DE10317985A1 - Method for computer-aided design (CAD) of components and component systems e.g. for cabinets, has modules, and sub-modules or individual components related to reference figure inserted in components system - Google Patents

Abstract

A method for computer-aided design (CAD) of components and component systems with modules, sub-modules or individual parts in a component system, and where (1.1) the module, sub-module, or the individual components, is related to a reference figure (1.2) which is inserted with the referenced modules etc into a components system, (1.3) and is related to a reference figure in the component system (1.4) which is related to the elements of the component system. An independent claim is included for a CAD system.

Description

The The invention relates to a method for computer-aided design of components and component systems.

(This So far, procedure has been for the CAD software (CAD = Computer-Aided Design) SolidWorks realized.)

Computer-aided design and constructing, due to its significant economic Advantages in many areas of planning, presentation and production used. Assemblies can created virtually and checked and optimized for function, statics, design etc. without having to build numerous real test models. manufacturing machines can be controlled with the data from virtual models, so that a flexible automatic manufacturing is possible.

The inventive method aims to parts, assemblies and subassemblies (in the following collectively referred to as component system components) more flexible and to save time in construction.

• a) Bauteilsystemkomponenten sollen automatisch in ein Bauteilsystem einfügbar sein
• b) Die eingefügten Bauteilsystemkomponenten sollen sich in ihrer Form und Größe automatisch einer vordefinierten Figur anpassen
• c) Die eingefügten Bauteilsystemkomponenten sollen parametrisch ins Bauteilsystem eingebunden sein.
• d) Bei den einzufügenden Bauteilsystemkomponenten soll die Anzahl der parametrisch einzubindenden geometrischen Elemente, die die Außenform der Bauteilsystemkomponenten bestimmen, variabel sein können.
• e) Bei den einzufügenden Bauteilsystemkomponenten soll die Möglichkeit bestehen weitere Bauteilsystemkomponenten einzufügen.
• f) Für die einzufügenden Bauteilsystemkomponenten soll nach Festlegung der Bewegungsfunktion (unbeweglich, dreh- oder schiebbar) die Verknüpfung automatisch erfolgen.

The procedure should perform the following tasks:

• a) Component system components should be automatically insertable into a component system
• b) The inserted component system components should automatically adapt in shape and size to a predefined figure
• c) The inserted component system components should be parametrically integrated into the component system.
• d) In the case of the component system components to be inserted, the number of geometric elements to be incorporated parametrically, which determine the external shape of the component system components, should be variable.
• e) With the component system components to be inserted, there should be the possibility of inserting further component system components.
• f) For the component system components to be inserted, the linkage should take place automatically after the movement function has been defined (immovable, rotatable or sliding).

The Component systems are built by inserting and Link of component system components. The link creates a geometric one Element (e.g. surface, Edge, point) of a component system component with a geometric Element of another component system component "connected". Between the two geometric elements a condition (e.g. congruent, parallel, distance) is defined. Conditions are assigned to the elements as long as until the desired one Assignment (fixed, swiveling or sliding) between the two to be linked Component system components is reached.

• Fall 1) Eine bereits eingefügte Komponente wird durch eine Kopie von sich selbst ersetzt. Die Elemente der Kopie besitzen die gleichen programminternen Benennungen, die zugeordnet werden können. Die Kopie kann hierbei z.B. eine Variante mit zusätzlichen Merkmalen sein, soweit die zu verknüpfenden Elemente erhalten bleiben.
• Fall 2) Die zu verknüpfenden Elemente erhalten vom Anwender eine Benennung. Dann dient die Benennung als Identifikationsmerkmal. Nach dieser Methode können beliebige Komponenten zugeordnet werden.

The link can be made automatically if the internal designation of the geometric elements is known, as in the following two cases.

• Case 1) A component that has already been inserted is replaced by a copy of itself. The elements of the copy have the same internal designations that can be assigned. The copy can, for example, be a variant with additional features, provided that the elements to be linked are retained.
• Case 2) The elements to be linked are given a name by the user. Then the designation serves as an identification feature. Any component can be assigned using this method.

