CN105005653A - MBD based three-dimensional model design information tagging system and method - Google Patents

Abstract

The invention discloses an MBD based three-dimensional model design information tagging system and method. The system comprises a related database unit, a MBD design information based manufacturing unit, an ODBC interface, a UG software secondary development tool unit, a marking part information unit, a part information viewing unit and a marking feature information unit. The method comprises steps of: firstly, creating an overall framework of an MBD three-dimensional marking system, a main function module and other function modules; designing an Access database of the marking system, and performing seamless connection between the database and the UG software through the ODBC interface; introducing database information into Visual C ++ 6.0 environment; creating a customized menu, establishing a shaft parts model, designing a dialog file and designing a development program; and designing a user interface of the marking system by using a secondary development tool of the UG software. According to the system and method provided by the invention, the accuracy and comprehensiveness of the data can be ensured, and the system and method can be more applicable to related development technologies of technology modernization in the aeronautics and astronautics fields.

Description

A kind of three-dimensional model design information labeling system based on MBD and method

Technical field

The invention belongs to field of information system, particularly relate to a kind of three-dimensional model design information labeling system based on MBD and method.

Background technology

MBD is a kind of digitized definition based on model (Model Based Definition), and fully made the gap that three-dimensional model is directly used in manufacture up, the effect played is the correlated expression of three-dimensional digitalization model to Products Digital information.This technology be Boeing on the basis of former technology, fully merge again oneself develop aircraft time the Digitized Manufacturing Technology used, this has just had new-generation digital model to define.From domestic, corresponding airline manufacturing enterprise also starts slowly to pay close attention to MBD technology, its technology is further advanced.The core point of MBD technology is by the various information of institute's developing products, express by the mode of full three-dimensional model, its advantage is comprehensively to define these information of design information in three-dimensional model and comprises the size of product, the technique information of the tolerance of product and product self.

MBD technology is the up-to-date several years technology just grown up, and has had good multiple enterprises to begin one's study and has applied this technology now both at home and abroad, such as Boeing etc.Along with the development of science and technology, the related definition of machine-building product also slowly starts fast development towards digitized direction, and this just makes MBD technology gradually become the mainstay of aerospace field.Now, the research of domestic and international a lot of aviation program and manufacture process are still based on traditional two-dimentional drawing, digitized three-dimensional model information as a supplement, the shortcoming of this method is that middle all data messages spend higher in the process transmitted and store, the availability being exactly all information is in addition low, but just adopt newer design guideline in airbus A320 bamboo product, advanced production technology and information management technique are a kind of civil aircrafts of innovative single passageway medium or short range.Being exactly Boeing-737-NX aircraft in addition, being produced by Boeing Co., is narrow body aircraft series best in civil aircraft, and its feature is being a kind of medium or short range two jet planes with aircraft itself.The common ground of these two kinds of aircrafts is that the airline at its place all employ more advanced technological means in design research and development and the process of producing, and that is exactly use digitized three-dimensional model on a large scale, and the X-Y scheme of papery, the method for information as a supplement.But due to the not comprehensive disunity of its standard, so Aero-Space company also could not reach independent use total digitalization three-dimensional model definition, namely so-called MBD designing technique, after such process is continued until that the relevant criterion of ASMEY14.41 and BDS-600 series is formulated, Boeing, just in subsequent project 787 project, employs advanced MBD designing technique completely.

MBD technology also plays great function in the technological design of product, can make the process route of studied product, and technique information all realizes three-dimensional model digitizing.The main technological design aspect Problems existing illustrated about MBD below, technological design is as producing an important part also overall application in right digitized three-dimensional environment, the process design ability that totally digitilized three-dimensional process design like this will improve product greatly, but comprehensively to apply MBD technology to carry out digitized three-dimensional process design, just its bottom must be accomplished fluently, the environment of proven technique and demand that is will be had can to realize its complete technological design system.Three aspects are mainly comprised based on MBD technological design system, ground floor is exactly MBD technological design applied, MBD process design environment, what MBD technical standard specification etc. were complete is input in PDM product data management system, the second layer of this PDM product data management i.e. system, and then enter third layer and instruct other manufacturing activities as product manufacturing, product is examined, Fixture designing, lathe selection etc.

