CN113867268A - Warp knitting jacquard intelligent bar number control system and method - Google Patents

Abstract

The application discloses a system and a method for controlling intelligent warp knitting jacquard arrangement, wherein the system comprises: the system comprises an industrial personal computer, a jacquard controller, a rotary encoder, a jacquard repeater, a jacquard driver and a jacquard, wherein the industrial personal computer is provided with a data communication interface capable of carrying out data communication with the jacquard controller and a data communication interface for reading a jacquard process file from the upper computer; the rotary encoder is used for determining the position information of the warp knitting spindle and sending the position information to the jacquard controller; the jacquard controller is provided with a data communication interface for receiving jacquard process files downloaded by the industrial personal computer; the jacquard repeater is used for converting the jacquard process file into control data and transmitting the control data to the jacquard driver; the jacquard driver is used for driving jacquard action so as to weave specific marks of the current row of the blank cloth on the blank cloth according to the row number in the specific mark area of the blank cloth.

Description

Warp knitting jacquard intelligent bar number control system and method

Technical Field

The invention relates to the field of textile machinery, in particular to a warp knitting jacquard intelligent arrangement control system and method.

Background

The jacquard knitting machine is a main machine for producing mesh dress fabrics, and the products are mainly used for indoor devices and used as dress fabrics, lace accessories and the like. Since 1884, the jacquard mechanism of jacquard warp knitting machines has evolved from mechanical to electromagnetic and now pressure point. Currently, the jacquard devices widely applied in the market mainly include jacquard and piezoelectric ceramic jacquard. The jacquard is earlier to appear than piezoelectric ceramic jacquard, the cost is lower, and the current market occupancy rate is also larger. The jacquard needle on the jacquard comb is connected with the electromagnet through one bar, the jacquard needle is deviated leftwards or rightwards by utilizing the reciprocating pulling of the electromagnet pair, and the deviation can be kept, so that the jacquard work of the jacquard warp knitting machine can be completed.

The traditional single chip microcomputer and the PLC are generally adopted as a processor in the existing warp knitting jacquard control system, the defects of many aspects exist, the anti-interference capability of the traditional single chip microcomputer is poor, the failure rate is high, the expansion is not easy, and the development period is long. Although the performance of the PLC is greatly improved, the PLC is not very scalable, has a limited processing speed, and is very expensive. Due to the introduction of the embedded system, the processing speed of the whole system is increased under the condition of limited cost, the development period of the system is shortened, and the system has the characteristics of real-time performance, higher stability, higher speed, higher anti-interference capability, lower power consumption and higher expansibility.

And the existing mode of delivering the finished cloth of the shoe type of our department depends on manual counting to realize delivery. And the manual counting is in the condition of wrong quantity, and when the manual counting is wrong, the difference between the actual ex-warehouse quantity and the ex-warehouse quantity required by the guest is larger. If the cloth is replenished again, the delivery delay may be caused, and the transportation cost is increased. The traditional improvement mode can only be through increasing the check number of times denucleate to shoes type quantity accuracy, waste time and energy, can not stop the wrong problem of delivery volume completely moreover.

Disclosure of Invention

The application provides a warp knitting jacquard intelligent bar number control system and a warp knitting jacquard intelligent bar number control method. The shoe-shaped gray cloth of each row can be woven to have a row number sequence. Therefore, the staff can calculate the total shoe type number only by looking at the front row and the rear row of the arrangement and multiplying the number of the shoes in each row by the number of the shoes in each row. Therefore, the problem of wrong output quantity can be greatly reduced.

The application provides a first aspect provides a warp knitting merchant card intelligent bar number control system, and the system includes: the system comprises an industrial personal computer, a jacquard controller, a rotary encoder, a jacquard repeater, a jacquard driver and a jacquard, wherein the industrial personal computer is provided with a data communication interface capable of carrying out data communication with the jacquard controller and a data communication interface for reading a jacquard process file from an upper computer; the rotary encoder is used for determining position information of a warp knitting spindle and sending the position information to the jacquard controller; the jacquard controller is provided with a data communication interface for receiving the jacquard process file downloaded by the industrial personal computer; the jacquard repeater is used for converting the jacquard process file into control data and transmitting the control data to the jacquard driver; the jacquard driver is used for driving the jacquard action so as to weave specific marks of the current row of the gray cloth on the gray cloth in sequence according to the row number in the specific mark area of the gray cloth.

