CN104504535A - Construction method of data system of titanium alloy component laser additive manufacturing process - Google Patents

Abstract

The invention relates to a construction method of a data system of the titanium alloy component laser additive manufacturing process. The method comprises the steps of dynamically building a data model of the data system of the titanium alloy component laser additive manufacturing process by a data dynamic model building manner; dynamically configuring the data display page of the data system of the titanium alloy component laser additive manufacturing process by a dynamic configuration method for data display page; configuring a data model for the data display page, and building an association relationship; dynamically defining the data review process of the data system of the titanium alloy component laser additive manufacturing process by a dynamic definition manner for the data review process; configuring the data review process for the data model, and building the association relationship. The method has the advantages that a user can dynamically flexibly builds data model, display page, review process and the relationships conveniently, so as to build a complete data system; in addition, various process data and knowledge in the titanium alloy component laser additive manufacturing process can be managed through the data system.

Description

The construction method of titanium alloy member laser gain material manufacturing process data system

Technical field

The invention belongs to and increase material manufacture, i.e. 3D printing technique field, relates to a kind of construction method increasing manufacture process data system, particularly relates to a kind of construction method of titanium alloy member laser gain material manufacturing process data system.

Background technology

Increase material manufacture also referred to as " 3D printing ", it does not need cutter and mould, utilize three-dimensional CAD model can produce parts with complex structures fast and accurately on an equipment, thus realize " freely manufacturing ", solve traditional handicraft and be difficult to process the limitation maybe cannot processed, and substantially reduce the parts machining cycle, and complex structure product, its speed manufactured promotes remarkable.

3D prints and signifies the appearance of individual character manufacturing pattern, and the mankind will cooperate to manufacture in new ways; To there is deep reform in manufacture process and management mode, existing manufacturing industry Distribution Pattern will be broken.Current, potentiality that are in enormous quantities, low cost manufacture perform to ultimate attainment by China's manufacturing industry, but following manufacturing focus of the competition will by innovation dominate, the development of Apple has just embodied this development trend.

3D printing technique is exactly the powerful meeting innovative development, and the application popularization degree of 3D printing technique has signified a national innovation ability to a certain extent.Along with people deepen continuously to the awareness of 3D printing technique, the new industrial revolution is also quietly arrived along with innovation.

Meanwhile, because having, intensity is high, corrosion stability good, thermotolerance high and be widely used in every field for titanium alloy.Especially, titanium alloy member obtains especially and applies widely on large aircraft etc.Therefore, about the 3D printing of titanium alloy member have also been obtained investigation and application widely.

But, when research institution and enterprise carry out titanium alloy member 3D printing manufacture both at home and abroad at present, all need process data and knowledge (comprising laser power, sweep velocity, spot size, overlapping rate, powder feed rate, gas flow, defocusing amount etc.) that more complicated is set, and the researchist only having correlation experience to enrich correct could arrange related data, if lack the support of process data and knowledge, common process personnel are difficult to set correctly suitable technological parameter.

Simultaneously, due to titanium alloy member laser gain material manufacture process and conventional machining process (machine adds, panel beating, weld, thermal treatment, assembly technology etc.) difference is very large, there is no spendable process data system, due to the support lacked with increase the special process data system that material manufacture process adapts, it is the key factor that restriction titanium alloy member laser gain material manufactures application industry, therefore titanium alloy member laser gain material manufacturing process data system is badly in need of in enterprise at present, to support the following titanium alloy member laser gain material manufacturing based on digital production line that will set up.

Summary of the invention

The object of the invention is to solve the problems referred to above existed in existing titanium alloy member laser gain material manufacture process, a kind of construction method of titanium alloy member laser gain material manufacturing process data system is provided, it can be quick, flexibly, dynamically construct the data system of required various process data and knowledge in management titanium alloy member laser gain material manufacture process, thus to provide in titanium alloy member laser gain material manufacture process required various process data and knowledge for common process personnel, and then contribute to carrying out smoothly and applying of titanium alloy member laser gain material manufacture.