The Disadvantage in case 1: the link of different types of component system components is not possible because the internal designation of the geometric elements changes.

The Disadvantage in case 2: The assignment is only made between two component system components, so the possibility consists of many component system components with a basic component automatically linkable But it is not possible to make the component system components can be combined with one another as required.

Another option is called the procedure in the published patent application DE 101 17 380 A1 described. The component system components can be combined using this method and are automatically assigned via the elements plane and axis, whereby the geometry data of the component system components are partly taken from templates and the final positioning is carried out manually using a distance parameter.

To this procedure will get all sorts usable component system components for their positioning same elements (plane and axis) and can therefore use the element type and / or their names are automatically linked.

at This method is based on the two-dimensional link Elements plane and axis and not as in the method according to the invention based on a 3-dimensional reference figure.

• – die Bauteilsystemkomponente automatisch parametrisch in das Bauteilsystem einzubinden
• – die Größe der Bauteilsystemkomponente dem Bauteilsystem automatisch anzupassen
• – die Bauteilsystemkomponente entsprechend ihrer Bewegungsfunktion automatisch zu verknüpfen

It is not with any of the procedures mentioned possible,

• - automatically integrate the component system component parametrically into the component system
• - automatically adjust the size of the component system component to the component system
• - to automatically link the component system component according to its movement function

the The task specified in claim 1 is the task underlying, most diverse component system components, which are more common in Component systems needed and their sizes are variable can be, if possible time-saving and flexible to insert into component systems. there should the size of the component system components from Component system dependent be, the entire component system remain parametric and the component system components depending on the chosen Movement function can be linked fixed or movable.

Solution:

This The object is according to the invention Computer Aided Process Construction of model components with the features of the claim 1 and a system with the features of claim 3 solved. advantageous Process variants are the subject of the subclaims.

at a method for computer-aided design of component system components according to the invention become the geometric elements of the component system components to be inserted referenced to reference figures that represent the external shape of the component system components determine. The size of the component system components is determined by referencing "controllable" by the reference figure. In the component system a second reference figure is used as a "placeholder" and on the component system geometry is referenced and parametrically "integrated" Reference figures derived from a basic reference figure are the Names of the geometric elements in all reference figures of the same type equal. Since the names of these elements are known, the Resizing, the parametric integration and a selectable movement function between two reference figures are done automatically.

The The advantage of this procedure lies in the extremely high flexibility with which Component system components can be automatically inserted and combined, whereby the component system remains parametric.

Component system components to be inserted can in turn contain additional reference figures, so that easily a lot of variants can be generated.

The inventive method can easily be added later be applied to existing component system components, so that these component system components are also flexible and automatic insertable become.

This Procedure allows automatic component system generation if the assignment is given Component system components for the corresponding reference figure in the component system is done.

The The advantages of the method according to the invention are as follows, because the construction of a reference figure (new) is introduced into the construction work.

The Reference figure is characterized by a geometric figure defining geometric elements such as Lines or edges, Points or corner points, planes or surfaces.

The Reference figure is used as a connecting element between component system components.

The geometric elements of the component system component to be controlled and the corresponding geometric elements of the controlling component system indirectly get a uniform name through this construction of the geometric elements necessary for an automatic process is essential.

Only one type of reference figure is used in the method according to the invention (see drawing 1 1 . 2 . 3 ), but basically different types of reference figures or a combination of several types of reference figures can be used. It is essential that when automatically inserting component system components, the naming of the geometric elements of the reference figures to be linked is known, and that the element types can be linked and parametrically related to one another.

The reference figure has a variable structure and can be expanded (as required) so that component system components with different geometrical elements to be controlled can also be inserted. As an example, the reference figure is shown in various stages of expansion in drawing 1 ( 1 . 2 . 3 ) and the component system components that can be referenced (other images).

