CN116049936A - Decoration management method and system based on BIM model in nuclear power construction - Google Patents

Abstract

The disclosure relates to a decoration management method and system based on a BIM model in nuclear power construction. The method comprises the following steps: logging in a nuclear power decoration management system in a nuclear power construction server by a nuclear power construction client; the nuclear power construction client searches a BIM model of a nuclear power construction and decoration target nuclear power building from a nuclear power decoration management system; the nuclear power construction server responds to clicking operation of the nuclear power construction client on the target decoration object, and searches related data of the target decoration object; related data are sent to a nuclear power construction client; and the nuclear power construction client receives and displays the related data of the target decoration object. The nuclear power construction service end is arranged, the nuclear power construction clients are respectively connected with the nuclear power construction service end, the nuclear power construction clients acquire the BIM model and related data of a target decoration object from the nuclear power construction service end, work is carried out according to the related data, and improvement of working efficiency and working quality of a user in decoration is facilitated.

Description

Decoration management method and system based on BIM model in nuclear power construction

Technical Field

The disclosure relates to the technical field of nuclear power construction, in particular to a decoration management method and system based on a BIM model in nuclear power construction.

Background

The nuclear power building construction project is a project with huge and complex scale. The designed rooms are at least two thousands of rooms, the number of doors, windows, holes and caulking joints is very large, management is very complex, and in the related technology, the management of decoration engineering is carried out in a simple text recording mode, so that omission is easy to generate.

Disclosure of Invention

In order to overcome the problems in the related art, the present disclosure provides a decoration management method and system based on a BIM model in nuclear power construction, so as to solve the above problems.

According to a first aspect of embodiments of the present disclosure, there is provided a decoration management method based on a BIM model in nuclear power construction, the method including:

decoration management system based on BIM model in nuclear power construction includes: the nuclear power construction server side is respectively connected with the plurality of nuclear power construction clients;

the types of the nuclear power construction client side comprise: a construction nuclear power construction client, a quality inspection nuclear power construction client and a financial nuclear power construction client;

the method comprises the following steps: the nuclear power construction client logs in a nuclear power decoration management system in the nuclear power construction server;

the nuclear power construction client searches a BIM model of a nuclear power construction and decoration target nuclear power building from the nuclear power decoration management system, and displays the BIM model;

the nuclear power construction server responds to the clicking operation of the nuclear power construction client on the target decoration object, and searches related data of the target decoration object;

the related data are sent to the nuclear power construction client;

the nuclear power construction client receives and displays the related data of the target decoration object;

and the user carries out related work on the target decoration object according to the related data of the target decoration object.

In one embodiment, the target decorative object comprises a room in a nuclear power construction project;

the relevant data of the room comprises: visual repair room source list of building where the room is located;

generating the visual repair room source table comprises the following steps:

acquiring physical attribute parameters and abstract attribute parameters of each room;

the physical attribute parameters include at least: the number of floors of the building where the room is located, the number of unit rooms, unit identifications and room identifications;

the abstract attribute parameters at least comprise: the room is characterized by comprising a sleeve area, a building area, a house type, a state, a color corresponding to the state, a decoration unit name and a decoration unit customer telephone;

and generating a visual repair room source table according to the physical attribute parameters and the abstract attribute parameters.

In one embodiment, in the visual repair room source table, the color of the cell of each room is the color corresponding to the state of the room;

the state of the room includes: a state to be repaired, a state in repair, a state in handover installation, a state after handover, and a state of a business owner;

wherein each state is provided with a unique color corresponding thereto.

In one embodiment, the method further comprises: the nuclear power construction service end responds to the switching operation of the construction nuclear power construction client end on the state of the room, the color of the display unit cell of the room is switched in the room source list, and the first color of the room corresponding to the first state of the room before switching is switched to the second color of the room corresponding to the second state of the room after switching;

and in the BIM model, switching the displayed color of the room, and switching the room color corresponding to the first state of the room before switching to the room second color corresponding to the second state of the room after switching.

