CN115416407B - Synchronous work control method for offline marking - Google Patents

Abstract

The invention discloses a synchronous work control method for off-line marking, belongs to the technical field of off-line marking of cables, and solves the problems of low work efficiency, high production cost and easiness in quality problem caused by separate operation of off-line and marking in the prior art. The method comprises the following steps: acquiring an offline table, and judging whether offline and label printing are synchronized; if yes, carrying out cable winding-off and sleeve label printing with the same specification; if not, judging whether to independently drop the cable, if so, dropping the cable; if not, sleeve label printing is carried out. The synchronous work control method can be used for cable winding and sleeve label printing.

Description

Synchronous work control method for offline marking

The application is a divisional application taking an application number 202111228160.8 and an invention name of 'a synchronous working system for off-line marking and a control method' which are submitted on the application day 2021, 10 and 21 as a master case.

Technical Field

The invention belongs to the technical field of cable offline marking, and particularly relates to a synchronous work control method for offline marking.

Background

Before the cable is welded to the connector, the coil is cut according to the size of the coil-down table, then cutting parameters (such as the number of cuts and the size of each cable) are set on the coil-down machine, and coil-down work of the cable is performed according to the set cutting parameters.

In order to distinguish the cable of coming down of different specifications, label printer personnel prints the label of corresponding cable of coming down through the label printer according to the table of coming down. For the printing content, terminal operation software of the printer can be opened through a computer end, the printing content is manually input, and attributes such as printing fonts and the like are adjusted. And sleeving the sleeve for printing the label on the corresponding cable, thereby completing the off-line marking work.

When the wire feeding cable is in the off-line work, because the cutting specification types are more, the phenomena of error cutting, repeated cutting and missing cutting easily occur when the cutting parameters are set on the off-line machine manually. When marking is carried out, the problems of false printing, repeated printing and missing printing are easy to occur when the printing information is searched and input manually.

Disclosure of Invention

In view of the analysis, the invention aims to provide a synchronous work control method for offline marking, which solves the problems of low work efficiency, high production cost and easy occurrence of quality problems caused by offline and marking operations in the prior art.

The aim of the invention is mainly realized by the following technical scheme:

the invention also provides a synchronous work control method for off-line marking, which comprises the following steps:

acquiring an offline table, and judging whether offline and label printing are synchronized;

if yes, carrying out cable offline and sleeve label printing of the same specification according to the offline sequence of the offline table;

if not, judging whether to independently drop the cable, if so, dropping the cable according to the drop sequence of the drop table; if not, printing the sleeve label according to the offline sequence of the offline table;

the process for carrying out the coil-down of the cable and the label printing of the sleeve with the same specification further comprises the following steps:

acquiring current offline information and next group offline information in real time, and comparing the current offline information with the next group offline information;

when the current offline information and the next group of offline information are the same, no prompt information is sent;

and when the current offline information and the next group of offline information are different, sending prompt information.

Further, the synchronous work control method for offline marking further comprises the following steps:

when the offline information of the offline table is not completely printed, the offline machine and/or the label printer are/is closed, breakpoint information is generated and stored;

when the offline machine and/or the label printer are restarted, acquiring and restarting offline and label printing from the breakpoint information position in the offline table according to the breakpoint information, and clearing the breakpoint information in the breakpoint information storage module.

Further, before obtaining the offline table, the method further comprises the following steps:

judging whether the offline machine and the label printer are communicated normally or not;

if yes, acquiring a offline table;

if not, generating a connection abnormality signal, and adjusting the communication connection between the offline machine and the label printer according to the connection abnormality signal.

