阅读说明：本技术 一种三维设计零部件热表处理检查方法及系统 (Thermal sheet processing and checking method and system for three-dimensional design parts ) 是由 樊海东 刘冰冰 李丽莎 张学林 郭楠 于 2021-08-05 设计创作，主要内容包括：本申请属于零部件三维设计领域,特别涉及一种三维设计零部件热表处理检查方法及系统。方法包括：创建标准材料库、热处理库以及表面处理库；在三维设计平台中建立零部件,获取零部件的标注信息,并将标注信息导入零部件标注信息库文件中；判断零部件的标注信息是否与标准材料库、热处理库以及表面处理库中的信息相匹配,并根据判断结果生成检查报告；对错误信息列表中的标注信息进行修改,返回步骤三,直至零部件的所有标注信息与热处理库以及表面处理库中的信息相匹配；根据正确信息列表将正确的材料信息、热处理信息以及表面处理信息更新到所述零部件标注信息库文件中,并根据更新后的所述零部件标注信息库文件更新所述零部件的标注信息。(The application belongs to the field of three-dimensional design of parts, and particularly relates to a method and a system for checking heat surface treatment of three-dimensional design parts. The method comprises the following steps: creating a standard material library, a heat treatment library and a surface treatment library; establishing a part in a three-dimensional design platform, acquiring marking information of the part, and importing the marking information into a part marking information base file; judging whether the labeled information of the parts is matched with the information in the standard material library, the heat treatment library and the surface treatment library or not, and generating an inspection report according to the judgment result; modifying the labeled information in the error information list, and returning to the step three until all the labeled information of the parts are matched with the information in the heat treatment library and the surface treatment library; and updating correct material information, heat treatment information and surface treatment information into the part labeling information base file according to a correct information list, and updating the labeling information of the part according to the updated part labeling information base file.)

1. A thermal sheet processing and checking method for three-dimensional design parts is characterized by comprising the following steps:

step one, establishing a standard material library, a heat treatment library and a surface treatment library;

step two, establishing a part in a three-dimensional design platform, acquiring the marking information of the part, and importing the marking information into a part marking information base file;

judging whether the labeling information of the parts is matched with the information in the standard material library, the heat treatment library and the surface treatment library or not, and generating an inspection report according to a judgment result, wherein the inspection report comprises the labeling information, a correct information list and an error information list of the parts;

step four, modifying the marking information in the error information list, and returning to the step three until all the marking information of the parts is matched with the information in the heat treatment library and the surface treatment library;

and step five, updating correct material information, heat treatment information and surface treatment information into the part labeling information base file according to a correct information list, and updating the labeling information of the part according to the updated part labeling information base file.

2. The method for checking the thermal watch processing of the three-dimensional design component part according to claim 1, wherein in the first step, the standard material library comprises: material variety, brand, specification, supply state, use state and technical standard.

3. The method for inspecting a thermal form of a three-dimensional design part according to claim 2, wherein in step one, the thermal process library comprises: material information, heat treatment instructions, heat treatment performance, inspection categories, importance classifications, stress and use environment information.

4. The method for inspecting the thermal surfacing of three-dimensional design parts according to claim 3, wherein in the first step, the surfacing library comprises: material type, surface treatment, thickness, primer, enamel, importance classification, stress and use environment information.

5. The method for inspecting the thermal watch processing of the three-dimensional design part according to claim 4, further comprising the following steps: when the labeled information of the parts cannot be matched with the information in the standard material library, the heat treatment library and the surface treatment library,

identifying the error marking information in the part marking information base file by a special color; and

and displaying the error marking information in the part marking information base file.

6. A three-dimensional design part heat treatment inspection system based on the three-dimensional design part heat treatment inspection method of any one of claims 1 to 5, comprising:

the database module is used for creating a standard material library, a heat treatment library and a surface treatment library and storing a part marking information library;

the marking information acquisition module is used for acquiring marking information of the parts and importing the marking information into a part marking information base file;

the judging and report generating module is used for judging whether the labeling information of the parts is matched with the information in the standard material library, the heat treatment library and the surface treatment library or not and generating an inspection report according to a judgment result, wherein the inspection report comprises the labeling information, a correct information list and an error information list of the parts;

the editing and circulating module is used for modifying the marking information in the error information list and circularly judging until all the marking information of the parts are matched with the information in the heat treatment library and the surface treatment library;

and the updating module is used for updating correct material information, heat treatment information and surface treatment information into the part labeling information base file according to a correct information list and updating the labeling information of the part according to the updated part labeling information base file.

