CN101807221A - On-site auxiliary construction system in nuclear power plant and implementation method thereof - Google Patents

Abstract

The invention relates to an on-site auxiliary construction system in a nuclear power plant, which comprises a modeling unit, a marking unit, an identification unit, a positioning unit and an interface providing unit, wherein the modeling unit is used for setting a three-dimensional layout design model of the nuclear power plant and a first modeling data of the objects in the nuclear power plant; the marking unit is used for acquiring the first modeling data, converting the first modeling data into two-dimensional bar codes, and marking the two-dimensional bar codes on the corresponding objects; the identification unit is used for scanning and identifying the-two dimensional bar codes and restoring the two-dimensional bar codes into a second modeling data; the positioning unit is used for finding out the corresponding objects in the three-dimensional layout design model according to the second modeling data; and the interface providing unit is used for providing a user interface for acquiring the first modeling data, providing a three-dimensional display interface for displaying the three-dimensional layout design model and the objects found by the positioning unit. The invention also relates to a method for implementing the on-site auxiliary construction system in the nuclear power plant. The scanning technique of the invention can prevent the on-site operators from making mistakes when using the traditional object identification mode, thereby saving the working hours and enhancing the construction efficiency.

Description

A kind of on-site auxiliary construction system in nuclear power plant and its implementation

Technical field

The present invention relates to the nuclear power station engineering construction field, more particularly, relate to a kind of on-site auxiliary construction system in nuclear power plant and its implementation.

Background technology

In nuclear power plant's process of construction, especially in the installation process of items (pipeline and equipment etc.), because nuclear island civil engineering structure and on-the-spot pipeline are arranged comparatively complicated, the site work workman gets after the items to be installed, identifies further information such as the locus of definite these installation items and installation path on drawing according to the traditional vibrations pen on the items to be installed usually.Above-mentioned vibrations pen is designated by the artificial use vibrations pen identifier that engraving forms on items, and the carving depth of identifier and shape etc. are lack of standardization, does not have unified standard and makes mistakes easily, and the site work workman also causes mistake easily when identification.Simultaneously, this traditional operating type of trying to locate by following up a clue is wasted time and energy, efficient is lower, can not obtain information needed in mode intuitively, can not in time get rid of contingent collision, especially also needs at the scene prospecting repeatedly when equipment hoisting, and operating efficiency is lower.

Summary of the invention

The technical problem to be solved in the present invention is, the defective at prior art above-mentioned wasted time and energy, operating efficiency is lower provides a kind of on-site auxiliary construction system in nuclear power plant and its implementation.

One of the technical solution adopted for the present invention to solve the technical problems is: construct a kind of on-site auxiliary construction system in nuclear power plant, it comprises:

Modeling unit: be used to be provided with the three-dimensional layout design model of nuclear power plant and first modeling data of each items wherein;

Mark unit: obtain first modeling data, and convert thereof into two-dimensional bar code and be shown on each corresponding items;

Recognition unit: described two-dimensional bar code is scanned identification, and it is reduced to second modeling data;

Positioning unit: find items corresponding in described three-dimensional layout design model according to described second modeling data;

The interface provides the unit: provide user interface for obtaining first modeling data, and for showing that items that described three-dimensional layout design model and described positioning unit find provide three-dimensional display interface and show.

On-site auxiliary construction system in nuclear power plant of the present invention, described mark unit comprises acquisition module, modular converter and sign module; Described acquisition module obtains first modeling data by described user interface; Two-dimensional bar code is handled and be converted into to described modular converter with described first modeling data; Described sign module is shown in the form of described two-dimensional bar code with laser tag on each corresponding items.

On-site auxiliary construction system in nuclear power plant of the present invention, described recognition unit comprises scan module and recovery module; Described scan module scans described laser tag and obtains scanning information; Described recovery module is converted to second modeling data with described scanning information.

