CN105550431A - Three-dimensional layout design data integration method and system for nuclear power plant - Google Patents

Abstract

The invention discloses a three-dimensional layout design data integration method and system for a nuclear power plant. The method comprises the following steps: S1, establishing a standard entity-relation model of an item of the nuclear power plant; S2, exporting updated attribute data and model data in an incremental updating mode; and S3, according to the relation model, integrating the updated attribute data and model data. According to the three-dimensional layout design data integration method and system, the three-dimensional design data are exported in the incremental updating mode, so that the data export efficiency is improved and the change of the three-dimensional design data can be reflected in time; and then a possibility can be provided for further application of the data through integration processing, and the integrated data can be released to a user with a demand, so that the information isolated island problem of the three-dimensional design data is effectively solved.

Description

The method and system that a kind of nuclear power plant three dimensional arrangement design data is integrated

Technical field

The present invention relates to technical field of nuclear power, particularly relate to the method and system that a kind of nuclear power plant three dimensional arrangement design data is integrated.

Background technology

Three dimensional arrangement design is the key of the visual engineering construction of nuclear power plant, the basis of Ye Shi nuclear power plant informatization.Mainly adopt the softwares such as VPD (vantageplantdesign, power plant design management system) as three dimensional arrangement design platform in the three dimensional arrangement design of current nuclear power plant.The feature such as visual, multi-specialized collaborative design, model collision inspection of this design platform is that layout design brings great convenience.But due to three dimensional arrangement design platform, as VPD, the limitation of itself, the data that it produces are tool opening and sharing not, defines information island.Therefore, if user does not use special three dimensional arrangement design platform, as VPD software, will be difficult to check three-dimensional model and related data, use inconvenience; And the attribute data of these software platforms and other data carry out using very difficult to being when supplied to other users, this is also unfavorable for the utilization again finding Problems existing and data in three dimensional arrangement design.

Summary of the invention

For the technical matters of existing nuclear power plant three dimensional arrangement design platform information island, the invention provides the method and system that a kind of nuclear power plant three dimensional arrangement design data is integrated.

The technical scheme that the present invention proposes with regard to above-mentioned technical matters is as follows:

On the one hand, provide the method that a kind of nuclear power plant three dimensional arrangement design data is integrated, comprise the following steps:

S1, set up the standards entities-relational model of nuclear power plant's items;

S2, derive attribute data and the model data of renewal respectively in incremental update mode; And

S3, according to described relational model, the attribute data of respectively integrated described renewal and model data.

Preferably, described step S2 specifically comprises the following steps:

S21, invoke script file are to start three dimensional arrangement design module;

S22, start described three dimensional arrangement design module and call the program of data deriving incremental update;

S23, carry out incremental update to form attribute data file and model data file;

S24, described attribute data file and model data file are uploaded to monitored attribute data share directory and model data share directory respectively; And

S25, when monitoring described attribute data share directory or model data share directory changes, perform described step S3.

Preferably, step S23 comprises:

S231, read and need the node list of derived data;

The incremental update information that S232, the current sessions obtaining each node in described node list and last time more produce between new session;

S233, resolve described incremental update information with the change type of the object obtaining node and change and described object, wherein, described change type comprises newly-increased, amendment and deletes; And

S234, the attribute data obtaining described object and model data, and the form changing described attribute data and model data is to form described attribute data file and model data file.

Preferably, step S232 specifically comprises:

S2321, judge whether this node is derived data according to history derived record; If so, then S2312 is gone to step; Otherwise go to step S2313;

S2322, directly obtain the last session number upgraded, then obtain the incremental update information that current sessions and last time more produce between new session; And

S2323, derive all data of this node since creating, then obtain the incremental update information that current sessions and last time more produce between new session, and the session number that the last time of this node upgrades is set to 1.

Preferably, described incremental update file comprises attribute updating file and model modification file; Step S234 comprises further:

S2341, obtain the attribute data of described object, and identify the change type of described object;

S2342, described attribute data and described change type be converted to the described attribute data file meeting structure that extend markup language structure definition (XSD) defines and specification; And

S2343, change type according to the object that changes and described object, derive corresponding model data and the change type of record cast inventory and model, and convert described model data file to.