7. The system of claim 6, wherein the standard library of materials comprises: material variety, brand, specification, supply state, use state and technical standard.

8. The system for thermal surfacing inspection of three-dimensional design parts according to claim 7, wherein in the database module, the thermal process library comprises: material information, heat treatment instructions, heat treatment performance, inspection categories, importance classifications, stress and use environment information.

9. The system of claim 8, wherein the database module comprises, in the surface treatment library: material type, surface treatment, thickness, primer, enamel, importance classification, stress and use environment information.

10. The system of claim 9, further comprising a hinting module for, when the part labeling information fails to match information in the standard materials library, the thermal processing library, and the surface processing library,

identifying the error marking information in the part marking information base file by a special color; and

and displaying the error marking information in the part marking information base file.

Technical Field

The application belongs to the field of three-dimensional design of parts, and particularly relates to a method and a system for checking heat surface treatment of three-dimensional design parts.

Background

In the current mechanical part design industry, parts built in a three-dimensional design platform become the mainstream of the industry, the rationality of heat treatment and surface treatment marking of the parts is judged by manual examination, and the parts are issued to production departments after digital-analog design examination. The existing mode of manually checking heat treatment and surface treatment is easy to cause that parts with wrong heat treatment and surface treatment marks are issued for production due to the reasons of large data volume, high professional requirements on inspectors and the like, errors are made from a design source, and the production progress is seriously influenced.

Accordingly, a technical solution is desired to overcome or at least alleviate at least one of the above-mentioned drawbacks of the prior art.

Disclosure of Invention

The application aims to provide a method and a system for processing and checking a thermal sheet of a three-dimensional design part, so as to solve at least one problem in the prior art.

The technical scheme of the application is as follows:

the application provides a method for checking the thermal surface treatment of three-dimensional design parts in a first aspect, which comprises the following steps:

step one, establishing a standard material library, a heat treatment library and a surface treatment library;

step two, establishing a part in a three-dimensional design platform, acquiring the marking information of the part, and importing the marking information into a part marking information base file;

judging whether the labeling information of the parts is matched with the information in the standard material library, the heat treatment library and the surface treatment library or not, and generating an inspection report according to a judgment result, wherein the inspection report comprises the labeling information, a correct information list and an error information list of the parts;

step four, modifying the marking information in the error information list, and returning to the step three until all the marking information of the parts is matched with the information in the heat treatment library and the surface treatment library;

and step five, updating correct material information, heat treatment information and surface treatment information into the part labeling information base file according to a correct information list, and updating the labeling information of the part according to the updated part labeling information base file.

In at least one embodiment of the present application, in step one, the standard materials library includes: material variety, brand, specification, supply state, use state and technical standard.

In at least one embodiment of the present application, in step one, the thermal treatment library comprises: material information, heat treatment instructions, heat treatment performance, inspection categories, importance classifications, stress and use environment information.

In at least one embodiment of the present application, in step one, the surface treatment library includes: material type, surface treatment, thickness, primer, enamel, importance classification, stress and use environment information.

In at least one embodiment of the present application, step three further includes: when the labeled information of the parts cannot be matched with the information in the standard material library, the heat treatment library and the surface treatment library,

identifying the error marking information in the part marking information base file by a special color; and

and displaying the error marking information in the part marking information base file.

