CN104298792A - Modularized design method and system for nuclear power station - Google Patents

Abstract

The invention discloses a modularized three-dimensional design method for a nuclear power station. The three-dimensional design method comprises the following steps: determining a modularized three-dimensional design area by a modularized three-dimensional design system according to a module range selection rule; identifying an item to be designed in the modularized three-dimensional design area; according to the operation working condition and the design requirement of the item to be designed, establishing a modularized three-dimensional model; and according to the established modularized three-dimensional model and item identification, executing a modularized three-dimensional design operation. In a nuclear power station design process, 3D-based modularized design for the nuclear power station can be realized. In addition, the invention also discloses a modularized three-dimensional design system for the nuclear power station.

Description

Based on modularity and the system of nuclear power station

Technical field

The invention belongs to nuclear power station design field, more particularly, the present invention relates to a kind of modularization three-dimensional design method based on nuclear power station and system.

Background technology

Along with the development of three generations's nuclear power technology, the modular technology as one of its important technology feature is also progressively applied in nuclear power station project.At present, China General Nuclear Group Co., Ltd. constantly in theoretical power station, compound (Architect Engineering, AE) the type wisdom power station of having both engineering consulting and technical support concentrates on studies and obtains many breakthroughs.

The module of nuclear power projects engineering is generally divided into mechanical module and construction module, and mechanical module is integrated on same steel construction pedestal or framework, after installation in position as a part for process system by equipment, pipeline, support etc.; Construction module, as its name suggests, namely form the module of mill construction, being welded by various shaped steel becomes a part (body of wall, floor, punching block version, stair or room etc.) for Architectural Equipment after installation in position, and modular design comprises mechanical module design and Structural module design.

Existing technology, directly by existing design platform carries out modular design, because designer needs to remove to browse a large amount of drawing, cannot be verified module design intuitively; Meanwhile, because modular design needs multi-specialized participation, the problem that in modular design process, dedicated interlace is many, technical coordination is difficult, causes that modular design efficiency is low, the cycle is long.

Summary of the invention

The object of the invention is to: provide a kind of in nuclear power station three-dimensional design process, realize the method and system of nuclear power station based on the modular design of the 3D of same design platform.

In order to realize foregoing invention object, the invention provides a kind of modularization three-dimensional design method based on nuclear power station, it comprises:

Modularization three-dimensional design system selectes principle determination module three-dimensional design region according to module range;

Modularization three-dimensional design system identifies items to be designed in described modularization three-dimensional design region;

Modularization three-dimensional design system sets up modularization three-dimensional model according to the operating condition of described items to be designed and designing requirement;

Modularization three-dimensional design system is according to the modularization three-dimensional model of described foundation and the operation of item identification execution module three-dimensional design.

One as the modularization three-dimensional design method that the present invention is based on nuclear power station is improved, and describedly to identify items to be designed in described modularization three-dimensional design region, comprising:

In described modularization three-dimensional design region, modularization model, non-modularization model identification are carried out to items to be designed.

As the present invention is based on nuclear power station modularization three-dimensional design method one improve, described in described modularization three-dimensional design region, items to be designed are identified after, also comprise:

According to items, requirement is built to the mark of items to be designed and carries out design optimization.

One as the modularization three-dimensional design method that the present invention is based on nuclear power station is improved, and the described modularization three-dimensional model according to described foundation and the operation of item identification execution module three-dimensional design, comprising:

The key Design data of described items are exported according to the modularization three-dimensional model of described foundation and item identification.

One as the modularization three-dimensional design method that the present invention is based on nuclear power station is improved, and described method also comprises:

According to the center of gravity of the key Design data acquisition items of described items, so that modularization three-dimensional design system is according to described design of centre of gravity module suspender or carry out modular transportation design.

One as the modularization three-dimensional design method that the present invention is based on nuclear power station is improved, and the described modularization three-dimensional model according to described foundation and the operation of item identification execution module three-dimensional design, comprising:

The component information of described items is exported according to the modularization three-dimensional model of described foundation and item identification.

