPS6211101B2
JPS6211101B2 JP16425479A JP16425479A JPS6211101B2 JP S6211101 B2 JPS6211101 B2 JP S6211101B2 JP 16425479 A JP16425479 A JP 16425479A JP 16425479 A JP16425479 A JP 16425479A JP S6211101 B2 JPS6211101 B2 JP S6211101B2
Authority
JP
Japan
Prior art keywords
pattern
design
information
paper
microcomputer
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.)
Expired
Application number
JP16425479A
Other languages
Japanese (ja)
Other versions
JPS5696930A (en
Inventor
Kaichiro Yoshida
Soichiro Asano
Yasuhiro Yamanaka
Toshio Yamauchi
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.)
Murata Machinery Ltd
Original Assignee
Murata Machinery 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 Murata Machinery Ltd filed Critical Murata Machinery Ltd
Priority to JP16425479A priority Critical patent/JPS5696930A/en
Publication of JPS5696930A publication Critical patent/JPS5696930A/en
Publication of JPS6211101B2 publication Critical patent/JPS6211101B2/ja
Granted legal-status Critical Current

Links

Description

【発明の詳細な説明】 本発明は複数の意匠図から選択的に柄合成して
一つの紋紙を穿孔する方法に関する。
DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for selectively synthesizing patterns from a plurality of design drawings and perforating one patterned paper.

一般にジヤカード用紋紙の穿孔に当つては一枚
の意匠図を作成し、該意匠図をパターンアナライ
ザ等の自動読取装置によつて異なる組織毎に色分
けし、該色分けした意匠図を色判別装置に読み取
らせ、該色判別装置による色判別信号を意匠図の
各色に応じた組織信号に変換し、該変換した組織
信号を穿孔テープの形で取り出して、該穿孔テー
プを使用して電気的かつ自動的に紋紙穿孔機を作
動させ、一つの紋紙の穿孔を行なう方法が用いら
れている。
Generally, when punching pattern paper for Jia cards, a single design drawing is created, the design drawing is color-coded for each different structure using an automatic reading device such as a pattern analyzer, and the color-coded design drawing is then transferred to a color discrimination device. The color discrimination signal from the color discrimination device is converted into a tissue signal corresponding to each color of the design drawing, the converted tissue signal is extracted in the form of perforated tape, and the perforated tape is used to conduct electrical and A method is used in which a paper perforator is automatically activated to perforate one piece of paper.

即ち、上記した紋紙穿孔方法に於いては、一枚
の意匠図から一つの紋紙を穿孔するものであり、
仮に複数枚の意匠図から図柄を選択して一枚の意
匠図とし、一つの紋紙を穿孔する場合、前記方法
に於いてはその都度柄合成した意匠図を作成し、
前記過程を経て一つの紋紙を穿孔しなければなら
ない。
That is, in the above-mentioned pattern paper perforation method, one pattern paper is perforated from one design drawing,
If a design is selected from multiple design drawings to form one design drawing and a single pattern paper is to be perforated, in the above method, a design drawing is created by combining the patterns each time,
A piece of paper must be perforated through the above process.

本発明は上記点に基いて成されたもので、上記
紋紙穿孔方法に更にマイクロコンピユータ(以下
マイコンと称する)を連結し、複数枚の意匠図を
一本の緯糸について整数倍で与えられるテープ情
報として、上記マイコンにインプツトすると共に
複数枚の意匠図から選択的に柄合成する指令情報
をインプツトすることにより、該マイコンによつ
て演算を行い、一枚の意匠図に対する緯糸一本分
の情報に配置変換して穿孔情報をアウトプツト
し、所望の紋紙を得ることのできる紋紙穿孔方法
を提供するものである。
The present invention has been made based on the above points, and it further connects a microcomputer (hereinafter referred to as a microcomputer) to the above-mentioned pattern paper perforation method, and creates a tape that can print a plurality of design drawings in integral multiples for one weft thread. As information, by inputting command information to the above-mentioned microcomputer and selectively synthesizing patterns from multiple design drawings, the microcomputer performs calculations and generates information for one weft thread for one design drawing. The purpose of the present invention is to provide a method for perforating a patterned paper, in which a desired patterned paper can be obtained by rearranging the patterned paper and outputting perforation information.

以下本発明を図面に基いて詳述する。 The present invention will be explained in detail below based on the drawings.

