CN115391866A - Design management method, design management system and storage medium for industrial cabinet project - Google Patents

Abstract

The invention provides a design management method of an industrial cabinet project, which comprises the following steps: establishing material data of materials required by corresponding industrial cabinet projects, wherein the material data comprises an orderer manufacturer, an order number, material description and size and shape; designing an industrial cabinet project according to project requirements to obtain project data, wherein the project data comprises material data, material identification, mounting position information and circuit connection relation information; and analyzing the project data to obtain a material list file and a production drawing file, wherein the material list file comprises material data, and the production drawing file comprises installation position information and circuit connection relation information. The design management method for the industrial cabinet project provided by the invention generates drawings for purchasing and production during project design so as to improve the production efficiency. The invention also provides a design management system and a storage medium for executing the design management method.

Description

Design management method, design management system and storage medium for industrial cabinet project

Technical Field

The present invention relates to a design management method, and more particularly, to a design management method, a design management system, and a storage medium for an industrial rack project.

Background

The industrial cabinet project usually involves a large amount of materials, and after the design department finishes the design, the material information needs to be counted manually, various drawings are made, and then the drawings are sent to the acquisition and purchase department and the assembly department, and simultaneously the drawings are submitted to the customer for examination and verification, subsequent field installation and debugging, and the like. Mistakes are easily made when material information is counted and drawings are made in a manual mode, and each department needs extra time to communicate and correct, so that the production efficiency is influenced.

Disclosure of Invention

The invention aims to provide a design management method, a design management system and a storage medium for industrial cabinet projects, which are used for generating drawings for purchasing and production during project design so as to improve the production efficiency.

The invention provides a design management method of an industrial cabinet project, which comprises the following steps:

establishing material data of materials required by the corresponding industrial cabinet project, wherein the material data comprises an orderer manufacturer, an order number, material description and size and shape;

designing an industrial cabinet project in an application program according to project requirements to obtain project data, wherein the project data comprises material data called according to the project requirements, material identifiers added for the called material data, installation position information configured for the called material data and circuit connection relation information configured for the called material data; and

and analyzing the project data in the application program to obtain a material list file and a production drawing file, wherein the material list file comprises material data which are called according to project requirements, and the production drawing file comprises installation position information configured for the called material data and circuit connection relation information configured for the called material data.

The design management method of the industrial cabinet project provided by the invention has the advantages that the material data corresponding to various materials are created, the material data are directly taken when the industrial cabinet project is designed, the material data in the project are automatically analyzed and counted through a program algorithm when the project design is finished, and a bill of material file and a production drawing file are generated, so that manual material information counting and drawing making are replaced, errors are avoided, and the production efficiency is further improved.

In still another exemplary embodiment of the method for design management of an industrial rack project, the method further comprises:

changing the created material data;

updating the generated project data in the application program according to the changed material data; and

and updating the generated bill of material file and the generated production drawing file in the application program according to the changed material data.

In yet another exemplary embodiment of a method of design management of an industrial rack project, the method further comprises: establishing real-time communication with a warehouse management system, and acquiring real-time inventory quantity data of materials required by the current industrial cabinet project; the material data also includes the quantity of the material which is updated in real time according to the real-time inventory quantity data of the material.

In another exemplary embodiment of a method of design management of an industrial rack project, the method further comprises:

creating a material diagram for the material data according to the actual appearance of the material in the application program; the step of designing the industrial cabinet project in the application program to obtain project data comprises the following steps:

dragging a material diagram of the required material data into an editing area in the application program according to the project requirement, wherein the display size of the material diagram in the editing area corresponds to the material size in the material data;

adjusting the position of the material diagram in the editing area according to the project requirement;

and configuring the circuit connection relation of the material diagram in the editing area according to the project requirement.

In another exemplary embodiment of the method for designing and managing an industrial rack project, the step of designing the industrial rack project in the application to obtain the project data further includes:

a plurality of material icons are selected in the application program and are arranged according to a preset mode.

In another exemplary embodiment of the method for designing and managing an industrial rack project, the step of designing the industrial rack project in the application to obtain the project data further includes:

creating factory layer data according to project requirements, wherein the factory layer data comprises material data, configuration installation positions and circuit connection relations of a plurality of units forming a factory;

establishing unit layer data according to data of a plurality of units included in the established factory layer data, wherein the unit layer data comprises material data, configuration installation positions and circuit connection relations of a plurality of cabinets forming the units; and

and creating cabinet layer data according to the data of the cabinets included by the created cabinet layer data, wherein the cabinet layer data comprises material data, configuration and installation positions and circuit connection relations of the materials forming the cabinets.

