JP2013546071A5 - - Google Patents

Description

  The details of various embodiments of the invention are set forth in the accompanying drawings and the description below.
This specification provides the following items, for example.
(Item 1)
A method for creating a dynamically configurable product design comprising:
Creating a modular structure of a plurality of modules of a product design dynamically configurable by a user of a computer aided design (CAD) application executing on a processor of a computing device, the plurality of modules comprising at least one module With two variable modules,
Selecting a variant to be used in the dynamically configurable product design from a plurality of variants of the at least one variable module by the user;
Placing the selected variant in a geometric model of the dynamically configurable product design by the CAD application;
The CAD application modifies the positioning or geometric shape of a module adjacent to the placed selected variant in the geometric model in response to one or more constraints of the placed selected variant To do
Including the method.
(Item 2)
The method of item 1, wherein the modular structure comprises a tree of module relationships for product design.
(Item 3)
The method of item 1, wherein each module of the product design includes a locator interface or a shaper interface.
(Item 4)
The method of claim 1, wherein each variant of the plurality of variants of the at least one variable module includes a corresponding locator interface or shaper interface.
(Item 5)
The method of item 1, wherein the plurality of variants of the at least one variable module comprises a general variant.
(Item 6)
The method of claim 1, wherein selecting the variant comprises selecting a variant from a predetermined list of variants of the variable module presented by a product configuration tool by the user.
(Item 7)
Placing the selected variant in the geometric model includes replacing a previously used variant of the at least one variable module in the geometric model with the selected variant. The method according to 1.
(Item 8)
Modifying the positioning or geometry of a module adjacent to the placed selected variant so as to align the interface of the neighboring module with the corresponding interface of the placed selected variant The method of item 1, comprising modifying the positioning or geometry of adjacent modules.
(Item 9)
The one or more constraints of the placed selected variant define a rule for aligning a locator or shaper interface of an adjacent module with a corresponding locator or shaper interface of the placed selected variant. The method of item 1, comprising.
(Item 10)
The method of claim 1, wherein the dynamically configurable product design includes a history recipe for a CAD model feature-based geometry.
(Item 11)
A system for creating dynamically configurable product designs,
A computing device comprising a processor, the processor comprising:
A CAD application for creating a modular structure of a plurality of modules of a product design that is dynamically configurable by a user of a computer aided design (CAD) application, the plurality of modules comprising at least one variable module A CAD application,
A selection interface for selecting, by the user, a variant to be used in the dynamically configurable product design from a plurality of variants of the at least one variable module;
Placing the selected variant in a geometric model of the dynamically configurable product design, and in response to one or more constraints of the arranged selected variant, in the geometric model A geometry engine to modify the positioning or geometry of the module adjacent to the selected selected variant; and
A system that is configured to run.
(Item 12)
12. The system of item 11, wherein the modular structure comprises a tree of module relationships for product design.
(Item 13)
12. A system according to item 11, wherein each module of the product design includes a locator interface or a shaper interface.
(Item 14)
12. The system of item 11, wherein each variant of the plurality of variants of the at least one variable module includes a corresponding locator interface or shaper interface.
(Item 15)
12. The system of item 11, wherein the plurality of variants of the at least one variable module comprises a general variant.
(Item 16)
12. The system of item 11, wherein selecting the variant includes selecting a variant from a predetermined list of variants of the variable module presented by a product configuration tool by the user.
(Item 17)
Placing the selected variant in the geometric model includes replacing a previously used variant of the at least one variable module in the geometric model with the selected variant. 11. The system according to 11.
(Item 18)
Modifying the positioning or geometry of a module adjacent to the placed selected variant so as to align the interface of the neighboring module with the corresponding interface of the placed selected variant 12. A system according to item 11, comprising modifying the positioning or geometry of adjacent modules.
(Item 19)
The one or more constraints of the placed selected variant define a rule for aligning a locator or shaper interface of an adjacent module with a corresponding locator or shaper interface of the placed selected variant. 12. The system according to item 11, comprising.