Optionally, with reference to the first aspect, in a possible implementation manner, the specific mark is a row number sequence, the specific mark region is a number row region, and the jacquard driver is configured to drive the jacquard to sequentially weave, in the specific mark region of the blank, the specific mark of the current row of the blank according to the row number on the blank, includes: the jacquard driver is configured to drive the jacquard operation to sequentially knit the line sequence of the current line of the blank on the blank by the line number in the number line region of the blank.

Optionally, with reference to the first aspect, in a possible implementation manner, the specific mark includes a specific pattern, the specific pattern includes a specific graphic, a specific text, and a specific barcode, the specific mark region is a specific pattern region, and the jacquard driver is configured to drive the jacquard to sequentially weave, in the specific mark region of the blank, the specific mark of the current row of the blank according to the number of rows on the blank includes: the jacquard driver is used for driving the jacquard action so as to weave the specific pattern of the current row of the blank cloth on the blank cloth according to the row number in the specific pattern area of the blank cloth.

Optionally, with reference to the first aspect, in a possible implementation manner, the data communication interface is a USB data communication interface or an RS232 data communication interface, and a 32-bit ARM embedded processor is disposed in the jacquard controller.

Optionally, in combination with the first aspect, in a possible implementation, the jacquard controller is connected to two or three jacquard relays at the same time.

Optionally, with reference to the first aspect, in a possible implementation manner, the specific mark areas of the greige cloth are distributed on two sides of the greige cloth, and the jacquard is used for weaving the specific marks of the current row of the greige cloth on two sides of the greige cloth, wherein the specific marks on two sides of each row of the greige cloth are the same.

Optionally, with reference to the first aspect, in a possible implementation manner, the knitting area of each row in the number ranking area includes three knitting coordinates, the ranking sequence includes a three-digit ranking number, and the jacquard is configured to sequentially determine a knitting coordinate corresponding to each of the three-digit ranking number; and weaving the row number numbers at the corresponding weaving coordinates.

In a second aspect, the present application provides a warp knitting jacquard smart bar number control method, comprising: opening a merchant card driving software in the industrial personal computer, and reading merchant card process file data from an upper computer through a data communication interface; the industrial personal computer downloads the jacquard process file data into a jacquard controller through the data communication interface; after starting, the rotary encoder acquires the position information of the warp knitting main shaft and sends the position information to the jacquard controller; the jacquard controller reads the jacquard process file data line by line according to the process sequence according to the position information and transmits the jacquard process file data to a jacquard repeater; the jacquard repeater converts the jacquard process file data into control data and pulls a jacquard driver to output the control data; the jacquard driver drives jacquard action so as to weave specific marks of the current row of the gray cloth on the gray cloth according to the row number in the specific mark area of the gray cloth.

Optionally, with reference to the second aspect, in a possible implementation manner, the specific mark is a row number sequence, the specific mark region is a number row region, and the jacquard driver drives the jacquard to sequentially weave the specific mark of the current row of the blank on the blank according to the row number in the specific mark region of the blank includes: the jacquard driver drives a jacquard operation to sequentially knit the line sequence of the current line of the blank on the blank according to the line number in the number line region of the blank.

Optionally, with reference to the second aspect, in a possible implementation manner, the specific mark includes a specific pattern, the specific pattern includes a specific graphic, a specific text, and a specific barcode, the specific mark region is a specific pattern region, and the jacquard driver drives the jacquard to sequentially weave, in the specific mark region of the blank, the specific mark of the current row of the blank on the blank according to the number of rows includes: the jacquard driver drives the jacquard motion to sequentially knit the specific pattern of the current line of the blank on the blank by the number of lines in the specific pattern region of the blank.

