CN106295032A - A kind of ceramic tile Design of Dies software system and method for designing thereof - Google Patents
A kind of ceramic tile Design of Dies software system and method for designing thereof Download PDFInfo
- Publication number
- CN106295032A CN106295032A CN201610675400.1A CN201610675400A CN106295032A CN 106295032 A CN106295032 A CN 106295032A CN 201610675400 A CN201610675400 A CN 201610675400A CN 106295032 A CN106295032 A CN 106295032A
- Authority
- CN
- China
- Prior art keywords
- mould
- dimensional
- module
- standard module
- parts
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Classifications
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F30/00—Computer-aided design [CAD]
- G06F30/10—Geometric CAD
- G06F30/17—Mechanical parametric or variational design
Landscapes
- Physics & Mathematics (AREA)
- Geometry (AREA)
- Engineering & Computer Science (AREA)
- Theoretical Computer Science (AREA)
- General Physics & Mathematics (AREA)
- Pure & Applied Mathematics (AREA)
- Mathematical Optimization (AREA)
- Mathematical Analysis (AREA)
- Computer Hardware Design (AREA)
- Evolutionary Computation (AREA)
- General Engineering & Computer Science (AREA)
- Computational Mathematics (AREA)
- Press-Shaping Or Shaping Using Conveyers (AREA)
Abstract
The invention discloses a kind of ceramic tile Design of Dies software system and method for designing thereof, the general character of tile mould according to ceramic tile production standard and Design of Dies technical specification, is sorted out with characteristic, is found out wherein logical laws by (1).(2) CATIA design system is used to set up mathematical model f (x) the functional relationships assembly of three-dimensional Standard Module Models Sets and its correspondence.When the coordinate parameters of certain design of part changes, other parts all can automatically generate three-dimensional structure and the feature of Corresponding matching according to its topological relation.(3) setting up all part two-dimensional engineering graphics, when the Parameters variation of three-dimensional mould part, on two-dimensional engineering graphic, the relative dimensions of part changes all automatically therewith.The design system also can carry out localized design or amendment to parts to mold parts personalized designs.The design system is greatly improved design efficiency and precision, makes tile mould designing technique reach intelligent.
Description
Technical field
The present invention relates to tile mould and produce design field, particularly relate to a kind of ceramic tile Design of Dies software system and
Its method for designing.
Background technology
Tile mould is that a kind of diel assembly is referred to as " die assembly ", and its die assembly is by base plate, middle plate, magnetic
The parts compositions such as seat, the framed and side plate of periphery and upper and lower stamping die.By the huge surge of forcing press by ceramic tile mould
The ceramic powder with certain humidity in the forming cavity that the framed and side plate of tool is constituted is pressed into ceramic tile blank.Advise according to difference
The tile product of lattice, designs the tile mould of different size accordingly, and traditional tile mould design needs artificial drawing, though
So now with various three-dimensional graphics software auxiliary, but still need to take considerable time, design a set of tile mould and typically use
Time at least two week and easily make mistakes, design a set of tile mould general used time at least two week.In order to shorten the design time, lead to now
Frequently with way be: set up tile mould file store, recalled and the most similar die needed phase by input characteristic parameter
The three-dimensional of the tile mould of same specification or two-dimensional design drawing, carry out supplementing, revise and then completing the design of tile mould.But this
There is workload length big, error-prone, time-consuming in the method for kind, technology requires the shortcomings such as high.Meanwhile, enterprise self huge mould is set up
Tool file store also often updates difficulty relatively greatly, if design has the tile mould of special construction, needs senior designer to carry out greatly
Amount and complicated work, and time-consuming easily make mistakes.In present stage external and domestic ceramic die manufacturing, also do not have
Realize total digitalization and the intellectuality of tile mould design.
Summary of the invention
It is an object of the invention to propose one and utilize topological relation between tile mould each part, set up digitized and intelligence
Change ceramic tile Design of Dies software system rapidly and efficiently and method for designing thereof.
For reaching this purpose, the present invention by the following technical solutions:
A kind of ceramic tile Design of Dies software system, generates mould including three-dimensional Standard Module module, objective mould
Block, mould parts configuration list generation module and two-dimensional mold assembly parts engineering drawing generation module, described three-dimensional Standard Module mould
The outfan of block electrically connects with the input of described objective mould generation module, and described mould parts configuration list generates mould
The input of block and the input of two-dimensional mold assembly parts engineering drawing generation module all with described objective mould generation module
Outfan electrical connection;
Described three-dimensional Standard Module module for set up and store have the three-dimensional Standard Module of all kinds of cavity and set up with
There is the mathematical model of the topological relation of each part in the described three-dimensional Standard Module of all kinds of cavity, i.e. set up and described three-dimensional
F (x) the functional relationships assembly that in Standard Module, each part position coordinate is corresponding, described f (x) functional relationships assembly is to produce according to ceramic tile
Product production standard and Design of Dies technical specification digitized draw;
Described objective mould generation module is selected three-dimensional for the three-dimensional Standard Module and amendment selecting certain specification
The characteristic parameter of one or more parts of Standard Module is with described f (x) functional relationship of the three-dimensional Standard Module selected by change
Collection, and generate objective mould according to described f (x) the functional relationships assembly after changing;
Described mould parts configuration list generation module is joined for the mould parts automatically generating described objective mould
Put inventory;
Described two-dimensional mold assembly parts engineering drawing generation module is for automatically generating the two-dimentional mould of described objective mould
Tool assembly parts engineering drawing.
Preferably, described three-dimensional Standard Module module includes that three-dimensional mould chamber number selects submodule, described three-dimensional mould chamber
Number selects submodule to have the three-dimensional Standard Module collection establishing mathematical model of different cavity number for storage;
Described three-dimensional mould chamber number selects submodule to include, and mould specification selects unit, described mould specification selection unit to use
The three-dimensional Standard Module establishing mathematical model of different size under the three-dimensional Standard Module collection storing same chamber number.
