CN117381188A - Application method of laser cutting self-adaptive two-dimensional code - Google Patents

Abstract

The application relates to an application method of a laser cutting self-adaptive two-dimensional code, which belongs to the field of laser cutting control and comprises the steps of calling cutting task information; the cutting task information characterizes task profile information of the cutting task to be processed; obtaining material information and two-dimensional code information of a product to be cut according to the cutting task information; dividing according to the material information of the product to be cut to obtain product type information; dividing according to the two-dimension code information of the product to obtain two-dimension code type information; processing according to the product type information and the two-dimensional code type information to obtain product cutting ordering information; making a product cutting plan according to the product cutting ordering information, the product type information and the two-dimensional code type information; and obtaining product cutting mode information according to the product two-dimensional code information and the product cutting plan. The method and the device have the effect of improving the marking efficiency of the two-dimensional code for marking the electronic product.

Description

Application method of laser cutting self-adaptive two-dimensional code

Technical Field

The application relates to the field of laser cutting control, in particular to an application method of a laser cutting self-adaptive two-dimensional code.

Background

With the progress of technology, the demands for electronic products in the consumer market are gradually changed, and the application of metal materials to electronic products is increasingly wide; the two-dimensional codes are increasingly applied to electronic products, and most electronic products adopt a laser processing mode when the two-dimensional codes are marked; the common application is to mark a two-dimensional code on the surface of an electronic product for product tracing; the two-dimensional code is a coding mode, and is a graph which adopts a certain specific geometric graph to be distributed on a plane according to a certain rule, is black-white and records data symbol information; when the two-dimensional code is marked on the electronic product, the two-dimensional codes required by different electronic products are different, and when the two-dimensional code is marked in a laser cutting mode, the efficiency is lower and the time is longer.

Disclosure of Invention

The application method of the laser cutting self-adaptive two-dimensional code has the advantage that the marking efficiency of marking the two-dimensional code on an electronic product is improved.

The application aims at providing an application method of a laser cutting self-adaptive two-dimensional code.

The first object of the present application is achieved by the following technical solutions:

an application method of a laser cutting self-adaptive two-dimensional code comprises the following steps:

calling cutting task information; the cutting task information characterizes task profile information of the cutting task to be processed;

obtaining material information and two-dimensional code information of a product to be cut according to the cutting task information;

dividing according to the material information of the product to be cut to obtain product type information; dividing according to the two-dimension code information of the product to obtain two-dimension code type information;

processing according to the product type information and the two-dimensional code type information to obtain product cutting ordering information;

making a product cutting plan according to the product cutting ordering information, the product type information and the two-dimensional code type information;

and obtaining product cutting mode information according to the product two-dimensional code information and the product cutting plan.

In a preferred example, the obtaining the material information of the product to be cut and the two-dimensional code information of the product according to the cutting task information may further include:

obtaining cutting product information and cutting requirement information according to the cutting task information;

obtaining material information of a product to be cut according to the cutting product information;

and obtaining product two-dimensional code information according to the cutting requirement information.

In a preferred example, the method may further include dividing the product to be cut according to the material information of the product to be cut to obtain product type information; dividing the two-dimension code type information according to the two-dimension code information of the product comprises the following steps:

dividing the product material information to be cut to obtain product material type information;

obtaining product type information according to the product material type information;

determining two-dimensional code shape information, two-dimensional code size information and two-dimensional code pattern arrangement information according to the product two-dimensional code information;

and dividing the two-dimensional code shape information, the two-dimensional code size information and the two-dimensional code pattern arrangement information to obtain two-dimensional code type information.

In a preferred example, the method may further include the steps of dividing the two-dimensional code shape information, the two-dimensional code size information and the two-dimensional code graphic arrangement information into two-dimensional code type information, including:

obtaining first type information according to the two-dimensional code shape information;

obtaining second type information according to the two-dimension code size information;

obtaining third type information according to the two-dimensional code pattern arrangement information;

and obtaining two-dimension code type information according to the first type information, the second type information and the third type information.

In a preferred example, the processing according to the product type information and the two-dimensional code type information to obtain the product cutting ordering information may further include:

obtaining product type ordering information according to the product type information;

obtaining two-dimension code ordering information according to the two-dimension code type information;

and obtaining product cutting ordering information according to the product type ordering information and the two-dimensional code ordering information.