One as the modularization three-dimensional design method that the present invention is based on nuclear power station is improved, and the described modularization three-dimensional model according to described foundation and the operation of item identification execution module three-dimensional design, comprising:

The working drawing of described items is exported according to the modularization three-dimensional model of described foundation and item identification.

In order to realize foregoing invention object, present invention also offers a kind of modularization three-dimensional design system based on nuclear power station, it comprises:

General modeling block, for selecting principle determination module three-dimensional design region according to module range;

Identification module, for identifying items to be designed in described modularization three-dimensional design region;

MBM, for setting up modularization three-dimensional model according to the operating condition of described items to be designed and designing requirement;

Processing module, for according to the modularization three-dimensional model of described foundation and the operation of item identification execution module three-dimensional design.

As the present invention is based on nuclear power station modularization three-dimensional design system one improve, described identification module also for, in described modularization three-dimensional design region, modularization model, non-modularization model identification are carried out to items to be designed.

One as the modularization three-dimensional design system that the present invention is based on nuclear power station is improved, described MBM also for, according to items, requirement is built to the mark of items to be designed and carries out design optimization.

One as the modularization three-dimensional design system that the present invention is based on nuclear power station is improved, described processing module specifically for, export the key Design data of described items according to the modularization three-dimensional model of described foundation and item identification.

One as the modularization three-dimensional design system that the present invention is based on nuclear power station is improved, described processing module also for, according to the center of gravity of the key Design data acquisition items of described items, so that modularization three-dimensional design system is according to described design of centre of gravity module suspender or carry out modular transportation design.

One as the modularization three-dimensional design system that the present invention is based on nuclear power station is improved, described processing module specifically for, export the component information of described items according to the modularization three-dimensional model of described foundation and item identification.

One as the modularization three-dimensional design system that the present invention is based on nuclear power station is improved, described processing module specifically for, export the working drawing of described items according to the modularization three-dimensional model of described foundation and item identification.

Compared with prior art, the modularization three-dimensional design method and the system that the present invention is based on nuclear power station have following Advantageous Effects: in the design process of nuclear power station, by modular technology is applied in three-dimensional design, the modularization three-dimensional model set up according to operating condition and the designing requirement of items and the mark execution module three-dimensional design operation of items to be designed, achieve the modular design on three-dimensional design platform.Meanwhile, by the application of modularization three-dimensional design, designer, without the need to browsing a large amount of drawing, directly can verify module design on three-dimensional model.In addition, by modularization three-dimensional design, achieve the multi-specialized collaborative design of module, solve the problem that in modular design process, dedicated interlace is many, technical coordination is difficult, improve design efficiency.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the modularization three-dimensional design method and system that the present invention is based on nuclear power station is described in detail, wherein:

Fig. 1 provides the process flow diagram of an embodiment of the modularization three-dimensional design method that the present invention is based on nuclear power station.

Fig. 2 provides the process flow diagram of another embodiment of the modularization three-dimensional design method that the present invention is based on nuclear power station.

Fig. 3 provides the schematic diagram of an embodiment of the modularization three-dimensional design system that the present invention is based on nuclear power station.

embodiment

In order to make goal of the invention of the present invention, technical scheme and Advantageous Effects thereof more clear, below in conjunction with the drawings and specific embodiments, the present invention is further elaborated.Should be understood that, the embodiment described in this instructions is only used to explain the present invention, is not intended to limit the present invention.

At present, along with the continuous progress of technology, the design of nuclear power station is progressively developed to 3D modelling from plane layout design, the 3D modelling of nuclear power station mainly realizes in factory's three dimensional arrangement design management system (Plant Design Management system, PDMS) operating environment.The main entity items of nuclear power station have various kinds of equipment, valve, instrument, pipeline, support, cable tray etc., and when setting up 3D model, valve is as online parts, and modeling together with pipeline, pipeline also comprises straight tube, elbow etc.Equipment, instrument etc., be then Independent modeling, be made up of various right cylinder, cube etc.

