CN115576507A

CN115576507A - Distributed printing method and system

Info

Publication number: CN115576507A
Application number: CN202211273445.8A
Authority: CN
Inventors: 陶瑾; 陈思思
Original assignee: Hunan Zhongguang Huizhi Information Technology Co ltd
Current assignee: Hunan Zhongguang Huizhi Information Technology Co ltd
Priority date: 2022-10-18
Filing date: 2022-10-18
Publication date: 2023-01-06

Abstract

The invention relates to a distributed printing method and a distributed printing system. The distributed printing method comprises the steps of collecting basic information and additional information of a printer, binding the basic information and the additional information, and generating a distributed printing scheme according to the basic information and the additional information to print a label; the distributed printing system comprises a registration server, a CMS WEB configuration management center and a printer, wherein the registration server can collect basic information of the printer, and the CMS WEB configuration management center can call the basic information of the printer to bind the basic information with input additional information and generate a distributed printing scheme according to the two parts of information. The invention can control a plurality of printers through one computer, reduces the equipment and labor cost, can select the optimal label printing scheme by macroscopically regulating and distributing the resources of the printers, improves the utilization rate of the printers and reduces the label printing time.

Description

Distributed printing method and system

Technical Field

The invention relates to the technical field of label printing, in particular to a distributed printing method and a distributed printing system.

Background

At present, many industrial production enterprises need to print labels on products during production of the products so as to manage the products and trace the products in the future.

The label printer on the existing market is usually directly connected through serial ports/USB, so a computer can only control a printer to print, when printing the printing equipment that the demand is higher and needs many printing apparatus or printing equipment of many different grade types is needed in printing the different needs of label type, just need be equipped with many computers and control, lead to equipment cost to increase, and every computer also needs the operating personnel that corresponds to control moreover, consequently also can lead to the cost of labor to increase.

In addition, the label printing by adopting the method can not carry out overall resource macroscopic regulation and control on a plurality of printers, so that an optimal label printing scheme can not be selected.

Disclosure of Invention

The technical problem to be solved by the invention is to overcome the defects of the prior art and provide a distributed printing method and a distributed printing system.

In order to solve the technical problems, the technical scheme provided by the invention is as follows: a distributed printing method comprising the steps of: registering information, namely registering basic information of more than two printers; calling and configuring information, namely calling basic information of the printer, and configuring and binding additional information of the printer required by the generation of the distributed printing scheme and the basic information of the printer; generating a distributed printing scheme, namely generating the distributed printing scheme according to the basic information and the additional information of the printer; and (4) label printing, namely performing label printing according to the generated distributed printing scheme.

Preferably, in the distributed printing method, after the information registration is completed, real-time heartbeat detection is performed on the printer to confirm the running state of the printer.

In the above distributed printing method, preferably, the basic information of each printer includes a PPM value corresponding to the printer; and when the printer is taken as a target printer, the additional information of each printer respectively comprises the minimum moving time of the operator corresponding to all the schemes which can be used by the printer in a combined way, moving the operator through all the used printers in each corresponding scheme and finally locating the operator at the target printer.

In the above distributed printing method, preferably, the step of generating the distributed printing scheme according to the basic information and the additional information of the printer includes: splitting a printing file, namely splitting a printing total task into a corresponding number of subtasks according to the number of used printers, wherein the proportion of the subtasks to the total task is distributed according to the weight of the printers, and the weight of the printers is determined by the proportion of PPM values of all the printers to the total PPM values of all the used printers; splitting schemes, namely splitting all schemes which can be combined and used by the printers corresponding to the target printers according to the split of the printing files to split the total printing tasks to form corresponding splitting schemes;

and selecting the optimal scheme, comparing the total time corresponding to each splitting scheme, and selecting the splitting scheme with the minimum total time as the distributed printing scheme used in printing.

In the distributed printing method, preferably, the total time corresponding to the splitting scheme is the sum of the minimum moving time and the printing time corresponding to the splitting scheme.

In the distributed printing method, before the selecting of the optimal solution, the method further preferably includes redistributing the subtasks corresponding to the time required by the printing machine to finish the printing task according to the weight of the printing machine.

A distributed printing system comprises a registration server, a CMS WEB configuration management center and more than two printers; the CMS WEB configuration management center is in communication connection with the registration server to call the basic information of the printer, and can configure and bind the input additional information of the printer and the basic information thereof; the CMS WEB configuration management center can also generate a distributed printing scheme according to the additional information and the basic information so as to realize label printing according to the distributed printing scheme.

Preferably, in the distributed printing system, the registration server may transmit a heartbeat detection signal to the printer and receive a heartbeat result fed back by the printer to confirm an operation state of the printer.