In a preferred example, the method may further include the step of making a product cutting plan according to the product cutting ranking information, the product type information and the two-dimensional code type information, including:

determining cutting speed information and speed adjustment information according to the product cutting ordering information and the product type information;

determining cutting parameter information and parameter adjustment information according to the product cutting ordering information and the two-dimensional code type information;

and making a product cutting plan according to the cutting speed information, the speed adjustment information, the cutting parameter information and the parameter adjustment information.

The present application may be further configured in a preferred example to: the step of calling the cutting task information comprises calling the cutting task information according to pre-stored task data.

The second purpose of the application is to provide an application system of the laser cutting self-adaptive two-dimensional code.

The second object of the present application is achieved by the following technical solutions:

an application system of a laser cutting self-adaptive two-dimensional code, comprising:

the calling module is used for calling the cutting task information; the cutting task information characterizes task profile information of the cutting task to be processed;

the acquisition module is used for acquiring material information of a product to be cut and two-dimensional code information of the product according to the cutting task information;

the dividing module is used for dividing the product to be cut according to the material information of the product to be cut to obtain product type information; dividing according to the two-dimension code information of the product to obtain two-dimension code type information;

the processing module is used for processing according to the product type information and the two-dimensional code type information to obtain product cutting ordering information;

the formulating module is used for formulating a product cutting plan according to the product cutting ordering information, the product type information and the two-dimensional code type information;

and the output module is used for obtaining the product cutting mode information according to the product two-dimensional code information and the product cutting plan.

The third object of the present application is to provide a terminal.

The third object of the present application is achieved by the following technical solutions:

the terminal comprises a memory and a processor, wherein the memory stores computer program instructions of the application method of the laser cutting adaptive two-dimensional code, which can be loaded and executed by the processor.

A fourth object of the present application is to provide a computer medium capable of storing a corresponding program.

The fourth object of the present application is achieved by the following technical solutions:

a computer-readable storage medium storing a computer program capable of being loaded by a processor and executing any one of the laser cutting adaptive two-dimensional code application methods described above.

In summary, the present application includes at least one of the following beneficial technical effects:

the material information and the two-dimensional code information of the product to be cut can be determined by calling the cutting task information; then respectively determining type information of the product and the two-dimensional code according to the material information and the two-dimensional code information of the product to be cut; then determining ordering information of product cutting according to the type information; making a product cutting plan according to the ordering information; finally, obtaining a product cutting mode according to the product two-dimensional code and the product cutting plan; by the method, the two-dimension code cutting method for the product is formulated, and the completion efficiency of two-dimension code cutting is guaranteed.

Drawings

Fig. 1 is a flow chart of an application method of a laser cutting adaptive two-dimensional code in an embodiment of the application.

Fig. 2 is a schematic structural diagram of an application system for laser cutting of a self-adaptive two-dimensional code in an embodiment of the application.

Reference numerals illustrate: 1. a calling module; 2. an acquisition module; 3. dividing the module; 4. a processing module; 5. making a module; 6. and an output module.

Detailed Description

The present embodiment is merely illustrative of the present application and is not intended to be limiting, and modifications may be made to the embodiment by those skilled in the art without creative contribution as needed after reading the present specification, but are protected by patent laws within the scope of the claims of the present application.

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

Embodiments of the present application are described in further detail below with reference to the drawings attached hereto.

The application provides an application method of a laser cutting self-adaptive two-dimensional code, and the main flow of the method is described as follows.

As shown in fig. 1:

step S101: calling cutting task information; the cutting task information characterizes task profile information of the cutting task to be processed.

In the embodiment of the application, when the electronic product is cut by the machine, the number and the model of the working machines are required to be arranged in advance; therefore, the cutting task information can be directly called through pre-storing task data; the task profile information here includes information about the product and two-dimensional code involved in the cutting task.

Step S102: and obtaining the material information of the product to be cut and the two-dimension code information of the product according to the cutting task information.