In one embodiment, the target decoration object comprises a caulking in a nuclear power construction project;

the relevant data of the caulking include: the construction requirement of the caulking is described, the caulking mark, the caulking state, the actual width measurement value of the caulking, the theoretical design value of the caulking, the difference between the actual width measurement value of the caulking and the theoretical design value, the material adopted by the caulking and the caulking acceptance result of the caulking.

In one embodiment, the method further comprises: and the nuclear power construction service end responds to the fact that the difference value between the actual width measured value and the theoretical design value of the caulking is larger than a preset caulking difference value threshold value, generates a caulking alarm message and sends the caulking alarm message to the nuclear power construction client end.

In one embodiment, the target decoration object comprises a door or window in a nuclear power construction project;

the related data of the door and window comprises: construction requirements of the doors and windows are described; the state of the door and window comprises: the construction is to be performed, and the neutralization of the construction is completed;

the method further comprises the steps of: and the nuclear power construction service end responds to the switching operation of the construction nuclear power construction client end on the state of the door and window, switches the display color of the door and window in the BIM model, and switches the first color of the door and window corresponding to the first state of the door and window before switching to the second color of the door and window corresponding to the second state of the door and window after switching.

In one embodiment, the target decoration object comprises a hole in a nuclear power construction project;

the related data of the hole comprises: and (5) construction requirements of hole plugging construction are described.

In one embodiment, the related data of the target decoration object further includes: the cost of the target decoration object; and (5) quality inspection requirements.

In a second aspect, the present application proposes a decoration management system based on a BIM model in nuclear power construction, including: the nuclear power construction server side is respectively connected with the plurality of nuclear power construction clients;

the types of the nuclear power construction client side comprise: a construction nuclear power construction client, a quality inspection nuclear power construction client and a financial nuclear power construction client;

the nuclear power construction client is used for logging in a nuclear power decoration management system in the nuclear power construction server;

searching a BIM model of a nuclear power construction and decoration target nuclear power building from the nuclear power decoration management system, and displaying the BIM model;

the nuclear power construction server is used for responding to the clicking operation of the nuclear power construction client on the target decoration object and searching the related data of the target decoration object;

the related data are sent to the nuclear power construction client;

and the nuclear power construction client is used for receiving and displaying the related data of the target decoration object so that a user can perform related work on the target decoration object according to the related data of the target decoration object.

According to a third aspect of embodiments of the present disclosure, there is provided an electronic device, applied to a nuclear power construction site server, including: a processor; a memory for storing processor-executable instructions; the processor is configured to execute the executable instructions to implement the steps of the method performed by the nuclear power construction server according to the disclosure.

According to a fourth aspect of embodiments of the present disclosure, there is provided a non-transitory computer readable storage medium having stored thereon computer program instructions which, when executed by a processor, implement the steps of the above-described nuclear power construction server method.

The technical scheme provided by the embodiment of the disclosure can comprise the following beneficial effects: the nuclear power construction service end is arranged, the nuclear power construction clients are respectively connected with the nuclear power construction service end, the nuclear power construction clients acquire the BIM model and related data of a target decoration object from the nuclear power construction service end, work is carried out according to the related data, and improvement of working efficiency and working quality of a user in decoration is facilitated.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a schematic diagram illustrating a BIM model-based decoration management system in nuclear power construction, in accordance with an exemplary embodiment;

FIG. 2 is a flow chart illustrating a method of BIM model-based decoration management in nuclear power construction, in accordance with an exemplary embodiment;

FIG. 3 is a diagram illustrating an interface for setting up a house source list according to an exemplary embodiment;

fig. 4 is a schematic diagram of an electronic device according to an exemplary embodiment.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present disclosure as detailed in the accompanying claims.

It should be noted that, all actions for acquiring signals, information or data in the present application are performed under the condition of conforming to the corresponding data protection rule policy of the country of the location and obtaining the authorization given by the owner of the corresponding device.

