CN117150593A - CAD software-based auxiliary die optimization design method - Google Patents

Abstract

The invention discloses a CAD software-based die auxiliary optimization design method, which comprises the steps of installing CAD software, loading an external CAD software-based die design software program, starting the CAD software to automatically load an application program; the method has the advantages that the abundant and convenient operation commands are used, the rapid editing operation is created by integrating the assembly drawing and the part drawing, the drawing system is rapidly disassembled, the design requirements can be customized, common modularization, common structures and the like are built in, the support degree for various CAD is high, and the method is suitable for supporting all versions of AUTOCAD2006 and above and hopeful CAD2017 and above.

Description

CAD software-based auxiliary die optimization design method

Technical Field

The invention relates to the technical field of die design, in particular to a CAD software-based die auxiliary optimization design method.

Background

Currently, the stamping die design tools on AutoCAD are few in universal use, and the following defects are mainly caused:

the learning cost is relatively large, although the software is integrated with the AUTOCAD software, but it still requires a certain learning cost. After all, the system is a brand new system, comprising basic knowledge, operation skills, design methods and the like, and needs corresponding training and learning;

the operation habit of a designer is not friendly, the actual combat experience of a program developer is low, so that the program operation is too modal and complicated, and the design interest of the designer is difficult to improve;

the assembly drawing and zero have no relevance, the design and the modification easily cause the inconsistency of the assembly drawing and the part drawing, the abnormality is caused, and the operation is wrong;

because the correction is not related, the correction is needed in the assembly drawing during the die repairing, and then the correction is needed to be manually moved into the part drawing, so that the correction is easy to cause missing update or error in updating the capturing point, the offset is caused, and the correction is not easy to check, so that the machining error is caused;

after the automatic drawing is disassembled, more time is spent for finishing and perfecting the drawing;

the software is set, so that the customization requirements of different designs cannot be met;

version limits are used, typically only for AUTOCAD specific versions, and program upgrades are slow.

Disclosure of Invention

The invention aims to provide a CAD software-based die auxiliary optimal design method, which is developed based on a CAD software-developed die auxiliary design application program, and has an friendly visual operation interface; the method has the advantages that the abundant and convenient operation commands are used, the rapid editing operation is created by integrating the assembly drawing and the part drawing, the drawing system is rapidly disassembled, the design requirements can be customized, and the common modularized structure is built in. The method has high support degree for various CAD, and is suitable for supporting all versions of AUTOCAD2006 and above and hopeful CAD2017 and versions of AUTOCAD2006 and above.

The invention is realized in such a way that a die auxiliary optimization design method based on CAD software comprises CAD software and an external die design software program developed based on the CAD software, and the specific steps are as follows:

s01, installing the CAD software in a computer, and loading an application program of the die design software program developed based on the CAD software;

s02, starting the CAD software, automatically loading the application program, XPunch, and entering a main menu interface;

s03, selecting a toolbar of the main menu interface according to the design requirement of the stamping die;

s04, a tool bar of the main menu interface is provided with a plurality of operation options, each operation option command is clicked, the operation options are corresponding to the simplified icon bar, and an operation method for realizing the die design is clicked;

s05, tool bar options of the main menu interface comprise loading drawing environment, loading standard styles, mould design data, standard parts, creating parts, editing part properties, designing standard part information, part information list, data output, annotation output, configuration and calculation, display control, automatic drawing disassembly, information sharing, information importing and quick tool bars;

s06, selecting toolbar options of the main menu interface according to the design requirement of the stamping die;

s07, the quick toolbar comprises a quick selection and standard part bar, and a required option is selected by quick clicking according to a die design;

s08, the quick selection comprises auxiliary line, image block operation, dimension marking, image frame and origin block, drawing command, image layer/display correlation, quick editing, color control, layout correlation, circle or image block normal reset, virtual-real line mutual conversion and moving coordinate, and the operations are respectively carried out;

s09, automatically calculating the attribute editing of the parts, outputting the defined parts, and automatically updating the sizes and the number of the parts;

s10, the part information table automatically outputs a BOM bill of material output EXECL file or a CAD bill of material;

and S11, finally connecting a printer to select a drawing file to print a drawing.

Further, the part attribute editing is to automatically define the part as a block type, and the block contains part attribute information.

According to the further scheme, the automatic picture disassembly can automatically disassemble all defined parts, and a proper standard picture frame is sleeved according to the size of the parts.

The further scheme is that the mould design information is selected and edited.

The tool bar of the main menu interface further comprises group gap drawing, a round punch, a part hanging table and machining depth changing.

The standard part column comprises a cup head screw, a flat head screw, a low head screw, a plugging screw, a base rice screw, an independent single column group, an inner guide column, an inner guide sleeve, a positioning pin, a pipe position/positioning key, a guide pin, a limiting block, a sliding block, a false delivery detection sensor, a scrap jump sensor, an air blowing pin, a round punching group, a stripping thimble group and a BB standard die holder.

According to the further scheme, the tool bar of the main menu interface further comprises a 2D-to-3D module, the defined 2D part diagrams are converted into 3D parts in batches, and check avoidance or part design rationality is checked in a 3D mode.