Optionally, with reference to the second aspect, in a possible implementation manner, the distributing the specific mark areas of the blank cloth on both sides of the blank cloth, and the jacquard driver drives the jacquard to sequentially weave the specific mark areas of the current line of the blank cloth on the blank cloth according to the number of lines in the specific mark areas of the blank cloth specifically includes: weaving specific identification areas of the current row of the gray cloth on two sides of the gray cloth, wherein the specific identification areas on two sides of each row of the gray cloth are the same.

Optionally, with reference to the second aspect, in a possible implementation manner, the knitting area of each row in the number row area includes three knitting coordinates, the row number sequence includes a three-digit row number, and the jacquard driver drives the jacquard to sequentially knit, in the number row area of the blank, a row number sequence of a current row of the blank on the blank according to the row number specifically includes: sequentially determining weaving coordinates corresponding to each row number in the three-digit row number numbers; and weaving the row number numbers at the corresponding weaving coordinates.

The application provides a system and a method for intelligent warp knitting jacquard arrangement control, wherein the system comprises: the system comprises an industrial personal computer, a jacquard controller, a rotary encoder, a jacquard repeater, a jacquard driver and a jacquard, wherein the industrial personal computer is provided with a data communication interface capable of carrying out data communication with the jacquard controller and a data communication interface for reading a jacquard process file from an upper computer; the rotary encoder is used for determining position information of a warp knitting spindle and sending the position information to the jacquard controller; the jacquard controller is provided with a data communication interface for receiving the jacquard process file downloaded by the industrial personal computer; the jacquard repeater is used for converting the jacquard process file into control data and transmitting the control data to the jacquard driver; the jacquard driver is used for driving the jacquard action so as to weave specific marks of the current row of the gray cloth on the gray cloth in sequence according to the row number in the specific mark area of the gray cloth. Therefore, each row of shoe type gray cloth can be provided with the specific identification, so that the staff can only check a plurality of rows before and after the arrangement according to the specific identification, and the total number of the shoe types can be calculated by multiplying the written double number of each row. Deduct the number of bad shoe types, namely the actual delivery quantity. By adopting the method, only the bad quantity needs to be counted when the shoes are delivered, and compared with the traditional manual shoe counting and delivering mode, the total quantity and the bad quantity of the shoe types need to be counted, so that the working efficiency of the staff can be improved, the shoe types can be more accurately distributed and delivered, the use is convenient, the error quantity can be effectively reduced, the problem of large quantity of double quantity loss is avoided, and the economic benefit of a company is maximized.

Drawings

FIG. 1 is a schematic diagram of a warp knitting jacquard smart bar control system provided herein;

FIG. 2 is a schematic flow chart of a warp knitting intelligent number arranging control method provided by the application;

FIG. 3 is a schematic structural diagram of a warp knitting jacquard smart bar control system provided by the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terms "first," "second," and the like in the description and in the claims of the present application and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that the embodiments described herein may be practiced otherwise than as specifically illustrated or described herein. Moreover, the terms "comprises," "comprising," and any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or modules is not necessarily limited to those steps or modules explicitly listed, but may include other steps or modules not expressly listed or inherent to such process, method, article, or apparatus.

The traditional single chip microcomputer and the PLC are generally adopted as a processor in the existing warp knitting jacquard control system, the defects of convenience exist, the anti-interference capability of the traditional single chip microcomputer is poor, the failure rate is high, the expansion is not easy, and the development period is long. Although the performance of the PLC is greatly improved, the PLC is not very scalable, has a limited processing speed, and is very expensive. Due to the introduction of the embedded system, the processing speed of the whole system is increased under the condition of limited cost, the development period of the system is shortened, and the system has the characteristics of real-time performance, higher stability, higher speed, higher anti-interference capability, lower power consumption and higher expansibility.