A second aspect of the present application provides a three-dimensional design part thermal sheet processing and inspecting system, based on the three-dimensional design part thermal sheet processing and inspecting method as described above, including:

the database module is used for creating a standard material library, a heat treatment library and a surface treatment library and storing a part marking information library;

the marking information acquisition module is used for acquiring marking information of the parts and importing the marking information into a part marking information base file;

the judging and report generating module is used for judging whether the labeling information of the parts is matched with the information in the standard material library, the heat treatment library and the surface treatment library or not and generating an inspection report according to a judgment result, wherein the inspection report comprises the labeling information, a correct information list and an error information list of the parts;

the editing and circulating module is used for modifying the marking information in the error information list and circularly judging until all the marking information of the parts are matched with the information in the heat treatment library and the surface treatment library;

and the updating module is used for updating correct material information, heat treatment information and surface treatment information into the part labeling information base file according to a correct information list and updating the labeling information of the part according to the updated part labeling information base file.

In at least one embodiment of the present application, in the database module, the standard materials library includes: material variety, brand, specification, supply state, use state and technical standard.

In at least one embodiment of the present application, in the database module, the thermal treatment library comprises: material information, heat treatment instructions, heat treatment performance, inspection categories, importance classifications, stress and use environment information.

In at least one embodiment of the present application, in the database module, the surface treatment library includes: material type, surface treatment, thickness, primer, enamel, importance classification, stress and use environment information.

In at least one embodiment of the present application, the system further comprises a prompt module, configured to, when the labeled information of the component cannot be matched with the information in the standard material library, the thermal treatment library and the surface treatment library,

identifying the error marking information in the part marking information base file by a special color; and

and displaying the error marking information in the part marking information base file.

The invention has at least the following beneficial technical effects:

the application discloses a thermal surface treatment and inspection method for three-dimensional design parts, which comprises the following steps:

establishing a parameterized standard material library, a heat treatment library and a surface treatment library, automatically checking the correctness of heat treatment and surface treatment of the parts according to whether the corresponding marking information of the parts is matched with a standard database, avoiding design errors from a design source and improving the design accuracy and the working efficiency;

the recommended information is re-marked according to the matching of the standard material library, the heat treatment library and the surface treatment library, so that the error possibility of manual matching of designers is eliminated, and the design accuracy and the working efficiency are effectively improved;

the whole process of checking and filling in part marking information is based on the standard database and the logic matching relationship between the standard database and the part marking information, so that the dependence on designers is reduced, and the designers can quickly finish the process;

the whole process of checking and filling in the part marking information reduces design errors caused by manual intervention.

Drawings

Fig. 1 is a flowchart of a thermal sheet processing inspection method for a three-dimensional design component according to an embodiment of the present application.

Detailed Description

In order to make the implementation objects, technical solutions and advantages of the present application clearer, the technical solutions in the embodiments of the present application will be described in more detail below with reference to the drawings in the embodiments of the present application. In the drawings, the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The described embodiments are a subset of the embodiments in the present application and not all embodiments in the present application. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present application and should not be construed as limiting the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. Embodiments of the present application will be described in detail below with reference to the accompanying drawings.

In the description of the present application, it is to be understood that the terms "center", "longitudinal", "lateral", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present application and for simplifying the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be construed as limiting the scope of the present application.

The present application is described in further detail below with reference to fig. 1.

The first aspect of the application provides a method for checking the thermal surface treatment of a three-dimensional design part, which comprises the following steps:

step one, establishing a standard material library, a heat treatment library and a surface treatment library;

step two, establishing parts in the three-dimensional design platform, acquiring the marking information of the parts, and importing the marking information into a part marking information base file;

judging whether the labeling information of the parts is matched with the information in the standard material library, the heat treatment library and the surface treatment library or not, and generating an inspection report according to a judgment result, wherein the inspection report comprises the labeling information, a correct information list and an error information list of the parts;

step four, modifying the labeled information in the error information list, and returning to the step three until all labeled information of the parts are matched with the information in the heat treatment library and the surface treatment library;

and step five, updating correct material information, heat treatment information and surface treatment information into the part labeling information base file according to a correct information list, and updating the labeling information of the part according to the updated part labeling information base file.

The utility model provides a three-dimensional design spare part hotlist processing inspection method, the standard materials storehouse includes: material variety, brand, specification, supply state, use state, technical standard and the like. The heat treatment library comprises: material information, heat treatment instruction, heat treatment performance, inspection category, importance classification, stress and use environment information and the like. The surface treatment library comprises: material type, surface treatment, thickness, primer, enamel, importance classification, stress, use environment information and the like.