Preferably, in the distributed printing system, the CMS WEB configuration management center includes a data transmission module, a data management module, and a data analysis module, which are connected to each other in pairs; the data transmission module is used for receiving or transmitting information, the data management module is used for inputting additional information and carrying out configuration binding on the input additional information of the printer and basic information thereof, and the data analysis module is used for carrying out distributed printing scheme generation according to the additional information and the basic information.

Compared with the prior art, the invention has the advantages that: the invention can collect the information of all printers on one computer, and control all printers to print labels through the computer, thus reducing the equipment and labor cost; meanwhile, the invention can regulate and control and allocate the resources of all printers macroscopically, thereby selecting the optimal label printing scheme, improving the utilization rate of the printers and reducing the label printing time.

Drawings

Fig. 1 is a flowchart illustrating a distributed printing method according to embodiment 1.

Fig. 2 is a schematic flowchart of the generation of the distributed printing scheme in embodiment 1.

Fig. 3 is a schematic diagram of the relative positions of the product transportation line, the printer and the computer in embodiment 1.

Fig. 4 is a schematic diagram of interaction between a printer and a registration server in embodiment 1.

Fig. 5 is a schematic diagram of interaction between the registration server and the CMS WEB configuration management center in embodiment 1.

Fig. 6 is a schematic connection diagram of modules of the CMS WEB configuration management center in embodiment 1.

Description of the figures

100. A computer; 110. registering a server; 120. CMS WEB configuration management center; 121. a data transmission module; 122. a data management module; 123. a data analysis module; 200. a product transport line; 300. a printer.

Detailed Description

In order to facilitate an understanding of the invention, the invention will be described more fully and in detail below with reference to the accompanying drawings and preferred embodiments, but the scope of the invention is not limited to the specific embodiments below.

It should be particularly noted that when an element is referred to as being "fixed to, connected to or communicated with" another element, it can be directly fixed to, connected to or communicated with the other element or indirectly fixed to, connected to or communicated with the other element through other intermediate connecting components. Hereinafter, the terms "lateral", "longitudinal", "front", "rear", "left", "right", "upper", "lower", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description of the present invention, but do not indicate or imply that the elements referred to must have specific orientations, and therefore, should not be construed as limiting the scope of the present invention.

Unless otherwise defined, all terms of art used hereinafter have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the scope of the present invention.

Example 1

The distributed printing method and system in the embodiment can be mainly used for printing the distributed labels, so that the time for printing the labels is saved. In this embodiment, the registration server 110 and the CMS WEB configuration management center 120 are actually integrally installed on one computer 100, so that all printers can be controlled by the computer 100 to perform label printing in this embodiment, and the number of users and operators of the computer 100 is reduced, thereby reducing the equipment and labor costs.

As shown in fig. 1, the distributed printing method in the present embodiment includes the steps of: registering information, namely registering basic information of more than two printers; calling and configuring information, namely calling basic information of the printer, and configuring and binding additional information of the printer required by the generation of the distributed printing scheme and the basic information of the printer; generating a distributed printing scheme, namely generating the distributed printing scheme according to the basic information and the additional information of the printer; and (4) label printing, namely performing label printing according to the generated distributed printing scheme.

In this embodiment, the basic information and the additional information of all the printers are integrated together for management, and a distributed printing scheme can be generated according to the basic information and the additional information of the printers, so that the labels are printed according to the distributed printing scheme, and therefore, the resources of all the printers can be macroscopically regulated, controlled and distributed, so that an optimal label printing scheme is selected, the utilization rate of the printers is improved, and the label printing time is shortened.

In the distributed printing method in this embodiment, after the information registration is completed, real-time heartbeat detection is performed on the printer to confirm the running state of the printer, and if it is detected that the printer is in an offline state, the printer is not selected as a used printer when a subsequent distributed printing scheme is generated.

In the distributed printing method in this embodiment, the basic information of each printer includes a PPM value corresponding to the printer; when the printer is used as a target printer, the additional information of each printer respectively comprises the minimum moving time of the operator corresponding to all the schemes which can be used by the printer in a combined way, moving through all the used printers in each corresponding scheme and finally locating at the target printer. Certainly, the basic information of the printer in this embodiment may further include information such as a MAC address and a model name, and the additional information of the printer may further include information such as a work location (e.g., a factory building, a workshop, a production line, an office, etc.) and a work purpose; thus, printers that do not match the label type and printers that do not match the job location (e.g., products to be labeled are on a production line and are not typically printed using office printers) may be removed first when the distributed printing scheme is generated.