According to the further scheme, the standard part is in a built-in standard module structure, and is automatically matched with a pre-defined die structure according to the size of a selected product, so that the standard part is unified and standardized, and the repeated design time is saved.

Further, the part attribute editing definition part system comprises a standard part information definition system and a batch definition part.

The further scheme is that the layer/display correlation is to control the display states of various layers through the operation of a mouse triple key, support the operation of a quick command and meet the display of the layer states of various mould structures.

Compared with the prior art, the invention has the following advantages: the CAD software-based die auxiliary optimization design method has the advantages that the CAD software is installed, and an external application program developed based on the CAD software is loaded; the method has the advantages that the abundant and convenient operation commands are used, the rapid editing operation is created by integrating the assembly drawing and the part drawing, the drawing system is rapidly disassembled, the design requirements can be customized, common modularization and common structures are built in, the support degree for various CAD is high, and the method is suitable for supporting all versions of AUTOCAD2006 and above and hopeful CAD2017 and above.

Drawings

FIG. 1 is an operational flow diagram of a CAD software-based method for die aided optimization design of the present invention;

FIG. 2 is a schematic diagram of a main interface according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a quick selection according to an embodiment of the present invention;

FIG. 4 is a schematic illustration of a master part rail according to an embodiment of the present invention;

FIG. 5 is a diagram of a corresponding quick toolbar according to an embodiment of the present invention;

fig. 6 is an edit schematic diagram of mold design information according to an embodiment of the invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The implementation of the present invention will be described in detail below with reference to specific embodiments.

Referring to fig. 1-5, a preferred embodiment of the present invention is provided.

The auxiliary die optimizing design method based on CAD software includes CAD software and outside die designing software program based on CAD software development, and includes the following steps:

s01, installing CAD software in a computer, and loading an application program of a die design software program developed based on the CAD software;

s02, starting CAD software, automatically loading an application program XPunch, and entering a main menu interface;

s03, selecting a toolbar of a main menu interface according to the design requirement of a die;

s04, a tool bar of the main menu interface is provided with a plurality of operation options, each operation option command is clicked, the simplified icon bar is correspondingly clicked, and an operation method for realizing the die design is clicked;

s05, tool bar options of a main menu interface comprise loading drawing environment, loading standard styles, mould design data, standard parts, creating parts, editing part properties, designing standard part information, part information list, data output, annotation output, configuration and calculation, display control, automatic drawing disassembly, information sharing, information importing and quick tool bars;

s06, selecting toolbar options of the main menu interface according to the design requirement of the stamping die;

s07, a quick toolbar comprises a quick selection and standard part bar, and a required option is selected by quick clicking according to a die design;

s08, rapidly selecting auxiliary lines, image block operation, dimension marking, image frame and origin block, drawing command, image layer/display correlation, rapid editing, color control, layout correlation, circle or image block normal reset, virtual-real line interconversion and moving coordinates, and respectively operating;

s09, automatically calculating the attribute editing of the parts, outputting the defined parts, and automatically updating the sizes and the number of the parts;

s10, automatically outputting a BOM bill of material output EXECL file or a CAD bill of material from the part information table;

and S11, finally connecting a printer to select a drawing file to print a drawing.

Further, part attribute editing is to automatically define parts as tile types, and tiles contain part attribute information.

Further, the automatic drawing disassembly can automatically disassemble all defined parts, and a proper standard drawing frame is sleeved according to the size of the parts.

Further, the mold design data is selected to edit the mold design information.

Further, the tool bar of the main menu interface also includes group gap drawing, round punches, part hanging stands, and altering machining depth.

Further, the standard part column comprises a cup head screw, a flat head screw, a low head screw, a plugging screw, a base rice screw, an independent single column group, an inner guide column, an inner guide sleeve, a positioning pin, a pipe position/positioning key, a guide pin, a limiting block, a sliding block, a false delivery detection sensor, a scrap jump sensor, a blowing pin, a round punching group, a stripping thimble group and a BB standard die holder.

Further, the tool bar of the main menu interface also comprises a 2D-to-3D module, and the defined 2D part graphs are converted into 3D parts in batches, so that check avoidance or part design rationality can be checked in a 3D mode.

Furthermore, the standard parts are automatically matched with a predefined mould structure according to the size of the selected product through a built-in standard module structure, so that unified standardization is realized, and the repeated design time is saved.

Further, the defined parts system for parts property editing includes a standard part information definition system and a lot-defined parts.

Further, the layer/display correlation is to control the display states of various layers through the operation of the three keys of the mouse, and support the operation of a quick command, so as to display the layer states of various mould structures.

In summary, the invention also comprises a main menu interface, a part definition system, a stock preparation system, a BOM list system, a shortcut editing system, an automatic drawing disassembly system, a standard structure module and a 2D-to-3D module; the shortcut editing system comprises an intelligent selection filter and is connected with intelligent printing and self-defined die design functions.