Preferably, Standard Module part personalized designs module, described Standard Module part personalized designs mould are also included
The outfan of block electrically connects with the input of described objective mould generation module, described Standard Module part personalized designs
Module, for the part of the described three-dimensional Standard Module selected is carried out personalized designs, obtains personalized goal mould parts,
And described personalized goal mould parts is increased in selected three-dimensional Standard Module, thus generate the three-dimensional standard of personalization
Mould.
Preferably, described objective mould generation module includes objective mould optimization submodule, described three-dimensional mesh
Mark mould optimization submodule is described to optimize for the characteristic parameter finely tuning one or more parts of described objective mould
The structure of objective mould, and generate three-dimensional optimized target mould;
Described mould parts configuration list generation module is additionally operable to, according to described three-dimensional optimized target mould, automatically adjust institute
State mould parts configuration list;
Described two-dimensional mold assembly parts engineering drawing generation module is additionally operable to, according to described three-dimensional optimized target mould, automatically adjust
Whole described two-dimensional mold assembly parts engineering drawing.
Preferably, the method for designing of described ceramic tile Design of Dies software system, comprise the following steps:
Step 1, selects three-dimensional Standard Module: select mold cavity number from described three-dimensional Standard Module module;Select with number
The specification in amount Shuo Xiage chamber, chamber, the three-dimensional Standard Module selected by generation;
Step 2, by one of three-dimensional Standard Module selected in described objective mould generation module set-up procedure 1
Or the characteristic parameter of multiple part, then in selected three-dimensional Standard Module, the topological relation between each part changes then
Causing the characteristic parameter of remaining parts in selected three-dimensional Standard Module to change, the most described f (x) functional relationships assembly changes
Become;
Then, generate new three-dimensional mould according to described f (x) the functional relationships assembly after changing, i.e. generate objective mould
Tool;
Step 3, the objective mould that described mould parts configuration list generation module generates according to step 2, automatically give birth to
Become corresponding mould parts configuration list;
Step 4, described two-dimensional mold assembly parts engineering drawing generation module according in step 2 generate objective mould,
Automatically generate the two-dimensional mold assembly parts engineering drawing of correspondence.
Preferably, described step 2 is drawn by CATIA application platform, UG application platform or Solidwork application platform
The optimal solution of described f (x) functional relationships assembly, i.e. draws the solution of the rational position relation of each part in mould;According to drawing
The optimal solution of described f (x) functional relationships assembly generate corresponding described objective mould.
Preferably, in described step 1, the system of selection of three-dimensional Standard Module is: according to production requirement first from described three-dimensional mark
The three-dimensional mould chamber number of quasi-die module selects submodule to select the three-dimensional Standard Module collection that required chamber number is corresponding, then from correspondence
The three-dimensional Standard Module that needed for mould specification selection Unit selection, specification is corresponding.
Preferably, also include step 5, the three-dimensional mesh described step 2 generated by objective mould optimization submodule
The characteristic parameter of one or more parts of mark mould is finely adjusted, and optimizes the structure of objective mould, generates three-dimensional optimized
Target mould.
Preferably, also include step 6, the three-dimensional optimized target mould generated according to step 5, the mould of automatic setting procedure 3
Tool part configuration list and the two-dimensional mold assembly parts engineering drawing of step 4.
Preferably, described step 1 is set by described Standard Module part personalized designs module always according to production requirement
Count and generate personalized goal mould parts, and generate part configuration list and the two-dimensional mold dress of personalized goal mould parts
Accessory engineering drawing, then increases in selected three-dimensional Standard Module by described personalized goal mould parts, thus generates individual
Property described three-dimensional Standard Module.
Described ceramic tile Design of Dies software system is for the design of building tile mould, by the three-dimensional selected by amendment
The characteristic parameter of Standard Module, thus change described f (x) functional relationships assembly, generates objective mould, it is achieved mould structure with
Characteristic parameter changes and linear continuous variation, and the Design of Dies time only needs about two hours, greatly improves tile mould design
Efficiency.
Mould parts configuration list described in the method for designing of described ceramic tile Design of Dies software system and two dimension mould
Tool assembly parts engineering drawing can change with the change of three-dimensional mould structure, the most often generates a new three-dimensional mould and automatically generates immediately
Corresponding mould parts configuration list and two-dimensional mold assembly parts engineering drawing, it is achieved mould parts configuration list and two-dimensional mold dress
The servo-actuated change of accessory engineering drawing, it is not necessary to manually adjust, simplifies mould amendment operation, is allowed to the most quick, accurate and intelligent,
Significantly simplify mould amendment operation.
Accompanying drawing explanation
The present invention will be further described for accompanying drawing, but the content in accompanying drawing does not constitute any limitation of the invention.
Fig. 1 is the ceramic tile Design of Dies software system module graph of a relation of one of them embodiment of the present invention;
Fig. 2 is the tile mould design normal process figure of one of them embodiment of the present invention;
Fig. 3 is the three-dimensional optimized target mould product process figure of one of them embodiment of the present invention;
Fig. 4 is the tile mould design optimization flow chart of one of them embodiment of the present invention.
Wherein: three-dimensional Standard Module module 1;Objective mould generation module 2;Mould parts configuration list generation module
3;Two-dimensional mold assembly parts engineering drawing generation module 4;Three-dimensional mould chamber number selects submodule 11;Mould specification selects unit 111;
Standard Module part personalized designs module 5;Objective mould optimization submodule 21.
Detailed description of the invention
Further illustrate technical scheme below in conjunction with the accompanying drawings and by detailed description of the invention.