In another exemplary embodiment of the method for designing and managing an industrial rack project, the step of designing the industrial rack project in the application to obtain the project data further includes:

changing the data of the factory layer;

updating the generated unit layer data according to the changed factory layer data in the application program; and

and updating the generated cabinet layer data in the application program according to the changed unit layer data.

In another exemplary embodiment of the method for designing and managing an industrial rack project, the step of designing the industrial rack project in the application to obtain the project data further includes:

a connector module is arranged among the factory layer data, the unit layer data and the cabinet layer data which have the connection relation;

when one piece of factory layer data, unit layer data or cabinet layer data is opened, the connector module is displayed, and the connector module can display the factory layer data, the unit layer data or the cabinet layer data which are connected with the currently opened factory layer data, unit layer data or cabinet layer data and are not opened.

In another exemplary embodiment of the method for designing and managing an industrial rack project, the step of designing the industrial rack project in the application to obtain the project data further includes:

defining a material in one item data of a plurality of item data as a mirror image source in an application program;

defining the material as a mirror image corresponding to a mirror image source in other project data in the plurality of project data; and

and the real-time representation is realized through mirroring when the data of the mirror image source changes.

In another exemplary embodiment of the method for designing and managing an industrial rack project, the step of designing the industrial rack project in the application to obtain the project data further includes: and automatically generating a material identifier according to the project requirement and the material data.

In another exemplary embodiment of a method of design management of an industrial rack project, the method further comprises: and establishing communication with the purchasing management system, the assembly management system and the client system, sending the data of the bill of material file to the purchasing management system, and sending the data of the production drawing file to the assembly management system and the client system.

In another exemplary embodiment of a method of design management for an industrial cabinet project, a production drawing file includes a bill of materials assembly, an installation drawing, a wiring drawing, a factory internal test drawing, a factory acceptance test drawing, a field test drawing, and an as built drawing.

The invention also provides a design management system of the industrial cabinet project, which comprises a processor and a memory; the memory stores an application program executable by the processor for causing the processor to perform the method for design management of the industrial cabinet project.

The invention also provides a computer readable storage medium, wherein computer readable instructions are stored, and the computer readable instructions are used for executing the design management method of the industrial cabinet project.

Drawings

The following drawings are only schematic illustrations and explanations of the present invention, and do not limit the scope of the present invention.

Fig. 1 is a flow chart of an exemplary embodiment of a design management method for an industrial rack project.

Fig. 2 is a partial flow diagram of a design management method for an industrial rack project.

Fig. 3 is a partial flow diagram of a design management method for an industrial rack project.

Fig. 4 is a schematic diagram of an embodiment of a design management method for an industrial cabinet project.

FIG. 5 is a flow diagram of another exemplary embodiment of a method for design management of an industrial rack project.

FIG. 6 is a schematic diagram of another embodiment of a design management method for an industrial rack project.

Fig. 7 is a schematic diagram of another embodiment of a design management method for an industrial rack project.

FIG. 8 is a flow diagram of one illustrative embodiment of a design management system for an industrial rack project.

Description of the reference symbols

12 warehouse management system

14 procurement management system

16 assembly management system

18 client system

20 design management system

40 cabinet layer data

Diagram of materials 52

Diagram of material 54

Diagram of material 56

60 connector module

70 mirror image source

72 mirror image

100 design management system

101 processor

102 memory

Detailed Description

In order to more clearly understand the technical features, objects and effects of the present invention, embodiments of the present invention will now be described with reference to the accompanying drawings, in which the same reference numerals indicate the same or structurally similar but functionally identical elements.

"exemplary" means "serving as an example, instance, or illustration" herein, and any illustration, embodiment, or steps described as "exemplary" herein should not be construed as a preferred or advantageous alternative.

Fig. 1 is a flow chart of an exemplary embodiment of a design management method for an industrial rack project. Referring to fig. 1, a method of design management of an industrial rack project is operated by at least one processor, the method comprising the steps of:

step S10: and creating material data of materials required by the corresponding industrial cabinet project, wherein the material data comprises an orderer manufacturer, an order number, material description and size and shape. However, the present invention is not limited to this, and in other exemplary embodiments, the content of the material data may be adjusted according to actual needs, and may further include, for example, the stock quantity of the material, etc.

