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JPS6211100B2 - - Google Patents
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JPS6211100B2 - - Google Patents

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Publication number
JPS6211100B2
JPS6211100B2 JP16425379A JP16425379A JPS6211100B2 JP S6211100 B2 JPS6211100 B2 JP S6211100B2 JP 16425379 A JP16425379 A JP 16425379A JP 16425379 A JP16425379 A JP 16425379A JP S6211100 B2 JPS6211100 B2 JP S6211100B2
Authority
JP
Japan
Prior art keywords
tape
read
design drawing
information
paper
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
JP16425379A
Other languages
Japanese (ja)
Other versions
JPS5696929A (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 JP16425379A priority Critical patent/JPS5696929A/en
Publication of JPS5696929A publication Critical patent/JPS5696929A/en
Publication of JPS6211100B2 publication Critical patent/JPS6211100B2/ja
Granted legal-status Critical Current

Links

Description

【発明の詳細な説明】 本発明は複数台連結ジヤカード用の紋紙穿孔方
法に関する。
DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for perforating pattern paper for a plurality of connected jacquards.

上記ジヤカード用紋紙の穿孔に当つては、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識信号に変
換し、該変換した組識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操作し、紋紙の穿孔を行なう
方法が用いられている。
When punching the pattern paper for the Jia card, the design drawing is color-coded for each different tissue using an automatic reading device such as a pattern analyzer, and the color-coded design drawing is read by a color discrimination device, and the color discrimination device is used to distinguish the color. The color discrimination signal from the device is converted into a composition signal corresponding to each color of the design drawing, the converted composition signal is extracted in the form of perforated tape, and the perforated tape is used to electrically and automatically create a pattern paper. A method is used in which a perforation machine is operated to perforate the patterned paper.

本発明はかかる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、
意匠図一本の緯糸について整数倍で与えられるテ
ープ情報を上記マイコンにインプツトし、該マイ
コンによつて演算を行い、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
紙を得るものである。
The present invention further connects a microcomputer (hereinafter referred to as microcomputer) to the pattern paper perforation method,
Tape information given in integer multiples for one weft thread in the design drawing is input into the microcomputer, which performs calculations, converts the layout to information for one weft thread, outputs perforation information, and prints out the desired pattern. It's about getting paper.

即ち、複数連結ジヤカードの紋紙を穿孔する場
合、従来は各ジヤカード毎に意匠図を分割して描
き、各ジヤカード用の紋紙を作成する方法、即ち
第1図に示すように例えば3台連結ジヤカードJ
1,J2,J3の紋紙を穿孔する場合、意匠図を
3枚の意匠図d1,d2,d3に各々分割して描
き、該意匠図d1,d2,d3を各々前記した自
動読取装置によつて読み取り、該読み取つた情報
を穿孔テープの形で取り出し、該穿孔テープt
1,t2,t3を各々テープリーダT.Rで判読
し、該判読した情報によつて穿孔機P.Mを作動さ
せ、各々ジヤカードJ1,J2,J3用の紋紙
A,B,Cを作成する方法を行つていた。
In other words, when punching a pattern paper for multiple connected jia cards, the conventional method is to draw the design drawing separately for each jia card and create a pattern paper for each jia card. Jiya Card J
1, J2, and J3, the design drawing is divided into three design drawings d1, d2, and d3, and the design drawings d1, d2, and d3 are each drawn by the automatic reading device described above. the read information in the form of a perforated tape, the perforated tape t
1, t2, and t3 are each read with a tape reader TR, and the punching machine PM is operated according to the read information to create patterns A, B, and C for Jia cards J1, J2, and J3, respectively. It was on.

ところが該紋紙作成方法に於いては各々ジヤカ
ード毎の意匠図を分離して描く必要があり、かつ
意匠図の境界部分に細心の注意を要し、又意匠図
の読み取りも各テープ毎に行わねばならないとい
う手間を要するなどの問題があつた。
However, in this paper making method, it is necessary to draw the design drawings for each Jia card separately, and careful attention is required to the boundaries of the design drawings, and the reading of the design drawings must be done for each tape. There were problems such as the time and effort required.

