DE102007013499A1 - Technical object e.g. tool, constructing method for automotive engineering application, involves storing geometry data and information of variant of standard part or standard part family in variant-data set integrated into object-data set - Google Patents

Abstract

The method involves storing an object-data set for a technical object e.g. tool, that is to be constructed, where given data of the object are stored in the object-data set. A specialized variant-data set is produced based on a standard part-data set during an integration of a variant of a standard part or a standard part family into the technical object. Geometry data and relevant additional information of the variant of the standard part or the standard part family are stored in the variant-data set. The variant data set is integrated into the object-data set of the object.

Description

The The invention relates to a methodology for constructing a technical subject including standard parts (eg. B. standard, purchased and repeat parts) according to the preamble of the claim 1.

In the construction of technical objects, in particular assemblies such as manufacturing equipment and systems for the automotive industry has become a comprehensive standardization tool in recent years for the Use of certain parts, such as B. Purchase, standard and repetitive parts and in the design of functional geometries (eg clamping slots for a press connection) reached. An important task in the design is therefore the selection of standard parts or standard geometries and their Installation or positioning in the technical to be constructed objects (eg for the exam or Manufacture of motor vehicles).

By the use of modern computer-aided design and development systems, so-called. CAx programs in construction and the process chain make it possible for the Standard part next to the actual geometry data more important To provide information and characteristics, so-called additional information, which can then be used in construction and succession processes are. Which includes z. B. Correction volume for the obstruction of the standard part in a production tool (eg Angösse and open spaces), NC information for the machining of standard parts or technical objects in which the standard part is installed (eg tolerance and fitting information for muzzle bags and drill holes) or commercial BOM information for the Ordering of the purchase, standard or repeat part.

this According to requirements, methods for constructing technical objects, developed so-called methodologies, with their help in the construction of technical objects including standard parts including additional information below Advantages in the construction were achieved.

core of these known methodologies or the computer-aided design programs developed therefrom or software modules is that for each standard part or each Standard subfamily one or more standard part data records created in which all geometry data of all possible or permitted variants and all variant-dependent or other additional information data are stored. These are standard part records usually on a hard disk of a computer, the with such a computer-aided design program is equipped or deposited on a central computer. Becomes constructing a new technical item becomes an item record created in which all relevant data, such. B. geometry data individual parts of the technical object are stored. During the Design phase of the technical item is this item record usually in the computer's memory, with such a Design program is equipped, filed. This should fast access and changes guaranteed become.

Becomes now a variant of a standard part in the technical subject by selecting the standard part, positioning on the technical object and adaptation of different dimensions of the Standard part integrated into the technical object, the entire standard part data record is integrated into the object data record, via so-called 3D contraints positioned in the product and sometimes additional information (eg Correction volume) in the technical object to be constructed via linked copy (so-called import links) passed, so anytime all Information is available within the technical subject matter.

These Thus, methodologies offer the advantage that through an associative dependence the complete standard parts (including the additional information) from a driving element when changing the position of the standard part in the newly constructed object all affected objects or parts, such. B. necessary drilling and milling be automatically changed in a casting.

Of In addition to the pure geometries in the standard part or in the associated standard part data record also deposited other important information and content that needed in the construction and in the succession processes. As already mentioned at the beginning counting to this additional information z. B. BOM information, correction volume like ants, milling, Bores and casting oversizes, as well as NC information for production.

Another important advantage is made possible by the already known methodology a variety of design options, ie for each standard part, there are several variants, all of which are deposited or integrable in a corresponding standard subfamily. If the designer integrates a standard part into his design, he can quickly change another variant of the integrated standard part or the corresponding standard subfamily by changing one or more parameters without deleting the integrated variant and reintegrating the desired new variant got to. Thus, the standard part or the standard subfamily contains all released variants.

Not last possible the already known methodology has a high degree of automation in the construction. The designer can during the integration of standard parts be supported by a software component that provides the necessary Receives or requests information from the designer (eg the Position of the part in the technical object) and the necessary Copies and links and dependencies created in the construction of the technical object.