In order to achieve the above object, the invention provides following technical scheme: a kind of construction method of titanium alloy member laser gain material manufacturing process data system, it comprises the steps:

(1) dynamically set up the various data models of titanium alloy member laser gain material manufacturing process data system in the mode of Data Dynamic modeling, this data model forms the database table for storing various process data and knowledge of titanium alloy member laser gain material manufacturing process data system;

(2) the various data display pages of titanium alloy member laser gain material manufacturing process data system are dynamically configured in the mode of data display page dynamic-configuration, and be described data display page configuration data model, thus the incidence relation set up between the described data display page and described data model, and then be convenient to show on the described data display page the various process data and knowledge that store in described database table;

(3) the various data auditing flows of titanium alloy member laser gain material manufacturing process data system are dynamically defined in the mode of data auditing flow Dynamic Definition;

(4) be described data model configuration data auditing flow, thus set up the incidence relation between described data model and described data auditing flow, so that the examination & verification of operation to described various process data and knowledge.

Further, wherein, described data auditing flow is by flow nodes and connect the Migration Line of flow nodes and form, and described flow nodes comprises single examination & approval, evaluation countersign, certainly examines countersign, joint examination countersign and decision node.

Further, wherein, described data model comprises technics data model, process data model, technological parameter data model, material parameter data model, equipment technical parameters data model, frock technical parameter data model, tool technique supplemental characteristic model, typical process data model, process knowledge data model and technological standards canonical data model.

In the present invention, user can without the various process data models programmatically set up fast in titanium alloy member laser gain material manufacture process, thus generate various technological data bank table, facilitate user according to the difference adjustment or change process data model flexibly voluntarily of process data and knowledge, thus be convenient to the storage of various process data and knowledge in titanium alloy member laser gain material manufacture process.

Meanwhile, allow user's Dynamic Establishing and service data displayed page, thus facilitate user to carry out various management and operation to process data and knowledge; And, allow user's Dynamic Establishing and service data auditing flow, and data auditing flow is associated with data model, thus realize user carries out various operation examination & verification to process data and knowledge, prevent user to the unordered operation of process data and knowledge.

Finally, process data system constructed by it comprises various process data and the knowledge such as process, technological parameter, material parameter, manufacturing equipment parameter, typical process, defective workmanship, process knowledge, technological standards specification involved in titanium alloy member laser gain material manufacture process, contribute to the laser gain material manufacture that auxiliary common process personnel carry out titanium alloy member, and then contribute to applying of titanium alloy member laser gain material manufacture.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of the construction method of titanium alloy member laser gain material manufacturing process data system of the present invention.

Fig. 2 is the composition schematic diagram of the database table of titanium alloy member laser gain material manufacturing process data system.

Fig. 3 is an exemplary data auditing flow.

Fig. 4 is the composition schematic diagram by the titanium alloy member laser gain material manufacturing process data system constructed by construction method of the present invention.

Embodiment

Describe the specific embodiment of the present invention in detail below in conjunction with accompanying drawing, the content of embodiment is not as the restriction to protection scope of the present invention.

The construction method of titanium alloy member laser gain material manufacturing process data system of the present invention fast, flexibly, dynamically can construct the data system of required various process data and knowledge in management titanium alloy member laser gain material manufacture process, thus contribute to auxiliary common process personnel and carry out the manufacture of titanium alloy member laser gain material, and then contribute to carrying out smoothly and applying of titanium alloy member laser gain material manufacture.

Fig. 1 shows the process flow diagram of the construction method of titanium alloy member laser gain material manufacturing process data system of the present invention.As shown in Figure 1, the first step of the construction method of titanium alloy member laser gain material manufacturing process data system of the present invention dynamically sets up the data model of titanium alloy member laser gain material manufacturing process data system.Wherein, this data model forms the database table of titanium alloy member laser gain material manufacturing process data system, and described database table is used for storing involved corresponding process data and knowledge in titanium alloy member laser gain material manufacture process.