The ceramic tile Design of Dies software system of the present embodiment, as it is shown in figure 1, include three-dimensional Standard Module module 1, three
Dimension target mould generation module 2, mould parts configuration list generation module 3 and two-dimensional mold assembly parts engineering drawing generation module 4,
The described three-dimensional outfan of Standard Module module 1 electrically connects with the input of described objective mould generation module 2, described mould
The input of the tool input of part configuration list generation module 3 and two-dimensional mold assembly parts engineering drawing generation module 4 is all and institute
State the outfan electrical connection of objective mould generation module 2;
Described three-dimensional Standard Module module for set up and store have the three-dimensional Standard Module of all kinds of cavity and set up with
There is the mathematical model of the topological relation of each part in the described three-dimensional Standard Module of all kinds of cavity, i.e. set up and described three-dimensional
F (x) the functional relationships assembly that in Standard Module, each part position coordinate is corresponding, described f (x) functional relationships assembly is to produce according to ceramic tile
Product production standard and Design of Dies technical specification digitized draw;
Described objective mould generation module is selected three-dimensional for the three-dimensional Standard Module and amendment selecting certain specification
The characteristic parameter of one or more parts of Standard Module is with described f (x) functional relationship of the three-dimensional Standard Module selected by change
Collection, and generate objective mould according to described f (x) the functional relationships assembly after changing;
Described mould parts configuration list generation module 3 is joined for the mould parts automatically generating described objective mould
Put inventory;
Described two-dimensional mold assembly parts engineering drawing generation module 4 is for automatically generating the two-dimentional mould of described objective mould
Tool assembly parts engineering drawing.
Described ceramic tile Design of Dies software system is for the design of building tile mould, by the three-dimensional selected by amendment
The characteristic parameter of Standard Module, thus change described f (x) functional relationships assembly, generates objective mould, it is achieved mould structure with
Characteristic parameter changes and linear continuous variation, and the Design of Dies time only needs about two hours, greatly improves tile mould design
Efficiency.
Described ceramic tile Design of Dies software system, uses CATIA design system to set up three-dimensional Standard Module Models Sets
With set up corresponding mathematical model f (x) functional relationships assembly.Set up all part two-dimensional engineering graphic templates.CATIA is used to set
The CAA language of meter systems secondary development and computer C# language, to the three-dimensional Standard Module Models Sets set up and mathematical modulo thereof
Type f (x) functional relationships assembly and part two-dimensional engineering graphic template carry out computer secondary development connection, obtain ceramic tile mould and set
Meter software system.
Setting up described three-dimensional Standard Module module 1, the three of different size is set up and preset to described three-dimensional Standard Module module 1
Dimension Standard Module;And set up mathematical model the most described f (x) functional relationship corresponding with the three-dimensional Standard Module of each specification
Collection, described f (x) functional relationships assembly is based on tile product production standard and tile mould designing technique specification, sums up, concludes
The logical laws of tile mould design and digitized draws, map each by the characteristic parameter of each part in three-dimensional Standard Module
The topological relation of individual part, i.e. sets up opening up of being associated between the structure and features parameter of each part of three-dimensional Standard Module
Flutterring mathematical coordinates conversion f (x) functional relation, described characteristic parameter includes the position of part, length, punching number, through hole
Diameter etc..Described ceramic tile Design of Dies software system first according to production requirement in described three-dimensional Standard Module module 1
Select three-dimensional Standard Module, then adjusted one or many of selected three-dimensional Standard Module by objective mould generation module 2
The characteristic parameter of individual part, then the topological relation between each part change in real time the most described f (x) functional relationships assembly occur
Changing, i.e. when the changes in coordinates of any one design of part and characteristic parameter, other parts all can close according to the logic of mould
System is calculated by mathematical model, automatically generates three-dimensional structure and the feature of Corresponding matching, i.e. any one characteristic parameter and becomes
Change and all can cause tactile one effect starting whole body, generated objective mould by described f (x) the functional relationships assembly after changing the most again
Tool: the three dimensional design figure of the new tile mould i.e. to be tried to achieve.And, described mould parts configuration list generation module 3 can
Automatically generate the mould parts configuration list of correspondence according to objective mould, and described two-dimensional mold assembly parts engineering drawing generates
Module 4 automatically generates the two-dimensional mold assembly parts engineering drawing of correspondence also dependent on objective mould, it is to avoid manual record zero
The problems such as time-consuming length, the misregistration that part configuration list and artificial conversion two-dimensional mold assembly parts engineering drawing bring, greatly drop
Low labor intensity, accelerates tile mould desin speed, improves tile mould designing quality.
Technology design one set of die generally used now (includes making three-dimensional model of parts, two dimension parts engineering drawing and zero
The part bill of materials) probably need more than 15 days, designer is typically first to make three-dimensional parts moulding of CAD software, then with three
Dimension parts modeling projection two-dimensional engineering graphic also does various mark, then make the mould parts bill of materials.Separate designs personnel can do
The parametrization of some parts, or do some parts libraries to extract part combination, some desin speeds can be improved.But
In global Design of Dies field, we the most do not see which company's whole set of die can design threedimensional model and throwing
Shadow two-dimensional engineering graphic, it is possible to be rapidly completed the global design of mould.
And the ceramic tile Design of Dies software system of the present embodiment is exactly designer need not do any three-dimensional zero
Part moulding and projection two-dimensional engineering graphic, designer, simply by man-machine dialog interface, adjusts ceramic die logical relation parameter,
Just can automatically generate three-dimensional parts moulding and two dimension parts engineering drawing and the part material inventory of mould rapidly, about
Whole set of die design has only to 1 or about 2 hours, and the precision designed also is greatly improved, the appearance of this technology
The Design of Dies that will presage for the future is to have calculated unitary mould design intellectuality rather than by building by mathematical model
Vertical large parts data base carrys out assembling die, therefore our unitary mould design concept and technology and present Design of Dies shape
State has huge difference, and the design field of several years industry-by-industries that presage for the future will be occurred huge change by this technology.