Specifically, as shown in fig. 3, the product transportation lines 200 in this embodiment are arranged in parallel with a-H, 8 printers a-H are provided in total, the printer 300 provided in each product transportation line 200 is arranged at the same end of the product transportation line 200, a-H, 8 printers a-H are arranged in parallel, and the computer 100 is placed at the position of the symmetry line of the 8 printers 300. It can be understood that, when performing label printing, an operator is required to set information such as the number and type of label printing on the computer 100, and therefore, the position of the computer 100 can be considered as the initial position of the operator, and thus, the positions of the operator and the printer 300 are determined, so that in the scheme in which each printer 300 can be used in combination, at least one shortest moving route scheme in which the operator moves through all the used printers 300 and finally locates at the target printer 300 corresponds to, and the minimum moving time corresponding to the combined use scheme of the printers 300 can be obtained by dividing the moving distance corresponding to the scheme by the moving speed of the operator.

Taking this embodiment as an example, there are 8 printers a-h in this embodiment, so the number of the printers 300 used in combination is 8, 28, 56, 70, 56, 28, 8 and 1 when the number of the printers 300 is 1, 2, 3, 4, 5, 6, 7 and 8, namely, the number of the printers 300 used in combination is 255, so the 8 printers 300 each serve as a target printer, each printer has 255 minimum moving times corresponding to all the schemes, and these minimum moving times can be obtained by calculation in advance.

As shown in fig. 2, in the present embodiment, the step of generating the distributed printing scheme according to the basic information and the additional information of the printer 300 includes: splitting a printing file, namely splitting a total printing task into a corresponding number of subtasks according to the number of used printers 300, wherein the proportion of the subtasks to the total task is distributed according to the weight of the printers, and the weight of the printers is determined by the proportion of PPM values of all the printers 300 to the total PPM values of all the used printers 300; splitting schemes are formed, all schemes which can be combined and used by the printer 300 corresponding to the target printer are split according to the printed file, and the total printing task is split to form the corresponding splitting schemes; and selecting an optimal scheme, comparing the total time corresponding to each splitting scheme, and selecting the splitting scheme with the minimum total time as a distributed printing scheme used in printing, wherein the total time corresponding to the splitting scheme is the sum of the minimum moving time corresponding to the splitting scheme and the printing time.

Specifically, in this embodiment, assume that the PPM values of the printers a-h are 50, 55, 60, 65, the printer weights for printers a-h are 1/9, 11/90, 2/15, 13/90, respectively, and when the total job is printed at 450 copies, the number of printing copies of the total printing task is multiplied by the weight of the printer, so that the number of printing copies of the corresponding subtasks of the printers a-h is 50, 55, 60 and 65, obviously, the time for completing the printing task of each printer 300 is 1 minute, and therefore, the total printing task is divided into the printing files through the distribution, so that the printing file dividing scheme with the minimum printing time can be obtained.

It should be noted that, in this embodiment, the label needs to be attached to the product after being printed out, and therefore, after the label is printed out, an operator needs to collect all the labels to the product to be labeled, and therefore, the total time for comparison in selecting the optimal solution in this embodiment is the sum of the minimum moving time and the printing time. It will be appreciated that as the number of printers 300 used increases, although the printing time decreases, the time taken for the operator to move the collected labels may increase, for example if the total print job is still split among a plurality of printers 300, as the number of labels to be printed is smaller, the operator may spend more movement time than would be saved by splitting the print, and thus the time taken as a whole increases. Therefore, in the present embodiment, by comprehensively considering the number of the printers 300 used, the selection of the printers 300, and the influence of the moving distance on the total time, an optimal splitting scheme can be found out from all schemes that the printers 300 can be used in combination as the distributed printing scheme used in printing.

Further, before the optimal solution is selected in this embodiment, the method further includes, according to the printer weight, redistributing the subtasks corresponding to the time required for the printer 300 that is printing to end the print job, for example: after the preliminary assignment, the time required for each printer 300 to print a subtask is 2 minutes, taking printer a as an example, the number of labels corresponding to the print subtask of printer a is 100, if printer a is printing, and printer a needs 1 minute to finish the last print job, 50 label print jobs (i.e. the subtasks of the overflow part in fig. 2) corresponding to the 1 minute are assigned to all the used printers 300 again according to the printer weight, so as to keep the time for finishing the jobs of each printer 300 consistent, and realize the fastest printing of the labels.

As shown in fig. 4 and 5, the distributed printing system in the present embodiment includes a registration server 110, a CMS WEB configuration management center 120, and two or more printers 300; the registration server 110 is in communication connection with the printer 300 so as to input basic information of the printer 300 from the printer 300 to the registration server 110 for registration, when the printer 300 is successfully registered, the registration server 110 feeds back an OK prompt, and when the printer 300 is failed to register, an error Code is also fed back; the CMS WEB configuration managing center 120 is communicatively connected to the registration server 110 to call the basic information of the printer 300, and the CMS WEB configuration managing center 120 may configure and bind the input additional information of the printer 300 with the basic information thereof; the CMS WEB configuration management center 120 may also perform distributed printing scheme generation based on the additional information and the base information to enable label printing based on the distributed printing scheme.