In titanium alloy member laser gain material manufacture process, involved process data and knowledge numerous, such as technics, process, technological parameter, material parameter, equipment technical parameters, frock technical parameter, tool technique parameter, typical process, process knowledge and technological standards specification etc.These process datas and knowledge comprise structured data and non-structural data.Meanwhile, its structured data is again complicated and changeable.

Therefore, if constructed data model, it is changeless for being namely used for the structure of database table of storage technology data and knowledge, so obviously cannot meet the demands.For this reason, in the present invention, the data model of titanium alloy member laser gain material manufacturing process data system is dynamically set up in the mode of Data Dynamic modeling, thus make user to adjust flexibly voluntarily or to change data model, to meet the regulatory requirement of titanium alloy member laser gain material manufacturing process data system to process data and knowledge.

In the present invention, particularly, when user sets up the data model of titanium alloy member laser gain material manufacturing process data system, first by user determine data model title and for user provides a data model field template after user determines the title of data model.Have some field attributes that various field all comprises usually in this data model Field Template, such as sequence number, title, ID, school weigh field, data type, data dictionary, chained address, width, default value, length, must fill out, edit display, check display, explanation etc.

After provide described data model Field Template for user, user by inserting related content or selecting the options that provides of template can be just that described data model adds a field according to described data model Field Template in each field attribute.Certainly, if user-selected data type is " data dictionary ", so corresponding data dictionary should be selected in data dictionary attribute.Like this, user according to the difference of the process data of required storage and knowledge, can be the field that its corresponding data model adds needed for oneself, thus completes the structure of data model.

Such as, for technics data model, it field comprised has title, English name, definition, affiliated classification, is subordinate to specialty and Data Source etc.By above-mentioned data model construction method, be respectively technics data model to build title, English name, definition, affiliated classification, be subordinate to the field such as specialty and Data Source, thus formed and comprise title, English name, definition, affiliated classification, be subordinate to the technics database table of the field such as specialty and Data Source.This technics database table is used for storing the various technics involved by the manufacture of titanium alloy member laser gain material.

Certainly, after building a data model, if think that certain field attribute of certain field is improper, can also modify to it.Such as, if think that " must fill out " attribute that the field of technics data model " is subordinate to specialty " should change "No" into by "Yes", so just can modify to it.

Meanwhile, after building a data model, if the field of this data model is improper, such as, if think and also need increase field or delete a field, so can increase the field of this data model or delete, to meet the demand of user.Meanwhile, also can allow user each field is carried out on move, move down, the operation such as top set, bottom set, to meet the individual demand of user.

In addition, after building a data model, Authorized operation can be carried out to this data model.Such as, for this data model arranges domestic consumer, data administrator, safety officer, audit administrator and system manager etc. respectively, thus give different users different authorities, so that different users can carry out different operations to the process data stored in the database table corresponding to this data model and knowledge.

After having built a data model, identical method be adopted to build next data model according to the demand of titanium alloy member laser gain material manufacturing process data system.For the ease of the management to various process data involved in titanium alloy member laser gain material manufacture process and knowledge, in the present invention, establish ten data models for titanium alloy member laser gain material manufacturing process data system altogether, be respectively technics data model, process data model, technological parameter data model, material parameter data model, equipment technical parameters data model, frock technical parameter data model, tool technique supplemental characteristic model, typical process data model, process knowledge data model and technological standards canonical data model.These data models are finally formed as the database table of titanium alloy member laser gain material manufacturing process data system as shown in Figure 2, store various process data involved in titanium alloy member laser gain material manufacture process and knowledge by these database tables.

Wherein, described technics data model formation process terminological data bank table, for storing various technics involved in titanium alloy member laser gain material manufacture process, the field involved by it comprises title, English name, definition, affiliated classification, is subordinate to specialty and Data Source etc.