On-site auxiliary construction system in nuclear power plant of the present invention, described positioning unit provides second modeling data to obtain first modeling data with its coupling according to recovery module, and finds the items corresponding with this first modeling data.

On-site auxiliary construction system in nuclear power plant of the present invention, described interface provides the unit also to be used to issue three-dimensional layout design model and first modeling data of each items wherein, and the employing browser/server framework carries out data by browser and issues and obtain.

Two of the technical solution adopted for the present invention to solve the technical problems is: construct a kind of implementation method of on-site auxiliary construction system in nuclear power plant, it comprises the following steps:

Modeling procedure: the three-dimensional layout design model of nuclear power plant and first modeling data of each items wherein are set;

Mark step: obtain first modeling data, and convert thereof into two-dimensional bar code and be shown on each corresponding items;

Identification step: described two-dimensional bar code is scanned identification, and it is reduced to second modeling data;

Positioning step: find items corresponding in described three-dimensional layout design model according to described second modeling data;

The interface provides step: provide user interface for obtaining first modeling data, and three-dimensional display interface is provided and shows for the items that show described three-dimensional layout design model and find according to described second modeling data.

The implementation method of on-site auxiliary construction system in nuclear power plant of the present invention, described mark step comprises step by step following:

Obtain step by step: provide the unit to obtain first modeling data by described user interface;

Change step by step: two-dimensional bar code is handled and be converted into to described first modeling data;

Indicate step by step: the form of described two-dimensional bar code with laser tag is shown on each corresponding items.

The implementation method of on-site auxiliary construction system in nuclear power plant of the present invention, described identification step comprises step by step following:

Scan step by step: described laser tag is scanned obtain scanning information;

Reduce step by step: described scanning information is converted to second modeling data.

The implementation method of on-site auxiliary construction system in nuclear power plant of the present invention, in described positioning step, second modeling data that provides in the foundation reduction step by step obtains first modeling data with its coupling, and finds the items corresponding with this first modeling data.

The implementation method of on-site auxiliary construction system in nuclear power plant of the present invention, provide in the step at described interface, also comprise issue three-dimensional layout design model and first modeling data of each items wherein, and adopt browser/server framework, carry out the data issue and obtain by browser.

Implement on-site auxiliary construction system in nuclear power plant of the present invention and its implementation, have following beneficial effect: the three-dimensional layout design model by nuclear power plant is set and the modeling data of each items wherein, and convert modeling data to two-dimensional bar code and be shown on each corresponding items; The site work workman only needs scan identification to two-dimensional bar code after getting the installation items, just can find corresponding items, and show three-dimensional layout design model and these items in three-dimensional display interface.As seen, by two-dimensional bar code is scanned, can avoid the site work workman when items are discerned, to cause mistake, and two-dimensional bar code comprises a large amount of layout design information, the site work workman can directly get access to the particular location of items in three-dimensional layout design model that is scanned by recognition unit, and in the main equipment installation process, the interface by this system provides the unit can in time find and get rid of contingent collision, save man-hour, improve operating efficiency.

Description of drawings

The invention will be further described below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the block diagram of on-site auxiliary construction system in nuclear power plant of the present invention;

Fig. 2 is the block diagram of mark unit in the on-site auxiliary construction system in nuclear power plant of the present invention;

Fig. 3 is the block diagram of recognition unit in the on-site auxiliary construction system in nuclear power plant of the present invention;

Fig. 4 is the process flow diagram of the implementation method of on-site auxiliary construction system in nuclear power plant of the present invention;

Fig. 5 is the process flow diagram of mark step in the implementation method of on-site auxiliary construction system in nuclear power plant of the present invention;

Fig. 6 is the process flow diagram of identification step in the implementation method of on-site auxiliary construction system in nuclear power plant of the present invention.