Preferably, step S23 also comprises:

S235, the current sessions of node and node number is upgraded or increases newly in history derived record; Wherein, if there is this node in history derived record, then the session number that the last time upgrades is revised as current session number; If there is not this node in history derived record, then this node newly-increased in record, is set to current session number by the session number of last time.

Preferably, described step S3 specifically comprises:

Described attribute data file is integrated into relevant database, and issues after described model data file being reconfigured the new model file of generation.

Preferably, described step S25 comprises further:

When monitoring described attribute data share directory or described model data share directory changes, read described attribute data file and use corresponding extend markup language structure to define the accuracy of attribute data file described in (XSD) file verification, then just described attribute data file is integrated into relevant database.

On the other hand, additionally provide the system that a kind of three dimensional arrangement design data is integrated, comprising:

Model building module, for setting up the standards entities-relational model of nuclear power plant's items;

Incremental update module, for deriving attribute data and the model data of renewal respectively in incremental update mode; And

Integration module, for according to described relational model, distinguishes attribute data and the model data of integrated described renewal.

Preferably, described incremental update module comprises:

Call submodule, for invoke script file to start three dimensional arrangement design module;

Promoter module, calls submodule described in being connected to, for starting described three dimensional arrangement design module and calling the program of data deriving incremental update;

Incremental update submodule, is connected to described promoter module, for carrying out incremental update to form attribute data file and model data file;

Files passe submodule, is connected to described incremental update submodule, for described attribute data file and model data file are uploaded to attribute data share directory and model data share directory respectively;

Monitoring submodule: for monitoring described attribute data share directory and model data share directory, and send a signal to described integration module when described attribute data share directory or model data share directory change.

Preferably, described incremental update submodule comprises:

Reading unit, for reading the node list needing derived data;

Acquiring unit, the incremental update information that current sessions and last time for obtaining each node in described node list more produce between new session;

Resolution unit, for resolving described incremental update information with the change type of the object obtaining node and change and described object, wherein, described change type comprises newly-increased, amendment and deletes; And

Converting unit, for obtaining attribute data and the model data of described object, and the form changing described attribute data and model data is to form described property data file and model data file.

Preferably, described acquiring unit comprises:

According to history derived record, judgment sub-unit, for judging whether this node is derived data; If so, then judged result is sent to the first acquisition subelement; Otherwise be sent to the second acquisition subelement;

First obtains subelement, is connected to described judgment sub-unit, for directly obtaining the last session number upgraded, then obtains the incremental update information that current sessions and last time more produce between new session; And

Second obtains subelement, for having derived all data of this node since creating, then obtains the incremental update information that current sessions and last time more produce between new session, and the session number that the last time of this node upgrades is set to 1.

Preferably, described converting unit comprises further:

Obtaining and mark subelement, for obtaining the attribute data of described object, and identifying the change type of described object;

First conversion subelement, for being converted to the described attribute data file meeting extend markup language structure definition (XSD) structure that defines and specification by described attribute data and described change type;

Second conversion subelement, for the change type according to the object changed and described object, derives corresponding model data and the change type of record cast inventory and model, and converts described model data file to.

Preferably, described incremental update submodule also comprises:

Node updates unit, for upgrading the current sessions of node and node number or increase newly in history derived record; Wherein, if there is this node in history derived record, then the session number that the last time upgrades is revised as current session number; If there is not this node in history derived record, then this node newly-increased in record, is set to current session number by the session number of last time.

Preferably, described data integration module specifically for described attribute data file is integrated into relevant database, and is issued after described model data file being reconfigured the new model file of generation.

The system that nuclear power plant according to claim 10 three dimensional arrangement design data is integrated, it is characterized in that, described data integration submodule is further used for when monitoring described attribute data share directory or model data share directory changes, read described attribute data file and use corresponding extend markup language structure to define the accuracy of attribute data file described in (XSD) file verification, then just described attribute data file is integrated into relevant database.