Specifically, as shown in fig. 6, in this embodiment, the CMS WEB configuration management center 120 includes a data transmission module 121, a data management module 122, and a data analysis module 123, which are connected to each other two by two; the data transmission module 121 is configured to receive or transmit information, so as to call the basic information in the registration server 110 to the CMS WEB configuration management center 120 or output the generated distributed printing scheme to the registration server 110, and control the printer 300 to perform label printing according to the distributed printing scheme through the registration server 110; the operator can input the obtained additional information into the data management module 122, and then configure and bind the input additional information of the printer 300 with the basic information thereof; the data analysis module 123 can compare the total time corresponding to the schemes with all available printing schemes according to the additional information and the basic information, so as to obtain an optimal printing scheme as a distributed printing scheme.

As shown in fig. 4, in this embodiment, the registration server 110 may transmit a heartbeat detection signal to the printer 300 and receive a heartbeat result fed back by the printer 300 to confirm the operating status of the printer 300, and if the printer 300 fails to feed back information to the registration server 110 in a certain heartbeat detection, the printer 300 is considered to be in an offline status, and the printer 300 is not used as the printer 300 when the distributed printing scheme is generated; on the other hand, if the printer 300 can feed back information in time during each heartbeat detection, the printer 300 is determined to be in an online state, and the printer 300 can be used as the used printer 300 when the distributed printing scheme is generated.

Claims

1. A distributed printing method, characterized by: the method comprises the following steps:

registering information, namely registering basic information of more than two printers;

calling and configuring information, namely calling basic information of the printer, and configuring and binding additional information of the printer required by the generation of the distributed printing scheme and the basic information of the printer;

generating a distributed printing scheme, namely generating the distributed printing scheme according to the basic information and the additional information of the printer;

and (4) printing labels, namely printing the labels according to the generated distributed printing scheme.

2. The distributed printing method of claim 1, wherein: and after the information registration is completed, carrying out real-time heartbeat detection on the printer so as to confirm the running state of the printer.

3. The distributed printing method according to claim 1 or 2, wherein: the basic information of each printer respectively comprises a PPM value corresponding to the printer; and when the printer is taken as a target printer, the additional information of each printer respectively comprises the minimum moving time of the operator corresponding to all the schemes which can be used by the printer in a combined way, moving the operator through all the used printers in each corresponding scheme and finally locating the operator at the target printer.

4. The distributed printing method of claim 3, wherein: the specific steps of generating the distributed printing scheme according to the basic information and the additional information of the printer comprise:

splitting a printing file, namely splitting a printing total task into a corresponding number of subtasks according to the number of used printers, wherein the proportion of the subtasks to the total task is distributed according to the weight of the printers, and the weight of the printers is determined by the proportion of PPM values of all the printers to the total PPM values of all the used printers;

splitting schemes, namely splitting all schemes which can be combined and used by the printers corresponding to the target printers according to the split of the printing files to split the total printing tasks to form corresponding splitting schemes;

5. The distributed printing method of claim 4, wherein: and the total time corresponding to the splitting scheme is the sum of the minimum moving time and the printing time corresponding to the splitting scheme.

6. The distributed printing method according to claim 4 or 5, wherein: before the optimal scheme is selected, the method also comprises the step of redistributing the subtasks corresponding to the time required by the printer which is printing to finish the printing task according to the weight of the printer.

7. A distributed printing system capable of implementing the distributed printing method according to any one of claims 1 to 6, characterized in that: the system comprises a registration server, a CMS WEB configuration management center and more than two printers;

the CMS WEB configuration management center is in communication connection with the registration server to call the basic information of the printer, and can configure and bind the input additional information of the printer and the basic information thereof;

the CMS WEB configuration management center can also generate a distributed printing scheme according to the additional information and the basic information so as to realize label printing according to the distributed printing scheme.

8. The distributed printing system of claim 7, wherein: the registration server can transmit a heartbeat detection signal to the printer and receive a heartbeat result fed back by the printer to confirm the running state of the printer.

9. The distributed printing system according to claim 7 or 8, wherein: the CMS WEB configuration management center comprises a data transmission module, a data management module and a data analysis module which are connected with each other pairwise; the data transmission module is used for receiving or transmitting information, the data management module is used for inputting additional information and carrying out configuration binding on the input additional information of the printer and basic information thereof, and the data analysis module is used for carrying out distributed printing scheme generation according to the additional information and the basic information.