Embodiment

As shown in Figure 1, be the structural representation of on-site auxiliary construction system in nuclear power plant of the present invention.On-site auxiliary construction system in nuclear power plant of the present invention comprises that modeling unit 1, mark unit 2, recognition unit 3, positioning unit 4 and interface provide unit 5, wherein, modeling unit 1 is used to be provided with the three-dimensional layout design model of nuclear power plant and first modeling data of each items wherein; Mark unit 2 is used to obtain first modeling data, and converts thereof into two-dimensional bar code and be shown on each corresponding items; Recognition unit 3 is used for described two-dimensional bar code is scanned identification, and it is reduced to second modeling data; Positioning unit 4 finds items corresponding in described three-dimensional layout design model according to described second modeling data; The interface provides unit 5 to provide user interface for obtaining first modeling data, and for showing that items that described three-dimensional layout design model and positioning unit 4 find provide three-dimensional display interface and show.

The setting of the three-dimensional layout design model of nuclear power plant comprises the setting to the related data of equipment and pipeline wait installation items, as data such as the model of equipment and pipeline, POF sign indicating number (unique identifying number), volume coordinate, affiliated area, affiliated room, length, material, front and back link informations, the three-dimensional layout design model of nuclear power plant provides the three-dimensional display interface in the unit 5 to show by the interface.Mark unit 2 operated by rotary motion are at prefabricated workshop and equipment manufacturing, mark unit 2 adopts laser bar code mark machine, it provides the user interface of unit 5 to obtain first modeling data of certain items by the interface, and convert this first modeling data to two-dimensional bar code, then the form of this two-dimensional bar code with laser tag is shown on these items.Recognition unit 3 operated by rotary motion are in each unit in charge of construction of nuclear power plant, recognition unit 3 general barcode scanner or the bar code scan rifles of adopting, it scans the two-dimensional bar code on the laser tag that is shown in these items, and this scanning information is reduced to second modeling data that the data layout with first modeling data is complementary.Positioning unit 4 is according to first modeling data of this second modeling data searching with its coupling, and this that finds first modeling data is promptly corresponding to these items in the described three-dimensional model.So, demonstrate this items on the three-dimensional display interface that provides unit 5 to provide at the interface, as with this items color burn in nuclear power plant's three-dimensional layout design model or the like.So, the site work workman of unit in charge of construction of nuclear power plant can obtain the POF information that certain items is arranged in this nuclear power plant intuitively by three-dimensional display interface, has improved operating efficiency.The form that the interface provides unit 5 to adopt browser, designing institute, prefabricated workshop, unit in charge of construction of nuclear power plant and construction management department all can obtain nuclear power plant's three-dimensional layout design model by browser and reach wherein first modeling data and the existing performance of nuclear power plant's construction of each items.

Further, the interface provides unit 5 also to be used to issue three-dimensional layout design model and first modeling data of each items wherein, and adopts browser/server framework, and the user carries out the data issue by browser and obtains.

As shown in Figure 2, be the block diagram of mark unit in the on-site auxiliary construction system in nuclear power plant of the present invention.In conjunction with Fig. 1, mark of the present invention unit 2 comprises acquisition module 21, modular converter 22 and indicates module 23; The user interface that acquisition module 21 provides the unit to provide by the interface is obtained first modeling data; Two-dimensional bar code is handled and be converted into to modular converter 22 with described first modeling data; Indicating module 23 is shown in the form of described two-dimensional bar code with laser tag on each corresponding items.Sign module 23 adopts laser equipments that described two-dimensional bar code is arranged on and forms laser tag on the items, so, changed and adopted the manual traditional approach that uses the vibrations pen to carry out mark, be convenient to the modernized warehousing management that items also are convenient in on-the-spot identification, avoid identification error, save time simultaneously.