Fig. 1 provides an a kind of embodiment of the modularization three-dimensional design method based on nuclear power station, the method is based on the modularization three-dimensional design system of three-dimensional design platform, by the combination of each application specialized function module, carry out the modularization three-dimensional design of multi-specialized fusion.Modularization three-dimensional design method based on nuclear power station comprises:

Step 101, modularization three-dimensional design system selectes principle determination module three-dimensional design region according to module range;

Modularization three-dimensional design system is after the nuclear power station three-dimensional model of primary design, principle clear and definite definition module three-dimensional design region is selected according to module range, the i.e. area of space of determination module three-dimensional design, makes operator be familiar with the space distribution of module region and provide modularization three-dimensional design space range information.Wherein, module range is selected principle and can be arranged according to the concrete items of nuclear power station, such as, principal entities items in nuclear power station have various kinds of equipment, valve, instrument, pipeline, support, cable tray etc., and modularization three-dimensional design system is according to the situation determination module three-dimensional design region of each items.

Step 103, modularization three-dimensional design system identifies items to be designed in described modularization three-dimensional design region;

Concrete, modularization three-dimensional design system, in the modularization three-dimensional design region determined, is selected the items preparing to carry out modularization three-dimensional design, and is identified these items.Such as, the items preparing to carry out modularization three-dimensional design in modularization three-dimensional design region are composed with specific attribute-bit, distinguishes with other items in modularization three-dimensional design region.Such as, the preparation the selected items of carrying out modularization three-dimensional design are by the specialty classification such as (equipment, pipeline, steel construction, HVAC, electric), determine the primary element type of each large class simultaneously, follow-uply in units of fundamental type, carry out modularization three-dimensional design.

Optionally, items in the region of modularization three-dimensional design are prepared to carry out according to whether being that modularization model can be divided into modularization model and non-modularization model.

Further, modularization three-dimensional design system carries out modularization model, non-modularization model identification to items to be designed in described modularization three-dimensional design region.

Step 105, modularization three-dimensional design system sets up modularization three-dimensional model according to the operating condition of described items to be designed and designing requirement;

Modularization three-dimensional design system carries out modeling according to the operating condition of the items to be designed in modularization three-dimensional design region and designing requirement, namely sets up modularization three-dimensional model.

Further, modularization three-dimensional design system is revised according to the requirement of items structure the mark of items to be designed.Concrete, modularization three-dimensional design system is optimized the modularization three-dimensional model set up according to the operating condition of the items to be designed in modularization three-dimensional design region and designing requirement and the modularization three-dimensional model set up, comprising: parameter adjustment, locus adjustment, quantity adjustment etc.Such as, the work such as the steel construction modeling of the solder joint customization of the body of wall of suspension and support integrated optimization, mill construction, the steel plate concrete structure of floor, mechanical module, newly-increased steel construction and support modeling, temporary steel structure and support modeling and construction module, or pipe joint adjustment (solder joint setting), the adjustment of pipeline section position, steel structure frame design, suspension and support integration etc. of mechanical module.

Further, for the adjustment that the item identification in modularization three-dimensional model carries out, comprise and corresponding adjustment is carried out to the module relation data defined in items.Such as, equipment, pipeline, cable testing bridge, HVAC, suspension and support, steel construction etc. are mainly comprised at modular design modularization model in early stage, in the modular design middle and later periods, also comprise because of module is installed and traffic requirements adds interim suspension and support, temporary steel structure, newly-built steel construction, newly-built support and temporary pipeline etc.

Step 107, modularization three-dimensional design system is according to the modularization three-dimensional model of described foundation and the operation of item identification execution module three-dimensional design.