The application provides a decoration management system based on a BIM model in nuclear power construction, and the decoration management system based on the BIM model in nuclear power construction is shown in a schematic diagram in the attached figure 1. The decoration management system based on the BIM model in nuclear power construction comprises: the nuclear power construction server 11 is respectively connected with a plurality of nuclear power construction clients 12 of the nuclear power construction server 11. The types of the nuclear power construction client 12 include: a construction nuclear power construction client, a quality inspection nuclear power construction client and a financial nuclear power construction client. The number of each type of client described above is one or more.

Based on the system, the application provides a decoration management method based on a BIM model in nuclear power construction, and the decoration management method based on the BIM model in nuclear power construction is shown in a flow chart of FIG. 2;

the method may comprise the steps of:

in step S202, the nuclear power construction client logs into a nuclear power construction management system in the nuclear power construction server.

In this embodiment, when the nuclear power construction server logs in, a user name and a password may be input to log in, and after verification, the user may log in to the nuclear power construction management system in the nuclear power construction server. The user name can be the work number of the user, and the password can be preset.

In step S204, the nuclear power construction client searches a BIM model of the target nuclear power building of nuclear power construction decoration from the nuclear power decoration management system, and displays the BIM model.

In this embodiment, a BIM model of the target nuclear power building may be built in advance, and after the building of the BIM model is completed, the BIM model is uploaded to the nuclear power building management system. In the nuclear power construction management system, a user can open a BIM model of a target nuclear power building. And performing decoration work according to the BIM model of the target nuclear power building.

In step S206, the nuclear power construction server responds to the click operation of the nuclear power construction client on the target decoration object, and searches the related data of the target decoration object.

In step S208, the relevant data is sent to the nuclear power construction client.

In step S210, the nuclear power construction client receives and displays the related data of the target decoration object.

In this embodiment, the above BIM model of the target nuclear power building is displayed in the above nuclear power building client, and when the user clicks the target object, the nuclear power building server searches for related data with the target decoration object and sends the related data to the above nuclear power building client for displaying.

In step S212, the user performs a related task on the target decoration object according to the related data of the target decoration object.

In this embodiment, the user may be a constructor of a construction team, may be a financial staff, and may be a quality inspection staff. The constructor can construct according to the construction related data in the related data; financial staff can carry out financial statistics according to the data related to finance in the related data; the quality inspector can perform quality inspection according to the data related to quality inspection in the related data. The working efficiency of related personnel is improved, and the working effect is improved. Plays a good auxiliary role.

According to the technical scheme, the nuclear power construction service end is arranged, the plurality of nuclear power construction clients are respectively connected with the nuclear power construction service end, the nuclear power construction clients acquire BIM models and related data of target decoration objects from the nuclear power construction service end, work is carried out according to the related data, and improvement of working efficiency and working quality of a user in decoration is facilitated.

In one embodiment, the target decorative object comprises a room in a nuclear power construction project.

The relevant data of the room comprises: and the visual repair room source list of the building where the room is located.

The generating of the visual repair room source table may further include the following steps:

the physical attribute parameters and abstract attribute parameters of each room are obtained.

In this embodiment, the physical attribute parameters include at least: the number of floors of the building where the room is located, the number of unit rooms, unit identifications and room identifications. The abstract attribute parameters include at least: the room is characterized by comprising a sleeve area, a building area, a house type, a state, a color corresponding to the state, a owner name and an owner phone. And can also include financial information such as loan amount, loan bank, etc.

And generating a visual repair room source table according to the physical attribute parameters and the abstract attribute parameters.