Compared with the prior art, the invention has at least one of the following beneficial effects:

a) In the synchronous working system for offline marking, which is provided by the invention, the offline table is input in the main controller, the main controller can simultaneously control the offline electric control module to perform cable offline and print the sleeve label printing according to the offline sequence of the offline table, namely, the offline machine and the label printer work simultaneously, so that the simultaneous offline and label printing of cables and sleeves with the same specification is realized, the offline table is not required to be manually checked one by one for offline and label printing is not required to be manually matched again, the labor cost and the offline printing efficiency can be effectively saved, and the matching error probability is reduced.

b) In the synchronous working system for offline marking, provided by the invention, the offline machine is provided with the offline communication module which is provided with the external control interface, so that the offline communication module can control the offline electric control module to realize the cutting function, and can be in communication connection with the control module in the main controller to receive the offline information with the same specification issued by the control module.

c) In the synchronous working system for offline marking, the label printer is provided with the printing communication module, and the printing communication module is provided with the secondary development industry standard control language, so that the label printer can be controlled independently through the control module.

d) In the synchronous working system for off-line marking, provided by the invention, the specification prompter displays the prompt information to prompt an operator to check the off-line table and timely replace the cable reel wires and the label paper with corresponding types, so that the consistency of the cable reel wires and the label paper adopted in the next group of off-line and label printing with the off-line information of the off-line table can be ensured, and the operator is prevented from using cables and label paper with the same specification to manufacture cables and labels with different specifications required in the off-line table.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The drawings are only for purposes of illustrating particular embodiments and are not to be construed as limiting the invention, like reference numerals being used to refer to like parts throughout the several views.

FIG. 1 is a schematic diagram of a synchronous working system for off-line marking;

fig. 2 is a flowchart of a synchronous work control method for offline marking.

Reference numerals:

1-a main controller; 2-a wire-off machine; 3-label printer.

Detailed Description

Preferred embodiments of the present invention are described in detail below with reference to the attached drawing figures, which form a part of the present invention and are used in conjunction with the embodiments of the present invention to illustrate the principles of the present invention.

Before the cable is welded to the connector, the coil is cut according to the size of the coil-down table, then cutting parameters (such as the number of cuts and the size of each cable) are set on the coil-down machine, and coil-down work of the cable is performed according to the set cutting parameters. The production site has the following problems:

a) Each time the cables with the same specification are cut, the cutting parameters are required to be manually input. Before inputting, the corresponding parameters are found in the process off-line list and then input into the off-line machine to start cutting. Because of the variety of the cutting specifications, the phenomena of error cutting, repeated cutting and missing cutting are easy to occur.

b) Every time a label sleeve is printed, print information needs to be found according to a cable corresponding to a line list and is input into label printing software, and the problems of error printing, repeated printing and missing printing are easy to occur.

c) Cutting and printing are separated, operators are increased, and production cost is high.

d) After the cable is taken off and the label is printed, the label sleeve of the corresponding cable needs to be found out from the cables with various specifications, and matching errors are easy to occur.

In order to solve the technical problems, the invention provides a synchronous working system for offline marking, which solves the problems of low working efficiency, high production cost and easy quality problems caused by offline and marking operations in the prior art.

In order to achieve synchronous operation of the offline marking, software may be used to control the offline machine 2 and the label printing apparatus. The offline machine 2 is a stand-alone device, and the label printer 3 has a dedicated control interface, but can only be operated using the printer software of the label printer 3 itself.

Based on the control, the synchronous control of the offline machine and the label printer is realized from the control of the offline machine and the driving of the label printer. The invention provides a synchronous working system for off-line marking, which is shown in fig. 1, and comprises a main controller 1, an off-line machine 2 and a label printer 3, wherein the off-line machine 2 comprises an off-line electronic control module and an off-line communication module (namely an industrial controller with an external control interface), the label printer 3 (for example, an industrial grade label printer 3) comprises a printing electronic control module and a printing communication module, the main controller 1 comprises a control module, an off-line table storage module and a synchronous working judging module which are respectively connected with the control module, the off-line electronic control module is connected with the control module through the off-line communication module, and the printing electronic control module is connected with the control module through the printing communication module.

When the method is implemented, the control module acquires the offline table in the offline table storage module, and the synchronous work judgment module judges whether the offline and label printing are synchronous. If yes, the control module simultaneously sends the off-line information of the same specification to the off-line communication module and the printing information to the printing communication module according to the off-line sequence of the off-line table, the off-line communication module obtains the off-line information and controls the off-line electronic control module to conduct cable off-line, and the printing communication module obtains the printing information and controls the printing electronic control module to conduct sleeve label printing. If not, judging whether the line is independently disconnected; if yes, the control module sends the offline information to the offline communication module according to the offline sequence of the offline table, and the offline communication module acquires the offline information and controls the offline electric control module to perform cable offline; if not, the control module sends the printing information to the printing communication module according to the offline sequence of the offline table, and the printing communication module obtains the printing information and controls the printing electronic control module to print the sleeve label.