本発明に於いては上記意匠図を分割することな
く一枚の意匠図でもつて各ジヤカード用の紋紙を
得ることができる紋紙穿孔方法を提供するもので
ある。
The present invention provides a pattern paper perforation method that allows pattern paper for each jia card to be obtained using a single design drawing without dividing the design drawing.

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2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の各々には記憶針3
が掛合される上縁開口の長溝4が形成され、該長
溝4に上端が逆U字状に折曲造形された上記記憶
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が該記憶針3
に直角方向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
定ピツチを間欠移送するカードホイール10,1
0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. 2 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. Each of the plates 2 has a memory needle 3
A long groove 4 with an upper edge opening is formed in which the memory needle 3 is engaged, and the memory needle 3 whose upper end is bent into an inverted U-shape is engaged with and hangs down from the long groove 4. The press bar 6 inserts the memory needle 3 into the hole 5
It is penetrated and supported in a direction perpendicular to. At this time, the memory needle 3 is engaged in a vertically movable manner within the long groove 4, and is normally positioned at the bottom of the long groove, ie, 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. Card wheels 10, 1 are activated by being pressed by a press grid 8 fixed to the press bar 7, and intermittently transfer the set pitch using a punch 9 fixed to the tip of the press bar.
The pattern paper 11 attached between the holes is perforated.

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 is pressed against the die 21.
The upper pattern paper 11 will be perforated.

従つて、このような紋紙穿孔機ではソレノイド
18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 pattern paper perforation machine, the punch 9 is controlled by the ON signal given to the solenoid 18 to punch holes in the pattern paper, and the desired perforation can be made in the pattern paper by controlling the electric signal. It is something that can be done.

その他、22,23,24,25は紋紙コピー
用の各々カム板、レバー、ローラ、スプリングで
ある。
In addition, 22, 23, 24, and 25 are a cam plate, a lever, a roller, and a spring for copying paper patterns.

第3図は上述した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
の編成指令情膜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 3 shows a microcomputer connected to the above-mentioned paper perforation machine. By inputting various knitting command information into the microcomputer, information on the perforated tape extracted by deciphering design drawings can be read. It inputs information into a microcomputer and automatically creates various patterns according to the composition command input.It consists of a data memory DM that stores the information input from the data input block DI, and a program input from the block DI. It consists of a program memory PG.M for storing data and a calculation unit CPT for calculating and organizing information according to the program.The output from the microcontroller MCPO is converted into an output conversion block.
It is outputted as an output signal such as an electrical signal via the DO.

以下本発明の紋紙穿孔方法について詳述する。 The method for perforating pattern paper according to the present invention will be described in detail below.

前述したように第1図に於ける3台連結ジヤカ
ードJ1,J2,J3の意匠図、即ち各々分割し
て描いた意匠図d1,d2,d3を第4図示の如
く一枚の意匠図dとして描き、該一枚の意匠図を
自動読取装置S.Gによつて判読し、一本の穿孔テ
ープtの形で取り出し、該穿孔テープTをテープ
リーダT.Rによつて読み取るのに先立ち、穿孔テ
ープtの読み取り部分を指定するマスターテープ
MT1の指令情報をテープリーダTRに読み取ら
せ、読み取つた情報信号はデータインプツトブロ
ツクD.Iにより、マイコンMCOPにインプツトさ
れ、プログラムメモリPG.Mに記憶される。この
時マスターテープMT1は意匠図d1のブロツク
のみを読み取る指令情報としてインプツトされて
いるとすると、意匠図d1のブロツク指定の指令
情報信号がマイコンMCOPに記憶されると共に紋
紙用穿孔テープtをテープリーダT.Rで意匠図一
列毎の情報信号として読み取り、マイコンMCOP
にインプツトし、データメモリD.Mに記憶する。
該マイコンMCOPに於いては指定された読み取り
プログラムに従つて情報を演算部で処理し、意匠
図dのブロツクd1に於ける一列毎の情報を一斉
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P.Mのソ
レノイド18を作動させる。該穿孔機PMはマイ
コンMCOPからの出力に従つて第1図の記憶針3
を作動させ、更に前述した過程を経て紋紙の定位
置へ穿孔する。
As mentioned above, the design drawings of the three connected jiacards J1, J2, and J3 in Fig. 1, that is, the design drawings d1, d2, and d3 drawn separately, are made into one design drawing d as shown in Fig. 4. The single design drawing is read by the automatic reading device SG, taken out in the form of a perforated tape t, and before the perforated tape T is read by the tape reader TR, the perforated tape t is read. Master tape that specifies the reading portion
The command information of MT1 is read by the tape reader TR, and the read information signal is input to the microcomputer MCOP by the data input block DI and stored in the program memory PG.M. At this time, assuming that the master tape MT1 is input as command information to read only the block of the design drawing d1, the command information signal specifying the block of the design drawing d1 is stored in the microcomputer MCOP, and the perforated tape t for the pattern paper is input to the tape. The reader TR reads each row of design drawings as information signals, and the microcomputer MCOP
and store it in the data memory DM.
In the microcomputer MCOP, the information is processed in the arithmetic unit according to the specified reading program, and the information for each row in block d1 of design drawing d is output all at once as an electrical signal output signal via the conversion block DO. is output, and the solenoid 18 of the paper perforator PM is activated. The perforator PM operates the memory needle 3 in Fig. 1 according to the output from the microcomputer MCOP.
is operated, and the pattern paper is perforated at a fixed position through the process described above.