(Item 20)
12. The system of item 11, wherein the dynamically configurable product design includes a history recipe for a feature-based geometry of a CAD model.
(Item 21)
A computer aided design (CAD) system,
A computing device comprising a processor, the processor comprising:
A parametric geometry engine for creating feature-based geometry history recipes for CAD objects;
A direct modeling user interface for modifying the geometry of the CAD object, wherein the CAD object history and parametric features are hidden from a user of the direct modeling user interface;
Is configured to run,
system.
(Item 22)
The parametric geometry engine is configured to interpret modifications to the CAD object geometry in the direct modeling user interface as creating or modifying parametric features in the historical recipe. system.
(Item 23)
23. The system of item 22, wherein the created or modified parametric feature in the historical recipe is dependent on a second previous parametric feature in the historical recipe.
(Item 24)
24. The system of item 23, wherein the created or modified parametric features in the historical recipe are dependent on the second previous parametric features in the historical recipe in response to the order of creation of the parametric features. .
(Item 25)
The created or modified parametric feature in the historical recipe is responsive to an implicit constraint between the created or modified parametric feature and the second previous parametric feature in the historical recipe. 24. A system according to item 23, dependent on a second previous parametric feature.
(Item 26)
26. The system of item 25, wherein the created or modified parametric feature is a child of the second previous parametric feature.
(Item 27)
The parametric geometry engine is configured to play the created or modified parametric feature in response to the second previous parametric feature modification, and the direct modeling user interface is the played back 24. The system of item 23, configured to display parametric features that have been created or modified.
(Item 28)
24. A system according to item 22, wherein the created or modified parametric features include conventional parametric features.
(Item 29)
23. The system of item 22, wherein the created or modified parametric feature comprises a flex move parametric feature or a flex move copy parametric feature.
(Item 30)
The parametric geometry engine is
Identifying symmetrical geometric elements of the CAD object created in the direct modeling user interface;
Creating parametric flexible symmetric features representing associations between symmetric geometric elements of the CAD object;
The system of item 21, wherein the system is configured to perform:
(Item 31)
The parametric geometry engine is
Identifying a pattern of a plurality of geometric elements of the CAD object created in the direct modeling user interface;
Creating a parametric flexible pattern feature representing a pattern association between the plurality of geometric elements of the CAD object;
The system of item 21, wherein the system is configured to perform:
(Item 32)
The processor executes the user interface to review and accept or reject each of a plurality of modifications to the CAD model made by a user of the direct modeling user interface by a user of the user interface. Item 22. The system according to Item 21, further configured.
(Item 33)
The parametric geometry engine is a user of the user interface for reviewing to accept or reject the plurality or one modification made to a first CAD object by the user of the direct modeling user interface. Is configured to recalculate the geometry of the second CAD object of the CAD model in response to rejection by the second CAD object, wherein the second CAD object is the second in the history recipe of feature-based geometry. 33. A system according to item 32, wherein the system has a subordinate relationship to one CAD object.
(Item 34)
A method of using a computer aided design (CAD) system, comprising:
Modifying the geometry of a CAD object by a user of a direct modeling user interface provided by a CAD application executing on a processor of a computing device;
Creating a historical recipe for feature-based geometric shapes of CAD objects by the parametric geometry engine of the CAD application;
Including
The method wherein the CAD object's history and parametric features are hidden from the user of the direct modeling user interface.
(Item 35)
35. Item 34, further comprising interpreting, by the parametric geometry engine, modifications to the CAD object geometry by the user in the direct modeling user interface as creation or modification of parametric features in the historical recipe. the method of.
(Item 36)
The created or modified parametric feature in the historical recipe is dependent on a second previous parametric feature in the historical recipe, the method comprising:
Replaying the created or modified parametric feature by the parametric geometry engine in response to modification of the second previous parametric feature;
Displaying the reproduced created or modified parametric features by the direct modeling user interface;
36. The method of item 35, further comprising:
(Item 37)
36. The method of item 35, wherein the created or modified parametric feature comprises a flex move parametric feature or a flex move copy parametric feature.