Step S20: the method comprises the steps of designing an industrial cabinet project in an application program according to project requirements to obtain project data, wherein the project data comprise material data called according to the project requirements, material identifiers added for the called material data, installation position information configured for the called material data and circuit connection relation information configured for the called material data.

Fig. 2 is a schematic diagram of an embodiment of a design management method for an industrial cabinet project. Referring to fig. 2, step S20 includes the steps of:

step S21: creating a material diagram for the material data according to the actual appearance of the material in the application program;

step S22: dragging a material diagram of the required material data into an editing area in the application program according to the project requirement, wherein the display size of the material diagram in the editing area corresponds to the material size in the material data;

step S23: adjusting the position of the material diagram in the editing area according to the project requirement;

step S24: and configuring the circuit connection relation of the material diagram in the editing area according to the project requirement.

Referring to FIG. 3, in designing an industrial enclosure project, a display page can be opened in an application. In fig. 3, the material layout diagram 40 is taken as an example, when material data is retrieved, a material diagram representing each material can be displayed in an application program, for example, the material diagram 52 represents a cabinet, and the material diagram 54 and the material diagram 56 each represent different electrical elements. The display size of the material diagram is displayed according to the equal proportion of the material size of the material in the material data. Borrow this the condition of understanding the material that can be more directly perceived when designing industry rack project. The material identification is used for distinguishing different materials in design, and English letters and Arabic numerals can be combined. When designing an industrial cabinet project, the material identification can be manually set, and can also be automatically generated by a preset algorithm according to material data. Therefore, manual operation is reduced, and efficiency is improved.

Step S30: and analyzing the project data in the application program to obtain a material list file and a production drawing file, wherein the material list file comprises material calling data according to project requirements, and the production drawing file comprises installation position information configured for the called material data and circuit connection relation information configured for the called material data. The bill of material file corresponds to the requirements of the procurement management system, for example, a BOM bill file or a PR Tool data file is used, and can be read by the procurement management system. The production assembly drawing files comprise a material assembly list MAL, an installation drawing, a wiring drawing, a factory internal test drawing, a factory acceptance test drawing, a field test drawing and an as-built drawing.

The application programs in the steps are developed by using XAML (extensible markup language), so that the development work of the library is easy to perform, the version management is supported, and the backward compatibility is realized. And material data are created by adopting an MEF plug-in mode, so that the method has great expansibility.

The design management method for the industrial cabinet project generates material data corresponding to various materials in an application program, directly calls the material data when the industrial cabinet project is designed, automatically analyzes and counts the material data in the project through a program algorithm when the project design is completed, and generates a material list file and a production drawing file, so that manual material information counting and drawing making are replaced, errors are avoided, and the production efficiency is improved.

In an exemplary embodiment, the method further comprises the steps of: changing the created material data; updating the generated project data in the application program according to the changed material data; and updating the generated bill of material file and the generated production drawing file in the application program according to the changed material data. When the material data is changed, the project data, the bill of material file and the production drawing file can be updated in real time according to the change of the material data. Therefore, the change of the material data is embodied in each item of data of the industrial cabinet project in real time.

Fig. 4 is a partial flow diagram of a design management method for an industrial rack project. Referring to fig. 4, in an exemplary embodiment, step S20 further includes:

step S25: creating factory layer data according to project requirements, wherein the factory layer data comprises material data, configuration installation positions and circuit connection relations of a plurality of units forming a factory;

step S26: creating unit layer data according to data of a plurality of units included in the created factory layer data, wherein the unit layer data comprises material data, configuration and installation positions and circuit connection relations of a plurality of cabinets forming the units;

step S27: and creating cabinet layer data according to the data of the cabinets included by the created cabinet layer data, wherein the cabinet layer data comprises material data, configuration and installation positions and circuit connection relations of the materials forming the cabinets.

And the factory layer data, the unit layer data and the cabinet layer data can respectively generate and display a material list file and a production drawing file. In an exemplary embodiment, step S20 further includes: changing the data of the factory layer; updating the generated unit layer data according to the changed factory layer data in the application program; and updating the generated cabinet layer data in the application program according to the changed unit layer data. The change of data of each layer can update all data of the lower layer in real time. By means of the simple and efficient project structure design, batch operation can be achieved.