In this embodiment, the room source table may be represented by a plurality of cells, each cell representing a room. Clicking on each cell pops up and displays the above-mentioned physical attribute parameters and abstract attribute parameters of the room. See table 1:

TABLE 1

As shown in table 1, each cell represents a separate room, and each cell is colored differently. When the user clicks on the cell 101 in the client, the attribute parameters of 101 may be popped up and displayed. See table 2:

TABLE 2

In the visual repair room source table, the color of each cell of each room is the color corresponding to the state of the room. The states are different and the colors displayed by the cells are different. The state of the room includes: a state to be repaired, a state in repair, a state in handover installation, a state after handover, and a state of a business owner; wherein each state is provided with a unique color corresponding thereto. For example, the status of the owner of the business is indicated by red, the status of the in-decoration is indicated by green, and the status to be repaired is indicated by yellow. Similarly, in the above described BIM model, the color of each room may be set to correspond to the state of the room. The states are different and the colors displayed are different.

See FIG. 3 for a schematic interface for setting up a house source list. When generating the house source list, the floor number, the unit number, the height and the width of the room unit grids of each building can be set. Buttons for storing, generating, merging, splitting, deleting, recovering, refreshing and the like are also arranged in the interface, so that corresponding operation functions can be realized on the cells in the house source list.

According to the method, the corresponding display color is set according to the state of the room, and related parameters can be displayed in the room source table by setting the room source table. The state of the corresponding room of the user can be visually perceived more intuitively, and the use experience of the user is improved.

In some embodiments, the above method may further comprise the steps of: and the nuclear power construction server responds to the switching operation of the construction nuclear power construction client on the state of the room, switches the color of the display unit cell of the room in the room source list, and switches the first color of the room corresponding to the first state of the room before switching to the second color of the room corresponding to the second state of the room after switching.

In one embodiment, the method may further include the steps of: and the nuclear power construction server responds to the switching operation of the construction nuclear power construction client on the state of the room, switches the displayed color of the room, and switches the first color of the room corresponding to the first state of the room before switching to the second color of the room corresponding to the second state of the room after switching.

In this embodiment, the corresponding relationship between the state and the color of each room is preset, and when the user switches the state of the room in the room source table at the construction nuclear power construction client, the user changes the first state of the room to the second state. According to the corresponding relation, the color displayed by the unit cell of the room in the room source list and the color displayed by the room in the BIM model are correspondingly and automatically changed from the first color to the second color.

Illustratively, when the state of the room is switched from the in-decoration state to the business owner state, the corresponding colors in the cells and BIM model of the room automatically change from green to red.

In one embodiment, the target decorative object comprises a caulking in a nuclear power construction project. The relevant data of the caulking include: the construction requirement of the caulking is described, the caulking mark, the caulking state, the actual width measurement value of the caulking, the theoretical design value of the caulking, the difference between the actual width measurement value of the caulking and the theoretical design value, the material adopted by the caulking and the caulking acceptance result of the caulking. The caulking state comprises: and (5) finishing the construction and the construction neutralization.

In this embodiment, before the construction team performs the construction on the current caulking, the relevant data of the caulking may be displayed in the nuclear power construction client, and the construction may be performed on the caulking according to the relevant data. For example, according to the construction requirement specification of the caulking, the construction team can be guided to carry out construction operation on the caulking, so that the caulking is more accurately constructed by the construction team, construction errors are avoided, reworking is caused, and construction efficiency is affected. The construction requirement specification of the caulking can be set according to standard caulking construction specifications and unique construction experience requirements of construction units. The construction requirements of the caulk may include, but are not limited to: seam width requirements, water tightness requirements, fireproof performance requirements, displacement rate, caulking materials, construction sequences and construction process steps corresponding to each material. The construction process step can be that a first layer of 75N glue is smeared by a manual or electric extrusion gun; after a predetermined period of time, the second layer of 75N glue is applied, and the construction process steps of each caulking joint can be preset.

In one embodiment, the method may further include the steps of: and the nuclear power construction service end responds to the fact that the difference value between the actual width measured value and the theoretical design value of the caulking is larger than a preset caulking difference value threshold value, generates a caulking alarm message and sends the caulking alarm message to the nuclear power construction client end.