Be different from and existing set up three-dimensional or two dimension target die storehouse, by input characteristic parameter recall with die needed
For the tile mould design system of similar three-dimensional or two dimension target mould, described ceramic tile Design of Dies software system is logical
The characteristic parameter crossing the three-dimensional Standard Module of amendment changes the topological relation of each part in three-dimensional Standard Module then, thus realizes
The linear continuous variation of mould structure, the objective mould of generation is die needed, it is to avoid the design of existing tile mould
Mould structure intermittent change in system, mould intrinsicization can not be revised, set up huge die storehouse and need to often update mould
Tool storehouse is to adapt to produce the problems such as change, and rapidly and efficiently, degree of accuracy, accurateness are high for Design of Dies, and Design of Dies becomes intelligent
Easily operation.
Preferably, described three-dimensional Standard Module module includes that three-dimensional mould chamber number selects submodule, described three-dimensional mould chamber
Number selects submodule to have the three-dimensional Standard Module collection establishing mathematical model of different cavity number for storage;
Described three-dimensional mould chamber number selects submodule to include, and mould specification selects unit, described mould specification selection unit to use
The three-dimensional Standard Module establishing mathematical model of different size under the three-dimensional Standard Module collection storing same chamber number.
The powder punch forming in ceramic tile produces of described tile mould is the operation of ceramic tile blank, described three-dimensional master die
Tool module 1 includes that three-dimensional mould chamber number selects submodule 11, and described mold cavity number is the number in tile forming chamber in mould, as
One chamber three-dimensional Standard Module collection is the three-dimensional Standard Module collection of one base substrate of a punching press, and three chamber Standard Module collection are a punching press
The three-dimensional Standard Module collection of three base substrates;Described mould specification selects unit 111 to include the three-dimensional Standard Module collection of same chamber number
The three-dimensional Standard Module of lower different size, i.e. chamber number are identical but three-dimensional Standard Module that specification is different, the rule of three-dimensional Standard Module
Lattice are determined by the specification making base substrate, as the parameters such as base substrate size, base substrate bottom surface and surface detail determine.Set up above-mentioned level knot
The three-dimensional Standard Module module 1 of structure, it is simple to the classification of three-dimensional Standard Module and selection, operates more simple and fast.
Preferably, Standard Module part personalized designs module, described Standard Module part personalized designs mould are also included
The outfan of block electrically connects with the input of described objective mould generation module, described Standard Module part personalized designs
Module, for the part of the described three-dimensional Standard Module selected is carried out personalized designs, obtains personalized goal mould parts,
And described personalized goal mould parts is increased in selected three-dimensional Standard Module, thus generate the three-dimensional standard of personalization
Mould.
Described Standard Module part personalized designs module 5 can design and generate personalized goal mould according to production requirement
Part, as design has the lower mold of unique dimpled grain, so that the ceramic tile blank bottom surface made has unique decorative pattern;The most only need
The lower mold with unique dimpled grain is replaced the selected three-dimensional original lower mold of Standard Module, carries out subsequent step the most again, right
The characteristic parameter of selected three-dimensional Standard Module is modified thus is generated the objective mould of the lower mold with unique dimpled grain, from
And improve the Design of Dies motility of described tile mould method for designing, and meet the multiple demand of tile mould design, and individual
Property target mould parts and add the three-dimensional Standard Module of personalized goal mould parts and can store to described three-dimensional standard
Die module 1, the described three-dimensional Standard Module module 1 of on-demand expansion, provide more personalized reference for Design of Dies in the future.
Preferably, described objective mould generation module 2 includes objective mould optimization submodule 21, described three-dimensional
Target mould optimization submodule 21 is for finely tuning the characteristic parameter of one or more parts of described objective mould to optimize
The structure of described objective mould, and generate three-dimensional optimized target mould;Described mould parts configuration list generation module 3 is also
For according to described three-dimensional optimized target mould, automatically adjust described mould parts configuration list;Described two-dimensional mold assembly parts
Engineering drawing generation module 4 is additionally operable to according to described three-dimensional optimized target mould, automatically adjusts described two-dimensional mold assembly parts engineering
Figure.
Owing to therefore described objective mould may arrange described objective mould excellent with die needed slightly deviation
Beggar's module 21, the characteristic parameter of fine setting objective mould, to optimize the structure of objective mould, generates three-dimensional optimized mesh
Mark mould.Described mould parts configuration list generation module 3 and described two-dimensional mold assembly parts engineering drawing generation module 4 can bases
The three-dimensional optimized target mould generated, adjusts mould parts configuration list and two-dimensional mold assembly parts engineering drawing the most automatically.Institute
State mould parts configuration list and two-dimensional mold assembly parts engineering drawing can change with the change of three-dimensional mould structure, the most often generate one
Individual new three-dimensional mould automatically generates mould parts configuration list and the two-dimensional mold assembly parts engineering drawing of correspondence immediately, it is achieved mould
Tool part configuration list and the servo-actuated change of two-dimensional mold assembly parts engineering drawing, it is to avoid manually adjust, the most quick and intelligent
Change, simplify mould amendment operation.
Preferably, the method for designing of described ceramic tile Design of Dies software system, as in figure 2 it is shown, comprise the following steps:
Step 1, selects three-dimensional Standard Module: select mold cavity number from described three-dimensional Standard Module module;Select with number
The specification in amount Shuo Xiage chamber, chamber, the three-dimensional Standard Module selected by generation;
Step 2, by the one of three-dimensional Standard Module selected in described objective mould generation module 2 set-up procedure 1
Individual or the characteristic parameter of multiple part, then in selected three-dimensional Standard Module, topological relation between each part changes and continues
And causing the characteristic parameter of remaining parts in selected three-dimensional Standard Module to change, the most described f (x) functional relationships assembly occurs
Change;
Then, generate new three-dimensional mould according to described f (x) the functional relationships assembly after changing, i.e. generate objective mould
Tool;
Step 3, the objective mould that described mould parts configuration list generation module 3 generates according to step 2, automatically give birth to
Become corresponding mould parts configuration list;
Step 4, described two-dimensional mold assembly parts engineering drawing generation module 4 according in step 2 generate objective mould,
Automatically generate the two-dimensional mold assembly parts engineering drawing of correspondence.