There in any construction of a technical object in which at least a standard part is integrated, all additional information belonging to this standard part and variants, which are stored in principle in a standard part data record are integrated with, brings the method described above or the methodology also has some disadvantages.

To the One is the construction of the technical object every time a standard part is integrated (including variants and additional information) to a considerable increase the amount of data of the construction or object data set. To the parametric associative dependencies in a construction system to enable have to the relevant objects over so-called "links" are linked. Because every "link" is taken into account by the system and while an update of the design needs to be addressed, thereby increasing the update time with the progress of the technical design Objectively noticeable. Overall, there is a deterioration in system performance.

task The invention is to provide a construction methodology which can be integrated into a construction system and those described above Disadvantages largely bypasses and the advantages described anyway allows.

These Task is by a methodology according to claim 1 and a corresponding computerized Construction system or a software component according to claim 10 solved. Advantageous developments emerge from the dependent claims.

basic idea the invention is the amount of data within the to be designed technical object and the linking of the item data set with the Standard partial records preferably keep it low, so the update and loading performance improves becomes.

The inventive methodology or the computer-aided design system or method which uses this method the software building block to use for this methodology a technical object, preferably a manufacturing means or a plant including standard parts and standard geometries includes according to the known Methodologies for every standard part and / or for each standard subfamily a standard part record and for each to be developed technical object an item record. In the respective standard part datasets are the geometry data of all possible ones Variants of the respective standard part and all variant-dependent additional information data, such as B. correction volume and / or process-related data stored. The standard part records or standard subfamilies are over a product part structure, d. H. one part or one data record per part, thus constructed using knowledgeware and parametrics that all variants of the family, all correction volumes (eg, anvils, bores and Milled pockets) and all process-relevant data such. BOM and NC information) are associative and by choosing another variant change with this.

at a standard part is usually a single one Component, for example. A guide column. in the In contrast, a standard part family includes several components. So can a leadership unit family from a pillar, a socket, two brackets and two screws, which are mostly to be installed together.

If now a variant of a standard part or of a standard part family is to be integrated into the technical object by appropriate selection, optionally geometry adaptation and appropriate positioning in the technical object, then a special variant data record is first generated from the "intelligent" standard part data record , in which only the necessary information of the selected variant of the standard part or of the standard subfamily is stored.The variant data record is then integrated as a kind of sub-data record into the object data record of the technical object. "Intelligent" standard sub-families or standard part data sets are not - as usual - installed in the construction of the technical object, but are used only as a special reference data sets for the respective integration or integrated variant. In this reference, the desired variant is set and used to generate the variant data record in which only the data (eg geometry, parts list information) of the corresponding variant is stored. The generation of the variant dataset is done by copying the necessary information of the set variant from the standard part data record. The variant data set is integrated into the design. Thus, in the article record or in the production means or the system are only parts that are only the shell of the standard. partly represent and are extremely low in data load.

advantageously, are the geometry data of the variant incl. the relevant additional information from the standard part data record by means of links between individual parts (so-called CCP links) copied into the variant data set or the object data record. The variant record is then placed in the technical item record integrated. Unlike the previously used, and standard for standard part positioning Approach about Assembly links (so-called import links) must have the standard parts in the Part document, ie in the standard part records yourself, and not over 3D contraints are positioned in the product to help them in the technical Object or in the production equipment and / or the plant in the right place to come to rest.

A Another special feature of the invention lies in the positioning of the Standard parts or variant data sets of standard parts. Becomes the set variant of a standard part or a standard part family several times required in the technical object or several times in the production equipment or the system is installed, but still only a standard part record used and generated from it only a variant record. The standard part becomes in the two datasets positioned as often as needed becomes. In other words this means that the standard part is in one and the same Standard part record is positioned as many times as it is in construction is installed. Subsequently all information (eg geometry data, correction volume) each together over in each case a single copy in the variant data set or the respective Target part copied in the technical object. the big advantage this approach is that the number of links between the Standard part data record and the variant data record or object data record independently from the number of a standard part in the production means or in the Plant or in the technical object is.