第1図は紋紙穿孔機と連結するマイクロコンピ
ユータを示すもので該マイコンに種々の編成指令
情報を入力しておくことにより、意匠図を判読し
て取り出した穿孔テープの情報をマイコンにイン
プツトし、編成指令入力に従つて種々の紋紙を自
動的に作成するもので、データインプツトブロツ
クD.Iよりインプツトされる情報を記憶するデー
タメモリD.Mと上記ブロツクD.Iよりインプツト
されるプログラムを記憶するプログラムメモリ
PG.Mとプログラムに従つて情報を演算編成する
演算部CPTから構成されるもので、上記マイコ
ンMCPOからの出力は出力変換ブロツクD.Oを経
て電気信号等の出力信号としてアウトプツトされ
る。
Figure 1 shows a microcomputer connected to a paper perforation machine. By inputting various knitting command information into the microcomputer, information on the perforated tape extracted by reading the design drawing can be input into the microcomputer. , which automatically creates various patterns according to the input of composition commands, includes a data memory DM that stores information input from the data input block DI, and a program memory that stores programs input from the block DI.
It is composed of PG.M and a calculation unit CPT that calculates and organizes information according to a program, and the output from the microcomputer MCPO is outputted as an output signal such as an electrical signal via an output conversion block DO.

第2図は本発明に於ける紋紙穿孔方法を示すも
ので、複数枚の意匠図P1,P2は、更に該意匠
図P1が図柄P−1a,P−1b、意匠図P2が
P−2a,P−2bによつて構成され、上記意匠
図P1,P2は各々、別々に自動読取装置SGに
よつて判読し、別々の穿孔テープt1,t2の形
で取り出される。
FIG. 2 shows the pattern paper perforation method in the present invention, in which the design drawings P1 and P2 are further divided into patterns P-1a and P-1b and design drawing P2 being P-2a. , P-2b, and the design drawings P1 and P2 are read separately by an automatic reader SG and taken out in the form of separate perforated tapes t1 and t2.

更に上記意匠図P1,P2の各図柄P−1a,
P−1bとP−2a,P−2bから選択し、柄合
成を指定するマスターテープMT1,MT2の指
令情報が穿孔テープの形で取り出される。
Furthermore, each design P-1a of the above design drawings P1 and P2,
Command information of master tapes MT1 and MT2, which are selected from P-1b, P-2a, and P-2b and designates pattern composition, is taken out in the form of perforated tapes.

今、製織柄P3の如き図柄P−1a,P−2b
を柄合成した紋紙イを穿孔する際、最初に意匠図
P1の図柄P−1aを柄合成する指令情報のマス
ターテープMT1をテープリーダT.Rで読み取
り、読み取つた情報信号をデータインプツトブロ
ツクD.1よりマイコンMCOPにインプツトし、
プログラムメモリPG.Mに記憶する。
Now, the patterns P-1a and P-2b are similar to the weaving pattern P3.
When perforating pattern paper A with pattern combinations, first read master tape MT1 containing command information for pattern combination of pattern P-1a of design drawing P1 with tape reader TR, and read the read information signal into data input block D. From 1, input to the microcomputer MCOP,
Store in program memory PG.M.

更に前記意匠図P1の穿孔テープt1の穿孔情
報をテープリーダT.Rで読み取り、読み取つた情
報信号をマイコンMCOPにデータインプツトブロ
ツクD.1よりインプツトすると、上記マイコン
MCOPではインプツトされた穿孔テープt1の情
報信号を演算部CPTで処理し、意匠図P1の図
柄P−1aのブロツクに於ける一列毎の情報(緯
糸一本分Lの1/2の情報)を一斉に出力変換ブロ
ツクD.Oを経て電気信号の出力信号としてアウト
プツトされ、紋紙穿孔機PMのソレノイド18を
作動させる。
Furthermore, when the perforation information of the perforated tape t1 of the design drawing P1 is read by the tape reader TR and the read information signal is input to the microcomputer MCOP from the data input block D.1, the above-mentioned microcomputer
In the MCOP, the input information signal of the perforated tape t1 is processed by the calculation unit CPT, and the information for each row in the block of pattern P-1a of the design drawing P1 (information for 1/2 of L for one weft) is calculated. All the signals are output as electric signals through the output conversion block DO, and actuate the solenoid 18 of the paper perforator PM.

以下紋紙穿孔機P.Mの作動について延べる。 The operation of the paper punching machine P.M will be described below.