In the embodiment of the application, obtaining the material information of the product to be cut and the two-dimensional code information of the product according to the cutting task information specifically includes obtaining cutting product information and cutting requirement information according to the cutting task information; obtaining material information of a product to be cut according to the cutting product information; and obtaining product two-dimensional code information according to the cutting requirement information.

It can be appreciated that in the above process, the cutting product information and the cutting requirement information can be determined through the cutting task information; the cutting requirement information refers to rules and requirements to be observed for the electronic product to be characterized with the two-dimensional code on the surface of the electronic product; and then the material of the product can be determined according to the product, and the two-dimension code information of the product can be determined through cutting the requirement information.

Step S103: dividing according to the material information of the product to be cut to obtain product type information; and dividing according to the product two-dimension code information to obtain two-dimension code type information.

In the embodiment of the application, product type information is obtained according to the material information of the product to be cut; dividing the two-dimension code information according to the two-dimension code information of the product to be cut to obtain two-dimension code type information, wherein the two-dimension code type information specifically comprises the product material type information according to the material information of the product to be cut; obtaining product type information according to the product material type information; determining two-dimensional code shape information, two-dimensional code size information and two-dimensional code pattern arrangement information according to the product two-dimensional code information; and dividing the two-dimensional code shape information, the two-dimensional code size information and the two-dimensional code pattern arrangement information to obtain two-dimensional code type information.

Dividing the two-dimensional code shape information, the two-dimensional code size information and the two-dimensional code pattern arrangement information to obtain two-dimensional code type information, wherein obtaining first type information according to the two-dimensional code shape information; obtaining second type information according to the two-dimension code size information; obtaining third type information according to the two-dimensional code pattern arrangement information; and obtaining two-dimension code type information according to the first type information, the second type information and the third type information.

It can be understood that when the machine cuts the two-dimensional code of the product, a plurality of products need to be operated, and the two-dimensional codes on each product are different, so that in order to improve the laser cutting operation efficiency, the products and the two-dimensional codes of the same or similar type are firstly classified, and the products and the two-dimensional codes of the same or similar type are placed together, so that the laser cutting operation efficiency can be effectively improved.

Firstly, dividing according to the material of a product to be cut to obtain product material type information, and then dividing the product according to the material type of the product to obtain product type information; then determining the shape, the size and the graphic arrangement information of the two-dimension code according to the two-dimension code of the product; the shape of the two-dimensional code is the shape represented by the overall outline of the two-dimensional code, and most of the two-dimensional codes are square and have other shapes; the size of the two-dimensional code refers to the length and width information of the two-dimensional code; the pattern arrangement information of the two-dimensional code refers to the arrangement of lines in the two-dimensional code and the length and width information of each line; and finally, obtaining the two-dimension code type information according to the shape, the size and the graphic arrangement of the two-dimension code.

In the process, when the two-dimensional code type information is obtained by utilizing the shape, the size and the graphic arrangement of the two-dimensional code, first type information is obtained according to the shape information of the two-dimensional code; the first type information is two-dimensional code type information obtained by dividing only by the shape of the two-dimensional code; obtaining second type information according to the size information of the two-dimensional code; finally, obtaining third type information according to the graphic arrangement information of the two-dimensional code; the third type information refers to two-dimensional code type information obtained by dividing only the graphic arrangement information of the two-dimensional code.

After the first type information, the second type information and the third type information are obtained, further analysis is required to be performed on the three types of information, so that final two-dimensional code type information is determined.

Specifically, type quantity information of the first type information, the second type information and the third type information is respectively acquired; respectively determining the same type difference information corresponding to the first type information, the second type information and the third type information; and determining the two-dimensional code type information according to the type quantity information and the type difference information.

It can be understood that the type quantity information refers to quantity information of types of the two-dimensional code under the classification rule corresponding to the first type information, the second type information and the third type information; if the first type is obtained by dividing the two-dimensional code shape, wherein the two-dimensional code shape comprises three types of square, oval and rectangle, and the type quantity information corresponding to the first type information is three; the purpose of classifying the two-dimensional codes by the shape information, the size information and the graphic arrangement information of the two-dimensional codes is to enable the two-dimensional codes of the same or similar types to sequentially complete laser cutting operation, so that when the laser cutting operation is performed, the change of the setting of the cutting parameters is small when each product marks the two-dimensional code, and the operation efficiency can be effectively improved; however, if the number of types is large, the purpose of improving the efficiency is not achieved; therefore, after the type quantity information is determined, the type quantity information is compared with a preset type quantity threshold value, and classification rules corresponding to the type quantity information which is larger than the preset type quantity threshold value are screened out.