There is the problem of the following aspects in current China MBD technology application, first saying first problem, is also maximum sixty-four dollar question, is exactly standard disunity, and this problem is also the content that chapter 2 wants emphasis to say.The technology that each enterprise of current every field applies is all with reference to the international standard actual conditions in conjunction with oneself inside relative again, the standard developed, standard all disunities of each field and each enterprise, a lot of Aero-Space units all manufactures demand according to oneself, develops the MBD using standard of oneself.Due to various reasons above, just cause a lot of aircraft factory now and occurred many MBD normative reference, cause and be much difficult to resolve and repeated problem, because the skimble-scamble problem of this standard, MBD technology cannot be promoted fast, be also difficult to establish whole MBD application system.Second Important Problems is that MBD technology digitized degree is on the low side, why there will be this situation, that is because good multiple enterprises or company are to the understanding of MBD technology, just say the product each side information in two-dimentional papery, move in digitized three-dimensional model according to mould in the same old way, can not reach and its design information digitized degree is uprised.Because do not conclude scattered product related information and arrange, will occur that data are lengthy and jumbled, practicality is not strong, is difficult to read necessary information like this, causes the lengthening in product cycle, reduce production efficiency after making to the workman of product manufacturing and processing.3rd Important Problems be present stage application can support that the method for MBD digitization modeling is few, the softwares such as picture CATIA, just apply itself the most basic function, these functions are relatively backward, the demand of MBD technology can not be met, accuracy and the standardization of three-dimensional model information be ensured.This is the requirement that MBD Technical comparing is high, will set up new data set to it, and corresponding information management system, and these aspect light have been difficult to separately by hand, so by certain aid, must improve the modeling technique of MBD.

Summary of the invention

The object of the present invention is to provide a kind of three-dimensional model design information labeling system based on MBD and method, be intended to solve the environment that existing technology does not form proven technique and demand, thus its complete technological design system can not be realized, and prior art is not concluded scattered product related information and is arranged, will occur that data are lengthy and jumbled, practicality is not strong, be difficult to read necessary information to the workman of product manufacturing and processing like this after making, cause the lengthening in product cycle, reduce the problem of production efficiency.

The present invention realizes like this, based on a three-dimensional model design information labeling system of MBD, this system comprises: associated database cell, the manufacturing cell based on MBD design information, ODBC interface, UG software secondary development tool unit, mark parts information unit, parts information check that unit, mark characteristic information unit, characteristic information check unit, mark part feature information unit;

UG software secondary development tool unit is connected by ODBC interface with associated database cell, for collecting design information, arranging, develop;

Associated database cell is connected with the manufacturing cell based on MBD design information by ODBC interface, for for providing in a large number based on the manufacturing cell of MBD design information, reliable data;

Manufacturing cell based on MBD design information is connected with mark parts information unit, for providing authentic communication for mark parts information unit;

With parts information, mark parts information unit checks that unit is connected, for checking that for parts information unit provides data basis;

Parts information checks that unit is connected with mark characteristic information unit, for checking characteristic information foundation for mark characteristic information unit provides;

With characteristic information, mark characteristic information unit checks that unit is connected, be convenient to mark checking of characteristic information;

Characteristic information checks that unit is connected with mark part feature information unit, obtains the specifying information feature marking part;

UG software secondary development tool unit contains: UG/Open Menu Script module, UG/Open UI Styler module, UG/Open GRIP module, UG/Open GRIP NC module, UG/Open C++ module;

Comprise shaft parts material in associated database cell and select database module, Axle Surface coarseness data library module, the characteristic information data library module of shoulder, the characteristic information data library module of relief groove, the characteristic information data library module of keyway, the tolerance information data library module of keyway, the dimension information database module of chamfering, the maximal value of interior angle chamfering and the size relationship database module of outer rounding of angle, the database module of the chamfering C corresponding to shaft diameter and the value of rounding,

ODBC interface comprises Windows development environment unit, ODBC interface PBODBn.Dll, ODBC driven management program element ODBC32.dll, ODBC driver unit.

Further, design MBD model creation MBD model ground floor is by manufacturing process, and three-dimensional annotation, designs a model, attribute, and assembly technology forms, and the second layer comprises machined parameters, geological information, and tolerance fit;

Manufacturing cell based on MBD design information comprises four layers, respectively: state layer, and characteristic layer, element layer, data Layer.