第3図は紋紙穿孔機を示すもので、紙面直角方
向に延びる支軸1に、パンチ数分並列かつ等間隔
に配列した制御プレート2の一端が揺動自在に軸
支嵌合され、該制御プレート2の上縁開口の長溝
4に記憶針3が掛合垂下されると共に、該記憶針
3の中間部に形成された孔5にプレスバー6が水
平に貫通支持されている。この時、上記記憶針3
は長溝4内を上下動自在に掛合されており、通常
は自重によつて長溝底部、即ち下位置に位置して
いる。該記憶針3の上位置、下位置に追従して上
記プレスバー6も二位置を取り、上位置に於いて
非作動、下位置に於いて作動位置となり、プレス
バー頭部6aが摺動フレーム7に固着されたプレ
スグリツド8に押圧されて作動し、プレスバー先
端に固定されたパンチ9でもつて、設定ピツチを
間欠移動するカードホイール10,10間に取り
付けられた紋紙11に穿孔するようになつてい
る。
Fig. 3 shows a pattern punching machine, in which one end of a control plate 2 arranged in parallel and at equal intervals for the number of punches is pivotally fitted to a support shaft 1 extending in a direction perpendicular to the plane of the drawing. A memory needle 3 is hooked and suspended in the long groove 4 of the upper edge opening of the control plate 2, and a press bar 6 is supported horizontally through a hole 5 formed in the middle portion of the memory needle 3. At this time, the memory needle 3
is engaged in a vertically movable manner within the long groove 4, and is normally located at the bottom of the long groove, that is, at a lower position due to its own weight. Following the upper and lower positions of the memory needle 3, the press bar 6 also assumes two positions; in the upper position it is inactive and in the lower position it is in the operating position, and the press bar head 6a is in the sliding frame. It operates by being pressed by a press grid 8 fixed to a press bar 7, and a punch 9 fixed to the tip of the press bar punches a hole in a pattern paper 11 attached between card wheels 10, which move the set pitch intermittently. It's summery.

上記上位置、下位置の制御は前記制御プレート
2でもつて行われ、該プレート2はスプリング1
2により上方へ付勢され、ストツプバー13のフ
ラツト面13aにプレート2と一体固定の規定板
14が当接して上位置が規定され、支軸15を支
点に揺動する揺動レバー16に固定されたリセツ
ト軸17の上下動によつて全制御プレート2がス
プリング12に抗して下位置へ押下げられる。更
に制御プレート2の上方に設置されるソレノイド
18は各々制御プレート2に対応して設けられ、
該ソレノイド18のオンによつて突出するロツド
19が各々制御プレート2に固着された係止板2
0を押圧することによつて各々選択的に下位置が
規定される。即ちリセツト軸が下降し、全制御プ
レート2が下位置にある時、指定のソレノイド1
8をオンすると該ソレノイド18に対応するプレ
ートのみが下位置に位置設定され、リセツト軸1
7の上昇に伴つて残りの制御プレート2がスプリ
ング12によつて上位置へ戻る。該制御プレート
2の作動によつて制御プレートに掛合垂下した記
憶針3も追従して上下位置を選択的にとり、該記
憶針3に支持されたプレスバー6が上下位置をと
り、摺動フレーム7を一往復作動させることによ
り、下位置に位置するプレスバー6がプレスグリ
ツド8に押圧され先端のパンチ9がダイス21上
の紋紙11に穿孔することになる。
The control of the upper and lower positions is also performed by the control plate 2, which controls the spring 1.
2, the regulating plate 14 integrally fixed with the plate 2 comes into contact with the flat surface 13a of the stop bar 13 to define the upper position, and is fixed to the swinging lever 16 that swings about the support shaft 15. The entire control plate 2 is pushed down to the lower position against the spring 12 by the vertical movement of the reset shaft 17. Furthermore, the solenoids 18 installed above the control plate 2 are provided corresponding to the control plates 2, respectively.
A locking plate 2 has rods 19 fixed to the control plate 2, each of which protrudes when the solenoid 18 is turned on.
The lower position is selectively defined by pressing 0 respectively. That is, when the reset shaft is lowered and all control plates 2 are in the lower position, the designated solenoid 1
8, only the plate corresponding to the solenoid 18 is set to the lower position, and the reset shaft 1
7 is raised, the remaining control plate 2 is returned to the upper position by the spring 12. Due to the operation of the control plate 2, the memory needle 3 which is hooked to the control plate and hangs down also follows and selectively assumes the upper and lower positions, and the press bar 6 supported by the memory needle 3 assumes the upper and lower positions, and the sliding frame 7 By reciprocating once, the press bar 6 located at the lower position is pressed against the press grid 8, and the punch 9 at the tip punches the pattern paper 11 on the die 21.