The method for designing of described tile mould design system is for the design of building tile mould, only by two steps
Just complete the work of all Design of Dies: 1, three-dimensional mould specification selects;2, three-dimensional mould parameter is arranged;Obtain 1, mould zero
Part configuration list;2, two dimension assembly parts engineering drawing.And these are operated in one senior design engineer of present stage and probably need two
More than individual week complete, and the method for designing of described tile mould design system has only to one, two hours can complete and accurate
The most errorless.The method for designing of described tile mould design system, by the characteristic parameter of three-dimensional Standard Module selected by amendment, from
And calculated by mathematical model f (x) functional expression and change incidence set, it is achieved die structure size linearly connects with characteristic parameter change
Continuous change, automatically generates required objective mould, automatically generates mould parts configuration list, automatically generates parts two dimension
Engineering drawing, greatly improves tile mould design efficiency.And, the method for designing of described tile mould design system can be according to three
Dimension target mould automatically generates mould parts configuration list and the two-dimensional mold assembly parts engineering drawing of correspondence, it is to avoid manual record
The problems such as time-consuming length, the misregistration that part configuration list and artificial conversion two-dimensional mold assembly parts engineering drawing bring, greatly
Reduce labor intensity, accelerate tile mould desin speed, improve tile mould designing quality.
Preferably, described step 2 is drawn by CATIA application platform, UG application platform or Solidwork application platform
The optimal solution of described f (x) functional relationships assembly, i.e. draws the solution of the rational position relation of each part in mould;According to drawing
The optimal solution of described f (x) functional relationships assembly generate corresponding described objective mould.
First step 2 recalls described f (x) functional relationship of selected three-dimensional Standard Module, then adjusts selected three-dimensional
Standard Module the characteristic parameter of one or more parts, then the topological relation between each part changes i.e. institute in real time
State f (x) functional relationships assembly to change;Described f (x) the functional relationships assembly of selected three-dimensional Standard Module is with characteristic parameter change
Change, draws described f (x) functional relationships assembly by CATIA application platform, UG application platform or Solidwork application platform
The rational position relation (optimum topological relation) of each part after optimal solution, i.e. characteristic parameter change, thus optimal solution generates
Corresponding described objective mould.
Described CATIA application platform provides style and exterior design, Machine Design, equipment and system engineering, the pipe of mould
Manage digital prototype, machining, analyze and simulate;CATIA from the conceptual design of mould to the formation of final mould, accurate with it
Solution provides complete 2D, 3D, parametrization hybrid modeling and data management means, from the design of single part reliably
Foundation to final digital prototype;Meanwhile, as the software system of fully-integratedization, Machine Design, engineering are divided by CATIA
Analysis and emulation, digital control processing and application solution combine.Described UG application platform is that the product of user sets
Meter and the course of processing provide Digital Model and checking means, for Virtual Product Design and the need of technological design of user
Ask, it is provided that through the solution of practical proof;Described UG application platform has high performance Machine Design and drawing function,
Provide high-performance and motility for designing for manufacturing, with the needs of any complex product of satisfied design, have specialty pipeline and
Line design system, sheet metal module, special plastic part design module and the professional applications of other industry design.Described
Solidwork application platform have powerful, be easy to learn and use and the big feature of technological innovation three, using the teaching of the invention it is possible to provide different design sides
Case, the mistake reduced in design process and improve product quality, simple to operation, be easy to learn and use, exclusive drag function
Making user complete large-scale trim designs within the comparatively short time, whole product design is can be the most editable, part
Design, it is total correlation between trim designs and engineering drawing.
Preferably, in described step 1, the system of selection of three-dimensional Standard Module is: according to production requirement first from described three-dimensional mark
The three-dimensional mould chamber number of quasi-die module 1 selects submodule 11 to select the three-dimensional Standard Module collection that required chamber number is corresponding, then from right
The mould specification selection unit 111 answered selects the three-dimensional Standard Module that required specification is corresponding.
Described step 1 is first to select mold cavity number, reselection mould specification, it is simple to the classification of three-dimensional Standard Module and choosing
Select, operate more simple and fast.Described mold cavity number is the number in tile forming chamber in mould, such as a chamber three-dimensional Standard Module
Integrating the three-dimensional Standard Module collection once producing a base substrate as punching press, three chamber Standard Modules integrate and once produce three base substrates as punching press
Three-dimensional Standard Module collection;The specification of three-dimensional Standard Module is determined by the specification making base substrate, such as base substrate size, base substrate bottom surface flower
The parameters such as stricture of vagina determine.
Preferably, also include step 5, as it is shown on figure 3, by objective mould optimization submodule 21 to described step 2
The characteristic parameter of one or more parts of the objective mould generated is finely adjusted, and optimizes the structure of objective mould,
Generate three-dimensional optimized target mould.
Due to described objective mould by described f (x) functional relationships assembly optimal solution generate, may with die needed slightly
Having deviation, therefore setting steps 5, the characteristic parameter of fine setting objective mould, to optimize the structure of objective mould, generates
Three-dimensional optimized target mould.The generating principle of described three-dimensional optimized target mould be fine setting objective mould characteristic parameter from
And cause f (x) the functional relationships assembly of described objective mould to change, i.e. change each of described three-dimensional optimized target mould
Topological relation between individual part;Then, drawn by CATIA application platform, UG application platform or Solidwork application platform
The optimal solution of f (x) the functional relationships assembly after change, thus the described three-dimensional optimized target mould of corresponding generation.By setting steps 5
Objective mould is finely adjusted, improves Design of Dies accuracy, improve and produce adaptability, meet ceramic tile production requirement.