In this embodiment, in the actual construction process, the on-site construction team may measure the width of the caulking to be constructed, report the actual width measurement value of the caulking to the nuclear power construction service end through the nuclear power construction client, after receiving the actual width measurement value of the caulking, calculate the difference between the actual width measurement value and the theoretical design value of the caulking, if the difference is greater than the predetermined caulking difference threshold, determine that the caulking is illegal, and should not perform the construction continuously on the caulking, and may generate a caulking alarm message, and send the caulking alarm message to the nuclear power construction client so that the nuclear power construction client displays the alarm message, or play an alarm voice to alarm so as to remind the construction team not to perform the caulking construction on the caulking, but to perform the rectification on the caulking.

In one embodiment, the target decorative object comprises a door or window in a nuclear power construction project. The related data of the door and window comprises: decoration description of the doors and windows; the state of the door and window; the state of the door and window comprises: and (5) finishing the construction and the construction neutralization.

The above method may further comprise the steps of: and the nuclear power construction service end responds to the switching operation of the construction nuclear power construction client end on the state of the door and window, switches the display color of the door and window in the BIM model, and switches the first color of the door and window corresponding to the first state of the door and window before switching to the second color of the door and window corresponding to the second state of the door and window after switching.

In this embodiment, when a user is performing decoration of a door or window, the service end can be built through nuclear power, and the BIM model is opened, and in the BIM model, the decoration state of the door or window can be intuitively connected through the color of the door or window. For example, red indicates that the decoration is finished, green indicates that the decoration is unfinished, and yellow indicates that the decoration is in progress. If the door and window is green, clicking the door and window, and popping up the related data of the door and window, the door and window can be decorated according to the decoration description in the related data. After finishing the decoration, the state of the door and window can be changed, and the state is changed into finished.

In one embodiment, the target trim object comprises a hole in a nuclear power construction project. The related data of the hole comprises: and (5) construction requirement specification, acceptance requirement and acceptance result of hole plugging construction.

In one embodiment, the related data of the target decoration object further includes: the cost of the target decoration object; and (5) quality inspection requirements.

In this embodiment, the related data of the target decoration object further includes the cost of the target decoration object. Financial staff can check the cost of the target decoration object through the financial nuclear power construction client, so that the financial data of the target decoration object can be determined. Is favorable for the financial staff to count the financial aspects of the decoration engineering.

In this embodiment, the related data of the target decoration object further includes: and the quality inspection requirement of the target decoration object. After the construction team finishes the construction, quality inspection personnel perform quality inspection. Quality control personnel can check the quality control requirement of the target decoration object through the quality control nuclear power construction client, so that the quality control personnel can conveniently determine the quality control result of the target decoration object, and under the condition of a large number of quality control objects, the BIM model is combined, so that the working efficiency and the working quality of the quality control personnel are improved. After the quality inspection is finished, the mass transfer inspection result can be obtained. The construction team can view the quality inspection results through the construction team client.

In a second aspect, the present application proposes a decoration management system based on a BIM model in nuclear power construction, as shown in fig. 1, where the system includes: the nuclear power construction server 11 is respectively connected with a plurality of nuclear power construction clients 12 of the nuclear power construction server 11.

The types of the nuclear power construction client 12 include: a construction nuclear power construction client, a quality inspection nuclear power construction client and a financial nuclear power construction client.

The nuclear power construction client 12 is configured to log into a nuclear power decoration management system in the nuclear power construction server, search a BIM model of a target nuclear power building for nuclear power decoration from the nuclear power decoration management system, and display the BIM model.

The nuclear power construction server 11 is configured to search related data of the target decoration object in response to a click operation of the nuclear power construction client 12 on the target decoration object, and send the related data to the nuclear power construction client 12.

The nuclear power construction client 12 is configured to receive and display relevant data of the target decoration object, so that a user performs relevant work on the target decoration object according to the relevant data of the target decoration object.