従つてこのような紋紙穿孔機ではソレノイド1
8に与えるオン信号によつてパンチ9が制御さ
れ、紋紙に穿孔されるわけであり、電気信号を制
御することにより紋紙に所望の穿孔を行うことが
できるものである。
Therefore, in such a paper punching machine, solenoid 1
The punch 9 is controlled by the ON signal given to the punch 8 to punch holes in the patterned paper, and by controlling the electrical signals, the desired punches can be made in the patterned paper.

以上のようにして第2図に於ける紋紙イに穿孔
されるわけであるが、この時紋紙イの左半分、即
ち意匠図P1の図柄P−1aのブロツク分の穿孔
が行われたことになる。
In the above manner, holes are punched in the pattern paper A in Figure 2. At this time, the left half of the pattern paper A, that is, the holes corresponding to the blocks of the pattern P-1a in the design drawing P1 are perforated. It turns out.

上記意匠図P1の図柄P−1aのブロツクの紋
紙穿孔が終わると、該紋紙イを再度、スタート位
置にセツトし、前記同様の方法でマスターテープ
MT2及び紋紙用穿孔テープt2によつて、意匠
図P2の図柄P−2bのブロツクの紋紙穿孔が右
半分に行われ、意匠図P1,P2の図柄P−1a
とP−2bが柄合成された形で一つの紋紙として
得られる。上述した方法によつて得られた紋紙イ
をジヤカードJにセツトすることによつて意匠図
P1,P2より抜き出した図柄P−1aとP−2
aの柄合成P3が織成される。
When the punching of the pattern paper for the block of design P-1a in the above-mentioned design drawing P1 is completed, the pattern paper is set at the starting position again, and the master tape is cut in the same manner as described above.
Using MT2 and perforation tape t2, the block of pattern P-2b of design drawing P2 is perforated in the right half of the pattern paper, and the pattern P-1a of design drawings P1 and P2 is perforated.
and P-2b are combined into a single patterned paper. Designs P-1a and P-2 are extracted from the design drawings P1 and P2 by setting the pattern paper A obtained by the above-mentioned method on the Jia card J.
The pattern composite P3 of a is woven.

尚、マイコンMCOPに容量の大なるコンピユー
タを適用すれば、テープリーダT.Rを2台設け、
紋紙用穿孔テープt1,t2を同時に読み取り、
コンピユータに一旦インプツトした後、意匠図P
1,P2の図柄D−1a,P−2bのブロツクを
一列毎、同時にアウトプツトし、紋紙イ上に織柄
P3の一列分を同時に穿孔することも可能であ
る。
In addition, if a large-capacity computer is applied to the microcomputer MCOP, two tape readers TR can be installed,
Read perforated tapes t1 and t2 for pattern paper at the same time,
Once input into the computer, the design drawing P
It is also possible to output the blocks of patterns D-1a and P-2b of patterns D-1a and P-2b of patterns D-1a and P-2b row by row at the same time, and simultaneously punch one row of the pattern P3 on the pattern paper A.

このように複数枚の意匠図P1,P2の緯糸一
本分Lの情報を記録した2本の紋紙用テープt
1,t2をコンピユータによる演算によつて緯糸
一本分の2倍に相当する情報2Lから、緯糸一本
分の情報に配置変換した穿孔情報を出力すること
により、意匠図P1,P2の一部を取り出して穿
孔することができる。
In this way, two pattern paper tapes t recorded information for one weft L of multiple design drawings P1 and P2.
By outputting perforation information whose layout is converted from information 2L, which corresponds to twice the amount of one weft thread, to information for one weft thread, by calculating 1 and t2 by a computer, a part of the design drawings P1 and P2 is output. can be taken out and punched.

以上のように本発明によれば意匠図からジヤカ
ード用紋紙を穿孔するに当つて、従来の紋紙穿孔
方法にマイクロコンピユータを連結することによ
り、複数枚の意匠図から織成したい図柄を選択
し、一つの紋紙を穿孔する場合、選択した図柄を
新たな一枚の意匠図として描くことを全く要せ
ず、現存の複数枚の意匠図から選択的に柄合成し
た一つの紋紙を穿孔できるものである。
As described above, according to the present invention, when perforating pattern paper for jia cards from design drawings, by connecting a microcomputer to the conventional pattern paper perforation method, a desired pattern to be woven can be selected from a plurality of design drawings. , when punching one piece of pattern paper, there is no need to draw the selected design as a new design drawing, and instead, a single pattern paper with patterns selectively synthesized from multiple existing design drawings can be punched. It is possible.

