CN112215939A - Collaborative management method and system for building data - Google Patents

Abstract

The invention belongs to the field of buildings, and discloses a collaborative management method and a collaborative management system for building data, wherein the method comprises the following steps: acquiring the imported three-dimensional model and sending the three-dimensional model to a server; receiving visual parameter information of the three-dimensional model sent by a server, wherein the visual parameter information is extracted from the parameter information of the three-dimensional model by the server; constructing and displaying a three-dimensional model according to the visual parameter information; detecting a selection operation performed on a component in the three-dimensional model; acquiring a target component according to the selection operation, and acquiring input indication information related to the target component; and sending the indication information and the target component to a server, so that the server generates and releases the coordination information according to the indication information and the target component. The invention can realize the cooperative management of building data in the building process, not only improves the information interaction efficiency among personnel, but also is convenient for searching and tracing the cooperative information in the later period.

Description

Collaborative management method and system for building data

Technical Field

The invention belongs to the technical field of buildings, and particularly relates to a collaborative management method and system for building data.

Background

As the design scale of the construction industry continues to expand, more and more relevant parties are involved in the construction project. In order to ensure the smooth progress of the project, the coordination and cooperation of all the participants are very important in each stage of design, construction, investigation and the like.

With the rapid development of computer technology, various building software is used in building projects, and the building data is cooperatively managed through various building software (such as a building information model), wherein the building information model is a three-dimensional digital model for describing buildings, and comprises professional components and information thereof such as buildings, structures, electromechanics, decoration and the like, and data formed in the design and construction stages can be structurally described.

The application of the existing building information model is not mature, particularly the cooperation mode is not mature, so that all advantages of the building information model technology cannot be fully exerted. When problems occur in design or construction, problem communication and processing are often performed among project members through modes such as a chat tool, mails or a telephone, and the like, so that the mode is not only not intuitive and not beneficial to smooth communication, but also not beneficial to viewing related information in a later period.

Disclosure of Invention

The invention aims to provide a building data collaborative management method and a building data collaborative management system, which can realize collaborative management of building data in a building process, improve the information interaction efficiency among personnel and facilitate the search and tracing of collaborative information in the later period.

The technical scheme provided by the invention is as follows:

in one aspect, a collaborative management method for building data is provided, which includes:

acquiring an imported three-dimensional model and sending the three-dimensional model to a server;

receiving visualization parameter information of the three-dimensional model sent by the server, wherein the visualization parameter information is extracted from the parameter information of the three-dimensional model by the server;

constructing and displaying the three-dimensional model according to the visual parameter information;

detecting a selection operation performed on a component in the three-dimensional model;

acquiring a target component according to the selection operation, and acquiring input indication information related to the target component;

and sending the indication information and the target component to the server, so that the server generates and issues the cooperation information according to the indication information and the target component.

Further preferably, the constructing and displaying the three-dimensional model according to the visualization parameter information specifically includes:

constructing the three-dimensional model according to the visual parameter information and a preset unit model;

generating a component catalog of the three-dimensional model according to the visualization parameter information;

and displaying the three-dimensional model in a first preset area, and displaying the component catalog of the three-dimensional model in a second preset area.

Further preferably, the detecting further comprises, after the selecting operation performed on the member in the three-dimensional model:

acquiring a target component according to the selection operation, and acquiring an uploaded file;

establishing an incidence relation between the target component and the file;

and sending the file and the association relationship between the target component and the file to the server, so that the server updates the component catalog according to the file and the association relationship between the target component and the file.

Further preferably, the method further comprises the following steps:

acquiring the construction sequence of each component from the visual parameter information;

displaying the construction sequence of each component in the component catalog;

acquiring information of the built component;

judging whether a construction abnormal state exists or not according to the constructed member information and the construction sequence of each member; and if so, displaying prompt information.

Further preferably, the method further comprises the following steps:

extracting ID information of each component in the visualization parameter information;

converting the ID information into RGBA values;

rendering each component according to the color corresponding to the RGBA value;

obtaining a color of a member selected in the three-dimensional modeling;

calculating a corresponding target ID according to the RGBA value corresponding to the color of the component;

and finding the corresponding target component in the component catalog of the three-dimensional model according to the target ID.

In another aspect, a collaborative management system for building data is provided, including:

a model acquisition module; the method comprises the steps of obtaining an imported three-dimensional model;

the communication module is used for sending the three-dimensional model to a server;

the communication module is used for receiving visualization parameter information of the three-dimensional model sent by the server, wherein the visualization parameter information is extracted from the parameter information of the three-dimensional model by the server;

the model construction module is used for constructing and displaying the three-dimensional model according to the visual parameter information;

a detection module for detecting a selection operation performed on a component in the three-dimensional model;

the information acquisition module is used for acquiring a target component according to the selection operation and acquiring input indication information related to the target component;

and the cooperative information generation module is used for sending the indication information and the target component to the server, so that the server generates cooperative information according to the indication information and the target component and issues the cooperative information.