According to the method for processing and checking the heat meter of the three-dimensional design part, the part is established in the three-dimensional design platform, and the marking information of the part, such as materials, heat treatment, surface treatment, importance classification, stress, use environment and the like, is automatically obtained in batches by using programs and is uniformly guided into the part marking information base file. Then, whether the marked information of the importance classification, stress, use environment, material, heat treatment, surface treatment and the like of the parts is matched with the information in the standard material library, the heat treatment library and the surface treatment library is judged, and whether the marking of the material, the heat treatment and the surface treatment is correct is checked. When the labeling information of the parts cannot be matched with the information in the standard material library, the heat treatment library and the surface treatment library, identifying the wrong labeling information in the part labeling information library file by special colors; and displaying the error marking information in the part marking information base file.

According to the method for processing and checking the hotlist of the three-dimensional design part, the checking result is fed back to the design department, and the design department corrects errors and resubmits the checking until the errors are correct according to the prompted error information list and the recommended correct information list. The inspection result is in the part labeling information base file, which comprises labeling information of materials, heat treatment, surface treatment, importance classification, stress, use environment and the like of all parts, an error and correct information list and a correct information list. And the design department selects a proper item from the correct information list to update into a corresponding item of the part marking information base file, and after all errors are updated, the design department checks again to determine whether the result is correct.

Based on the above thermal sheet processing and inspecting method for three-dimensional design parts, the second aspect of the present application further provides a thermal sheet processing and inspecting system for three-dimensional design parts, the system comprising:

the database module is used for creating a standard material library, a heat treatment library and a surface treatment library and storing a part marking information library;

the marking information acquisition module is used for acquiring marking information of the parts and importing the marking information into a part marking information base file;

the judging and report generating module is used for judging whether the labeling information of the parts is matched with the information in the standard material library, the heat treatment library and the surface treatment library or not and generating an inspection report according to the judging result, wherein the inspection report comprises the labeling information, a correct information list and an error information list of the parts;

the editing and circulating module is used for modifying the marking information in the error information list and circularly judging until all the marking information of the parts are matched with the information in the heat treatment library and the surface treatment library;

and the updating module is used for updating the correct material information, the heat treatment information and the surface treatment information into the part labeling information base file according to the correct information list and updating the labeling information of the parts according to the updated part labeling information base file.

The utility model provides a checking system is handled to three-dimensional design spare part hotlist, in the database module, include in the standard material storehouse: material variety, brand, specification, supply state, use state and technical standard. The heat treatment library comprises: material information, heat treatment instructions, heat treatment performance, inspection categories, importance classifications, stress and use environment information. The surface treatment library comprises: material type, surface treatment, thickness, primer, enamel, importance classification, stress and use environment information.

The system for processing and checking the thermal table of the three-dimensional design part also comprises a prompt module, a detection module and a checking module, wherein the prompt module is used for identifying wrong labeling information in a file of a part labeling information library through special colors when the labeling information of the part cannot be matched with information in a standard material library, a heat treatment library and a surface treatment library; and displaying the error marking information in the part marking information base file.

According to the method and the system for checking the thermal table processing of the three-dimensional design parts, a parameterized standard material library, a heat treatment library and a surface treatment library are established, the correctness of the heat treatment and the table processing of the parts is automatically checked according to whether the corresponding marking information of the parts is matched with a standard database, the design error is avoided from the design source, and the design accuracy and the working efficiency are improved; the recommended information is re-marked according to the matching of the standard material library, the heat treatment library and the surface treatment library, so that the error possibility of manual matching of designers is eliminated, and the design accuracy and the working efficiency are effectively improved; the whole process of checking and filling in part marking information is based on the standard database and the logic matching relationship between the standard database and the part marking information, so that the dependence on designers is reduced, and the designers can quickly finish the process; the whole process of checking and filling in the part marking information reduces design errors caused by manual intervention.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present application should be covered within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.