Compared with the prior art, the invention has the following advantages: the invention provides a CAD software-based die aided optimization design method, which is provided with a friendly visual operation interface and comprises the steps of installing CAD software and loading external application programs based on CAD software development; the method has the advantages that the abundant and convenient operation commands are used, the rapid editing operation is created by integrating the assembly drawing and the part drawing, the drawing system is rapidly disassembled, the design requirements can be customized, and the common modularization and the common structure are built in. The method has high support degree for various CAD, and is suitable for supporting all versions of AUTOCAD2006 and above and hopeful CAD2017 and versions of AUTOCAD2006 and above. The die has the following advantages of die design optimization:

1. the stamping die is designed into a combined standard, and the free combined die structure is designed, so that the stamping die is only required to be defined into parts, and the stamping die is operated in the same way whether the stamping die is of a standard die structure or an assembled die structure;

2. automatic calculation and output: the defined parts can automatically update the sizes and the quantity of the parts, and automatically output BOM bill of materials to output EXECL files or CAD bill of materials;

3. the structure is associated with the split plate map: the mould design unit is mainly designed by a block, is convenient for managing an assembly drawing, ensures that the split drawing always keeps consistent with assembly, has no problem as long as the structural design has no problem, and greatly reduces the error rate of artificial factors for design change;

4. shortcut display control: the convenient and practical graphic layer control system has the advantages that commands or mouse control is handy, graphic layer control is comprehensively supported, and defined parts can be displayed or hidden independently;

5. automatic drawing disassembly: automatically disassembling all defined parts, sleeving a proper standard picture frame according to the size of the parts, including all defined part information, automatically marking relevant dimensions, and fully automatically outputting processing annotation description, so that the picture disassembling efficiency is greatly improved;

6. practical auxiliary command: the auxiliary shortcut commands such as labeling, usual gallery management, quick editing of the image blocks and the like can reduce repeated operation.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. The auxiliary die optimization design method based on CAD software is characterized by comprising CAD software and an external die design software program developed based on the CAD software, and comprises the following specific steps:

s01, installing the CAD software in a computer, and loading an application program of the die design software program developed based on the CAD software;

s02, starting the CAD software, automatically loading the application program, XPunch, and entering a main menu interface;

s03, selecting a toolbar of the main menu interface according to the design requirement of the stamping die;

s04, a tool bar of the main menu interface is provided with a plurality of operation options, each operation option command is clicked, the operation options are corresponding to the simplified icon bar, and an operation method for realizing the die design is clicked;

s05, tool bar options of the main menu interface comprise loading drawing environment, loading standard styles, mould design data, standard parts, creating parts, editing part properties, designing standard part information, part information list, data output, annotation output, configuration and calculation, display control, automatic drawing disassembly, information sharing, information importing and quick tool bars;

s06, selecting toolbar options of the main menu interface according to the design requirement of the stamping die;

s07, the quick toolbar comprises a quick selection and standard part bar, and a required option is selected by quick clicking according to a die design;

s08, the quick selection comprises auxiliary line, image block operation, dimension marking, image frame and origin block, drawing command, image layer/display correlation, quick editing, color control, layout correlation, circle or image block normal reset, virtual-real line mutual conversion and moving coordinate, and the operations are respectively carried out;

s09, automatically calculating the attribute editing of the parts, outputting the defined parts, and automatically updating the sizes and the number of the parts;

s10, the part information table automatically outputs a BOM bill of material output EXECL file or a CAD bill of material;

and S11, finally connecting a printer to select a drawing file to print a drawing.

2. A method of die aided optimization design based on CAD software as set forth in claim 1, wherein the part property editing is automatically defining parts into tile types, the tiles containing part property information.

3. The method for auxiliary optimization design of stamping die based on CAD software according to claim 1, wherein the automatic disassembly can automatically disassemble all defined parts, and fit proper standard frames according to the sizes of the parts.

4. A die aided optimization design method based on CAD software as set forth in claim 1, wherein said die design data selects to edit die design information.

5. The method of claim 1, wherein the tool bar of the main menu interface further comprises group gap drawing, round punch, part hanging table and machining depth changing.

6. The CAD software based die assist tool system of claim 1 wherein the standard part bars comprise cuphead screws, flat head screws, low head screws, stop head screws, base meter screws, independent single column sets, inner guide columns, inner guide sleeves, locating pins, tube position/locating keys, guide pins, stoppers, sliders, misfeed detection sensors, scrap skip sensors, blow pins, round punch sets, stripper ejector pin sets, and BB standard die holders.

7. The method for die aided optimization design based on CAD software according to claim 1, wherein the tool bar of the main menu interface further comprises a 2D-to-3D module, the defined 2D part figures are converted into 3D parts in batches, and check avoidance or part design rationality is checked in the 3D mode.

8. The method for auxiliary optimization design of a die based on CAD software according to claim 1, wherein the standard parts are automatically matched with a predefined die structure according to the size of the selected product through a built-in standard module structure, unified and standardized, and repeated design time is saved.

9. The method of claim 1, wherein the part property editing definition part system comprises a standard part information definition system and a batch definition part.

10. The method for die aided optimization design based on CAD software according to claim 1, wherein the layer/display correlation is to control the display states of various layers through the operation of a mouse three-key operation, and support the operation of a fast command, so as to display the layer states of various die structures.