上記したようにして意匠図d1のブロツクの紋
紙Aが作成され、同様にして意匠図d2のブロツ
クのみを読み取る指令情報をマスターテープMT
2によつてテープリーダT.Rを経てマイコン
MCOPにインプツトしてやると、意匠図d2のブ
ロツクに対応する紋紙Bが作成され、更にマスタ
ーテープMT3の指令情報によつて意匠図d3に
対応する紋紙Cが作成されて、意匠図dの各ブロ
ツクd1,d2,d3の紋紙A,B,Cが得られ
る。このように穿孔テープtには製織される柄の
緯糸一本3Lの情報が記録されるが、該テープt
の情報をマイコンMCOPにインプツトして、演算
することにより、製織柄の緯糸一本分3Lの1/
3、即ち各柄ブロツクL寸法に相当する各ブロツ
クd1,d2,d3毎の紋紙を作成することがで
きる。
As described above, the pattern paper A for the block of design drawing d1 is created, and in the same way, command information for reading only the block of design drawing d2 is transferred to the master tape MT.
2 to the microcomputer via the tape reader TR
When input to MCOP, pattern paper B corresponding to the block of design drawing d2 is created, and furthermore, pattern paper C corresponding to design drawing d3 is created by the command information of master tape MT3, and each block of design drawing d is created. Patterns A, B, and C of blocks d1, d2, and d3 are obtained. In this way, information on each weft thread 3L of the pattern to be woven is recorded on the perforated tape t.
By inputting this information into the microcomputer MCOP and calculating it, 1/1 of 3L for one weft thread of the weaving pattern.
3. In other words, it is possible to create pattern paper for each block d1, d2, d3 corresponding to the L dimension of each pattern block.

以上のように本発明によれば、紛数台連結ジヤ
カード用紋紙を作成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、各ジヤカード毎の分割意匠図、該意匠図に対
応する紋紙用テープを作成する必要がなく、一枚
の意匠図、一本の穿孔テープでもつて各ジヤカー
ド毎の紋紙を作成することができ、更にマスター
テープの指令情報を変換するのみで、必要に応じ
た意匠図の各部分の紋紙を得ることも可能であ
る。又、分割意匠図を作成する場合、各意匠図の
境界部分にずれを生じたりするため細心の注意を
要するが本発明に於いてはその必要が全くない。
更に意匠図、テープの数が一段と少なくて済むた
め在庫管理が容易である。
As described above, according to the present invention, by connecting a microcomputer to the conventional pattern paper perforation method when creating pattern papers for connected Jia cards, dividing design drawings for each Jia card can be created. There is no need to create a corresponding pattern paper tape, and a pattern paper for each Jia card can be created using one design drawing and one perforated tape, and all that is needed is to convert the command information on the master tape. It is also possible to obtain pattern paper for each part of the design drawing as needed. Further, when creating divided design drawings, careful attention is required since the boundaries of each design drawing may be misaligned, but this is not necessary at all in the present invention.
Furthermore, inventory management is easier because the number of design drawings and tapes is much smaller.