The same type of difference information refers to difference information between two-dimensional codes in the same type of interval; when classifying by the shape information and the size information, the difference information between the two-dimensional codes is smaller; however, when the two-dimensional codes are classified by the graphic arrangement information, the difference information between the two-dimensional codes is larger; in order to ensure that the difference information among the two-dimensional codes in the same type of interval does not greatly influence the setting of the cutting parameters; therefore, calculating a difference value corresponding to the same type of difference information; comparing the difference value with a preset difference value threshold value, and screening out a classification rule corresponding to the difference value larger than the preset difference value threshold value; it can be understood that in the actual comparison process, the shape information and the size information of the two-dimensional code can be considered by referring to each other, and the graph distribution information of the two-dimensional code can be considered independently.

Step S104: and processing according to the product type information and the two-dimensional code type information to obtain product cutting ordering information.

Specifically, product type ordering information is obtained according to the product type information; obtaining two-dimension code ordering information according to the two-dimension code type information; and obtaining product cutting ordering information according to the product type ordering information and the two-dimensional code ordering information.

In the embodiment of the application, the product type ordering information can be determined through the product type information; the product type information is product material type information; when sorting is performed by using the product type information, the sorting from easy to difficult or from difficult to easy can be performed according to the complexity and difficulty degree of material cutting; it should be noted that when sorting by using product materials, it is necessary to determine the complexity of adjustment of the cutting parameters when cutting different materials, when exchanging between the materials; for example, materials a through B require adjustment of three parameters, and materials B through C require adjustment of only one parameter, then the order may be from materials a through B through C.

Determining two-dimension code ordering information by utilizing the two-dimension code type information; and when the two-dimensional code type information is used for sorting, the sorting of the two-dimensional codes is fixed in the steps, so that sorting can be performed according to the adjustment complexity degree of the cutting parameters when different two-dimensional codes are exchanged.

It can be understood that the product and the two-dimensional code in the embodiment of the application are mutually bound; therefore, when the products and the two-dimensional codes are respectively ordered, the final results may not be the same; therefore, the alternative calculation of the score quasi-value can be carried out on the two kinds of sorting results, and more proper sorting results can be selected through the score.

Specifically, calculating according to the product type sorting information to obtain a product type sorting score; calculating to obtain a two-dimension code ordering score according to the two-dimension code ordering information; analyzing and determining a comprehensive sorting adjustment score of the product according to the sorting score of the product type and the sorting score of the two-dimensional code; and obtaining the product cutting ordering information according to the product comprehensive ordering adjustment score.

Step S105: and making a product cutting plan according to the product cutting ordering information, the product type information and the two-dimensional code type information.

Specifically, cutting speed information and speed adjustment information are determined according to the product cutting ordering information and the product type information; determining cutting parameter information and parameter adjustment information according to the product cutting ordering information and the two-dimensional code type information; and making a product cutting plan according to the cutting speed information, the speed adjustment information, the cutting parameter information and the parameter adjustment information.

In step S104, product cutting ordering information can be obtained, and parameter information to be adjusted when laser cutting is performed between each adjacent different type of products according to the predetermined ordering result can be determined by the product cutting ordering information and the product type information; namely, cutting speed information and speed adjustment information; the speed adjustment information refers to adjustment information required for cutting speed from a current type of product to a next type of product; the cutting parameter information and the parameter adjustment information can be determined through the product cutting ordering information and the two-dimensional code type information; when the two-dimensional codes of the product are marked by laser cutting, parameters required to be set by different two-dimensional codes are different, and when the current two-dimensional code is switched to the next two-dimensional code, the adjustment information of the parameters depends on adjacent two-dimensional codes of different types in a given sequence; after the product cutting ordering information is determined, corresponding adjusting information can be input into the machine, and the machine can carry out self-adaptive adjustment on products and two-dimensional codes by utilizing preset adjusting information, so that unified automatic self-adaptive operation on products and two-dimensional codes of different types in batches is realized.