Preferably, as shown in Figure 4, step 6 is also included, the three-dimensional optimized target mould generated according to step 5, automatically adjust
The mould parts configuration list of step 3 and the two-dimensional mold assembly parts engineering drawing of step 4.Described mould parts configuration list and two
Dimension die assembly part engineering drawing can change with the change of three-dimensional mould structure, the most often generates a new three-dimensional mould the most automatic
Generate corresponding mould parts configuration list and two-dimensional mold assembly parts engineering drawing, it is achieved mould parts configuration list and two dimension mould
The servo-actuated change of tool assembly parts engineering drawing, it is to avoid manually adjust, the most quick and intelligent, simplify mould amendment operation.
Preferably, as it is shown on figure 3, described step 1 passes through the personalization of described Standard Module part always according to production requirement
Design module designs and generates personalized goal mould parts, generates single part configuration list and two-dimensional mold assembly parts work
Cheng Tu, and generate part configuration list and the two-dimensional mold assembly parts engineering drawing of personalized goal mould parts, then by described
Personalized goal mould parts increases in selected three-dimensional Standard Module, thus generates the described three-dimensional master die of personalization
Tool.
Described step 1 also can design and generate personalized goal mould parts according to production requirement, as design has solely
The lower mold of special dimpled grain, so that the ceramic tile blank bottom surface made has unique decorative pattern;The most only need there is unique dimpled grain
Lower mold replaces the selected three-dimensional original lower mold of Standard Module, carries out subsequent step the most again, to selected three-dimensional Standard Module
Characteristic parameter modify thus generate the objective mould of the lower mold with unique dimpled grain, thus improve Design of Dies spirit
Activity, meets the multiple demand of tile mould design, and personalized goal mould parts and add personalized goal mould
The three-dimensional Standard Module of part can store to three-dimensional Standard Module module, on-demand expansion three-dimensional Standard Module module, in the future
Design of Dies provides more personalized reference.
The ceramic tile Design of Dies software system of the present embodiment has the advantages that 1. by the three-dimensional standard of amendment
The characteristic parameter of mould changes the topological relation of each part in three-dimensional Standard Module then, thus realizes the linear of mould structure
Consecutive variations, it is to avoid the change of mould structure intermittent, mould intrinsicization can not be revised, set up huge die storehouse and often need
Update die storehouse to adapt to produce the problems such as change;2. can automatically generate and adjust mould parts configuration according to objective mould
Inventory and two-dimensional mold assembly parts engineering drawing, it is to avoid manual record part configuration list and artificial conversion two-dimensional mold assembly parts
The problems such as time-consuming length, the misregistration that engineering drawing brings, are greatly reduced labor intensity, accelerate tile mould desin speed, carry
High tile mould designing quality;3. described in, Standard Module part personalized designs module 5 can design according to production requirement and generate
Personalized goal mould parts, improves the Design of Dies motility of described tile mould method for designing, meets tile mould design
Multiple demand.
The know-why of the present invention is described above in association with specific embodiment.These describe and are intended merely to explain the present invention's
Principle, and limiting the scope of the invention can not be construed to by any way.Based on explanation herein, the technology of this area
Personnel need not pay performing creative labour can associate other detailed description of the invention of the present invention, and these modes fall within
Within protection scope of the present invention.
Claims (10)
1. a ceramic tile Design of Dies software system, including three-dimensional Standard Module module, objective mould generation module,
Mould parts configuration list generation module and two-dimensional mold assembly parts engineering drawing generation module, described three-dimensional Standard Module module
Outfan electrically connects with the input of described objective mould generation module, described mould parts configuration list generation module
The input of input and two-dimensional mold assembly parts engineering drawing generation module all defeated with described objective mould generation module
Go out end electrical connection, it is characterised in that:
Described three-dimensional Standard Module module has the three-dimensional Standard Module of all kinds of cavity for setting up and storing and sets up and have
The mathematical model of the topological relation of each part in the described three-dimensional Standard Module of all kinds of cavitys, i.e. sets up and described three-dimensional standard
F (x) the functional relationships assembly that in mould, each part position coordinate is corresponding, described f (x) functional relationships assembly is raw according to tile product
Product standard and Design of Dies technical specification digitized draw;
Described objective mould generation module is for the selected three-dimensional standard of three-dimensional Standard Module and amendment selecting certain specification
The characteristic parameter of one or more parts of mould with described f (x) the functional relationships assembly of three-dimensional Standard Module selected by changing, and
Objective mould is generated according to described f (x) the functional relationships assembly after changing;
Described mould parts configuration list generation module is clear for the mould parts configuration automatically generating described objective mould
Single;
Described two-dimensional mold assembly parts engineering drawing generation module is for automatically generating the two-dimensional mold dress of described objective mould
Accessory engineering drawing.
Ceramic tile Design of Dies software system the most according to claim 1, it is characterised in that: described three-dimensional Standard Module
Module includes that three-dimensional mould chamber number selects submodule, and described three-dimensional mould chamber number selects submodule to have different cavity number for storage
The three-dimensional Standard Module collection establishing mathematical model;
Described three-dimensional mould chamber number selects submodule to include, and mould specification selects unit, described mould specification selection unit to be used for depositing
Store up the three-dimensional Standard Module establishing mathematical model of different size under the three-dimensional Standard Module collection of same chamber number.
Ceramic tile Design of Dies software system the most according to claim 1, it is characterised in that: also include Standard Module zero
Part personalized designs module, the outfan of described Standard Module part personalized designs module generates with described objective mould
The input electrical connection of module, described Standard Module part personalized designs module is for the described three-dimensional Standard Module selected
Part carry out personalized designs, obtain personalized goal mould parts, and described personalized goal mould parts increased to
In selected three-dimensional Standard Module, thus generate the three-dimensional Standard Module of personalization.