In order to realize the functions of cutting cables and printing label sleeves according to a process offline table, the invention solves the following problems:

a) The downline machine 2 can be controlled. The existing offline machine 2 belongs to a single machine, and if the offline machine 2 is to be controlled, a control unit needs to be changed inside the offline machine 2 to realize the control and parameter transmission of the offline machine 2.

b) Device driving problems. Although the conventional label printer 3 has a dedicated control interface, the operation can only be performed by using the printing software of the label printer 3 itself, and if the control needs to be synchronized with the offline machine 2, a driver of the label printer 3 needs to be written.

c) And the synchronous control of two devices is realized. In order to control the synchronous control of the downline machine 2 and the label printer 3, control software needs to be written. The software can simultaneously send and receive the control command and parameter information of the coil inserting machine 2 and the label printer 3 according to the information and the control requirement of the coil inserting table, so as to achieve the synchronous control effect.

Compared with the prior art, the synchronous working system for off-line marking is characterized in that the off-line table is input in the main controller 1, the main controller 1 can simultaneously control the off-line electronic control module to perform off-line of a cable and print the sleeve label according to the off-line sequence of the off-line table, namely, the off-line machine 2 and the label printer 3 work simultaneously, so that the simultaneous off-line and label printing of cables and sleeves with the same specification is realized, the off-line and label printing are not required to be performed by manually comparing the off-line table one by one, and a plurality of off-line cables and a plurality of label sleeves are not required to be manually re-matched, so that the labor cost and the off-line printing efficiency can be effectively saved, and the matching error probability is reduced.

It should be noted that, through verification of actual production, the synchronous working system provided by the invention automatically controls simultaneous offline and label printing, the labor cost can be saved by more than 50%, the production efficiency can be improved by more than 20%, and the matching error probability can be basically close to 0.

Specifically, the synchronous working system for offline marking improves the existing offline machine 2 and label printer 3 as follows:

on the one hand, compared with the offline machine 2, the offline machine 2 of the invention is provided with the offline communication module which is provided with an external control interface, and not only can the offline electric control module be controlled by the offline communication module to realize the cutting function, but also the offline communication module can be in communication connection with the control module in the main controller 1 to receive the offline information with the same specification issued by the control module.

On the other hand, the label printer 3 of the present invention has a print communication module having a secondary development industry standard control language, so that the label printer 3 can be autonomously controlled by the control module, as compared with the conventional label printer.

For example, the label printer 3 may be an industrial grade label printer having a function of developing an industry standard control language for the second time, for example, a zebra printer, the control language is an industry standard programmable language ZPL issued by the company, and a corresponding driver is developed as a printing communication module through a control command of the model printer.

The off-line communication module can be an industrial programmable logic controller (Programmable Logic Controller, PLC).

It should be noted that the wire-down information in the wire-down table generally includes a wire diameter and a wire length, in order to obtain wires of different types, in the wire-down process, an operator is generally required to replace the wire type and the label paper of the wire-down disc in time according to the wire-down information, in order to avoid that the operator forgets to replace the wire type and the label paper of the wire-down disc in the operation process, the wire diameter and the length of the wire-down are inconsistent with the wire-down information, the main controller 1 further includes a wire-down information comparator connected with the control module and a specification prompter connected with the wire-down information comparator, the wire-down information comparator acquires the current wire-down information and the wire-down information sent by the control module in real time, compares the current wire-down information with the wire-down information, and does not send prompt information to the specification prompter when the current wire-down information is identical with the wire-down information, and the wire-down information is not sent to the specification prompter when the current wire-down information is different, the prompt information is sent to the specification prompter, and the prompt operator is prompted to look up the prompt to the wire-down information, and the operator is prompted to replace the wire-down information, and the wire-down information is not consistent with the specification of the wire-down information when the wire-down information is identical with the wire type and the wire-down information.