The product cutting plan is formulated through the cutting speed information, the speed adjustment information, the cutting parameter information and the parameter adjustment information, and can be stored locally or in the cloud, and can be downloaded from the cloud when the machine is used for laser cutting.

Step S106: and obtaining product cutting mode information according to the product two-dimensional code information and the product cutting plan.

It can be understood that the product cutting mode information is the marking mode information of the two-dimensional code on the product by the pointer; after the product cutting plan is obtained, the laser cutting parameter adjustment information needed to be carried out when the products of different types and the two-dimensional codes are switched under the given sequencing result can be known; then the cutting mode information executed for different two-dimensional codes can be naturally determined through the laser cutting parameter adjustment information.

By adopting the technical scheme, the self-adaptive adjustment of the laser cutting two-dimensional code is realized, the working efficiency of laser cutting is improved, the working time of laser cutting is shortened, and the working quality of laser cutting is ensured; the machine can perform unified marking operation on a large number of different types of products and two-dimension codes, and unified automatic self-adaptive operation on the products and the two-dimension codes can be realized.

Through the mode, the application of the self-adaptive two-dimensional code for laser cutting is realized, and the uniform operation of the machine on the self-adaptive two-dimensional code can be facilitated by properly sequencing the two-dimensional codes of different types and processing the adjustment information among the two-dimensional codes of different types, so that the operation efficiency of laser cutting is improved.

The application system for the laser cutting self-adaptive two-dimensional code further provides an application system for the laser cutting self-adaptive two-dimensional code, as shown in fig. 2, and the application system for the laser cutting self-adaptive two-dimensional code comprises a calling module 1 for calling cutting task information; the cutting task information characterizes task profile information of the cutting task to be processed; the acquisition module 2 is used for acquiring material information of a product to be cut and two-dimensional code information of the product according to the cutting task information; the dividing module 3 is used for dividing the product to be cut according to the material information of the product to be cut to obtain product type information; dividing according to the two-dimension code information of the product to obtain two-dimension code type information; the processing module 4 is used for processing according to the product type information and the two-dimensional code type information to obtain product cutting ordering information; the formulating module 5 is used for formulating a product cutting plan according to the product cutting ordering information, the product type information and the two-dimensional code type information; and the output module 6 is used for obtaining the product cutting mode information according to the product two-dimensional code information and the product cutting plan.

In order to better execute the program of the method, the application also provides a terminal, which comprises a memory and a processor.

Wherein the memory may be used to store instructions, programs, code, sets of codes, or sets of instructions. The memory may include a storage program area and a storage data area, wherein the storage program area may store instructions for implementing an operating system, instructions for at least one function, instructions for implementing an application method of the laser cutting adaptive two-dimensional code, and the like; the data storage area can store data and the like related to the application method of the laser cutting adaptive two-dimensional code.

The processor may include one or more processing cores. The processor performs the various functions of the present application and processes the data by executing or executing instructions, programs, code sets, or instruction sets stored in memory, calling data stored in memory. The processor may be at least one of an application specific integrated circuit, a digital signal processor, a digital signal processing device, a programmable logic device, a field programmable gate array, a central processing unit, a controller, a microcontroller, and a microprocessor. It will be appreciated that the electronic device for implementing the above-mentioned processor function may be other for different apparatuses, and embodiments of the present application are not specifically limited.

The present application also provides a computer-readable storage medium, for example, comprising: a U-disk, a removable hard disk, a Read Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes. The computer readable storage medium stores a computer program that can be loaded by a processor and that executes the application method of the laser cutting adaptive two-dimensional code described above.

The above description is only illustrative of the presently preferred embodiments and the principles of the technology being employed. It will be appreciated by persons skilled in the art that the scope of the disclosure referred to in this application is not limited to the specific combinations of features described above, but it is intended to cover other embodiments in which any combination of features described above or equivalents thereof is possible without departing from the spirit of the disclosure. Such as the above-described features and technical features having similar functions (but not limited to) disclosed in the present application are replaced with each other.