Ceramic tile Design of Dies software system the most according to claim 1, it is characterised in that: described objective mould
Generation module includes that objective mould optimization submodule, described objective mould optimization submodule are used for finely tuning described three-dimensional
The characteristic parameter of one or more parts of target mould is to optimize the structure of described objective mould, and generates three-dimensional optimized
Target mould;
Described mould parts configuration list generation module is additionally operable to according to described three-dimensional optimized target mould, automatically adjusts described mould
Tool part configuration list;
Described two-dimensional mold assembly parts engineering drawing generation module is additionally operable to, according to described three-dimensional optimized target mould, automatically adjust institute
State two-dimensional mold assembly parts engineering drawing.
5. according to the method for designing of the ceramic tile Design of Dies software system described in Claims 1-4 any one, its feature
It is, comprises the following steps:
Step 1, selects three-dimensional Standard Module: select mold cavity number from described three-dimensional Standard Module module;Select with quantity chamber
The specification in several lower each chambeies, the three-dimensional Standard Module selected by generation;
Step 2, by one or many of three-dimensional Standard Module selected in described objective mould generation module set-up procedure 1
The characteristic parameter of individual part, then in selected three-dimensional Standard Module, topological relation between each part changes and then causes
In selected three-dimensional Standard Module, the characteristic parameter of remaining parts changes, and the most described f (x) functional relationships assembly changes;
Then, generate new three-dimensional mould according to described f (x) the functional relationships assembly after changing, i.e. generate objective mould;
Step 3, the objective mould that described mould parts configuration list generation module generates according to step 2, it is right to automatically generate
The mould parts configuration list answered;
Step 4, described two-dimensional mold assembly parts engineering drawing generation module is according to the objective mould generated in step 2, automatically
Generate corresponding two-dimensional mold assembly parts engineering drawing.
The method for designing of ceramic tile Design of Dies software system the most according to claim 5, it is characterised in that: described step
Described f (x) functional relationships assembly is drawn by CATIA application platform, UG application platform or Solidwork application platform in rapid 2
Optimal solution, i.e. draws the solution of the rational position relation of each part in mould;According to described f (x) the functional relationships assembly drawn
Optimal solution generate corresponding described objective mould.
The method for designing of ceramic tile Design of Dies software system the most according to claim 5, it is characterised in that described step
In rapid 1, the system of selection of three-dimensional Standard Module is: according to production requirement first from the three-dimensional mould of described three-dimensional Standard Module module
Chamber number selects submodule to select the three-dimensional Standard Module collection that required chamber number is corresponding, then selects Unit selection from corresponding mould specification
The three-dimensional Standard Module that required specification is corresponding.
The method for designing of ceramic tile Design of Dies software system the most according to claim 5, it is characterised in that: also include
Step 5, by one or more parts of the objective mould that described step 2 is generated by objective mould optimization submodule
Characteristic parameter be finely adjusted, optimize objective mould structure, generate three-dimensional optimized target mould.
The method for designing of ceramic tile Design of Dies software system the most according to claim 8, it is characterised in that: also include
Step 6, the three-dimensional optimized target mould generated according to step 5, the mould parts configuration list of automatic setting procedure 3 and step 4
Two-dimensional mold assembly parts engineering drawing.
The method for designing of ceramic tile Design of Dies software system the most according to claim 5, it is characterised in that: described
Step 1 designs and generates personalized goal mould always according to production requirement by described Standard Module part personalized designs module
Tool part, and generate part configuration list and the two-dimensional mold assembly parts engineering drawing of personalized goal mould parts, then by institute
State personalized goal mould parts and increase in selected three-dimensional Standard Module, thus generate the described three-dimensional master die of personalization
Tool.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610675400.1A CN106295032B (en) | 2016-08-16 | 2016-08-16 | A kind of ceramic tile mold design software systems and its design method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610675400.1A CN106295032B (en) | 2016-08-16 | 2016-08-16 | A kind of ceramic tile mold design software systems and its design method |
Publications (2)
Publication Number | Publication Date |
---|---|
CN106295032A true CN106295032A (en) | 2017-01-04 |
CN106295032B CN106295032B (en) | 2019-08-02 |
Family
ID=57678599
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610675400.1A Active CN106295032B (en) | 2016-08-16 | 2016-08-16 | A kind of ceramic tile mold design software systems and its design method |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN106295032B (en) |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107491610A (en) * | 2017-08-22 | 2017-12-19 | 重庆创速工业有限公司 | Car panel die intelligent design system and design method |
CN108388676A (en) * | 2018-03-27 | 2018-08-10 | 广东工业大学 | A kind of mold data matching process, apparatus and system based on simulated annealing |
CN108763762A (en) * | 2018-05-30 | 2018-11-06 | 荆楚理工学院 | A kind of design of ceramic products system based on Computerized three-dimensional |
CN109344495A (en) * | 2018-09-05 | 2019-02-15 | 重庆创速工业有限公司 | A kind of Intelligentized design method and its system of 3 D stereo industrial products |