Described process data model formation process method database table, for storing various processes involved in titanium alloy member laser gain material manufacture process, the field involved by it comprises title, English name, definition, ultimate principle and process, process principle schematic and key process parameter etc.

Described technological parameter data model formation process parameter database table, for storing various technological parameters involved in titanium alloy member laser gain material manufacture process, the field involved by it comprises parameter name, parameter definition, Parameter units and parameter acquiring mode etc.

Described material parameter data model forms material parameter database table, for storing various material parameters involved in titanium alloy member laser gain material manufacture process, the field involved by it comprises material trademark, material type, material parameter unit, material thickness, material heat treatment state, density, plasticity etc.

Described equipment technical parameters data model forming device technical parameter database table, for storing various device parameters involved in titanium alloy member laser gain material manufacture process, the field involved by it comprises device name, unit type, specification of equipment, device type, applying unit, manufacturer, equipment life, maximum weight etc.

Described frock technical parameter data model forms frock technical parameter database table, for storing various frock technical parameters involved in titanium alloy member laser gain material manufacture process, the field involved by it comprises frock title, frock type, frock applicable craft method, frock effect or purposes, Fixture Design principle information etc.

Described tool technique supplemental characteristic model forms tool technique parameter database table, for storing various tool technique parameters involved in titanium alloy member laser gain material manufacture process, the field involved by it comprises tool number, instrument title, tool types, instrument specification, instrument own material etc.

Described typical process data model forms typical process database table, for storing typical process involved in titanium alloy member laser gain material manufacture process, the field involved by it comprises title, English name, is suitable for part type and geometric properties, is suitable for part process feature, part material type etc.

Described process knowledge data model formation process knowledge data base table, for storing process knowledge involved in titanium alloy member laser gain material manufacture process, comprise and improve the knowledge of processing quality measure, the knowledge etc. of defective workmanship solution, and according to the difference of knowledge, there is corresponding field.

Described technological standards canonical data model formation process standard criterion database table, for storing technological standards involved in titanium alloy member laser gain material manufacture process and technological specification, the field involved by it comprises the formal specification number of file, file name, English name, file content key word, file content brief introduction, version and date etc.

By building above-mentioned data model, described titanium alloy member laser gain material manufacturing process data system is made to have the database table of involved various process data and knowledge in storage titanium alloy member laser gain material manufacture process.By loading corresponding process data and knowledge in described database table, contributing to auxiliary common process personnel and carrying out the manufacture of titanium alloy member laser gain material.

Particularly, in the present invention, wherein, store in described technics database table and be greater than 2000 technics; Store in described process database table and be greater than 10 processes; Store in described technological parameter database table and be greater than 200 technological parameters; Store in described material parameter database table and be greater than 150 material parameters; Store in described equipment technical parameters database table and be greater than 10 equipment technical parameters; Store in described frock technical parameter database table and be greater than 10 frock technical parameters; Store in described tool technique parameter database table and be greater than 10 tool technique parameters; Store in described typical process database table and be greater than 5 typical process; Store in described process knowledge database table and be greater than 50 process knowledges; Store in described standard criterion database table and be greater than 100 standard criterions.These process datas and knowledge are all that the technical specialist of this area sums up out with application enterprise, and it is enough to auxiliary common process personnel and carries out the manufacture of titanium alloy member golden light increasing material.

After having built various data model, just achieve process data involved in titanium alloy member laser gain material manufacture process and the storage of knowledge, the use of various process data and knowledge realized, its display and operation must be realized.

Therefore, after having built various data model, next be dynamically configure the data display page of titanium alloy member laser gain material manufacturing process data system also for described data display page configuration data model in the mode of data display page dynamic-configuration, thus the incidence relation set up between the described data display page and described data model, and then be convenient to show on the described data display page and operate the process data and knowledge that store in database table corresponding to described data model.Wherein, the described data display page is for showing and allowing the various process data that stores in database table described in user operation and knowledge.