Implement the embodiment of the present invention, there is following beneficial effect:

Three-dimensional design data derives in the mode of incremental update by the present invention, not only increases the efficiency of statistical conversion, and can reflect the change of three-dimensional design data in time; Then the attribute data of derivation is integrated in relevant database, can more deep market demand be carried out, as data check, data publication, data analysis etc.; General published method can be used after model data is integrated, as WEB published method, facilitate other users to use.By the present invention, solve the problem of detached island of information of three-dimensional design data, make design data to be the service of downstream construction plate better, improve the value of data, improve the level of informatization.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the integrated method flow diagram of a kind of nuclear power plant three dimensional arrangement design data of the first embodiment provided by the invention;

Fig. 2 is the integrated method flow diagram of a kind of nuclear power plant three dimensional arrangement design data of the first embodiment provided by the invention;

Fig. 3 is the integrated method flow diagram of a kind of nuclear power plant three dimensional arrangement design data of the first embodiment provided by the invention;

Fig. 4 is the integrated method flow diagram of a kind of nuclear power plant three dimensional arrangement design data of the first embodiment provided by the invention;

Fig. 5 is the integrated method flow diagram of a kind of nuclear power plant three dimensional arrangement design data of the first embodiment provided by the invention;

Fig. 6 is the integrated method flow diagram of a kind of nuclear power plant three dimensional arrangement design data of the first embodiment provided by the invention;

Fig. 7 is a kind of three dimensional arrangement design data hierarchical structure schematic diagram that the embodiment of the present invention provides;

Fig. 8 is a kind of entity-relation model structural representation that the embodiment of the present invention provides;

Fig. 9 is the integrated system block diagram of a kind of nuclear power plant three dimensional arrangement design data of the second embodiment provided by the invention;

Figure 10 is the integrated system block diagram of a kind of nuclear power plant three dimensional arrangement design data of the second embodiment provided by the invention;

Figure 11 is the integrated system block diagram of a kind of nuclear power plant three dimensional arrangement design data of the second embodiment provided by the invention;

Figure 12 is the integrated system block diagram of a kind of nuclear power plant three dimensional arrangement design data of the second embodiment provided by the invention;

Figure 13 is the integrated system block diagram of a kind of nuclear power plant three dimensional arrangement design data of the second embodiment provided by the invention;

Figure 14 is the integrated system block diagram of a kind of nuclear power plant three dimensional arrangement design data of the second embodiment provided by the invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under the prerequisite not making creative work, all belongs to the scope of protection of the invention.

Embodiment one

Embodiments provide the method that a kind of nuclear power plant three dimensional arrangement design data is integrated, as shown in Figure 1, the method comprising the steps of:

Step S1, sets up the standards entities-relational model of nuclear power plant's items;

Step S2, derives attribute data and the model data of renewal respectively in incremental update mode; And

Step S3, according to described relational model, the attribute data of integrated described renewal respectively and model data.

Particularly, in embodiments of the present invention, the entity-relation model structure that defines of relevant database as shown in Figure 8.The entity-relation model around pipe fitting 10 is illustrated in Fig. 8.The abstraction relation of pipe fitting 10 mainly comprises: what (i.e. essential attribute) pipe fitting 10 is, is connected, immediate subordinate is in what and indirectly what is subordinated to what.As can be seen from Figure 8, the essential attribute of pipe fitting 10 can be valve instrument 40 and equipment 50, and pipe fitting 10 can be connected with pipe fitting or ozzle 60, pipe fitting 10 immediate subordinate and arm 20, because arm 20 immediate subordinate is in pipeline 20, described pipe fitting 10 is subordinate and pipeline 30 indirectly.Certainly, Fig. 8 is a schematic example, and those skilled in the art under the teachings of the present invention, can set up the standards entities-relational model of other items in nuclear power plant.

The entity-relation model that the embodiment of the present invention provides, is a kind of entity-relation model of standard, has general applicability.

Further, as shown in Figure 2, above-mentioned steps S2 can realize by the following method:

Step S21, invoke script file is to start three dimensional arrangement design module.

Particularly, above-mentioned steps S21 by WEB service timing or can carry out invoke script file by access, and alternatively, script file can be the autoexec in system, as BAT script file.The frequency called also can set according to actual needs.Three dimensional arrangement design module can be the three-dimensional design deploying software installed, as VPD software.

Step S22, starts three dimensional arrangement design module and calls the program deriving incremental update data.

Particularly, above-mentioned steps S22 can after three dimensional arrangement design module starts, and Automatically invoked derives the program of incremental update data, and this program can be macroprogramming language (PML) program.

Step S23, carries out incremental update to form attribute data file and model data file.