Also independently the number of variants of a standard part in the design of the technical object is the performance of the standard part in Engineering structure tree of technical object. Will, for example. a variant of a standard part n times in the technical object blocked, the known methodology results in n entries in the structure tree the construction and between n and 5n 3D contraints for positioning the n standard parts. With the invention is only a single structural element each standard part and a single 3D contraint (fix) required. By doing so, the structure or file tree of the Item record clearer and the update performance in the technical object increased significantly.

advantageously, can with an integration of the special variant of the standard part or the standard subfamily additionally given variant-dependent Additional information data of standard part or standard part family from the standard record in the item record of the technical Be copied. For the given variant-dependent additional information data For example, these are advantageously, for example, variant-dependent correction data corresponding Parts of the technical object.

at the correction data are, for example, gate data or gate position data and / or Milled pocket data or muzzle position data and / or to bore data or bore position data.

These Correction data or correction volume are also via link copies the reference parts into the corresponding parts. In the construction or the technical object thus only the memory poor result parts or variant data records and the linked font fixes used. If the designer want to set another variant of the standard subfamily must he just opened the "intelligent" reference part and there the desired Set variant. about the linking will be the changes automatically in the construction, that is taken over in the item record.

These Inventive methodology thus offers the advantage that due to the smaller amount of data in the Item record and accordingly in the memory of the implementing this methodology equipment A much better update and loading performance is created. These is next to the reduction of data size (standard parts are only through her shell represents) especially by a significant reduction of 3D contraints, links and of the elements or data in the structure tree of the CAx system caused.

Claims (10)

Methodology for constructing a technical object, preferably a production tool and / or an installation including standard parts and / or standard geometries, wherein in the methodology for each standard part and / or each standard subfamily a standard part record is stored, in which all geometric variants of Stan dardteils and / or the standard subfamily and all variant-dependent additional information data are stored and for each designed or to be constructed technical object an object data set is stored in the predetermined data of the technical object are stored, characterized in that when integrating a variant of a standard part or a standard subfamily in the technical object a special variant data set is generated based on the standard part record in which only the geometry data and the relevant additional information of the selected variant of the standard part or the standard subfamily are deposited, and this variant record in the item record of the technical object is integrated. Method according to claim 1, characterized in that that the variant records the Geometry data and the relevant additional information from the associated standard part data records by means of Get link. Method according to claim 1 or 2, characterized that the special variants records and the standard part files the geometry data and additional information of all in the technical Gegens state integrated parts of the chosen Variant of a standard part and / or a standard part family contain. Method according to claim 1, 2 or 3, characterized that the positioning of the standard parts is not within one Assembly, but takes place within the individual parts. Method according to one of the preceding claims, characterized characterized in that at an integration of the special variant of the standard part and / or the standard subfamily additionally specified variant-specific Additional information data of the standard part and / or the standard subfamily the standard family record in the item record of the technical subject, advantageously copied by link become. Method according to claim 5, characterized in that that the predetermined variant-dependent additional information data Variant-dependent correction data corresponding parts of the standard part and / or the technical Item and / or information for the process chain. Method according to Claim 6, characterized that the correction data and / or the information for the process chain by means of a link from the standard part dataset into the object dataset be copied. Method according to claim 6 or 7, characterized the correction data negative and positive elements, preferably Sprue data, open spaces, Machining allowances, milling operations and / or Bore data and / or the information for the process chain BOM information for the procurement and NC information, preferably tolerance data for production are. Method according to one of the preceding claims, characterized characterized in that integrated into the technical object Variant of the standard part within the technical subject changeable by using the standard part data record and / or a reference standard part data record is. computerized Construction system with a method according to any one of the preceding claims.