In the present invention, described titanium alloy member laser gain material manufacturing process data system comprises multiple data model, i.e. multiple database table, the inside stores various process data and knowledge.But in actual use, a user does not often need all process datas and knowledge, and only may need process data and the knowledge of a part, such as, only need the data such as technics, technological parameter, and do not need the data such as tool parameters; Or a user only needs the data such as technics and tool parameters within a period of time, and only needs the data such as technological parameter and equipment technical parameters within another a period of time.In this case, if various process data and knowledge are all showed user, make on the one hand the process data shown and knowledge too many, user uses inconvenience more; Another is convenient, increases the displaying workload of data system, waste system resource.

Therefore, in the present invention, dynamically configure the data display page of titanium alloy member laser gain material manufacturing process data system in the mode of data display page dynamic-configuration, make user can selectably show required process data and knowledge, thus meet the demand of oneself.

In the present invention, particularly, when user configures the data display page of titanium alloy member laser gain material manufacturing process data system, first an application is created for each data model, then a tab page face is configured for described titanium alloy member laser gain material manufacturing process data system, and the incidence relation set up between this tab page face and described application, thus show described application on described tab page face.

When creating application for data model, for user provides one to apply drawing template establishment.Have in this application drawing template establishment title that various application all comprises usually, DISPLAY ORDER, description and allow the attributes such as model.User only needs to insert related content in each attribute and one of them data model created before selecting in " allow model " attribute can realize the establishment of an application.Application required for each user can create according to the needs of oneself.Such as, if a user only needs technics data and technological parameter data, so its needs set up technics application and technological parameter application.Wherein, technics application institute allow model to be technics data model, technological parameter apply allow model to be technological parameter data model.

After creating application, just need for described titanium alloy member laser gain material manufacturing process data system configures a tab page face.In the present invention, when setting up described tab page face, for user provides a tab page face drawing template establishment.Wherein, there is in this tab page face drawing template establishment title, the attribute such as DISPLAY ORDER and description that various tab page face all comprises usually.User, by inserting related content in each attribute, can realize the establishment in the tab page face of titanium alloy member laser gain material manufacturing process data system.

The tab page face of the titanium alloy member laser gain material manufacturing process data system created by above-mentioned tab page face drawing template establishment is also an empty page, want to allow it can show various process data and knowledge, next to be this tab page face associated application, thus realize associating of the tab page face database table corresponding with the data model of application.In the present invention, associating between tab page face with application is set up by relation template.Particularly, after establishing described tab page face, for described tab page face provides a relation template, the various application created can be selected by user in described relation template, thus set up the incidence relation between described tab page face and various application.

Such as, if the process data of user's needs and knowledge comprise technics and technological parameter, technics application and technological parameter application so to be associated on the tab page face of its titanium alloy member laser gain material manufacturing process data system created.After the incidence relation having established tab page face and various application, the relevant information of various application can be presented on described tab page face.Like this, by clicking each application on described tab page face, can call and the process data that stores in the database table corresponding to the data model of this application and knowledge, thus realizing the display of related process data and knowledge, and various operation can be carried out for it.

After having defined data model and the data display page, can realize the basic function such as storage and displaying of various process data and knowledge.But, the various process data managed in titanium alloy member laser gain material manufacturing process data system and knowledge be all through expert and application enterprise etc. sum up and condensed after process data and knowledge, if do not carry out auditing the increase with regard to allowing user optionally to carry out process data and knowledge to the operation of various process data and knowledge, deletion and amendment etc., so by the authority of the various process data that seriously reduces in titanium alloy member laser gain material manufacturing process data system and knowledge and reliability, thus be difficult to carrying out smoothly of assisted titanium alloy components laser gain material manufacture.

Therefore, must must be that titanium alloy member laser gain material manufacturing process data system increases data auditing flows, make operating personnel carry out the increase of process data and knowledge, deletion and amendment time, just can must carry out through the examination & verification of related personnel.