(Item 38)
Identifying symmetric geometric elements of the CAD object created in the direct modeling user interface by the parametric geometry engine;
Creating, by the parametric geometry engine, parametric flexible symmetric features representing associations between symmetric geometric elements of the CAD object;
35. The method of item 34, further comprising:
(Item 39)
Identifying a pattern of a plurality of geometric elements of the CAD object created in the direct modeling user interface by the parametric geometry engine;
Creating, by the parametric geometry engine, parametric flexible pattern features representing pattern associations between the plurality of geometric elements of the CAD object;
35. The method of item 34, further comprising:
(Item 40)
35. The method of item 34, further comprising: reviewing each of a plurality of modifications to the CAD model performed by a user of the direct modeling user interface by a user of the CAD application parametric modeling user interface to accept or reject. Method.
(Item 41)
In response to a rejection of a modification made to the first CAD object by the user of the direct modeling user interface by the user of the parametric modeling user interface, the parametric geometry engine causes the Recalculating the geometry of two CAD objects, wherein the second CAD object has a dependency relationship of the feature-based geometry to the first CAD object in the historical recipe; 41. A method according to item 40.
(Item 42)
A method of dynamically loading multiple parts of a computer aided design (CAD) model on demand, comprising:
Loading a first part of a CAD model by a CAD application executed by a processor of a computing device, the first part comprising: (i) a module structure of the CAD model; and (ii) the module Comprising graphics and geometry data of a first element of the structure;
Selecting a second element of the module structure by a user of the CAD application;
Loading a second part of the CAD model in response to the selection by the CAD application, the second part comprising: (i) a modular structure of the selected second element; (Ii) graphics and geometry data of the selected second element;
Including the method.
(Item 43)
Loading the graphics and geometry data of the first element identifies one or more visible or external surfaces of the first element and the identified visible or external of the first element 43. The method of item 42, further comprising loading surface graphics and geometry data.
(Item 44)
43. The method of item 42, wherein loading the first element graphics and geometry data further comprises loading one or more location interfaces or shaper interfaces of the first element.
(Item 45)
Loading the graphics and geometry data of the selected second element identifies one or more visible or external surfaces of the second element and the identified of the second element 43. The method of item 42, further comprising loading visible or external surface graphics and geometry data.
(Item 46)
43. Loading the selected second element graphics and geometry data further comprises loading one or more location interfaces or shaper interfaces of the second element. the method of.
(Item 47)
43. The method of item 42, wherein selecting the second element further comprises adding the second element to the modular structure.
(Item 48)
One or more of the geometric data of the third element of the modular structure to define constraints on the geometric data of the first element or the second element by the user of the CAD application. Selecting an item,
Loading the selected one or more items of geometric data of the third element in response to the selection by the CAD application;
The method of item 42, further comprising:
(Item 49)
Loading the selected one or more items of geometry data of the third element includes not loading unselected items of geometry data of the third element. The method described.
(Item 50)
Selecting a third element of the module structure by the user of the CAD application, the third element not directly related to the second element in the module structure;
Loading a third part of the CAD model in response to the selection by the CAD application, the third part comprising: (i) a modular structure of the selected third element; (Ii) comprising graphics and geometry data of the selected third element;
The method of item 42, further comprising:
(Item 51)
Unloading the second part of the CAD model in response to the CAD application not responding directly to the second element in the modular structure. 51. A method according to item 50.
(Item 52)
A system for dynamically loading multiple parts of a computer-aided design (CAD) model on demand,
A computing device comprising a processor, the processor configured to execute a CAD application;
A user interface of the CAD application for the user to select a first element of the modular structure of the CAD model;
A geometry engine for the CAD application, wherein the geometry engine is
Loading a first part of the CAD model, the first part comprising: (i) a modular structure of the CAD model; and (ii) graphics and geometry of a second element of the modular structure. With geometric shape data,
In response to selection by the user, loading a second part of the CAD model, the second part comprising: (i) a modular structure of the selected first element; and (ii) And) graphics and geometry data of the selected first element;
Is configured to do the geometric shape engine and
System.