As shown in Figure 3, be the block diagram of recognition unit in the on-site auxiliary construction system in nuclear power plant of the present invention.In conjunction with Fig. 1 and Fig. 2, recognition unit 3 of the present invention comprises scan module 31 and recovery module 32 again; Two-dimensional bar code on 31 pairs of laser tags of scan module scans and obtains scanning information; Recovery module 32 is converted to second modeling data with described scanning information, and preferably, described second modeling data is identical with the data layout of first scan-data.

So positioning unit 4 provides second modeling data to obtain first modeling data with its coupling according to recovery module 32, and finds the items corresponding with this first modeling data.As seen, can effectively command site operation work, shorten installation period to the utmost, improve operating efficiency by the present invention.

Fig. 4 is the process flow diagram of the implementation method of on-site auxiliary construction system in nuclear power plant of the present invention.The implementation method of on-site auxiliary construction system in nuclear power plant of the present invention comprises the following steps:

Beginning step S0: beginning;

Modeling procedure S1: the three dimensional arrangement design data of nuclear power plant and first modeling data of each items wherein are set;

Mark step S2: obtain first modeling data, and convert thereof into two-dimensional bar code and be shown on each corresponding items;

Identification step S3: described two-dimensional bar code is scanned identification, and it is reduced to second modeling data; Preferably, described second modeling data is identical with the data layout of first modeling data.

Positioning step S4: find items corresponding in described three-dimensional layout design model according to described second modeling data;

The interface provides step S5: provide user interface for obtaining first modeling data, and for showing that described three-dimensional layout design model and the described items that find provide three-dimensional display interface and show;

End step S6: finish.

Further, provide among the step S5 at described interface, also comprise issue three-dimensional layout design model and first modeling data of each items wherein, and adopt browser/server framework, the user carries out the data issue by browser and obtains.Adopt the browser/server framework, will satisfy first modeling data and the existing performance of nuclear power plant's construction that designing institute, prefabricated workshop, unit in charge of construction of nuclear power plant and construction management department all can obtain each items in nuclear power plant's three-dimensional layout design model by browser.

In other embodiments, can provide the content branch among the step S5 to be arranged to the interface, as: before three-dimensional layout design model is arranged on modeling procedure S1 as described in will showing, to build data and provide UI Preferences between modeling procedure S1 and mark step S2 for obtaining first, will be arranged on after the positioning step S4 for the described items that find provide three-dimensional display interface.Certainly, also can carry out the optimum distribution setting according to the actual displayed demand.

In mark step S2, adopt laser equipment that above-mentioned two-dimensional bar code is arranged on and form laser tag on the items.Adopt two-dimensional bar code to indicate, it is big and possess very strong error correcting capability is arranged to have information capacity, is convenient to improve work on the spot efficient and avoids the artificial people who causes when adopting vibrations mark because of error.

Fig. 5 is the process flow diagram of mark step in the implementation method of on-site auxiliary construction system in nuclear power plant of the present invention.In conjunction with Fig. 4, the mark step S2 among the present invention comprises step by step following:

Obtain S21 step by step: obtain first modeling data by user interface;

Change S22 step by step: two-dimensional bar code is handled and be converted into to described first modeling data;

Indicate S23 step by step: the form of described two-dimensional bar code with laser tag is shown on each corresponding items.

Fig. 6 is the process flow diagram of identification step in the implementation method of on-site auxiliary construction system in nuclear power plant of the present invention.In conjunction with Fig. 4, the identification step S3 among the present invention comprises step by step following:

Scan S31 step by step: laser tag is scanned obtain scanning information;

Reduce S32 step by step: described scanning information is converted to second modeling data, and described second modeling data and first modeling data are complementary, and preferably, described second modeling data is identical with the data layout of first modeling data.

So, in described positioning step S4, provide among the S32 step by step second modeling data to obtain first modeling data with its coupling according to reducing, and find the items corresponding with this first modeling data.

Among the present invention, the interface provides and preferably adopts the browser/server framework, display technique preferably adopts the Vizstream technology of AVEVA company or the Virtools technology of Da Suo company, and certainly, every display technique that satisfies demand of the present invention all can be applicable among the present invention.