In view of the fact that it is impossible for the operator to perform work without interruption, there are cases where the off-line form is off-line and label printing is suspended during the printing, the above-described main controller 1 further includes a breakpoint information generation module and a breakpoint information storage module connected to the control module. When an operator needs to leave midway, the off-line machine 2 and the label printer 3 are closed, and the breakpoint information generation module generates breakpoint information (for example, current off-line information) and sends the breakpoint information to the breakpoint information storage module; after leaving midway and returning again, respectively starting the offline machine 2 and the label printer 3, and obtaining breakpoint information in the breakpoint information storage module by the control module and restarting offline and label printing work from the position of the breakpoint information in the offline table according to the breakpoint information.

Considering that the ac coil exists in the lower line machine 2 and the interference to the control signal is large, the control module is connected with the lower line communication module through the RS485 serial line, and similarly, the control module is connected with the printing communication module through the RS232 serial line.

The invention also provides a synchronous work control method for off-line marking, which is shown in fig. 2 and comprises the following steps:

acquiring an offline table, and judging whether offline and label printing are synchronized;

if yes, carrying out cable offline and sleeve label printing of the same specification according to the offline sequence of the offline table;

if not, judging whether to independently drop the cable, if so, dropping the cable according to the drop sequence of the drop table; if not, the sleeve label printing is carried out according to the offline sequence of the offline table.

Compared with the prior art, the beneficial effects of the synchronous work control method for the offline marking are basically the same as those of the synchronous work system for the offline marking, and are not repeated herein.

It is noted that the offline information in the offline table generally includes a cable diameter and a cable length, so that in order to obtain cables of different types, an operator is generally required to replace a cable reel type and a label paper in time according to the offline information in the offline process, so as to avoid that the operator forgets to replace the cable reel type and the label paper in the operation process, and the cable diameter and the cable length of the offline are inconsistent with the offline information, and the foregoing process of printing the labels of the cable offline and the sleeve with the same specification further includes the following steps:

acquiring current offline information and next group offline information in real time, and comparing the current offline information with the next group offline information;

when the current offline information and the next group of offline information are the same, no prompt information is sent;

and when the current offline information and the next group of offline information are different, sending prompt information.

Like this, operating personnel can look over the cable coil and label paper of corresponding model according to prompt message, in time change to cable coil and label paper that can guarantee next group's off-line and label print the adoption is unanimous with the information of off-line of cable coil and label paper of off-line list, avoids operating personnel to use cable and label paper of same specification to make the cable and the label of different specifications that require in the off-line list.

In view of the fact that the operator cannot work uninterruptedly, the condition that the offline table is offline and/or label printing is suspended during the process occurs, the offline marking synchronous work control method further comprises the following steps:

generating and storing breakpoint information (e.g., current offline information) when the offline information of the offline table is not completely printed, the offline machine and/or the label printer are turned off;

when the offline machine and/or the label printer are restarted, acquiring and restarting offline and/or label printing from the breakpoint information position in the offline table according to the breakpoint information, and clearing the breakpoint information in the breakpoint information storage module.

It can be understood that, in order to ensure that the offline machine and the label printer are in normal communication connection, the synchronous work control method for offline marking further comprises the following steps before acquiring the offline table:

judging whether the offline machine and the label printer are communicated normally or not;

if yes, acquiring a offline table;

if not, generating a connection abnormality signal, and adjusting the communication connection between the offline machine and the label printer according to the connection abnormality signal.

Example 1

The embodiment provides a synchronous work control method for offline marking, which comprises the following steps:

step 1: starting a main controller, a winding inserter and a label printer;

step 2: the control module sends a connection signal to the offline machine and the label printer and judges whether the offline machine and the label printer are in normal communication or not;

if yes, carrying out the step 3;

if not, generating a connection abnormality signal, adjusting communication connection between the offline machine and the label printer according to the connection abnormality signal, and then performing step 3;

step 3: acquiring an offline table, setting the number of sets and a working mode, and judging whether offline and label printing are synchronous or not;

if yes, carrying out step 4;