Meanwhile, the process data involved by titanium alloy member laser gain material manufactures and knowledge kind a lot, the importance of each process data and knowledge, authority and management etc. are different again.If for all process datas and knowledge all provide a kind of fixing data auditing flow, be so obviously difficult to meet the individual demand of user and the different management expectancys of different process data and knowledge.

Therefore, in the present invention, the data auditing flow of titanium alloy member laser gain material manufacturing process data system is dynamically defined in the mode of data auditing flow Dynamic Definition.Namely, by the difference of user according to the management of the process data stored in disparate databases table in titanium alloy member laser gain material manufacturing process data system and knowledge, the data auditing flow of self-defined various process data and knowledge, thus increase its dirigibility, meet individual requirements.

In the present invention, particularly, when user sets up the data auditing flow of titanium alloy member laser gain material manufacturing process data system, first by user determine data auditing flow Name and Description and for user provides a data auditing flow to define template after user determines the Name and Description of data auditing flow.

This data auditing flow definition template comprises workflow tool and editing area.Multiple flow nodes is comprised in described workflow tool.Described flow nodes comprises single examination & approval, evaluation countersign, certainly examines countersign, joint examination countersign and decision node.Wherein, the participant of described single careful label can be: participant, department, one in role.Described evaluation examines the participant of label for multiple.The described participant certainly examining label can be multiple, but must have a main responsible official.The participant of label is examined in described joint examination can for multiple and will point out the number percent that this node passes through.Described decision node is an automatic node, and without any need for artificial participation, this node can flow out many Migration Lines, and the Migration Line that decision node flows out is different from other Migration Lines.Described editing area is for defining concrete data auditing flow.

When defining concrete data auditing flow, user is according to the examination & verification needs of various process data and knowledge, corresponding flow nodes is selected from described workflow tool, to be added in described editing area and to be determined the relevant information such as participant and authority of corresponding flow nodes, then with Migration Line, selected flow nodes is coupled together, the data auditing flow formed.

Fig. 3 shows an exemplary data auditing flow.When the data auditing flow shown in concrete definition Fig. 3, single approval process node first to add in editing area and determines the personnel of single examination & approval by user, then evaluation countersign flow nodes added in editing area and determine to evaluate the participant of countersign, then decision node is added in editing area, finally add joint examination countersign flow nodes in editing area to and reach much percentage Bizets after determining to make a joint checkup the participant of countersign and joint examination countersign allowing by joint examination countersign.After having added above-mentioned flow nodes and determine foregoing, with Migration Line, each flow nodes is coupled together, the definition of above-mentioned data auditing flow can have been completed.

In the present invention, the data model related to due to described titanium alloy member laser gain material manufacturing process data system has ten.So, when defining data auditing flow, user should define corresponding data auditing flow respectively according to needing of auditing of the data of each data model, thus is convenient to audit the operation of various process data involved in titanium alloy member laser gain material manufacturing process data system and knowledge.

After establishing data auditing flow, also to set up the incidence relation between described data model and corresponding data auditing flow, thus audit according to the operation of described data auditing flow to the process data stored in the database table corresponding to described data model and knowledge.

In the present invention, the incidence relation between data model and data auditing flow is set up by relation template.Particularly, can after the data model establishing titanium alloy member laser gain material manufacturing process data system, for described data model provides a relation template, in described relation template, selected the data auditing flow defined by user, thus set up the incidence relation between data model and data auditing flow.Like this, user can associate a data auditing flow respectively for each data model of titanium alloy member laser gain material manufacturing process data system.

After establishing the incidence relation between data model and data auditing flow, when the process data stored in the database table corresponding to described data model and knowledge operate, progressively must audit according to the auditing flow defined in described data auditing flow, and just can associative operation be carried out after examination & verification completes, thus ensure that the effective management to the process data in titanium alloy member laser gain material manufacturing process data system and knowledge, ensure that its reliability and authority.