Claims (10)

1. The application method of the laser cutting self-adaptive two-dimensional code is characterized by comprising the following steps of:

calling cutting task information; the cutting task information characterizes task profile information of the cutting task to be processed;

obtaining material information and two-dimensional code information of a product to be cut according to the cutting task information;

dividing according to the material information of the product to be cut to obtain product type information; dividing according to the two-dimension code information of the product to obtain two-dimension code type information;

processing according to the product type information and the two-dimensional code type information to obtain product cutting ordering information;

making a product cutting plan according to the product cutting ordering information, the product type information and the two-dimensional code type information;

and obtaining product cutting mode information according to the product two-dimensional code information and the product cutting plan.

2. The method for applying the laser cutting adaptive two-dimensional code according to claim 1, wherein the obtaining the material information of the product to be cut and the two-dimensional code information of the product according to the cutting task information comprises:

obtaining cutting product information and cutting requirement information according to the cutting task information;

obtaining material information of a product to be cut according to the cutting product information;

and obtaining product two-dimensional code information according to the cutting requirement information.

3. The application method of the laser cutting adaptive two-dimensional code according to claim 1, wherein the product type information is obtained according to the material information of the product to be cut; dividing the two-dimension code type information according to the two-dimension code information of the product comprises the following steps:

dividing the product material information to be cut to obtain product material type information;

obtaining product type information according to the product material type information;

determining two-dimensional code shape information, two-dimensional code size information and two-dimensional code pattern arrangement information according to the product two-dimensional code information;

and dividing the two-dimensional code shape information, the two-dimensional code size information and the two-dimensional code pattern arrangement information to obtain two-dimensional code type information.

4. The method for applying the laser cutting adaptive two-dimensional code according to claim 3, wherein the dividing the two-dimensional code shape information, the two-dimensional code size information and the two-dimensional code pattern arrangement information to obtain the two-dimensional code type information comprises the following steps:

obtaining first type information according to the two-dimensional code shape information;

obtaining second type information according to the two-dimension code size information;

obtaining third type information according to the two-dimensional code pattern arrangement information;

and obtaining two-dimension code type information according to the first type information, the second type information and the third type information.

5. The method for applying the laser cutting adaptive two-dimensional code according to claim 1, wherein the processing according to the product type information and the two-dimensional code type information to obtain the product cutting ordering information comprises the following steps:

obtaining product type ordering information according to the product type information;

obtaining two-dimension code ordering information according to the two-dimension code type information;

and obtaining product cutting ordering information according to the product type ordering information and the two-dimensional code ordering information.

6. The method for applying the laser cutting adaptive two-dimensional code according to claim 1, wherein the step of preparing a product cutting plan according to the product cutting ordering information, the product type information and the two-dimensional code type information comprises the steps of:

determining cutting speed information and speed adjustment information according to the product cutting ordering information and the product type information;

determining cutting parameter information and parameter adjustment information according to the product cutting ordering information and the two-dimensional code type information;

and making a product cutting plan according to the cutting speed information, the speed adjustment information, the cutting parameter information and the parameter adjustment information.

7. The method for applying the laser cutting adaptive two-dimensional code according to claim 1, wherein the step of retrieving the cutting task information includes retrieving the cutting task information according to pre-stored task data.

8. An application system of a laser cutting self-adaptive two-dimensional code is characterized by comprising:

the calling module (1) is used for calling the cutting task information; the cutting task information characterizes task profile information of the cutting task to be processed;

the acquisition module (2) is used for acquiring material information of a product to be cut and product two-dimensional code information according to the cutting task information;

the dividing module (3) is used for dividing the product to be cut according to the material information of the product to be cut to obtain product type information; dividing according to the two-dimension code information of the product to obtain two-dimension code type information;

the processing module (4) is used for processing according to the product type information and the two-dimensional code type information to obtain product cutting ordering information;

the formulating module (5) is used for formulating a product cutting plan according to the product cutting ordering information, the product type information and the two-dimensional code type information;

and the output module (6) is used for obtaining the product cutting mode information according to the product two-dimensional code information and the product cutting plan.

9. A terminal comprising a memory and a processor, the memory having stored thereon computer program instructions capable of being loaded by the processor and performing the method according to any of claims 1-7.

10. A computer readable storage medium, characterized in that a computer program is stored which can be loaded by a processor and which performs the method according to any of claims 1-7.