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

第1図は従来の紋紙穿孔方法を示す図、第2図
は紋紙穿孔機の一部断面の側面図、第3図はマイ
クロコンピユータの説明図、第4図は本発明に於
ける紋紙穿孔方法を示す図である。 d……意匠図、A.R……自動読取装置、t……
穿孔テープ、MT1〜MT3……マスターテー
プ、T.R……テープリーダ、MCOP……マイクロ
コンピユータ、P.M……紋紙穿孔機、A,B,C
……紋紙、L……緯糸一本分の情報。
Fig. 1 is a diagram showing a conventional paper perforation method, Fig. 2 is a partially sectional side view of a paper perforation machine, Fig. 3 is an explanatory diagram of a microcomputer, and Fig. 4 is a diagram showing a paper perforation according to the present invention. It is a figure which shows the paper perforation method. d...design drawing, AR...automatic reading device, t...
Perforated tape, MT1 to MT3...Master tape, TR...Tape reader, MCOP...Microcomputer, PM...Paper perforation machine, A, B, C
...Monster paper, L...Information for one weft thread.

Claims (1)

【特許請求の範囲】[Claims] 1 複数台連結ジヤカード用紋紙の穿孔方法であ
つて、一枚の意匠図の模様・色等を読み取り、一
本の穿孔テープの形で取り出し、該穿孔テープを
テープリーダによつて読み取るのに先立つて、上
記穿孔テープの読み取り部分を指定する各ジヤカ
ード機用マスターテープをテープリーダで読み取
り、読み取つた情報はマイコンに入力され、いつ
たんプログラムメモリに記憶されると共に、上記
穿孔テープを読み取つた意匠図一列毎の情報信号
が上記マイコンに入力され、データメモリにいつ
たん記憶され、次いで上記マスターテープによつ
て指定された読み取りプログラムに従つて上記穿
孔テープの情報信号が処理されて、上記意匠図が
複数ジヤカード機に対応するブロツクに実質的に
分割され、各ブロツクにおける一列毎の情報を出
力信号として出力し、紋紙穿孔機の穿孔動作を行
うことにより、一枚の意匠図を読み取つた一本の
穿孔テープと、上記マスターテープによつて、複
数台連結ジヤカードの各ジヤカード用の分割され
た意匠図に相当する紋紙を穿孔することを特徴と
する複数台連結ジヤカード用紋紙穿孔方法。
1 A method of perforating patterned paper for multiple connected jia cards, in which the pattern, color, etc. of one design drawing is read, the perforated tape is taken out in the form of a single perforated tape, and the perforated tape is read by a tape reader. First, a master tape for each jia card machine that specifies the read portion of the perforated tape is read by a tape reader, and the read information is input to the microcomputer and immediately stored in the program memory. The information signals for each row of drawings are input to the microcomputer and temporarily stored in the data memory, and then the information signals of the perforated tape are processed according to the reading program specified by the master tape, and the information signals for each row of the design drawings are processed. is substantially divided into blocks corresponding to multiple Jacard machines, and the information for each row in each block is output as an output signal, and by performing the punching operation of the pattern paper punching machine, it is possible to read a single design drawing. A method for perforating a pattern paper for a plurality of connected jiacards, which comprises perforating a pattern paper corresponding to a divided design drawing for each jiacard of the plurality of connected jiacards, using a book perforation tape and the master tape.
JP16425379A 1979-12-17 1979-12-17 Drilling of pattern card for plural connected jacquard Granted JPS5696929A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP16425379A JPS5696929A (en) 1979-12-17 1979-12-17 Drilling of pattern card for plural connected jacquard

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP16425379A JPS5696929A (en) 1979-12-17 1979-12-17 Drilling of pattern card for plural connected jacquard

Publications (2)

Publication Number Publication Date
JPS5696929A JPS5696929A (en) 1981-08-05
JPS6211100B2 true JPS6211100B2 (en) 1987-03-10

Family

ID=15789580

Family Applications (1)

Application Number Title Priority Date Filing Date
JP16425379A Granted JPS5696929A (en) 1979-12-17 1979-12-17 Drilling of pattern card for plural connected jacquard

Country Status (1)

Country Link
JP (1) JPS5696929A (en)

Also Published As

Publication number Publication date
JPS5696929A (en) 1981-08-05

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