即ち、複数枚の意匠図を一本の緯糸について整
数倍で与えられるテープ情報として、上記マイコ
ンにインプツトすると共に複数枚の意匠図から選
択的に柄合成する指令情報をインプツトすること
により、該マイコンによつて演算を行い一枚の意
匠図に対応する緯糸一本分の情報に配置変換して
穿孔情報をアウトプツトし、紋紙穿孔機を作動さ
せ、所望の紋紙を得るものである。
That is, by inputting a plurality of design drawings into the microcomputer as tape information given in integer multiples for one weft, and inputting command information for selectively synthesizing a pattern from the plurality of design drawings, the microcomputer The system performs calculations and converts the arrangement into information for one weft corresponding to one sheet of design drawing, outputs perforation information, operates a pattern paper perforation machine, and obtains a desired pattern paper.

従つて新たな意匠図を作成する手間が省けると
共に選択した図柄と全く同一の柄織成を行うこと
ができる。
Therefore, it is possible to save the effort of creating a new design drawing, and to create a pattern that is exactly the same as the selected design.

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

第1図はマイクロコンピユータの説明図、第2
図は本発明に於ける紋紙穿孔方法を示す図、第3
図は紋紙穿孔機の一部断面の側面図である。 P1,P2……複数意匠図、P−1a,P−1
b……P1を構成する図柄、P−2a,P−2b
……P2を構成する図柄、T.R……テープリー
ダ、t1,t2……穿孔テープ、MT1,MT2
……マスターテープ、MCOP……マイクロコンピ
ユータ、イ……紋紙、J……ジヤカード機、PM
……紋紙穿孔機。
Figure 1 is an explanatory diagram of a microcomputer, Figure 2
The figure is a diagram showing the pattern paper perforation method in the present invention.
The figure is a partially sectional side view of the paper punching machine. P1, P2...Multiple design drawings, P-1a, P-1
b... Designs forming P1, P-2a, P-2b
...Designs constituting P2, TR...tape leader, t1, t2...perforated tape, MT1, MT2
... Master tape, MCOP ... Microcomputer, A ... Pattern paper, J ... Jia card machine, PM
...Paper punching machine.

Claims (1)

【特許請求の範囲】[Claims] 1 複数の意匠図を読取装置によつて判読し、得
られた各意匠図に対応する穿孔テープの図柄情報
をテープリーダで読み取りマイクロコンピユータ
のデータメモリーに入力記憶し、一方意匠図の図
柄の一部分を指定する指令情報を有するマスター
テープを上記テープリーダで読み取り、該指令情
報を上記マイクロコンピユータのプログラムメモ
リーに入力記憶させ、上記各意匠図の図柄情報を
上記指令情報によつて演算処理し、上記複数枚の
意匠図で得られる柄情報を1枚の意匠図の柄情報
に変換して出力し、該出力がジヤカード用紋紙の
穿孔情報とされ、紋紙の穿孔位置を制御すること
により、複数枚の意匠図の任意の部分を合成した
意匠図に対応する紋紙を直接穿孔制御するように
したことを特徴とする柄合成紋紙の穿孔方法。
1. A plurality of design drawings are read by a reading device, and the pattern information on the perforated tape corresponding to each obtained design drawing is read by a tape reader and inputted and stored in the data memory of a microcomputer, while a part of the design of the design drawing is read by a tape reader and stored in the data memory of a microcomputer. A master tape having command information specifying the above is read by the tape reader, the command information is input and stored in the program memory of the microcomputer, the pattern information of each of the design drawings is arithmetic-processed using the command information, and the above-mentioned The pattern information obtained from multiple design drawings is converted into the pattern information of one design drawing and outputted, and the output is used as perforation information for the Jia card pattern paper, and by controlling the perforation position of the pattern paper, A method for perforating pattern composite pattern paper, characterized by directly controlling the perforation of pattern paper corresponding to a design drawing made by combining arbitrary parts of a plurality of design drawings.
JP16425479A 1979-12-17 1979-12-17 Drilling of pattern synthesized card Granted JPS5696930A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP16425479A JPS5696930A (en) 1979-12-17 1979-12-17 Drilling of pattern synthesized card

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP16425479A JPS5696930A (en) 1979-12-17 1979-12-17 Drilling of pattern synthesized card

Publications (2)

Publication Number Publication Date
JPS5696930A JPS5696930A (en) 1981-08-05
JPS6211101B2 true JPS6211101B2 (en) 1987-03-10

Family

ID=15789597

Family Applications (1)

Application Number Title Priority Date Filing Date
JP16425479A Granted JPS5696930A (en) 1979-12-17 1979-12-17 Drilling of pattern synthesized card

Country Status (1)

Country Link
JP (1) JPS5696930A (en)

Also Published As

Publication number Publication date
JPS5696930A (en) 1981-08-05

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