Particularly, as shown in Figure 3, above-mentioned steps S23 can realize in the following way:

Step S231, reads the node list needing derived data.In embodiments of the present invention, nuclear power plant's three dimensional arrangement design data adopts hierarchical structure performance, as shown in Figure 7, there is shown 4 node layers.Each node can use the object of suitable type, and expresses the three-dimensional model of certain limit according to business demand.Such as, in Fig. 7, the node type of three first layers is fixed, and ground floor is root node 100, and the quantity with node only has one usually; The second layer is website node 101 and 102, and the quantity of website can be multiple; Third time is Area Node 111 ~ 113, and the number in region also can be multiple.And the type of the 4th layer is not just fixed, can be pipeline 121 and 122, also can be equipment 123 and 124, and the quantity of the 4th node layer also can be multiple.To each node name with the clear and definite scope of business that it is expressed, can arrange corresponding attribute, the relation of inclusion embodied in hierarchical structure is also the relation of inclusion of three-dimensional model simultaneously.Usually, the node of identical type represents in form similar practical object, by being distinguished the name of different nodes, and name is generally unique in three dimensional arrangement design module, as pipeline can represent primary Ioops water pipe or cable testing bridge etc., and the equipment of different names just represents different equipment, as pump, valve or steam turbine etc.

In above-mentioned steps S231, node list is listed with the node of some particular type usually, such as, list with website.

Step S232, obtains the incremental update information that the current sessions of each node in node list and last time more produce between new session.

Particularly, as shown in Figure 4, above-mentioned steps S232 is by such as under type realization:

According to history derived record, step S2321, judges whether this node is derived data; If so, then S2312 is gone to step; Otherwise go to step S2313.Wherein, history derived record comprises session (Session) number information that history derives node and the renewal of each node last time.

Step S2322, directly obtains the last session number upgraded, then obtains the incremental update information that current sessions and last time more produce between new session.Particularly, incremental update information obtains by program command, as difference order.

And step S2323, derive all data of this node since creating, then obtain the incremental update information that current sessions and last time more produce between new session, and the session number that the last time of this node upgrades is set to 1.

Step S233, resolves described incremental update information with the change type of the object obtaining node and change and described object, and wherein, described change type comprises newly-increased, amendment and deletes.

And step S234, obtain attribute data and the three-dimensional modeling data of above-mentioned object, and the form of converting attribute data and three-dimensional modeling data is to form above-mentioned Data Update file and model modification file.

Particularly, as shown in Figure 4, above-mentioned steps S234 is by such as under type realization:

Step S2341, obtains the attribute data of object, and the change type of identification of object.

Step S2342, is converted to the attribute data file meeting extend markup language structure definition (XSD) structure that defines and specification, such as extend markup language (XML) file by attribute data and change type.

And step S2343, according to the change type of the object changed and object, derive corresponding three-dimensional modeling data and the change type of record cast inventory and model, and convert model data file to, such as RVM file (the three-dimensional model formatted file that VPD design software is derived).

Alternatively, in embodiment provided by the invention, above-mentioned steps S23 can also comprise:

Step S235, upgrades the current sessions number of node and node or increases newly in history derived record; Wherein, if there is this node in history derived record, then the session number that the last time upgrades is revised as current session number; If there is not this node in history derived record, then this node newly-increased in record, is set to current session number by the session number of last time.

In an embodiment of the present invention, during due to three dimensional arrangement design module (as VPD software) background maintenance, system manager may merge the session produced when preserving design data, therefore for ensureing the accuracy of incremental update data, the session number interval of merging should be less than the session number of the last update of deriving node.

Alternatively, in embodiments of the present invention, as shown in Figure 6, above-mentioned steps S23 can also realize in the following way:

Step S'21, read the node list needing derived data, node list is listed with the node of some particular type usually, such as, list with website.

According to history derived record, step S'22, judges whether this node is derived data; If so, then S'23 is gone to step; Otherwise go to step S'24.Wherein, history derived record comprises session (Session) number information that history derives node and the renewal of each node last time.

Step S'23, directly obtains the last session number upgraded in historical record.

Step S'24, has derived all data of this node since creating, and the session number that the last time of this node upgrades is set to 1.

Step S'25, the incremental update information that acquisition current sessions and last time more produce between new session, particularly, incremental update information obtains by program command, as difference order.

Step S'26, resolves described incremental update information with the change type of the object obtaining node and change and described object, and wherein, described change type comprises newly-increased, amendment and deletes.