Based on a three-dimensional model design information mask method of MBD, comprising:

Step one, establishment MBD three-dimensional model, then the labeling system that combination will be developed makes concrete development process;

Step 2, according to national regulation, the mark style of the design information labeling system used by labeling system is integrated, create out the general frame structure of MBD three-dimensional labeling system, and individual main functional modules and other functional modules, finally provide the implementation method of whole labeling system;

The Access database of step 3, design labeling system, the characteristic information that axial workpiece is relevant, all store in the mode of database, again by ODBC interface, by database and combination, by C language, database and UG software are carried out seamless link, database information is imported in visual c++ 6.0 environment, last compiling link success;

Step 4, selection labeling system developing instrument, provide concrete development procedure and flow process according to corresponding developing instrument, then create customization menu, set up axial workpiece model, and design dialog box file, designs and develops program;

Step 5, utilize the secondary development tool of UG software, under C language environment, the menu interface of design labeling system, comprises further menu and second-level menu, then designs the user interface of labeling system, comprise the characteristic information of the axial workpiece each several part that will mark.

Three-dimensional model design information labeling system based on MBD provided by the invention and method, MBD technology has strict regulation to three-dimensional model, the information of the product model of manufactured research must be digitized description, information all on model all will have close relationship with manufactured material object, the degree of ripeness of a technology, is just embodied in its management aspect to its data system.Secondly, when not having two-dimentional drawing, during the transmission of three-dimensional model parts information, control information transmission and product information, in the mode understood and realize, be all associated with computer system.According to the key content of MBD technology, all product informations all concentrate on above three-dimensional digitalization model, workers processing so just can be made when manufacturing a product, more convenient, because they are without the need to browsing two-dimentional drawing more one by one, then by hand design information is attached on three-dimensional model, product information is so just made to keep complete in the process transmitted, decrease the probability that workman participates in makeing mistakes, moreover be exactly that MBD technology makes product information define method in the past obtain huge change, whole product is made to manufacture overall process all realize Digitallized system requirement from developing to, decrease the degree of difficulty that information is used to a great extent.Further, in the current digital information epoch, MBD technology can well play it and accurately, efficiently, clearly act in many work such as the acquisition of the transmission of digital product relevant information, production fox message.The advantage of MBD technology is simpler than traditional technology, more than you know, more fully can define the information of product, and in the transmittance process of information, the artificial property of product information is lost.And the amount of distorting also can reduce greatly, more can ensure the accuracy of data and comprehensive more can adapt to the modern Development Technology of field of aerospace relevant technical.

Accompanying drawing explanation

Fig. 1 is the structural representation of the three-dimensional model design information labeling system based on MBD that the embodiment of the present invention provides;

In Fig. 1: 1, UG software secondary development tool unit; 2, associated database cell; 3, ODBC interface; 4, based on the manufacturing cell of MBD design information; 5, parts information unit is marked; 6, parts information checks unit; 7, characteristic information unit is marked; 8, characteristic information checks unit; 9, part feature information unit is marked;

Fig. 2 is the process flow diagram of the three-dimensional model design information labeling system based on MBD that the embodiment of the present invention provides.

Embodiment

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with embodiment, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

1 pair of present case is described by reference to the accompanying drawings, the embodiment of the present invention realizes like this, based on a three-dimensional model design information labeling system of MBD, the structure of this system comprises: associated database cell, the manufacturing cell based on MBD design information, ODBC interface, UG software secondary development tool unit, mark parts information unit, parts information check that unit, mark characteristic information unit, characteristic information check unit, mark part feature information unit;

UG software secondary development tool unit 1 is connected by ODBC interface 3 with associated database cell 2, for collecting design information, arranging, develop;

Associated database cell 2 is connected with the manufacturing cell 4 based on MBD design information by ODBC interface 3, for for providing in a large number based on the manufacturing cell of MBD design information, reliable data;

Manufacturing cell 4 based on MBD design information is connected with mark parts information unit 5, for providing authentic communication for mark parts information unit;

With parts information, mark parts information unit 5 checks that unit 6 is connected, for checking that for parts information unit provides data basis;

Parts information checks that unit 6 is connected with mark characteristic information unit 7, for checking characteristic information foundation for mark characteristic information unit provides;

With characteristic information, mark characteristic information unit 7 checks that unit 8 is connected, be convenient to mark checking of characteristic information;

Characteristic information checks that unit 8 is connected with mark part feature information unit 9, obtains the specifying information feature marking part.