In one embodiment, the nuclear power construction server 11 is further configured to, in response to a switching operation of the construction nuclear power construction client 12 on the state of the room, switch, in the room source list, a color of a display cell of the room, and switch a first color of the room corresponding to a first state of the room before switching to a second color of the room corresponding to a second state of the room after switching.

And in the BIM model, switching the displayed color of the room, and switching the room color corresponding to the first state of the room before switching to the room second color corresponding to the second state of the room after switching.

In one embodiment, the nuclear power construction service end 11 is further configured to generate a caulking alarm message in response to a difference between the actual width measurement value of the caulking and the theoretical design value being greater than a predetermined caulking difference threshold value, and send the caulking alarm message to the nuclear power construction client.

In one embodiment, the nuclear power construction service end 11 is further configured to, in response to a switching operation of the construction nuclear power construction client 12 on the state of the door and window, switch, in the BIM model, a display color of the door and window, and switch a first color corresponding to a first state before switching to a second color corresponding to a second state after switching.

In a third aspect, the present application further proposes an electronic device, see fig. 4, comprising: a processor 41; a memory 42 for storing processor-executable instructions; wherein the processor 41 is configured to execute the executable instructions to implement the method of any one of the above-described nuclear power construction servers.

According to a fourth aspect of embodiments of the present disclosure, there is provided a non-transitory computer readable storage medium having stored thereon computer program instructions which, when executed by a processor, implement the steps of the method of the above-described nuclear power construction server.

In the embodiment of the invention, the processor may be an integrated circuit chip with signal processing capability. The processor may be a general purpose processor, a digital signal processor (Digital Signal Processor, DSP for short), an application specific integrated circuit (Application Specific Integrated Circuit, ASIC for short), a field programmable gate array (Field Programmable Gate Array, FPGA for short), or other programmable logic device, discrete gate or transistor logic device, discrete hardware components.

The disclosed methods, steps, and logic blocks in the embodiments of the present invention may be implemented or performed. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of the method disclosed in connection with the embodiments of the present invention may be embodied directly in the execution of a hardware decoding processor, or in the execution of a combination of hardware and software modules in a decoding processor. The software modules may be located in a random access memory, flash memory, read only memory, programmable read only memory, or electrically erasable programmable memory, registers, etc. as well known in the art. The processor reads the information in the storage medium and, in combination with its hardware, performs the steps of the above method.

The storage medium may be memory, for example, may be volatile memory or nonvolatile memory, or may include both volatile and nonvolatile memory.

The storage media described in embodiments of the present invention are intended to comprise, without being limited to, these and any other suitable types of memory.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure. This application is intended to cover any adaptations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It is to be understood that the present disclosure is not limited to the precise arrangements and instrumentalities shown in the drawings, and that various modifications and changes may be effected without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A decoration management method based on BIM model in nuclear power construction is characterized in that,

decoration management system based on BIM model in nuclear power construction includes: the nuclear power construction server side is respectively connected with the plurality of nuclear power construction clients;

the types of the nuclear power construction client side comprise: a construction nuclear power construction client, a quality inspection nuclear power construction client and a financial nuclear power construction client;

the method comprises the following steps:

the nuclear power construction client logs in a nuclear power decoration management system in the nuclear power construction server;

the nuclear power construction client searches a BIM model of a nuclear power construction and decoration target nuclear power building from the nuclear power decoration management system, and displays the BIM model;

the nuclear power construction server responds to the clicking operation of the nuclear power construction client on the target decoration object, and searches related data of the target decoration object;

the related data are sent to the nuclear power construction client;

the nuclear power construction client receives and displays the related data of the target decoration object;

and the user carries out related work on the target decoration object according to the related data of the target decoration object.