if not, judging whether to independently download, if so, then independently downloading, wherein the control module sends downloading information to the downloading communication module according to the downloading sequence of the downloading table, the downloading communication module obtains the downloading information and controls the downloading electric control module to download a cable, in the downloading process, the downloading information comparator obtains the current downloading information and the next group of downloading information sent by the control module in real time, compares the current downloading information with the next group of downloading information, does not send prompt information to the specification prompter when the current downloading information is the same as the next group of downloading information, and sends prompt information to the specification prompter when the current downloading information is different from the next group of downloading information, and the specification prompter displays prompt information to prompt operators to check the downloading table and timely replace corresponding cable reel lines; if not, the control module performs independent printing, sends printing information to the printing communication module according to the offline sequence of the offline table, the printing communication module acquires the printing information and controls the printing electronic control module to perform sleeve label printing, in the label printing process, the offline information comparator acquires current offline information and next group of offline information sent by the control module in real time, compares the current offline information with the next group of offline information, does not send prompt information to the specification prompter when the current offline information is the same as the next group of offline information, sends prompt information to the specification prompter when the current offline information is different from the next group of offline information, and displays the prompt information to prompt an operator to check the offline table and timely replace label paper of a corresponding model;

step 4: the control module simultaneously sends the off-line information with the same specification to the off-line communication module and the printing information to the printing communication module according to the off-line sequence of the off-line table, the off-line communication module obtains the off-line information and controls the off-line electronic control module to conduct cable off-line, and the printing communication module obtains the printing information and controls the printing electronic control module to conduct sleeve label printing;

in the process of printing the off-line and the label, the off-line information comparator acquires current off-line information and next group of off-line information sent by the control module in real time, compares the current off-line information with the next group of off-line information, does not send prompt information to the specification prompter when the current off-line information is the same as the next group of off-line information, and sends prompt information to the specification prompter when the current off-line information is different from the next group of off-line information, and the specification prompter displays prompt information to prompt an operator to check an off-line table and timely replace a cable coil and label paper of a corresponding model;

step 5: when the offline information of the offline table is not completely printed and the offline machine and the label printer are closed, the breakpoint information generating module generates breakpoint information and sends the breakpoint information to the breakpoint information storing module;

step 6: when the offline machine and the label printer are started again, respectively starting the offline machine and the label printer, acquiring breakpoint information in the breakpoint information storage module by the control module, restarting offline and label printing from a breakpoint information position in an offline table according to the breakpoint information, and clearing the breakpoint information in the breakpoint information storage module;

step 7: the off-line information of the off-line list is completely off-line and the label is printed.

The present invention is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present invention are intended to be included in the scope of the present invention.

Claims (4)

1. The synchronous work control method for the offline marking is characterized by comprising the following steps of:

acquiring an offline table, and judging whether offline and label printing are synchronized;

if yes, carrying out cable offline and sleeve label printing of the same specification according to the offline sequence of the offline table;

if not, judging whether to independently drop the cable, if so, dropping the cable according to the drop sequence of the drop table; if not, printing the sleeve label according to the offline sequence of the offline table;

in the process of carrying out the cable winding and sleeve label printing of the same specification, the method further comprises the following steps:

acquiring current offline information and next group offline information in real time, and comparing the current offline information with the next group offline information;

when the current offline information and the next group of offline information are the same, no prompt information is sent;

and when the current offline information and the next group of offline information are different, sending prompt information.

2. The synchronous operation control method of the off-line marking according to claim 1, further comprising the steps of:

when the offline information of the offline table is not completely printed, the offline machine and/or the label printer are/is closed, breakpoint information is generated and stored;

when the offline machine and/or the label printer are restarted, acquiring and restarting offline and/or label printing from the breakpoint information position of the offline table according to the breakpoint information.

3. The synchronous operation control method of the off-line marking according to claim 2, further comprising the steps of, after restarting the off-line and the label printing:

and clearing the breakpoint information in the breakpoint information storage module.

4. The synchronous operation control method for offline marking according to claim 1, further comprising the steps of:

judging whether the offline machine and the label printer are communicated normally or not;

if yes, acquiring a offline table;

if not, generating a connection abnormality signal, and adjusting the communication connection between the offline machine and the label printer according to the connection abnormality signal.