Step S'27, obtains the attribute data of object, and the change type of identification of object.

Step S'28, is converted to the attribute updating file meeting extend markup language structure definition (XSD) structure that defines and specification, such as extend markup language (XML) file by attribute data and change type.

Step S'29, according to the change type of the object changed and object, derive corresponding three-dimensional modeling data and the change type of record cast inventory and model, and convert model modification file to, such as RVM file (the three-dimensional model formatted file that VPD design software is derived).

And step S'30, the current sessions number of node and node is upgraded or increases newly in history derived record; Wherein, if there is this node in history derived record, then the session number that the last time upgrades is revised as current session number; If there is not this node in history derived record, then this node newly-increased in record, is set to current session number by the session number of last time.

Step S24, is uploaded to monitored attribute data share directory and model data share directory respectively by above-mentioned attribute data file (as XML file) and model data file (as RVM file).

And step S25, when monitoring data sharing catalogue and changing, perform above-mentioned steps S3, namely respectively attribute updating file (as XML file) is integrated into relevant database, and issues after model modification file (as RVM file) being reconfigured the new model file of generation.

Alternatively, above-mentioned steps S25 is also by such as under type realization:

When monitoring described data sharing catalogue and changing, read described attribute updating file and use the accuracy of corresponding XSD file verification attribute updating file (as XML file), then just attribute updating file is integrated into relevant database.Further, issue after model modification file (as RVM file) being reconfigured the new model file of generation.

The background data base of three dimensional arrangement design attributes data is three dimensional arrangement design module (as VPD software) distinctive database.This database non-relational database, directly cannot be connected by database interface with the relevant database of the data integration in the present invention, therefore need suitable intermediate file as the bridge of data integration.

XML, as a kind of data exchange ways general at present, is widely used in Various types of data mutual, and also very convenient with the combination of relevant database.In the present invention, three dimensional arrangement design data is exported as XML file, then by the data integration in XML file in relevant database.XSD file is used for defining the structure of XML and data rule, and can verify the structure of XML file, comprises the element in document, attribute, the order of daughter element and the data type etc. of number, element and attribute.By definition XSD file, can guarantee the accuracy exporting XML file, XSD file structure has following characteristics:

The first, the design data in three dimensional arrangement design can be given full expression to.Three dimensional arrangement design data has OO feature, and every class object has respective attribute, and the class in being designed with three dimensional arrangement by node in XSD file is corresponding, and sets corresponding attribute; Simultaneously for relation complicated between object, can node derived data be set separately, as annexation node " CREFS ".For the data of disparate modules, different nodes also can be set and be distinguished, as the DESIGN module in DESIGN node PARAGON node respectively corresponding three-dimensional layout design and PARAGON module.

The second, extensibility is strong.The data that XSD file can be derived as required, increase or improve corresponding node and do not affect other node; Different data can be distinguished according to business demand, represent room in VPD software respectively as increased DESIGN_ROOM node and DESIGN_AREA node and partition information is installed.

3rd, specification can be carried out to data layout.XSD file can carry out specification to the data derived, and as number of child nodes, data type, form etc., thus ensures the data fit requirement of derivation, and makes preliminary format verification.

Three-dimensional design data derives in the mode of incremental update by the present invention, not only increases the efficiency of statistical conversion, and can reflect the change of three-dimensional design data in time; Then the attribute data of derivation is integrated in relevant database, can more deep market demand be carried out, as data check, data publication, data analysis etc.; General published method can be used after model data is integrated, as WEB published method, facilitate other users to use.By the present invention, solve the problem of detached island of information of three-dimensional design data, make design data to be the service of downstream construction plate better, improve the value of data, improve the level of informatization.

Embodiment two

Embodiments provide the system that a kind of nuclear power plant three dimensional arrangement design data is integrated, as shown in Figure 9, this system comprises:

Model building module 1, for setting up the standards entities-relational model of nuclear power plant's items;

Incremental update module 2, for deriving attribute data and the model data of renewal respectively in incremental update mode; And

Integration module 3, for according to described relational model, distinguishes attribute data and the model data of integrated above-mentioned renewal.