The existing mode of delivering the finished shoe shapes out of the warehouse depends on manual counting to realize delivery. And the manual counting is in the condition of wrong quantity, and when the manual counting is wrong, the difference between the actual ex-warehouse quantity and the ex-warehouse quantity required by the guest is larger. If the cloth is replenished again, the delivery delay may be caused, and the transportation cost is increased. The traditional improvement mode can only be through increasing the check number of times denucleate to shoes type quantity accuracy, waste time and energy, can not stop the wrong problem of delivery volume completely moreover.

The present application therefore provides a warp knitting jacquard smart bar control system, please see fig. 1, the warp knitting jacquard smart bar control system 10 comprising:

industrial personal computer 101, giardia controller 102, rotary encoder 103, giardia relay 104, giardia drive 105 and giardia 106.

The industrial personal computer 101 is provided with a data communication interface capable of carrying out data communication with the jacquard controller 102 and a data communication interface for reading a jacquard process file from an upper computer;

the rotary encoder 103 is used for determining position information of a warp knitting spindle and sending the position information to the jacquard controller 102;

the jacquard controller 102 is provided with a data communication interface for receiving jacquard process files downloaded by the industrial personal computer 101;

the jacquard repeater 104 is used for converting the jacquard process file into control data and transmitting the control data to the jacquard driver 105;

the jacquard driver 105 is configured to drive the jacquard 106 to sequentially weave a specific mark of a current row of the blank on the blank by the number of rows in the specific mark region of the blank. Specifically, the data communication interface is a USB data communication interface, and a 32-bit ARM embedded processor is disposed in the jacquard controller 102. The jacquer 102 is simultaneously interfaced with two or three jacquers 104.

It should be noted that, in one implementation, the specific mark areas of the greige cloth are distributed on both sides of the greige cloth, and the jacquard 106 is used for weaving the specific marks of the current row of the greige cloth on both sides of the greige cloth, wherein the specific marks on both sides of each row of the greige cloth are the same. In another implementation, the specific mark area of the greige cloth is inside the shoe type in the greige cloth, and the jacquard 106 is used for weaving the specific mark of the current row of the greige cloth inside the shoe type in the greige cloth.

Specifically, the present application provides a first embodiment, in which the specific identifier is a row number sequence, and the specific identifier area is a number row number area. The jacquard driver is used for driving the jacquard action so as to sequentially weave the specific mark of the current row of the blank cloth on the blank cloth according to the row number in the specific mark area of the blank cloth, and comprises the following steps: the jacquard driver is configured to drive the jacquard operation to sequentially knit the line sequence of the current line of the blank on the blank by the line number in the number line region of the blank.

Preferably, the knitting area of each row in the number row area comprises three knitting coordinates, the row number sequence comprises a three-digit row number, and the jacquard 106 is configured to sequentially determine the knitting coordinates corresponding to each row number in the three-digit row number; and weaving the row number numbers at the corresponding weaving coordinates.

It should be noted that, in the first embodiment, various specific examples may be included. For example, in one embodiment, the number row area of the scrim may be distributed on both sides of the scrim. The jacquard 106 is used to weave a sequence of rows of the current row of the fabric on both sides of the fabric. Wherein, the specific marks on the two sides of each row of the gray cloth are the same or different. In another embodiment, the numbering section of the greige may be located inside a shoe shape in the greige, and the jacquard 106 is used to weave the numbering sequence of the current row of the greige inside the shoe shape in the greige.

The present application also provides a second embodiment, in which the specific mark comprises a specific pattern, and the specific pattern comprises but is not limited to a specific figure, a specific character, and a specific bar code. The specific bar code may include a one-dimensional bar code, a two-dimensional bar code, and the like. The specific identification area is a specific pattern area. The jacquard driver is used for driving the jacquard action so as to weave specific marks of the current row of the blank cloth on the blank cloth according to the row number in the specific mark area of the blank cloth, and the specific mark area comprises: the jacquard driver is used for driving the jacquard action so as to weave the specific pattern of the current row of the blank cloth on the blank cloth according to the row number in the specific pattern area of the blank cloth.