Concrete, the key Design data of described items are exported according to the modularization three-dimensional model of described foundation and item identification.On the basis of the modularization three-dimensional model set up, modularization three-dimensional design system extracts the key Design data of items.Such as, the weight of each items and center of gravity in the weight of modularization three-dimensional design system and center of gravity calculation function extraction module, then calculate and derive weight and the center of gravity of module, for module suspender design of lifting points, modular transportation design etc.

Concrete, the component information of described items is exported according to the modularization three-dimensional model of described foundation and item identification.On the basis of the modularization three-dimensional model set up, modularization three-dimensional design system exports the component information of described items.Such as, the component list of the inventory design function output module of modularization three-dimensional design system, with professional items each in minimal design unit statistical module, generally comprises the information such as component categories, title, quantity, quality, drawing number.

Concrete, the working drawing of described items is exported according to the modularization three-dimensional model of described foundation and item identification.On the basis of the modularization three-dimensional model set up, module conduits working drawing, the module suspension and support figure and module assembled figure of mechanical module needed for the modular construction G-Design fuction output modularization three-dimensional design of application module three-dimensional design system; The engineering drawings such as the component diagram of construction module and module assembled figure.Generally, original design platform has possessed relevant drawing output function, and the modular construction G-Design function of modularization three-dimensional design system can complete calling and customizing it.

In the design process of nuclear power station, by modular technology is applied in three-dimensional design, the modularization three-dimensional model set up according to operating condition and the designing requirement of items and the mark execution module three-dimensional design operation of items to be designed, the modularization achieved on three-dimensional design platform is used.Meanwhile, by the application of modularization three-dimensional design, designer, without the need to browsing a large amount of drawing, directly can verify module design on three-dimensional model.In addition, by modularization three-dimensional design, achieve the multi-specialized collaborative design of module, solve the problem that in modular design process, dedicated interlace is many, technical coordination is difficult, improve design efficiency.

Incorporated by reference to another embodiment providing a kind of modularization three-dimensional design method based on nuclear power station referring to Fig. 2, Fig. 2, it comprises:

Step 201, determination module three-dimensional design region;

Modularization three-dimensional design system selectes principle determination module three-dimensional design region according to module range; Modularization three-dimensional design system is after the nuclear power station three-dimensional model of primary design, principle clear and definite definition module three-dimensional design region is selected according to module range, the i.e. area of space of determination module three-dimensional design, makes operator be familiar with the space distribution of module region and provide modularization three-dimensional design space range information.Wherein, module range is selected principle and can be arranged according to the concrete items of nuclear power station, such as, principal entities items in nuclear power station have various kinds of equipment, valve, instrument, pipeline, support, cable tray etc., and modularization three-dimensional design system is according to the situation determination module three-dimensional design region of each items.

Step 203, identifies items to be designed;

Modularization three-dimensional design system identifies items to be designed in described modularization three-dimensional design region;

Concrete, modularization three-dimensional design system, in the modularization three-dimensional design region determined, is selected the items preparing to carry out modularization three-dimensional design, and is identified these items.Such as, the items preparing to carry out modularization three-dimensional design in modularization three-dimensional design region are composed with specific attribute-bit, distinguishes with other items in modularization three-dimensional design region.Such as, the items that the selection selected prepares to carry out modularization three-dimensional design are by the specialty classification such as (equipment, pipeline, steel construction, HVAC, electric), determine the primary element type of each large class simultaneously, follow-uply in units of fundamental type, carry out modularization three-dimensional design.

Optionally, items in the region of modularization three-dimensional design are prepared to carry out according to whether being that modularization model can be divided into modularization model and non-modularization model.

Further, modularization three-dimensional design system carries out modularization model, non-modularization model identification to items to be designed in described modularization three-dimensional design region.

Step 205, sets up modularization three-dimensional model;

Modularization three-dimensional design system sets up modularization three-dimensional model according to the operating condition of described items to be designed and designing requirement;

Modularization three-dimensional design system carries out modeling according to the operating condition of the items to be designed in modularization three-dimensional design region and designing requirement, namely sets up modularization three-dimensional model.