2. The decoration management method based on BIM model in nuclear power construction according to claim 1, wherein,

the target decoration object comprises a room in nuclear power construction engineering;

the relevant data of the room comprises: visual repair room source list of building where the room is located;

generating the visual repair room source table comprises the following steps:

acquiring physical attribute parameters and abstract attribute parameters of each room;

the physical attribute parameters include at least: the number of floors of the building where the room is located, the number of unit rooms, unit identifications and room identifications;

the abstract attribute parameters at least comprise: the room is characterized by comprising a sleeve area, a building area, a house type, a state, a color corresponding to the state, a decoration unit name and a decoration unit customer telephone;

and generating a visual repair room source table according to the physical attribute parameters and the abstract attribute parameters.

3. The decoration management method based on BIM model in nuclear power construction according to claim 2, wherein,

in the visual repair room source table, the color of each cell of each room is the color corresponding to the state of the room;

the state of the room includes: a state to be repaired, a state in repair, a state in handover installation, a state after handover, and a state of a business owner;

wherein each state is provided with a unique color corresponding thereto.

4. A method of building interior management based on a BIM model in nuclear power construction according to claim 3, further comprising:

the nuclear power construction service end responds to the switching operation of the construction nuclear power construction client end on the state of the room, the color of the display unit cell of the room is switched in the room source list, and the first color of the room corresponding to the first state of the room before switching is switched to the second color of the room corresponding to the second state of the room after switching;

and in the BIM model, switching the displayed color of the room, and switching the room color corresponding to the first state of the room before switching to the room second color corresponding to the second state of the room after switching.

5. The decoration management method based on BIM model in nuclear power construction according to claim 2, wherein,

the target decoration object comprises a caulking in nuclear power construction engineering;

the relevant data of the caulking include: the construction requirement of the caulking is described, the caulking mark, the caulking state, the actual width measurement value of the caulking, the theoretical design value of the caulking, the difference between the actual width measurement value of the caulking and the theoretical design value, the material adopted by the caulking and the caulking acceptance result of the caulking.

6. The method for BIM model-based decoration management in nuclear power construction of claim 5, further comprising:

and the nuclear power construction service end responds to the fact that the difference value between the actual width measured value and the theoretical design value of the caulking is larger than a preset caulking difference value threshold value, generates a caulking alarm message and sends the caulking alarm message to the nuclear power construction client end.

7. The decoration management method based on BIM model in nuclear power construction according to claim 1, wherein,

the target decoration object comprises a door window in a nuclear power construction project;

the related data of the door and window comprises: construction requirements of the doors and windows are described; the state of the door and window comprises: the construction is to be performed, and the neutralization of the construction is completed;

the method further comprises the steps of: and the nuclear power construction service end responds to the switching operation of the construction nuclear power construction client end on the state of the door and window, switches the display color of the door and window in the BIM model, and switches the first color of the door and window corresponding to the first state of the door and window before switching to the second color of the door and window corresponding to the second state of the door and window after switching.

8. The decoration management method based on BIM model in nuclear power construction according to claim 1, wherein,

the target decoration object comprises a hole in a nuclear power construction project;

the related data of the hole comprises: and (5) construction requirements of hole plugging construction are described.

9. The decoration management method based on BIM model in nuclear power construction according to claim 1, wherein,

the related data of the target decoration object further comprises: the cost of the target decoration object; and (5) quality inspection requirements.

10. Decoration management system based on BIM model in nuclear power construction, characterized by comprising: the nuclear power construction server side is respectively connected with the plurality of nuclear power construction clients;

the types of the nuclear power construction client side comprise: a construction nuclear power construction client, a quality inspection nuclear power construction client and a financial nuclear power construction client;

the nuclear power construction client is used for logging in a nuclear power decoration management system in the nuclear power construction server;

searching a BIM model of a nuclear power construction and decoration target nuclear power building from the nuclear power decoration management system, and displaying the BIM model;

the nuclear power construction server is used for responding to the clicking operation of the nuclear power construction client on the target decoration object and searching the related data of the target decoration object;

the related data are sent to the nuclear power construction client;

and the nuclear power construction client is used for receiving and displaying the related data of the target decoration object so that a user can perform related work on the target decoration object according to the related data of the target decoration object.

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