The "controlling" reference figure of two with Reference figures to be connected must have at least as many geometric elements as are to be controlled in the “controlled” reference figure, but may have more geometric elements if the insertion of reference figures with several geometric elements to be controlled should also be possible.

The "controlling" reference figure can in addition to size the shape of the reference figure to be controlled and thus the basic shape the dependent Control component system components. The shape of the to be controlled Reference figure can only be changed in such a way that the edge lengths and the angles formed by the edges can be changed. This possibility exists only if the component system component dependent on the controlled reference figure is so flexible that its shape can also be changed is.

For fixing the movement function (slidable or rotatable) of a component system component the reference figures also contain a level and one sparks or line. The plane defines the plane of movement, the point the fulcrum or the line the direction of movement.

Become Component systems only assembled from reference figures, these can be combined with any to disposal standing component system components are connected so that old possible Combinations, after the assignment of component system components to Reference figure, can be generated automatically.

The inventive method is further described below using a construction example and the associated Drawings explained, wherein this illustration is for illustration only and Do not limit the invention to this should.

• – einen Schrankkorpus ohne Inneneinteilung
• – zwei Schrankinneneinteilungen bestehend aus Referenzfiguren
• – eine Auswahl an einfügbaren Bauteilsystemkompanenten, die bereits auf eine Referenzfigur referenziert sind

The construction example contains the following parts:

• - A cabinet body without interior division
• - Two cabinet divisions consisting of reference figures
• - A selection of insertable component system components that are already referenced to a reference figure

Drawing 1: Variants of a reference figure type ( 1 . 2 . 3 ) with different numbers of geometric elements (extensions) and the referenced component system components (cabinet components)

Drawing 2: Allocation of the cabinet interior division 1 ( 4 to 4.3 ) and the cupboard interior 2 ( 4.4 to 4.6 )

Drawing 3: Allocation of the cabinet components to the cabinet interior division ( 5 to 5.4 ) and assignment of the door panel to the cabinet component frame door ( 6 to 6.2 )

Drawing 1:

Perspective representation of variants of a reference figure type ( 1 . 2 . 3 ). The different extensions of a reference figure are necessary to be able to refer to the different cabinet components. For component system components with a simple basic shape such as shelves ( 1.1 ) or door panels ( 1.2 ) referencing to the base body of the reference figure is usually sufficient.

The drawer ( 2.1 ), however, requires an additional "extension" for the separate "control" of the panel part and box part.

The cabinet division 1 ( 3.1 ) and the cupboard interior 2 ( 3.2 ) have two "extensions" so that all component system components shown can be referenced.

Drawing 2 (above):

Illustration of the process steps in perspective. The cabinet body ( 4 ) is not integrated in a superordinate reference figure and is the controlling component system for all component system components to be inserted. In the cabinet interior of the cabinet body, a reference figure is parametrically "integrated" (not shown), ie it is referenced to the cabinet interior geometry, so that a change in the cabinet dimensions would also "adapt" the reference figure.

The first thing that becomes part of the cabinet body is the component system component of the cabinet interior 2 ( 4.1 ) assigned ( 4.2 ) and adjusted in size ( 4.3 ). The component system component for interior cabinet division 2 consists of a total of six reference figures, a frame-forming reference figure (not shown), compartment (a) top left, partition, compartment (b) top right, shelf and compartment (c) bottom. The frame-forming reference figure "controls" all other reference figures when the size is changed.

The assignment of interior cabinet division 2 to the cabinet body is done by the frame-forming reference figure of the cabinet interior 2 is linked to the reference figure of the cabinet interior (fixed movement function) and is referenced to it. The referencing means that all reference figures that are referenced on the frame-forming reference figure of the cabinet interior division now depend on the geometry of the cabinet interior.

Drawing 2 (below):

The adapted reference figure 4.3 (b) which is the lower compartment of the cabinet interior 2 forms, the frame-forming reference figure (not shown) of interior division 1 assigned ( 4.5 ) and adjusted in size ( 4.6 ). Also with the interior division 1 all reference figures are referenced to the frame-forming reference figure, so that the subordinate reference figures are also adapted when the frame-forming reference figure is changed. The size distribution of the 3 compartments and 2 shelves within the frame-forming reference figure is determined via parameters.