Further, modularization three-dimensional design system is revised according to the requirement of items structure the mark of items to be designed.Concrete, modularization three-dimensional design system is optimized the modularization three-dimensional model set up according to the operating condition of the items to be designed in modularization three-dimensional design region and designing requirement and the modularization three-dimensional model set up, comprising: parameter adjustment, locus adjustment, quantity adjustment etc.Such as, the work such as the steel construction modeling of the solder joint customization of the body of wall of suspension and support integrated optimization, mill construction, the steel plate concrete structure of floor, mechanical module, newly-increased steel construction and support modeling, temporary steel structure and support modeling and construction module, or pipe joint adjustment (solder joint setting), the adjustment of pipeline section position, steel structure frame design, suspension and support integration etc. of mechanical module.

Further, for the adjustment that the item identification in modularization three-dimensional model carries out, comprise and corresponding adjustment is carried out to the module relation data defined in items.Such as, equipment, pipeline, cable testing bridge, HVAC, suspension and support, steel construction etc. are mainly comprised at modular design modularization model in early stage, in the modular design middle and later periods, also comprise because of module is installed and traffic requirements adds interim suspension and support, temporary steel structure, newly-built steel construction, newly-built support and temporary pipeline etc.

Step 207, the key Design statistical conversion of items;

The key Design data of described items are exported according to the modularization three-dimensional model of described foundation and item identification.On the basis of the modularization three-dimensional model set up, the key Design data of the extraction items of modularization three-dimensional design system.Such as, the weight of each items and center of gravity in the weight of modularization three-dimensional design system and center of gravity calculation function extraction module, then calculate and derive weight and the center of gravity of module, for module suspender design of lifting points, modular transportation design etc.

Step 209, the component information of items derives;

The component information of described items is exported according to the modularization three-dimensional model of described foundation and item identification.On the basis of the modularization three-dimensional model set up, modularization three-dimensional design system exports the component information of described items.Such as, the component list of the inventory design function output module of modularization three-dimensional design system, with professional items each in minimal design unit statistical module, generally comprises the information such as component categories, title, quantity, quality, drawing number.

Step 211, items construction drawing design;

The working drawing of described items is exported according to the modularization three-dimensional model of described foundation and item identification.On the basis of the modularization three-dimensional model set up, module conduits working drawing, the module suspension and support figure and module assembled figure of mechanical module needed for the modular construction G-Design fuction output modularization three-dimensional design of application module three-dimensional design system; The engineering drawings such as the component diagram of construction module and module assembled figure.Generally, original design platform has possessed relevant drawing output function, and the modular construction G-Design function of modularization three-dimensional design system can complete calling and customizing it.

As shown in Figure 3, provide a kind of schematic diagram of the modularization three-dimensional design system embodiment based on nuclear power station, this system comprises:

General modeling block 301, for selecting principle determination module three-dimensional design region according to module range;

General modeling block 301 is after the nuclear power station three-dimensional model of primary design, principle clear and definite definition module three-dimensional design region is selected according to module range, the i.e. area of space of determination module three-dimensional design, makes operator be familiar with the space distribution of module region and provide modularization three-dimensional design space range information.Wherein, module range is selected principle and can be arranged according to the concrete items of nuclear power station, such as, principal entities items in nuclear power station have various kinds of equipment, valve, instrument, pipeline, support, cable tray etc., and general modeling block 301 is according to the situation determination module three-dimensional design region of each items.

Identification module 303, for identifying items to be designed in described modularization three-dimensional design region;

Concrete, general modeling block 301 is in the modularization three-dimensional design region determined, identification module 303 selects the items preparing to carry out modularization three-dimensional design, and identifies these items.Such as, the items preparing to carry out modularization three-dimensional design in modularization three-dimensional design region are composed with specific attribute-bit, distinguishes with other items in modularization three-dimensional design region.Such as, the items that the selection selected prepares to carry out modularization three-dimensional design are by the specialty classification such as (equipment, pipeline, steel construction, HVAC, electric), determine the primary element type of each large class simultaneously, follow-uply in units of fundamental type, carry out modularization three-dimensional design.