CN109376397A (en) * | 2018-09-05 | 2019-02-22 | 重庆创速工业有限公司 | A kind of Intelligentized design method and its system of three-dimensional mould |
CN111428362A (en) * | 2020-03-24 | 2020-07-17 | 鞍山市和丰耐火材料有限公司 | Die design template of refractory product and method for automatically accounting die cost |
CN117725642A (en) * | 2023-12-29 | 2024-03-19 | 重庆宇海精密制造股份有限公司 | Dynamic modeling method and device for pen electric die design |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1841386A (en) * | 2005-03-28 | 2006-10-04 | 陈金德 | Parametered assembly and design of three-dimensional mould structure and automatic dimension labeling method for two-dimensional figure |
CN101398865A (en) * | 2008-06-05 | 2009-04-01 | 浙江工业大学 | System and method for designing aerial fog jug forming and punching mold |
CN101763454A (en) * | 2010-01-21 | 2010-06-30 | 金龙联合汽车工业(苏州)有限公司 | Method for full-parameter quick three-dimensional modeling and generation of title block |
CN103955577A (en) * | 2014-04-24 | 2014-07-30 | 金丰(中国)机械工业有限公司 | Computer automatic design method for mechanical equipment |
-
2016
- 2016-08-16 CN CN201610675400.1A patent/CN106295032B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1841386A (en) * | 2005-03-28 | 2006-10-04 | 陈金德 | Parametered assembly and design of three-dimensional mould structure and automatic dimension labeling method for two-dimensional figure |
CN101398865A (en) * | 2008-06-05 | 2009-04-01 | 浙江工业大学 | System and method for designing aerial fog jug forming and punching mold |
CN101763454A (en) * | 2010-01-21 | 2010-06-30 | 金龙联合汽车工业(苏州)有限公司 | Method for full-parameter quick three-dimensional modeling and generation of title block |
CN103955577A (en) * | 2014-04-24 | 2014-07-30 | 金丰(中国)机械工业有限公司 | Computer automatic design method for mechanical equipment |
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107491610A (en) * | 2017-08-22 | 2017-12-19 | 重庆创速工业有限公司 | Car panel die intelligent design system and design method |
CN107491610B (en) * | 2017-08-22 | 2019-02-26 | 重庆创速工业有限公司 | Car panel die intelligent design system and design method |
CN108388676A (en) * | 2018-03-27 | 2018-08-10 | 广东工业大学 | A kind of mold data matching process, apparatus and system based on simulated annealing |
CN108763762A (en) * | 2018-05-30 | 2018-11-06 | 荆楚理工学院 | A kind of design of ceramic products system based on Computerized three-dimensional |
CN109344495A (en) * | 2018-09-05 | 2019-02-15 | 重庆创速工业有限公司 | A kind of Intelligentized design method and its system of 3 D stereo industrial products |
CN109376397A (en) * | 2018-09-05 | 2019-02-22 | 重庆创速工业有限公司 | A kind of Intelligentized design method and its system of three-dimensional mould |
CN109376397B (en) * | 2018-09-05 | 2023-11-03 | 成都数模码科技有限公司 | Intelligent design method and system for three-dimensional mold |
CN111428362A (en) * | 2020-03-24 | 2020-07-17 | 鞍山市和丰耐火材料有限公司 | Die design template of refractory product and method for automatically accounting die cost |
CN111428362B (en) * | 2020-03-24 | 2023-05-12 | 鞍山市和丰耐火材料有限公司 | Mold design template of refractory product and method for automatically accounting mold cost |
CN117725642A (en) * | 2023-12-29 | 2024-03-19 | 重庆宇海精密制造股份有限公司 | Dynamic modeling method and device for pen electric die design |
CN117725642B (en) * | 2023-12-29 | 2024-06-28 | 重庆宇海精密制造股份有限公司 | Dynamic modeling method and device for pen electric die design |
Also Published As
Publication number | Publication date |
---|---|
CN106295032B (en) | 2019-08-02 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106295032B (en) | A kind of ceramic tile mold design software systems and its design method | |
CN107491610B (en) | Car panel die intelligent design system and design method | |
CN108229085A (en) | computer simulation analysis system and method | |
CN105138780A (en) | Device for rapidly establishing three-dimensional building information model | |
CN109344497B (en) | Design implementation method of die foundation body | |
CN101763066B (en) | Management method of numerical control machining tool typical parts of complex parts of airplane | |
CN108108581A (en) | A kind of Fixture Design manufacturing integration system and method based on MBD | |
CN103631981B (en) | The modeling body that design is represented by depth elements | |
CN103914601A (en) | Near-net forming die digitalized design system and method based on UG NX software | |
CN103869755B (en) | A kind of machining code feed speed that adjusts is to ensure the method that lathe output is smooth | |
CN107392998A (en) | A kind of process design method and system based on threedimensional model | |
CN105844067A (en) | Method for obtaining automatic processing data of welding variable groove of hull curve plate | |
CN102608919A (en) | Stamping single-station production simulating and verifying method | |
CN106570303A (en) | User defined feature-based wallboard part MBD procedure model designing method | |
CN106600700A (en) | Three-dimensional model data processing system | |
CN109739490A (en) | Quick electrical component model creating method based on QT graph framework | |
CN107066644B (en) | Automatic modeling method for special-shaped suspended ceiling | |
CN104217273A (en) | Characteristic management method for spacecraft three-dimensional digital model | |
CN113505424B (en) | Interactive construction method for derived component of linear engineering | |
Hu | Application of AutoCAD's 3D modeling function in industrial modeling design | |
CN107729703B (en) | Sketch Up workshop process design method based on Ruby language | |
CN103902750A (en) | Design method for achieving parameterized three-dimensional modeling and two-dimensional diagram conversion of parts similar to main part | |
CN106326563A (en) | Automotive interior and exterior ornament high-efficiency design method | |
CN102479257A (en) | Design and implementation method of intelligent numerical control machine tool | |
CN106294968B (en) | Tyre tread 3d designing system and its method based on Engineering Semantics interactive mode |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant | ||
EE01 | Entry into force of recordation of patent licensing contract | ||
EE01 | Entry into force of recordation of patent licensing contract |
Application publication date: 20170104 Assignee: FOSHAN TAIGANG CNC PRECISION MACHINE TOOL Co.,Ltd. Assignor: FOSHAN SHIWAN CERAMICS INDUSTRY RESEARCH INSTITUTE Co.,Ltd. Contract record no.: X2021440000116 Denomination of invention: A software system for ceramic tile mold design and its design method Granted publication date: 20190802 License type: Common License Record date: 20210510 |