Particularly, as shown in Figure 10, above-mentioned incremental update module 2 comprises:

Call submodule 21, for invoke script file to start three dimensional arrangement design module;

Promoter module 22, is connected to and calls submodule 21, for starting three dimensional arrangement design module and calling the program deriving incremental update data;

Incremental update submodule 23, is connected to promoter module 22, for carrying out incremental update to form attribute data file and model data file;

Files passe submodule 24, is connected to incremental update submodule 23, for increasing attribute data file and model data file are uploaded to data sharing catalogue 40; Wherein, data sharing catalogue 40 comprises attribute data share directory and model data share directory; And

Monitoring submodule 25: for monitoring above-mentioned data sharing catalogue 40, and send a signal to described integration module when described attribute data share directory or model data share directory change.

Particularly, as shown in figure 11, above-mentioned incremental update submodule 23 comprises:

Reading unit 231, for reading the node list needing derived data;

Acquiring unit 232, the incremental update information that current sessions and last time for obtaining each node in node list more produce between new session;

Resolution unit 233, for resolving incremental update information with the change type of the object obtaining node and change and object, wherein, change type comprises newly-increased, amendment and deletes; And

Converting unit 234, for obtaining attribute data and the three-dimensional modeling data of object, and the form of converting attribute data and three-dimensional modeling data is to form attribute data file and model data file.

Alternatively, as shown in figure 11, above-mentioned incremental update submodule 23 also can comprise:

Node updates unit 235, for upgrading the current sessions of node and node number or increase newly in history derived record; Wherein, if there is this node in history derived record, then the session number that the last time upgrades is revised as current session number; If there is not this node in history derived record, then this node newly-increased in record, is set to current session number by the session number of last time.

Particularly, as shown in figure 12, above-mentioned acquiring unit 232 comprises:

According to history derived record, judgment sub-unit 2321, for judging whether this node is derived data; If so, then judged result is sent to the first acquisition subelement; Otherwise be sent to the second acquisition subelement;

First obtains subelement 2322, is connected to judgment sub-unit 321, for directly obtaining the last session number upgraded, then obtains the incremental update information that current sessions and last time more produce between new session; And

Second obtains subelement 2323, for having derived all data of this node since creating, then obtains the incremental update information that current sessions and last time more produce between new session, and the session number that the last time of this node upgrades is set to 1.

Particularly, as shown in figure 13, above-mentioned converting unit 234 comprises further:

Obtain and mark subelement 2341, for obtaining the attribute data of object, and the change type of identification of object;

First conversion subelement 2342, for attribute data and described change type being converted to the attribute data file meeting extend markup language structure definition (XSD) structure that defines and specification, as XML file;

Second conversion subelement 2343, for the change type according to the object changed and object, derives corresponding three-dimensional modeling data and the change type of record cast inventory and model, and converts model data file to, as RVM file.

In embodiments of the present invention, incremental update submodule 2 can also be realized by following structure.As shown in figure 14, incremental update submodule 2 comprises:

Reading unit 21', for reading the node list needing derived data, node list is listed with the node of some particular type usually, such as, list with website.

According to history derived record, judging unit 22', for judging whether this node is derived data; If so, then signal is sent to the first conversation element 23'; Otherwise be sent to the second conversation element 24'.Wherein, history derived record comprises session (Session) number information that history derives node and the renewal of each node last time.

First conversation element 23', for directly obtaining the last session number upgraded in historical record.

Second conversation element 24', for having derived all data of this node since creating, and is set to 1 by the session number that the last time of this node upgrades.

Acquiring unit 25', for obtaining the incremental update information that current sessions and last time more produce between new session, particularly, incremental update information obtains by program command, as difference order.

Resolution unit 26', for resolving described incremental update information with the change type of the object obtaining node and change and described object, wherein, described change type comprises newly-increased, amendment and deletes.

Obtain and identify unit 27', for obtaining the attribute data of object, and the change type of identification of object.

First converting unit 28', such as, for being converted to the attribute data file meeting extend markup language structure definition (XSD) structure that defines and specification, extend markup language (XML) file by attribute data and change type.

Second converting unit 29', for the change type according to the object changed and object, derive corresponding three-dimensional modeling data and the change type of record cast inventory and model, and convert model data file to, such as RVM file (the three-dimensional model formatted file that VPD design software is derived).