In an exemplary embodiment, referring to fig. 3, step S20 further includes: a plurality of material icons are selected in the application program and are arranged according to a preset mode. The material graphical representations in the display page can be dragged in a manual mode to adjust the positions, or the material graphical representations can be arranged in the display page according to a preset mode by utilizing a preset algorithm, for example, the material graphical representations are arranged in a left/right/up/down mode, the material graphical representations are arranged horizontally/vertically in sequence, and the material graphical representations are arranged in the horizontal/vertical center in an average mode according to the horizontal/vertical middle axis. Borrow this can reduce artifical work when designing industry rack project, raise the efficiency.

In an exemplary embodiment, referring to fig. 3, step S20 further includes the steps of: a connector module is arranged among the factory layer data, the unit layer data and the cabinet layer data which have the connection relation; when one piece of factory layer data, unit layer data or cabinet layer data is opened, the connector module is displayed, and the connector module can display the factory layer data, the unit layer data or the cabinet layer data which are connected with the currently opened factory layer data, unit layer data or cabinet layer data and are not opened. Borrow this can expand the material data that show project data not opened to improve work efficiency.

FIG. 5 is a flow diagram of another exemplary embodiment of a method for design management of an industrial rack project. In another exemplary embodiment of the design management method for an industrial rack project, the same or similar parts as those of the method shown in fig. 1 are not repeated, and the difference is that the method further includes:

and S40, establishing real-time communication with the warehouse management system 12 to obtain real-time inventory quantity data of materials required by the current industrial cabinet project. The material data also includes the quantity of the material updated in real time according to the real-time inventory quantity data of the material.

Step S50, establishing communication with the procurement management system 14, the assembly management system 16 and the client system 18, and sending the data of the bill of material file to the procurement management system 14 and the data of the production assembly drawing file to the assembly management system 16 and the client system 18.

Fig. 6 is a schematic diagram of another embodiment of a design management method for an industrial rack project. Referring to fig. 6, in the exemplary embodiment, design management of an industrial cabinet project is mainly completed in a design management system 20, and by setting interface programs in the design management system 20, the warehouse management system 12, the purchase management system 14, the assembly management system 16, and the client system 18, communication can be established among several systems, so that material inventory conditions can be grasped in time when designing the industrial cabinet project, the scheme can be adjusted flexibly, a purchase department can acquire the scheme of the design project in time, material purchase can be performed in time, an assembly department can put into production quickly, and a client can audit the design project. Thereby improving the overall production efficiency.

Fig. 7 is a schematic diagram of another embodiment of a design management method for an industrial rack project. Referring to fig. 7, in the exemplary embodiment, step S20 further includes the steps of: defining a material in one item data of a plurality of item data as a mirror image source in an application program; defining the material as a mirror image corresponding to a mirror image source in other project data in the plurality of project data; and the real-time representation is realized through mirroring when the data of the mirror image source changes.

When designing an industrial cabinet project, taking the material layout diagram 40 in the project data as an example in fig. 7, a preset algorithm can be used to define a material in the project data as a mirror image source 70 in an application program, and define a material as a mirror image 72 corresponding to the mirror image source in other project data, and data changes of the mirror image source 70 can be represented in real time on the mirror image 72, for example, data corresponding changes of other mirror images 72 when the data of the mirror image source 70 changes, and other mirror images 72 are correspondingly changed into red when the mirror image source 70 is deleted, so as to achieve the purpose of warning, thereby reducing human-caused errors and improving efficiency.

The invention also provides a design management system of the industrial cabinet project, and referring to fig. 5, the design management system of the industrial cabinet project 100 comprises a processor 101 and a memory 102. The memory 102 stores an application program executable by the processor 101 for causing the processor 101 to execute the design management method of the industrial cabinet project.

The invention also provides a computer readable storage medium, wherein computer readable instructions are stored, and the computer readable instructions are used for executing the design management method of the industrial cabinet project.

It should be understood that although the present description has been described in terms of various embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and those skilled in the art will recognize that the embodiments described herein may be combined as suitable to form other embodiments, as will be appreciated by those skilled in the art.

The above-listed detailed description is only a specific description of a possible embodiment of the present invention, and they are not intended to limit the scope of the present invention, and equivalent embodiments or modifications such as combinations, divisions or repetitions of features, which do not depart from the technical spirit of the present invention, should be included in the scope of the present invention.