It should be noted that, in the second embodiment, a plurality of specific examples may be included. For example, in a specific embodiment, the specific pattern areas of the fabric may be distributed on both sides of the fabric. The jacquard 106 is used to weave a specific pattern of the current row of the blank on both sides of the blank. Wherein, the specific patterns on both sides of each row of the grey cloth are the same or different. In another embodiment, the specific pattern area of the blank may be located inside a shoe shape in the blank, and the jacquard 106 is used to weave the specific pattern of the current row of the blank inside the shoe shape in the blank.

This kind of warp knitting merchant card intelligence arranges numerical control system that this application provided includes: the system comprises an industrial personal computer 101, a jacquard controller 102, a rotary encoder 103, a jacquard repeater 104, a jacquard driver 105 and a jacquard 106, wherein the industrial personal computer 101 is provided with a data communication interface capable of carrying out data communication with the jacquard controller 102 and a data communication interface for reading a jacquard process file from an upper computer; the rotary encoder 103 is used for determining position information of a warp knitting spindle and sending the position information to the jacquard controller 102; the jacquard controller 102 is provided with a data communication interface for receiving jacquard process files downloaded by the industrial personal computer 101; the jacquard repeater 104 is used for converting the jacquard process file into control data and transmitting the control data to the jacquard driver 105; the jacquard driver 105 is configured to drive the jacquard operation to sequentially weave a specific mark of a current line of the blank on the blank by the number of lines in the specific mark region of the blank. Therefore, each row of shoe type gray cloth can be provided with the specific identification, so that the staff can only look at the front row and the rear row of the arrangement according to the specific identification and multiply the written double number of each row to calculate the total number of the shoe types. Deduct the number of bad shoe types, namely the actual delivery quantity. By adopting the method, only the bad quantity needs to be counted when the shoes are delivered, and compared with the traditional manual shoe counting and delivering mode, the total quantity and the bad quantity of the shoe types need to be counted, so that the working efficiency of the staff can be improved, the shoe types can be more accurately distributed and delivered, the use is convenient, the error quantity can be effectively reduced, the problem of large quantity of double quantity loss is avoided, and the economic benefit of a company is maximized.

Referring to fig. 2, the present application also provides a warp jacquard smart metering control method, comprising:

s201, starting a merchant card driving software in the industrial personal computer, and reading merchant card process file data from an upper computer through a data communication interface.

And S202, downloading the jacquard process file data into a jacquard controller by the industrial personal computer through a data communication interface.

And S203, after starting, the rotary encoder acquires the position information of the warp knitting spindle and sends the position information to the jacquard controller.

And S204, the jacquard controller reads the jacquard process file data line by line according to the position information and transmits the jacquard process file data to the jacquard repeater.

And S205, converting the jacquard process file data into control data by the jacquard repeater, and pulling the jacquard driver to output.

And S206, driving the jacquard to move by the jacquard driver so as to weave the specific mark of the current row of the blank cloth on the blank cloth according to the row number in the specific mark area of the blank cloth.

Preferably, the specific mark is a line number sequence, the specific mark section is a number line section, and the jacquard driver drives the jacquard operation to sequentially knit the specific mark of the current line of the sheet on the sheet in the specific mark section of the sheet in the number of lines, includes: the jacquard driver drives a jacquard operation to sequentially knit the line sequence of the current line of the blank on the blank according to the line number in the number line region of the blank. Further, the knitting area of each row in the number permutation zone includes three knitting coordinates, the permutation sequence includes a three-digit permutation number, and the jacquard driver drives the jacquard to sequentially knit the permutation sequence of the current row of the blank cloth on the blank cloth according to the permutation number in the number permutation zone of the blank cloth specifically includes: sequentially determining weaving coordinates corresponding to each row number in the three-digit row number numbers; and weaving the row number numbers at the corresponding weaving coordinates.

Preferably, the specific mark includes a specific pattern, the specific pattern includes a specific pattern, specific characters, and a specific bar code, the specific mark region is a specific pattern region, and the jacquard driver drives the jacquard to sequentially weave the specific mark of the current line of the gray cloth on the gray cloth according to the number of lines in the specific mark region of the gray cloth includes: the jacquard driver drives the jacquard motion to sequentially knit the specific pattern of the current line of the blank on the blank by the number of lines in the specific pattern region of the blank.