(Item 53)
The geometry engine identifies one or more visible or exterior surfaces of the second element and loads the identified visible or exterior surface graphics and geometry data of the second element. 53. The system of item 52, further configured as follows.
(Item 54)
53. The system of item 52, wherein the geometry engine is further configured to load one or more location interfaces or shaper interfaces of the second element.
(Item 55)
The geometry engine identifies one or more visible or exterior surfaces of the first element and loads the identified visible or exterior surface graphics and geometry data of the first element. 53. The system of item 52, further configured as follows.
(Item 56)
53. The system of item 52, wherein the geometry engine is further configured to load one or more location interfaces or shaper interfaces of the first element.
(Item 57)
53. The system of item 52, wherein the geometry engine is further configured to add the first element to the modular structure.
(Item 58)
The user interface is configured to define geometry data of the third element of the modular structure by the user of the CAD application to define constraints on the geometry data of the first element or the second element. Used to select one or more items,
The geometry engine is further configured to load the selected one or more items of geometry data of the third element in response to the selection;
53. The system according to item 52.
(Item 59)
59. The system of item 58, wherein the geometry engine is further configured to not load unselected items of geometry data for the third element.
(Item 60)
The user interface is used by the user of the CAD application to select a third element of the modular structure, the third element being directly related to the first element in the modular structure Without
The geometry engine is further configured to load a third portion of the CAD model in response to the selection, the third portion comprising: (i) the selection of the selected third element; 53. The system of item 52, comprising a module structure and (ii) graphics and geometry data of the selected third element.
(Item 61)
The geometry engine is further configured to unload the second portion of the CAD model in response to the third element not directly related to the second element in the modular structure. The system of item 60, wherein the system is configured.
(Item 62)
A computer aided design (CAD) system comprising a computing device comprising a processor, the processor comprising:
A parametric geometry engine for creating feature-based geometry history recipes for CAD objects;
A parametric modeling user interface for creating feature constraints for the CAD object by a first user;
A direct modeling user interface, the direct modeling user interface for attempting to modify the CAD object by a second user of the direct modeling user interface, wherein the CAD object history and parametric features are A direct modeling user interface hidden from the second user and
Is configured to run
The parametric geometry engine is configured to enforce the feature constraints in the direct modeling user interface in response to the second user attempting to modify the geometry.
system.
(Item 63)
The parametric geometry engine is configured to interpret modifications to the CAD object geometry in the direct modeling user interface as creating or modifying parametric features in the historical recipe. system.
(Item 64)
The system of item 62, wherein the feature constraints include geometric constraints.
(Item 65)
63. A system according to item 62, wherein the feature constraints include engineering constraints.
(Item 66)
64. The system of item 62, wherein attempting to modify the CAD object comprises attempting to modify a geometry of the CAD object or a feature of the CAD object.
(Item 67)
63. The system of item 62, wherein attempting to modify the CAD object comprises attempting to modify product information of the CAD object or product information of the CAD object or a CAD object characteristic of the CAD object.
(Item 68)
The parametric geometry engine is configured to prevent or reject the attempted modification to the CAD object in response to the second user attempting to modify the geometry; 63. The system according to item 62.
(Item 69)
Item 69. The parametric geometry engine is configured to allow the second user to override or modify the feature constraint in the direct modeling user interface. system.
(Item 70)
Enforcing the feature constraint in the direct modeling user interface is modifying the CAD object in the direct modeling user interface in response to the second user invalidating or modifying the feature constraint. 70. The system of item 69, comprising enabling.
(Item 71)
The parametric geometry engine is configured to prevent or reject the attempted modification to the CAD object in response to the second user lacking permission to modify the geometry. 63. The system of item 62.