Further, UG software secondary development tool unit 1 contains: UG/Open Menu Script module, UG/Open UI Styler module, UG/Open GRIP module, UG/Open GRIP NC module, UG/Open C++ module.

Further, the database module that shaft parts material selects the tolerance information data library module of the characteristic information data library module of the characteristic information data library module of database module, Axle Surface coarseness data library module, the characteristic information data library module of shoulder, relief groove, keyway, keyway, the dimension information database module of chamfering, the maximal value of interior angle chamfering and the value of the size relationship database module of outer rounding of angle, the chamfering C corresponding with shaft diameter and rounding is contained in associated database cell 2.

Further, ODBC interface 3 mainly comprises four layers of concept, is Windows development environment unit respectively, ODBC interface PBODBn.Dll, ODBC driven management program element ODBC32.dll, ODBC driver unit.

Further, design MBD model creation MBD model ground floor is primarily of manufacturing process, and three-dimensional annotation, designs a model, attribute, assembly technology etc. five major part composition, and the second layer mainly comprises machined parameters, geological information, and tolerance fit etc.

Further, the manufacturing cell 4 based on MBD design information comprises four layers, respectively: state layer, and characteristic layer, element layer, data Layer.

2 pairs of present case are described by reference to the accompanying drawings, and the embodiment of the present invention is achieved in that a kind of three-dimensional model design information mask method based on MBD, and the step of the method comprises:

S201, establishment MBD three-dimensional model, then the labeling system that combination will be developed makes concrete development process;

S202, in strict accordance with national regulation, the mark style of the design information labeling system used by labeling system is integrated, create out the general frame structure of MBD three-dimensional labeling system, and individual main functional modules and other functional modules, finally provide the implementation method of whole labeling system;

S203, devise the Access database of labeling system, the characteristic information that axial workpiece is relevant, all store in the mode of database, again by ODBC interface, by database and combination, by C language, database and UG software are carried out seamless link, database information is imported in visual c++ 6.0 environment, last compiling link success;

S204, selection labeling system developing instrument, provide concrete development procedure and flow process according to corresponding developing instrument, then create customization menu, set up axial workpiece model, and design dialog box file, designs and develops program;

S205, utilize the secondary development tool of UG software, under C language environment, the menu interface of design labeling system, comprise further menu and second-level menu, then the user interface of labeling system is designed, mainly comprise the characteristic information of the axial workpiece each several part that will mark, comprehensively achieve the three-dimensional model Digital Definition Technology based on MBD technology.

Further, adopt Access database, have powerful data base administration propagation function, Access database can carry out the transmission of various data in database by ODBC interface.

Further, what DataBase combining interface was selected is that ODBC, ODBC interface can connect Access database, can couple together again with UG software; ODBC interface mainly comprises four layers of concept, is Windows development environment unit respectively, ODBC interface PBODBn.Dll, ODBC driven management program element ODBC32.dll, ODBC driver unit, database.

Further, the concrete operations of Database Systems and UG software link: by the database information put in order, want to call under visual c++ 6.0 environment, then get up with UG software link, next step is exactly the foundation of log-on data source, class database, the foundation of db1.mdb class, the realization of class, then compiles, connects, running example.

Further, realize the Access database of the labeling system in S203, need first log-on data source, registration database is log-on data source in " beginning "-" management tool "-" data source ODBC " first, adopt Access database, concrete registration step is as follows:

The first step, to open " data source ODBC ", enter editing interface;

Second step, press interpolation button, wherein there will be and create interface, new data source, have the driver in different installation data sources, we select Driver do Microsoft Access (* .mdb) option as required, click " completing " button;

3rd step, clicked after, there is ODBC Microsoft Access installation interface, have dataSource link option, compiling DSN, option is described, and database address selection option, fill in successively as required, dataSource link is called " db1 ";

4th step, fill on above-mentioned interface before the database-name " * .mbd " that writes, there will be in text box " db1.mdb ", file type is " Access database (* .mdb) ", catalogue is chosen as " d: my documents ", and driver is chosen as " d: converter tools ".

Further, realize the Access database of the labeling system in S203, need first building database system: building database system is very important under VC environment, under entering VC environment, in new interface, select " engineering ", engineering name be " db1 " deposit position is " D: MY DOCUMENTS db1 " platform selecting " Win32 "; Enter after under VC environment after data source, on the left side workspace point is opened " db1.cpp ", there will be Database Editing Interface Using in the edit box on the right.