In one implementation, the specific mark areas of the blank are distributed on both sides of the blank, and the jacquard driver drives the jacquard to sequentially weave the specific mark of the current row of the blank on the blank according to the row number in the specific mark area of the blank specifically comprises: weaving specific marks of the current row of the gray cloth on two sides of the gray cloth, wherein the specific marks on two sides of each row of the gray cloth are the same or different. In another implementation, the specific mark area of the greige cloth is inside the shoe type in the greige cloth, and the jacquard 106 is used for weaving the specific mark of the current row of the greige cloth inside the shoe type in the greige cloth.

The warp-knitted jacquard intelligent arranging control method can enable each row of shoe type gray cloth to have the specific identification, so that staff can go out of a warehouse only by checking a plurality of rows before and after arrangement according to the specific identification and multiplying the written number of each row, and the total number of shoe types can be calculated. Deduct the number of bad shoe types, namely the actual delivery quantity. By adopting the method, only the bad quantity needs to be counted when the shoes are delivered, and compared with the traditional manual shoe counting and delivering mode, the total quantity and the bad quantity of the shoe types need to be counted, so that the working efficiency of the staff can be improved, the shoe types can be more accurately distributed and delivered, the use is convenient, the error quantity can be effectively reduced, the problem of large quantity of double quantity loss is avoided, and the economic benefit of a company is maximized.

Fig. 3 is a schematic diagram of a coded merchant intelligent queuing control system 300, which may have a relatively large difference due to different configurations or performances, and may include one or more processors (CPUs) 310 (e.g., one or more processors) and a memory 320, and one or more storage media 330 (e.g., one or more mass storage devices) storing applications 333 or data 332 according to an embodiment of the present invention. Memory 320 and storage media 330 may be, among other things, transient or persistent storage. The program stored on the storage medium 330 may include one or more modules (not shown), each of which may include a series of instructions operating on the programmed merchant smart bar control system 300. Still further, the processor 310 may be configured to communicate with the storage medium 330 to execute a series of instruction operations in the storage medium 330 on the coded jacquard smart bus control system 300.

The encoded jacquard smart bus control system 300 may also include one or more power supplies 340, one or more wired or wireless network interfaces 350, one or more input-output interfaces 360, and/or one or more operating systems 331, such as Windows Server, Mac OS X, Unix, Linux, FreeBSD, and the like. Those skilled in the art will appreciate that the configuration of the warp-coded merchant smart ticketing control system shown in FIG. 3 does not constitute a limitation of financial settlement devices, and may include more or fewer components than shown, or some components in combination, or a different arrangement of components.

The present invention also provides a computer readable storage medium, which may be a non-volatile computer readable storage medium, and which may also be a volatile computer readable storage medium, having stored therein instructions, which, when run on a computer, cause the computer to perform the steps of the method for intelligent jacquard warp control.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

In the examples provided herein, it is to be understood that the disclosed methods may be practiced otherwise than as specifically described without departing from the spirit and scope of the present application. The present embodiment is an exemplary example only, and should not be taken as limiting, and the specific disclosure should not be taken as limiting the purpose of the application. For example, some features may be omitted, or not performed.

The technical means disclosed in the invention scheme are not limited to the technical means disclosed in the above embodiments, but also include the technical scheme formed by any combination of the above technical features. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and such improvements and modifications are also considered to be within the scope of the present invention.