And node updates unit 30', for the current sessions of node and node number is upgraded or increases newly in history derived record; Wherein, if there is this node in history derived record, then the session number that the last time upgrades is revised as current session number; If there is not this node in history derived record, then this node newly-increased in record, is set to current session number by the session number of last time.

Further, data integration module 3 specifically for attribute updating file is integrated into relevant database, and is issued after model modification file being reconfigured the new model file of generation.

Further, data integration module 3 also can be used for when monitoring submodule 25 monitor data sharing catalogue change time, reading attributes data file also uses corresponding extend markup language structure to define the accuracy of (XSD) file verification attribute updating file, and then just attribute data file is integrated into relevant database.

Relevant database, as now widely used data storage method, is used for carrying out integrated to the three-dimensional design attribute data of deriving.After the integrated attribute data of relational data, general development technique (as webpage etc.) can be used to show to user, issue, share data, improve the value of data.Therefore, user obtains data and the model file of up-to-date three dimensional arrangement design by common access modes such as webpages, going to obtain these information without the need to logging in special three dimensional arrangement design software, efficiently solving the technical matters of three dimensional arrangement design software information island.

Above disclosedly be only a kind of preferred embodiment of the present invention, certainly the interest field of the present invention can not be limited with this, one of ordinary skill in the art will appreciate that all or part of flow process realizing above-described embodiment, and according to the equivalent variations that the claims in the present invention are done, still belong to the scope that invention is contained.

Claims (16)

1. the method that nuclear power plant's three dimensional arrangement design data is integrated, is characterized in that, comprises the following steps:

S1, set up the standards entities-relational model of nuclear power plant's items;

S2, derive attribute data and the model data of renewal respectively in incremental update mode; And

S3, according to described relational model, the attribute data of respectively integrated described renewal and model data.

2. the method that nuclear power plant according to claim 1 three dimensional arrangement design data is integrated, it is characterized in that, described step S2 specifically comprises the following steps:

S21, invoke script file are to start three dimensional arrangement design module;

S22, start described three dimensional arrangement design module and call the program of data deriving incremental update;

S23, carry out incremental update to form attribute data file and model data file;

S24, described attribute data file and model data file are uploaded to monitored attribute data share directory and model data share directory respectively; And

S25, when monitoring described attribute data share directory or model data share directory changes, perform described step S3.

3. the method that nuclear power plant according to claim 2 three dimensional arrangement design data is integrated, it is characterized in that, step S23 comprises:

S231, read and need the node list of derived data;

The incremental update information that S232, the current sessions obtaining each node in described node list and last time more produce between new session;

S233, resolve described incremental update information with the change type of the object obtaining node and change and described object, wherein, described change type comprises newly-increased, amendment and deletes; And

S234, the attribute data obtaining described object and model data, and the form changing described attribute data and model data is to form described attribute data file and model data file.

4. the method that nuclear power plant according to claim 3 three dimensional arrangement design data is integrated, it is characterized in that, step S232 specifically comprises:

S2321, judge whether this node is derived data according to history derived record; If so, then S2312 is gone to step; Otherwise go to step S2313;

S2322, directly obtain the last session number upgraded, then obtain the incremental update information that current sessions and last time more produce between new session; And

S2323, derive all data of this node since creating, then obtain the incremental update information that current sessions and last time more produce between new session, and the session number that the last time of this node upgrades is set to 1.

5. the method that nuclear power plant according to claim 3 three dimensional arrangement design data is integrated, is characterized in that, described incremental update file comprises attribute updating file and model modification file; Step S234 comprises further:

S2341, obtain the attribute data of described object, and identify the change type of described object;

S2342, described attribute data and described change type be converted to the described attribute data file meeting structure that extend markup language structure definition (XSD) defines and specification; And

S2343, change type according to the object that changes and described object, derive corresponding model data and the change type of record cast inventory and model, and convert described model data file to.

6. the method that nuclear power plant according to claim 3 three dimensional arrangement design data is integrated, it is characterized in that, step S23 also comprises:

S235, the current sessions of node and node number is upgraded or increases newly in history derived record; Wherein, if there is this node in history derived record, then the session number that the last time upgrades is revised as current session number; If there is not this node in history derived record, then this node newly-increased in record, is set to current session number by the session number of last time.

7. the method that nuclear power plant according to claim 1 three dimensional arrangement design data is integrated, it is characterized in that, described step S3 specifically comprises:

Described attribute data file is integrated into relevant database, and issues after described model data file being reconfigured the new model file of generation.