Optionally, identification module 303 also for according to preparation the items of carrying out in the region of modularization three-dimensional design whether be that modularization model can be divided into modularization model and non-modularization model.

Further, identification module 303 carries out modularization model, non-modularization model identification to items to be designed in described modularization three-dimensional design region.

MBM 305, for setting up modularization three-dimensional model according to the operating condition of described items to be designed and designing requirement;

MBM 305 carries out modeling according to the operating condition of the items to be designed in modularization three-dimensional design region and designing requirement, namely sets up modularization three-dimensional model.

Further, MBM 305 is revised according to the requirement of items structure the mark of items to be designed.Concrete, modularization three-dimensional design system is optimized the modularization three-dimensional model set up according to the operating condition of the items to be designed in modularization three-dimensional design region and designing requirement and the modularization three-dimensional model set up, comprising: parameter adjustment, locus adjustment, quantity adjustment etc.Such as, the work such as the steel construction modeling of the solder joint customization of the body of wall of suspension and support integrated optimization, mill construction, the steel plate concrete structure of floor, mechanical module, newly-increased steel construction and support modeling, temporary steel structure and support modeling and construction module, or pipe joint adjustment (solder joint setting), the adjustment of pipeline section position, steel structure frame design, suspension and support integration etc. of mechanical module.

Further, the adjustment that MBM 305 is carried out for the item identification in modularization three-dimensional model, comprises and carries out corresponding adjustment to the module relation data defined in items.Such as, equipment, pipeline, cable testing bridge, HVAC, suspension and support, steel construction etc. are mainly comprised at modular design modularization model in early stage, in the modular design middle and later periods, also comprise because of module is installed and traffic requirements adds interim suspension and support, temporary steel structure, newly-built steel construction, newly-built support and temporary pipeline etc.

Processing module 307, for according to the modularization three-dimensional model of described foundation and the operation of item identification execution module three-dimensional design.

Concrete, processing module 307 exports the working drawing of described items according to the modularization three-dimensional model of described foundation and item identification.On the basis of the modularization three-dimensional model set up, module conduits working drawing, the module suspension and support figure and module assembled figure of mechanical module needed for the modular construction G-Design fuction output modularization three-dimensional design of application module three-dimensional design system; The engineering drawings such as the component diagram of construction module and module assembled figure.Generally, original design platform has possessed relevant drawing output function, and the modular construction G-Design function of modularization three-dimensional design system can complete calling and customizing it.

Concrete, processing module 307 exports the key Design data of described items according to the modularization three-dimensional model of described foundation and item identification.On the basis of the modularization three-dimensional model set up, the key Design data of the extraction items of modularization three-dimensional design system.Such as, the weight of each items and center of gravity in the weight of modularization three-dimensional design system and center of gravity calculation function extraction module, then calculate and derive weight and the center of gravity of module, for module suspender design of lifting points, modular transportation design etc.

Concrete, processing module 307 exports the component information of described items according to the modularization three-dimensional model of described foundation and item identification.On the basis of the modularization three-dimensional model set up, modularization three-dimensional design system exports the component information of described items.Such as, the component list of the inventory design function output module of modularization three-dimensional design system, with professional items each in minimal design unit statistical module, generally comprises the information such as component categories, title, quantity, quality, drawing number.

Can find out in conjunction with above detailed description of the present invention, relative to prior art, the present invention at least has following Advantageous Effects: in the design process of nuclear power station, by modular technology is applied in three-dimensional design, the modularization three-dimensional model set up according to operating condition and the designing requirement of items and the mark execution module three-dimensional design operation of items to be designed, the modularization achieved on three-dimensional design platform is used.Meanwhile, by the application of modularization three-dimensional design, designer, without the need to browsing a large amount of drawing, directly can verify module design on three-dimensional model.In addition, by modularization three-dimensional design, achieve the multi-specialized collaborative design of module, solve the problem that in modular design process, dedicated interlace is many, technical coordination is difficult, improve design efficiency.