The above only is embodiments of the invention, not in order to restriction the present invention, all any modifications of being done in the spirit and principles in the present invention, is equal to and replaces or improvement etc., all should be included in protection scope of the present invention.

Claims (10)

1. an on-site auxiliary construction system in nuclear power plant is characterized in that, comprising:

Modeling unit: be used to be provided with the three-dimensional layout design model of nuclear power plant and first modeling data of each items wherein;

Mark unit: obtain first modeling data, and convert thereof into two-dimensional bar code and be shown on each corresponding items;

Recognition unit: described two-dimensional bar code is scanned identification, and it is reduced to second modeling data;

Positioning unit: find items corresponding in described three-dimensional layout design model according to described second modeling data;

The interface provides the unit: provide user interface for obtaining first modeling data, and for showing that items that described three-dimensional layout design model and described positioning unit find provide three-dimensional display interface and show.

2. on-site auxiliary construction system in nuclear power plant according to claim 1 is characterized in that, described mark unit comprises acquisition module, modular converter and sign module; Described acquisition module obtains first modeling data by described user interface; Two-dimensional bar code is handled and be converted into to described modular converter with described first modeling data; Described sign module is shown in the form of described two-dimensional bar code with laser tag on each corresponding items.

3. on-site auxiliary construction system in nuclear power plant according to claim 2 is characterized in that described recognition unit comprises scan module and recovery module; Described scan module scans described laser tag and obtains scanning information; Described recovery module is converted to second modeling data with described scanning information.

4. on-site auxiliary construction system in nuclear power plant according to claim 3 is characterized in that, described positioning unit provides second modeling data to obtain first modeling data with its coupling according to recovery module, and finds the items corresponding with this first modeling data.

5. on-site auxiliary construction system in nuclear power plant according to claim 1, it is characterized in that, described interface provides the unit also to be used to issue three-dimensional layout design model and first modeling data of each items wherein, and the employing browser/server framework carries out data by browser and issues and obtain.

6. the implementation method of an on-site auxiliary construction system in nuclear power plant is characterized in that, comprises the following steps:

Modeling procedure: the three-dimensional layout design model of nuclear power plant and first modeling data of each items wherein are set;

Mark step: obtain first modeling data, and convert thereof into two-dimensional bar code and be shown on each corresponding items;

Identification step: described two-dimensional bar code is scanned identification, and it is reduced to second modeling data;

Positioning step: find items corresponding in described three-dimensional layout design model according to described second modeling data;

The interface provides step: provide user interface for obtaining first modeling data, and three-dimensional display interface is provided and shows for the items that show described three-dimensional layout design model and find according to described second modeling data.

7. the implementation method of on-site auxiliary construction system in nuclear power plant according to claim 6 is characterized in that, described mark step comprises step by step following:

Obtain step by step: provide the unit to obtain first modeling data by described user interface;

Change step by step: two-dimensional bar code is handled and be converted into to described first modeling data;

Indicate step by step: the form of described two-dimensional bar code with laser tag is shown on each corresponding items.

8. the implementation method of on-site auxiliary construction system in nuclear power plant according to claim 7 is characterized in that, described identification step comprises step by step following:

Scan step by step: described laser tag is scanned obtain scanning information;

Reduce step by step: described scanning information is converted to second modeling data.

9. the implementation method of on-site auxiliary construction system in nuclear power plant according to claim 8, it is characterized in that, in described positioning step, second modeling data that provides in the foundation reduction step by step obtains first modeling data with its coupling, and finds the items corresponding with this first modeling data.

10. the implementation method of on-site auxiliary construction system in nuclear power plant according to claim 6, it is characterized in that, provide in the step at described interface, also comprise issue three-dimensional layout design model and first modeling data of each items wherein, and the employing browser/server framework carries out data by browser and issues and obtain.

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