8. the method that nuclear power plant according to claim 2 three dimensional arrangement design data is integrated, it is characterized in that, described step S25 comprises further:

When monitoring described attribute data share directory or described model data share directory changes, read described attribute data file and use corresponding extend markup language structure to define the accuracy of attribute data file described in (XSD) file verification, then just described attribute data file is integrated into relevant database.

9. the system that nuclear power plant's three dimensional arrangement design data is integrated, is characterized in that, comprising:

Model building module, for setting up the standards entities-relational model of nuclear power plant's items;

Incremental update module, for deriving attribute data and the model data of renewal respectively in incremental update mode; And

Integration module, for according to described relational model, distinguishes attribute data and the model data of integrated described renewal.

10. the system that nuclear power plant according to claim 9 three dimensional arrangement design data is integrated, is characterized in that, described incremental update module comprises:

Call submodule, for invoke script file to start three dimensional arrangement design module;

Promoter module, calls submodule described in being connected to, for starting described three dimensional arrangement design module and calling the program of data deriving incremental update;

Incremental update submodule, is connected to described promoter module, for carrying out incremental update to form attribute data file and model data file;

Files passe submodule, is connected to described incremental update submodule, for described attribute data file and model data file are uploaded to attribute data share directory and model data share directory respectively;

Monitoring submodule: for monitoring described attribute data share directory and model data share directory, and send a signal to described integration module when described attribute data share directory or model data share directory change.

The system that 11. nuclear power plant according to claim 10 three dimensional arrangement design datas are integrated, it is characterized in that, described incremental update submodule comprises:

Reading unit, for reading the node list needing derived data;

Acquiring unit, the incremental update information that current sessions and last time for obtaining each node in described node list more produce between new session;

Resolution unit, for resolving described incremental update information with the change type of the object obtaining node and change and described object, wherein, described change type comprises newly-increased, amendment and deletes; And

Converting unit, for obtaining attribute data and the model data of described object, and the form changing described attribute data and model data is to form described property data file and model data file.

The system that 12. nuclear power plant according to claim 11 three dimensional arrangement design datas are integrated, it is characterized in that, described acquiring unit comprises:

According to history derived record, judgment sub-unit, for judging whether this node is derived data; If so, then judged result is sent to the first acquisition subelement; Otherwise be sent to the second acquisition subelement;

First obtains subelement, is connected to described judgment sub-unit, for directly obtaining the last session number upgraded, then obtains the incremental update information that current sessions and last time more produce between new session; And

Second obtains subelement, for having derived all data of this node since creating, then obtains the incremental update information that current sessions and last time more produce between new session, and the session number that the last time of this node upgrades is set to 1.

The system that 13. nuclear power plant according to claim 11 three dimensional arrangement design datas are integrated, it is characterized in that, described converting unit comprises further:

Obtaining and mark subelement, for obtaining the attribute data of described object, and identifying the change type of described object;

First conversion subelement, for being converted to the described attribute data file meeting extend markup language structure definition (XSD) structure that defines and specification by described attribute data and described change type;

Second conversion subelement, for the change type according to the object changed and described object, derives corresponding model data and the change type of record cast inventory and model, and converts described model data file to.

The system that 14. nuclear power plant according to claim 11 three dimensional arrangement design datas are integrated, it is characterized in that, described incremental update submodule also comprises:

Node updates unit, for upgrading the current sessions of node and node number or increase newly in history derived record; Wherein, if there is this node in history derived record, then the session number that the last time upgrades is revised as current session number; If there is not this node in history derived record, then this node newly-increased in record, is set to current session number by the session number of last time.

The system that 15. nuclear power plant according to claim 9 three dimensional arrangement design datas are integrated, it is characterized in that, described data integration module specifically for described attribute data file is integrated into relevant database, and is issued after described model data file being reconfigured the new model file of generation.

The system that 16. nuclear power plant according to claim 10 three dimensional arrangement design datas are integrated, it is characterized in that, described data integration submodule is further used for when monitoring described attribute data share directory or model data share directory changes, read described attribute data file and use corresponding extend markup language structure to define the accuracy of attribute data file described in (XSD) file verification, then just described attribute data file is integrated into relevant database.