Claims (14)

1. A method of design management for an industrial rack project, the method comprising:

establishing material data of materials required by a corresponding industrial cabinet project, wherein the material data comprises an orderer manufacturer, an order number, material description and size and shape;

designing an industrial cabinet project in an application program according to project requirements to obtain project data, wherein the project data comprises the material data called according to the project requirements, material identifiers added for the called material data, installation position information configured for the called material data and circuit connection relation information configured for the called material data; and

analyzing the item data in an application program to obtain a material list file and a production drawing file, wherein the material list file comprises the material data which are called according to item requirements, and the production drawing file comprises installation position information configured for the called material data and circuit connection relation information configured for the called material data.

2. The method of design management of an industrial rack project of claim 1, the method further comprising:

changing the created material data;

updating the generated project data according to the changed material data in an application program; and

and updating the generated bill of material file and the generated production drawing file in an application program according to the changed material data.

3. The method of design management of an industrial rack project of claim 2, the method further comprising: establishing real-time communication with a warehouse management system, and acquiring real-time inventory quantity data of materials required by the current industrial cabinet project; the material data also comprises the material quantity which is updated in real time according to the real-time inventory quantity data of the materials.

4. The method for design management of industrial rack project as claimed in claim 1, wherein the step of designing industrial rack project in application to obtain project data comprises:

creating a material diagram for the material data according to the actual appearance of the material in an application program;

dragging a required material diagram of the material data into an editing area in an application program according to project requirements, wherein the display size of the material diagram in the editing area corresponds to the material size in the material data;

adjusting the position of the material diagram in the editing area according to project requirements;

and configuring the circuit connection relation of the material graph in the editing area according to project requirements.

5. The method for design management of industrial rack project of claim 4, wherein the step of designing an industrial rack project in an application to obtain project data further comprises: and selecting a plurality of material graphics in an application program, and arranging the material graphics according to a preset mode.

6. The method for design management of industrial rack project of claim 1, wherein the step of designing an industrial rack project in an application to obtain project data further comprises:

creating factory layer data according to project requirements, wherein the factory layer data comprises material data, configuration and installation positions and circuit connection relations of a plurality of units forming a factory;

creating unit layer data according to data of a plurality of units included in the created factory layer data, wherein the unit layer data comprises material data, configuration and installation positions and circuit connection relations of a plurality of cabinets forming the units; and

and creating cabinet layer data according to the created data of the cabinets, wherein the cabinet layer data comprises material data, configuration and installation positions and circuit connection relations of the materials forming the cabinets.

7. The method for design management of industrial rack project of claim 6, wherein the step of designing an industrial rack project in an application to obtain project data further comprises:

modifying the plant layer data;

updating the generated unit layer data according to the changed factory layer data in an application program; and

and updating the generated cabinet layer data in an application program according to the changed unit layer data.

8. The method for design management of industrial rack project of claim 6, wherein the step of designing an industrial rack project in an application to obtain project data further comprises:

a connector module is arranged among the factory layer data, the unit layer data and the cabinet layer data which have connection relation;

displaying the connector module when one of the plant layer data, the unit layer data or the cabinet layer data is opened, wherein the connector module can display the material data of the plant layer data, the unit layer data or the cabinet layer data which has a connection relation with the currently opened plant layer data, unit layer data or cabinet layer data and is not opened.

9. The method for design management of an industrial rack item of claim 6, wherein the step of designing an industrial rack item in an application to obtain item data further comprises:

defining materials in one project data of a plurality of project data as a mirror image source in an application program;

defining the material as a mirror image corresponding to the mirror image source in other project data in the plurality of project data; and

and when the data of the mirror image source changes, the data is expressed in real time through the mirror image.

10. The method for design management of industrial rack project of claim 1, wherein the step of designing an industrial rack project in an application to obtain project data further comprises: and automatically generating the material identification according to the project requirement and the material data.

11. The method for design management of an industrial rack project of claim 1, further comprising: and establishing communication with a purchase management system, an assembly management system and a client system, sending the data of the bill of material file to the purchase management system, and sending the data of the production drawing file to the assembly management system and the client system.

12. The method of design management of an industrial cabinet project of claim 1, wherein the production drawing files include a bill of materials assembly, an installation drawing, a wiring drawing, a factory internal test drawing, a factory acceptance test drawing, a field test drawing, and an as built drawing.

13. Design management system of industrial rack project, characterized by, include processor (101) and memorizer (102); the memory (102) stores an application program executable by the processor (101) for causing the processor (101) to perform a design management method for an industrial rack project according to any one of claims 1 to 12.

14. Computer readable storage medium having stored therein computer readable instructions for performing a method for design management of an industrial rack project as claimed in any one of claims 1 to 12.

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