The Subdivision of the cabinet interior can continue as long until the desired cabinet division is reached.

Drawing 3 (above):

In the closet interior ( 5 ) a total of 12 reference figures are now inserted, which are only used for automatic control. A cabinet component could be assigned to each of these reference figures. Since some of the reference figures lie one inside the other, only the reference figures are assigned a cabinet component that represents a compartment or a shelf. In the same way as the cabinet divisions were assigned, the cabinet components drawer ( 5.2 ), Door ( 5.3 ), and the shelf ( 5.1 ) assigned. 5.4 shows the cabinet body with the inserted cabinet components, which were inserted according to their movement function. The cabinet components can also consist of more complex assemblies.

The pasted Component system components can in turn contain further reference figures.

Drawing 3 (below):

The frame doors ( 6 ) a certain door panel ( 6.1 ) which is also adjusted in size after positioning.

The finished component system ( 6.2 ) is parametric, the external dimensions of the component system as well as all parameters defined in a reference figure that are not controlled via geometric relationships can be changed via parameters.

at of change of a parameter would all depend on it Adjust component system components.

Claims (3)

Process for the computer-aided construction of components and component systems in which assemblies, subassemblies or individual parts inserted into a component system are characterized in that 1.1 the assembly, sub-assembly or the individual part is referenced to a reference figure is 1.2 this reference figure with the assembly referenced on it, Subassembly or the individual part is inserted into a component system 1.3 and is referenced to a reference figure in the component system that 1.4 is referenced to elements of the component system Method according to claim 1, characterized in that 2.1 the reference figures mentioned in method steps 1.1 and 1.3 are reference bodies, which 2.1.1 can additionally be determined by dimension parameters 2.1.2 contain further geometric reference elements and dimension parameters for establishing a movable connection to other reference figures 2.2 the assembly, subassembly or individual part can be referenced to the reference figure, in accordance with method step 1.1, in such a way that 2.2.1 the position of the assembly, subassembly or individual part corresponds to the position of the reference figure 2.2.2 if the reference figure changes in size the assembly, subassembly of all individual parts referenced to its elements is changed in the same ratio without changing the figure-defining angles 2.2.3 if the reference figure changes shape, the shape of the assembly, subassembly or individual part is changed in the same way 2.3 the reference figure is referenced to elements of the component system in accordance with method step 1.4 in such a way that 2.3.1 the position of the reference figure in the component system is clearly determined 2.3.2 when the elements of the component system to which the reference figure is referenced change in size, the Reference figure is changed in the same ratio without changing the figure-defining angles 2.3.3 if the elements of the component system to which the reference figure is referenced changes shape, the reference figure is changed in the same way 2.4 the referencing (reference) of the reference figure of the assembly, Subassembly or item to the reference figure of the component system, according to method step 1.3, in such a way that 2.4.1 in the case of the fixed (immovable) connection between the two reference figures, the position of the reference figure of the assembly, subassembly or individual part corresponds to the position of the reference figure in the component system 2.4.2 a movable connection between the two reference figures, the position of the corresponding reference elements is fixed (unambiguously) to one another 2.4.3 when the reference figure of the component system is changed in size, the reference figure referenced to its elements is changed in the same ratio with the assembly, subassembly or individual part referenced to it, without changing the figure-defining angles 2.4.4 when changing the figure-determining angles of the reference figure of the component system, the figure of the reference figure referenced to its elements with the assembly, subassembly or individual part referenced is changed in the same way approx. System for the computer-aided construction of components and component systems, in particular for carrying out a method according to one of the claims 1 to 2, the system being a computer with a storage device and peripherals having, with a device for determining the position, the shape, the size and the Movement function of assemblies, subassemblies or individual parts, comprehensive on Means for determining the reference figure a means of referencing of reference figures a means of defining dimension parameters.