(Item 72)
A method for enforcing constraints in a computer-aided design (CAD) system,
Creating a feature constraint for a CAD object by a first user of a parametric modeling user interface of a CAD application executed by a processor of a computing device, wherein the CAD object stores a feature-based geometric history recipe Including,
An attempt to modify the CAD object by a second user of the direct modeling user interface of the CAD application, wherein the CAD object history and parametric features are obtained from the second user in the direct modeling user interface. That it ’s hidden,
In response to the second user attempting to modify the geometry, the parametric modeling engine of the CAD application obeys the feature constraints in the direct modeling user interface;
Including the method.
(Item 73)
73. The method of item 72, further comprising interpreting, by the parametric geometry engine, modifications to the CAD object geometry in the direct modeling user interface as creating or modifying parametric features in the historical recipe.
(Item 74)
73. The method of item 72, wherein the feature constraints include geometric constraints.
(Item 75)
73. A method according to item 72, wherein the feature constraint includes an engineering constraint.
(Item 76)
73. The method of item 72, further comprising attempting to modify a geometry of the CAD object or a feature of the CAD object by the second user of the direct modeling user interface.
(Item 77)
73. The method of item 72, further comprising attempting to modify product information or characteristics of the CAD object by the second user of the direct modeling user interface.
(Item 78)
72. further comprising preventing or rejecting the attempted modification to the CAD object by the parametric geometry engine in response to the second user attempting to modify the geometry. The method described in 1.
(Item 79)
79. The method of item 78, further comprising allowing the second user to override or modify the feature constraint in the direct modeling user interface by the parametric geometry engine.
(Item 80)
Further enabling the parametric geometry engine to modify the CAD object in the direct modeling user interface in response to the second user invalidating or modifying the feature constraint. 80. The method of item 79, comprising.
(Item 81)
75. The system of item 72, further comprising preventing or rejecting by the parametric geometry engine in response to the second user lacking permission to modify the geometry.

Claims (11)

A method for creating a dynamically configurable product design comprising:
Via a computer-aided design (CAD) application running on a processor of a computing device, the method comprising: creating a modular structure comprising a plurality of modules of dynamically configurable product design, wherein the plurality of modules, at least With one variable module,
Providing a plurality of predetermined variants of the at least one variable module for selection by a user;
Before Symbol identifying the selected variant selected by the user from at least one of said plurality of predetermined variants of the variable module, comprising: receiving an input from the user, the selected variant, the handle It has, and
Automatically placing the selected variant in the dynamically configurable geometric model of the product design by the processor ;
By said handle, and a triggering parametric geometry engine to correct the positioning or geometry of the module adjacent to the placed selected variant in said geometric model in accordance with said handle, the method .   The method of claim 1, wherein the modular structure comprises a tree of module relationships for product design.   The method of claim 1, wherein each module of the product design includes a locator interface or a shaper interface.   The method of claim 1, wherein each variant of the plurality of variants of the at least one variable module includes a corresponding locator interface or shaper interface.   The method of claim 1, wherein the plurality of variants of the at least one variable module comprises a general variant. Wherein the plurality of predetermined Varian metropolitan, Ru presented by product configuration tool, the method according to claim 1. Wherein placing the selected variant within the geometric model is seen containing the substitution with the geometric model at least one previous variants used in said selected variants of the variable module within the, The method of claim 1, wherein the selected variant is positioned such that a locator or shaper interface of an adjacent module is aligned with a corresponding locator or shaper interface of the selected selected variant .   Modifying the positioning or geometry of a module adjacent to the placed selected variant so as to align the interface of the neighboring module with the corresponding interface of the placed selected variant The method of claim 1, comprising modifying the positioning or geometry of adjacent modules. The method of claim 1, wherein the handle is a locator handle or a shaper handle.   The method of claim 1, wherein the dynamically configurable product design comprises a CAD model feature-based geometric history recipe. A system programmed to implement the process of claims 1-10 .