Further, realize in S203, database information being imported in visual c++ 6.0 environment, need to import database information system: first there will be insertion type interface, resource type can be selected to be " Dialog ", then be insert class wizard, Project should be " db1 ", and Class name should be " CDb1App ", then click " Create a new class ", complete the interpolation of class wizard.

Further, realize compiling link success in S203, need to carry out compiling link to database information: under C++ environment, by in database the characteristic information of three-dimensional model that arranges out all import in C language, picture " standard keyway size " can be seen, " roughness value ", " chamfer dimesion ", " material trademark ", " blank diameter ", " hardness ", " thermal treatment ", " purposes " etc. all occur in interface, and for these information, next step can call in UG software, compiling link success interface.

Further, realize in S204, selecting labeling system developing instrument, need to arrange UG environmental variance: the secondary development that realize UG software, what first will do is setting UG software being carried out to environmental variance, concrete steps: the first, open " my computer " → click " attribute " → option " senior " → setting " environmental variance "; Then, in the dialog box of compiles user variable, the variable name of environmental variance and variate-value i.e. store path are changed, variable name are made into UGII_USER_DIR, variate-value change into F: axis_ugopen; Finally namely under store path, create " application " file " startup " file and " part " file at variate-value, what change environmental variance arranges the storing path that can obtain configuration file.

Further, in S204, the concrete steps of customization menu creation are:

Step a, create the extension name RNTO " * .men " of a file, i.e. customization menu file folder, this menu file is primarily of describing the single statement composition of dish; Customization menu is generally all realized by MenuScript module, writes the function statement that user needs, thus realize the establishment of customization menu in this module.

Step b, in addition establishment two files, called after " startup " file and " application " file.The effect of " startup " file is in order to program of placing runs dynamic link libraries " * .dll " file and menu " * .men " file generated, and the effect of " application " file is dialog box " * .dlg " file in order to place extension function " * .dll " file and program operation;

Step c, environmental variance to be arranged, by finding " ugii_env.dat " option under UGII file, more therefrom finding relevant important statement, completing the setting of environmental variance.

Further, the modeling based on MBD technology axle part: the three-dimensional model that create an axial workpiece feature, drawn sketch in UG software, by option for features, sets up the three-dimensional model of axle.

The invention provides a kind of three-dimensional model design information labeling system based on MBD, the structure of this system comprises: associated database cell, the manufacturing cell based on MBD design information, ODBC interface, UG software secondary development tool unit, mark parts information unit, parts information check that unit, mark characteristic information unit, characteristic information check unit, mark part feature information unit.Based on a three-dimensional model design information mask method of MBD, the step of the method comprises: step one, establishment MBD three-dimensional model, then the labeling system that combination will be developed makes concrete development process; Step 2, in strict accordance with national regulation, the mark style of the design information labeling system used by labeling system is integrated, create out the general frame structure of MBD three-dimensional labeling system, and individual main functional modules and other functional modules, finally provide the implementation method of whole labeling system; Step 3, devise the Access database of labeling system, the characteristic information that axial workpiece is relevant, all store in the mode of database, again by ODBC interface, by database and combination, by C language, database and UG software are carried out seamless link, database information is imported in visual c++ 6.0 environment, last compiling link success; Step 4, selection labeling system developing instrument, provide concrete development procedure and flow process according to corresponding developing instrument, then create customization menu, set up axial workpiece model, and design dialog box file, designs and develops program; Step 5, utilize the secondary development tool of UG software, under C language environment, the menu interface of design labeling system, comprise further menu and second-level menu, then the user interface of labeling system is designed, mainly comprise the characteristic information of the axial workpiece each several part that will mark, comprehensively achieve the three-dimensional model Digital Definition Technology based on MBD technology.