The warp knitting jacquard intelligent arrange control system and the method provided by the embodiment of the invention are described in detail, a specific embodiment is applied in the text to explain the principle and the implementation mode of the invention, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention. Although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (10)

1. A warp knitting jacquard smart bar control system, said system comprising: an industrial personal computer, a jacquard controller, a rotary encoder, a jacquard repeater, a jacquard driver and a jacquard,

the industrial personal computer is provided with a data communication interface which can carry out data communication with the jacquard controller and a data communication interface which is used for reading a jacquard process file from an upper computer;

the rotary encoder is used for determining position information of a warp knitting spindle and sending the position information to the jacquard controller;

the jacquard controller is provided with a data communication interface for receiving the jacquard process file downloaded by the industrial personal computer, and is also used for transmitting the jacquard process file to the jacquard repeater;

the jacquard repeater is used for converting the jacquard process file into control data and transmitting the control data to the jacquard driver;

the jacquard driver is used for driving the jacquard action so as to weave specific marks of the current row of the gray cloth on the gray cloth in sequence according to the row number in the specific mark area of the gray cloth.

2. The system of claim 1, wherein the specific mark is a sequence of lines, the specific mark section is a number line section, and the jacquard driver is configured to drive the jacquard action to weave the specific mark of the current line of the blank on the blank in the specific mark section of the blank in a sequence of lines, including:

the jacquard driver is configured to drive the jacquard operation to sequentially knit the line sequence of the current line of the blank on the blank by the line number in the number line region of the blank.

3. The system of claim 1, wherein the specific mark comprises a specific pattern, the specific pattern comprises a specific figure, a specific character and a specific bar code, the specific mark area is a specific pattern area, and the jacquard driver is configured to drive the jacquard motion so as to weave the specific mark of the current line of the gray cloth on the gray cloth in sequence according to the number of lines in the specific mark area of the gray cloth, and comprises:

the jacquard driver is used for driving the jacquard action so as to weave the specific pattern of the current row of the blank cloth on the blank cloth according to the row number in the specific pattern area of the blank cloth.

4. The system of claim 1, wherein the data communication interface is a USB data communication interface or an RS232 data communication interface, and a 32-bit ARM embedded processor is disposed within the jacquard controller.

5. The warp jacquard smart bar control system of claim 1, wherein said jacquard controller interfaces with two or three jacquard relays simultaneously.

6. The warp knitting jacquard smart bar control system according to claim 1, wherein specific logo areas of said blank are distributed on both sides of said blank, said jacquard being adapted to knit specific logos of a current row of said blank on both sides of said blank, wherein said specific logos on both sides of each row of said blank are the same.

7. The system of claim 2, wherein the knitted fabric region of each of the number rows comprises three knitting coordinates, the sequence of rows comprises a three digit number, and the jacquard is configured to sequentially determine knitting coordinates corresponding to each of the three digit number rows; and weaving the row number numbers at the corresponding weaving coordinates.

8. A method for intelligent warp jacquard ranking control, the method comprising:

opening a merchant card driving software in the industrial personal computer, and reading a merchant card process file from an upper computer through a data communication interface;

the industrial personal computer downloads the jacquard process file into a jacquard controller through the data communication interface;

after starting, the rotary encoder acquires the position information of the warp knitting main shaft and sends the position information to the jacquard controller;

the jacquard controller reads the jacquard process files line by line according to the process sequence according to the position information and transmits the jacquard process files to the jacquard repeater;

the jacquard repeater converts the jacquard process file into control data and pulls a jacquard driver to output the control data;

the jacquard driver drives jacquard action so as to weave specific marks of the current row of the gray cloth on the gray cloth according to the row number in the specific mark area of the gray cloth.

9. The method of claim 8, wherein the specific mark is a line number sequence, the specific mark section is a number line section, and the jacquard driver drives the jacquard action to weave the specific mark of the current line of the blank on the blank in the specific mark section of the blank in sequence by the line number comprises:

the jacquard driver drives a jacquard operation to sequentially knit the line sequence of the current line of the blank on the blank according to the line number in the number line region of the blank.

10. The method of claim 8, wherein the specific mark comprises a specific pattern, the specific pattern comprises a specific figure, a specific character and a specific bar code, the specific mark region is a specific pattern region, and the jacquard driver drives a jacquard action to weave the specific mark of the current row of the blank on the blank in sequence according to the row number in the specific mark region of the blank comprises:

the jacquard driver drives the jacquard motion to sequentially knit the specific pattern of the current line of the blank on the blank by the number of lines in the specific pattern region of the blank.

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