According to above-mentioned principle, the present invention can also carry out suitable change and amendment to above-mentioned embodiment.Therefore, the present invention is not limited to embodiment disclosed and described above, also should fall in the protection domain of claim of the present invention modifications and changes more of the present invention.In addition, although employ some specific terms in this instructions, these terms just for convenience of description, do not form any restriction to the present invention.

Claims (14)

1. based on a modularization three-dimensional design method for nuclear power station, it is characterized in that, described method comprises:

Modularization three-dimensional design system selectes principle determination module three-dimensional design region according to module range;

Modularization three-dimensional design system identifies items to be designed in described modularization three-dimensional design region;

Modularization three-dimensional design system sets up modularization three-dimensional model according to the operating condition of described items to be designed and designing requirement;

Modularization three-dimensional design system is according to the modularization three-dimensional model of described foundation and the operation of item identification execution module three-dimensional design.

2. method according to claim 1, is characterized in that, describedly identifies items to be designed in described modularization three-dimensional design region, comprising:

In described modularization three-dimensional design region, modularization model, non-modularization model identification are carried out to items to be designed.

3. method according to claim 2, is characterized in that, described in described modularization three-dimensional design region, items to be designed are identified after, also comprise:

According to items, requirement is built to the mark of items to be designed and is optimized design.

4. method according to claim 3, is characterized in that, the described modularization three-dimensional model according to described foundation and the operation of item identification execution module three-dimensional design, comprising:

The key Design data of described items are exported according to the modularization three-dimensional model of described foundation and item identification.

5. method according to claim 4, is characterized in that, described method also comprises:

According to the center of gravity of the key Design data acquisition items of described items, so that modularization three-dimensional design system is according to described design of centre of gravity module suspender or carry out modular transportation design.

6. method according to claim 3, is characterized in that, the described modularization three-dimensional model according to described foundation and the operation of item identification execution module three-dimensional design, comprising:

The component information of described items is exported according to the modularization three-dimensional model of described foundation and item identification.

7. method according to claim 3, is characterized in that, the described modularization three-dimensional model according to described foundation and the operation of item identification execution module three-dimensional design, comprising:

The working drawing of described items is exported according to the modularization three-dimensional model of described foundation and item identification.

8. based on a modularization three-dimensional design system for nuclear power station, it is characterized in that, described system comprises:

General modeling block, for selecting principle determination module three-dimensional design region according to module range;

Identification module, for identifying items to be designed in described modularization three-dimensional design region;

MBM, for setting up modularization three-dimensional model according to the operating condition of described items to be designed and designing requirement;

Processing module, for according to the modularization three-dimensional model of described foundation and the operation of item identification execution module three-dimensional design.

9. system according to claim 8, is characterized in that, described identification module also for, in described modularization three-dimensional design region, modularization model, non-modularization model identification are carried out to items to be designed.

10. system according to claim 9, is characterized in that, described MBM also for, according to items, requirement is built to the mark of items to be designed and is optimized design.

11. systems according to claim 10, is characterized in that, described processing module specifically for, export the key Design data of described items according to the modularization three-dimensional model of described foundation and item identification.

12. systems according to claim 11, it is characterized in that, described processing module also for, according to the center of gravity of the key Design data acquisition items of described items, so that modularization three-dimensional design system is according to described design of centre of gravity module suspender or carry out modular transportation design.

13. systems according to claim 10, is characterized in that, described processing module specifically for, export the component information of described items according to the modularization three-dimensional model of described foundation and item identification.

14. systems according to claim 10, is characterized in that, described processing module specifically for, export the working drawing of described items according to the modularization three-dimensional model of described foundation and item identification.