Such as, if establish the incidence relation between the data auditing flow shown in technics data model and Fig. 3, when the technics data so stored in the technics database table corresponding to technics data model operate, must audit according to the data auditing flow shown in Fig. 3, audit just operating of passing through.That is, first give single approving person to examine, if single approving person does not pass through, then do not allow to operate; If single approving person have passed, so give evaluation countersign personnel by by the content report after single approving person's examination & approval, carry out evaluation by evaluation countersign personnel to conutersign, and determine be reported to joint examination countersign or directly terminate according to the countersign result of evaluation countersign personnel.Particularly, if not by the countersign of evaluation countersign personnel, then directly terminate examination & verification, do not allow to operate; If have passed the countersign of evaluation countersign personnel, be so reported to joint examination countersign personnel, by joint examination countersign, personnel provide final result.That is, if having passed the countersign of joint examination countersign personnel, so allow to operate, if not by the countersign of joint examination countersign personnel, so do not allow to operate.

Like this, as shown in Figure 4, database table, the data display page and data auditing flow is comprised by the titanium alloy member laser gain material manufacturing process data system constructed by construction method of the present invention.Wherein, described database table is for storing various process data involved in titanium alloy member laser gain material manufacture process and knowledge.The described data display page is for showing and operating the process data and knowledge that store in described database table.Described data auditing flow is used for auditing the operation of the various process data stored in described database table and knowledge.

This titanium alloy member laser gain material manufacturing process data system can to provide in titanium alloy member laser gain material manufacture process required various process data and knowledge for user, thus contributes to auxiliary common process personnel and carry out the manufacture of titanium alloy member laser gain material.

And, the database table of this titanium alloy member laser gain material manufacturing process data system, the data display page and data auditing flow all can carry out Dynamic Definition by user as required, overcome the defect of fixed data storehouse table, fixed data displayed page and fixed data auditing flow, make its management more meeting various process data and knowledge in titanium alloy member laser growth manufacture process and use.

The content of embodiment is understood for the ease of those skilled in the art and uses the present invention and describe, and does not form restriction the present invention being protected to content.Those skilled in the art, after having read content of the present invention, can carry out suitable amendment to the present invention.Protection content of the present invention is as the criterion with the content of claim.When not departing from flesh and blood and the protection domain of claim, the various amendments carried out the present invention, change and replacement etc. are all within protection scope of the present invention.

Claims (3)

1. a construction method for titanium alloy member laser gain material manufacturing process data system, it comprises the steps:

(1) dynamically set up the various data models of titanium alloy member laser gain material manufacturing process data system in the mode of Data Dynamic modeling, this data model forms the database table for storing various process data and knowledge of titanium alloy member laser gain material manufacturing process data system;

(2) the various data display pages of titanium alloy member laser gain material manufacturing process data system are dynamically configured in the mode of data display page dynamic-configuration, and be described data display page configuration data model, thus the incidence relation set up between the described data display page and described data model, and then be convenient to show on the described data display page the various process data and knowledge that store in described database table;

(3) the various data auditing flows of titanium alloy member laser gain material manufacturing process data system are dynamically defined in the mode of data auditing flow Dynamic Definition;

(4) be described data model configuration data auditing flow, thus set up the incidence relation between described data model and described data auditing flow, so that audit the operation of described various process data and knowledge.

2. the construction method of titanium alloy member laser gain material manufacturing process data system as claimed in claim 1, wherein, described data auditing flow is by flow nodes and connect the Migration Line of flow nodes and form, and described flow nodes comprises single examination & approval, evaluation countersign, certainly examines countersign, joint examination countersign and decision node.

3. the construction method of titanium alloy member laser gain material manufacturing process data system as claimed in claim 2, wherein, described various data model comprises technics data model, process data model, technological parameter data model, material parameter data model, equipment technical parameters data model, frock technical parameter data model, tool technique supplemental characteristic model, typical process data model, process knowledge data model and technological standards canonical data model.