Three-dimensional model design information labeling system based on MBD provided by the invention and method, MBD technology has strict regulation to three-dimensional model, the information of the product model of manufactured research must be digitized description, information all on model all will have close relationship with manufactured material object, the degree of ripeness of a technology, is just embodied in its management aspect to its data system.Secondly, when not having two-dimentional drawing, during the transmission of three-dimensional model parts information, control information transmission and product information, in the mode understood and realize, be all associated with computer system.According to the key content of MBD technology, all product informations all concentrate on above three-dimensional digitalization model, workers processing so just can be made when manufacturing a product, more convenient, because they are without the need to browsing two-dimentional drawing more one by one, then by hand design information is attached on three-dimensional model, product information is so just made to keep complete in the process transmitted, decrease the probability that workman participates in makeing mistakes, moreover be exactly that MBD technology makes product information define method in the past obtain huge change, whole product is made to manufacture overall process all realize Digitallized system requirement from developing to, decrease the degree of difficulty that information is used to a great extent.Further, in the current digital information epoch, MBD technology can well play it and accurately, efficiently, clearly act in many work such as the acquisition of the transmission of digital product relevant information, production fox message.The advantage of MBD technology is simpler than traditional technology, more than you know, more fully can define the information of product, and in the transmittance process of information, the artificial property of product information is lost.And the amount of distorting also can reduce greatly, more can ensure the accuracy of data and comprehensive more can adapt to the modern Development Technology of field of aerospace relevant technical.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims (3)

1. the three-dimensional model design information labeling system based on MBD, it is characterized in that, this system comprises: associated database cell, the manufacturing cell based on MBD design information, ODBC interface, UG software secondary development tool unit, mark parts information unit, parts information check that unit, mark characteristic information unit, characteristic information check unit, mark part feature information unit;

UG software secondary development tool unit is connected by ODBC interface with associated database cell, for collecting design information, arranging, develop;

Associated database cell is connected with the manufacturing cell based on MBD design information by ODBC interface, for for providing in a large number based on the manufacturing cell of MBD design information, reliable data;

Manufacturing cell based on MBD design information is connected with mark parts information unit, for providing authentic communication for mark parts information unit;

With parts information, mark parts information unit checks that unit is connected, for checking that for parts information unit provides data basis;

Parts information checks that unit is connected with mark characteristic information unit, for checking characteristic information foundation for mark characteristic information unit provides;

With characteristic information, mark characteristic information unit checks that unit is connected, be convenient to mark checking of characteristic information;

Characteristic information checks that unit is connected with mark part feature information unit, obtains the specifying information feature marking part;

UG software secondary development tool unit contains: UG/Open Menu Script module, UG/Open UI Styler module, UG/Open GRIP module, UG/Open GRIP NC module, UG/Open C++ module;

Comprise shaft parts material in associated database cell and select database module, Axle Surface coarseness data library module, the characteristic information data library module of shoulder, the characteristic information data library module of relief groove, the characteristic information data library module of keyway, the tolerance information data library module of keyway, the dimension information database module of chamfering, the maximal value of interior angle chamfering and the size relationship database module of outer rounding of angle, the database module of the chamfering C corresponding to shaft diameter and the value of rounding,

ODBC interface comprises Windows development environment unit, ODBC interface PBODBn.Dll, ODBC driven management program element ODBC32.dll, ODBC driver unit.

2. as claimed in claim 1 based on the three-dimensional model design information labeling system of MBD, it is characterized in that, design MBD model creation MBD model ground floor is by manufacturing process, three-dimensional annotation, designs a model, attribute, assembly technology forms, the second layer comprises machined parameters, geological information, and tolerance fit;

Manufacturing cell based on MBD design information comprises four layers, respectively: state layer, and characteristic layer, element layer, data Layer.

3., based on a three-dimensional model design information mask method of MBD, it is characterized in that, the method comprises:

Step one, establishment MBD three-dimensional model, then the labeling system that combination will be developed makes concrete development process;

Step 2, according to national regulation, the mark style of the design information labeling system used by labeling system is integrated, create out the general frame structure of MBD three-dimensional labeling system, and individual main functional modules and other functional modules, finally provide the implementation method of whole labeling system;

The Access database of step 3, design labeling system, the characteristic information that axial workpiece is relevant, all store in the mode of database, again by ODBC interface, by database and combination, by C language, database and UG software are carried out seamless link, database information is imported in visual c++ 6.0 environment, last compiling link success;

Step 4, selection labeling system developing instrument, provide concrete development procedure and flow process according to corresponding developing instrument, then create customization menu, set up axial workpiece model, and design dialog box file, designs and develops program;

Step 5, utilize the secondary development tool of UG software, under C language environment, the menu interface of design labeling system, comprises further menu and second-level menu, then designs the user interface of labeling system, comprise the characteristic information of the axial workpiece each several part that will mark.