Further preferably, the model building module comprises:

the model construction unit is used for constructing the three-dimensional model according to the visual parameter information and a preset unit model;

the catalog generating unit is used for generating a component catalog of the three-dimensional model according to the visualization parameter information;

and the display unit is used for displaying the three-dimensional model in a first preset area and displaying the component catalog of the three-dimensional model in a second preset area.

Further preferably, the method further comprises the following steps:

the file acquisition module is used for acquiring the target component according to the selection operation and acquiring the uploaded file;

the relation establishing module is used for establishing an incidence relation between the target component and the file;

the communication module is used for sending the file and the incidence relation between the target component and the file to the server, so that the server updates the component directory according to the file and the incidence relation between the target component and the file.

Further preferably, the method further comprises the following steps:

the building sequence acquisition module is used for acquiring the building sequence of each component from the visual parameter information;

the display module is also used for displaying the construction sequence of each component in the component catalog;

the information acquisition module is also used for acquiring the information of the built component;

the judging module is used for judging whether a construction abnormal state exists or not according to the constructed component information and the construction sequence of each component;

the display module is also used for displaying prompt information when the abnormal building state exists.

Further preferably, the method further comprises the following steps:

the information extraction module is used for extracting the ID information of each component in the visualization parameter information;

the conversion module is used for converting the ID information into RGBA values;

the rendering module is used for rendering each component according to the color corresponding to the RGBA value;

a color obtaining module for obtaining a color of a member selected in the three-dimensional modeling;

the calculation module is used for calculating a corresponding target ID according to the RGBA value corresponding to the color of the component;

and the component searching module is used for searching the corresponding target component in the component catalog of the three-dimensional model according to the target ID.

Compared with the prior art, the building data collaborative management method and the building data collaborative management system provided by the invention have the beneficial effects that: according to the invention, the server generates the cooperative information according to the acquired indication information and the target component, and the cooperative information is issued to each management platform, so that the cooperative management of building data in the building process can be realized, the information interaction efficiency among personnel is improved, all the cooperative information in the whole building process is displayed on the management platform in a more intuitive mode, and the cooperative information can be conveniently searched and traced in the later period.

Drawings

The above features, technical features, advantages and implementations of a collaborative management method and system for building data will be further described in the following detailed description of preferred embodiments in a clearly understandable manner with reference to the accompanying drawings.

FIG. 1 is a flowchart illustrating a building data collaborative management method according to a first embodiment of the present invention;

FIG. 2 is a flowchart illustrating a second embodiment of a collaborative management method for building data according to the present invention;

FIG. 3 is a flow chart of a third embodiment of a collaborative management method of building data according to the present invention;

FIG. 4 is a flowchart illustrating a fourth embodiment of a collaborative management method for building data according to the present invention;

FIG. 5 is a block diagram illustrating the structure of one embodiment of a collaborative management system for building data according to the present invention.

Description of the reference numerals

10. A model acquisition module; 20. A communication module;

30. a model building module; 31. A model construction unit;

32. a catalog generation unit; 33. A display unit;

40. a detection module; 50. An information acquisition module;

60. a collaborative information generation module; 70. A file acquisition module;

80. a relationship establishing module; 90. A build sequence acquisition module;

100. a display module; 110. A judgment module;

120. an information extraction module; 130. A conversion module;

140. a rendering module; 150. A color acquisition module;

160. a calculation module; 170. And a component searching module.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will be made with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

For the sake of simplicity, the drawings only schematically show the parts relevant to the present invention, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically illustrated or only labeled. In this document, "one" means not only "only one" but also a case of "more than one".

Fig. 1 is a flowchart of a cooperative management method for building data according to an embodiment of the present invention, where the cooperative management method for building data is implemented by a management platform, the management platform may be installed on a terminal, and a server communicates with multiple management platforms. The cooperative management method of the building data comprises the following steps:

s100, acquiring the imported three-dimensional model and sending the three-dimensional model to a server;

specifically, the three-dimensional model may be generated on three-dimensional modeling software by a designer according to design requirements or obtained by rollover. The designer exports the three-dimensional model generated on the three-dimensional modeling software in the common format of IFC. The three-dimensional model can be a floor or a floor designed and completed by the same designer; or may be a combination of different parts designed by different designers.

And then, importing the three-dimensional model derived from the three-dimensional modeling software into a management platform installed on a terminal, wherein the terminal can be a computer of various workers, such as a computer of a designer, a computer of a constructor or a computer of a surveyor and the like. And after the management platform acquires the imported three-dimensional model, sending the imported three-dimensional model to the server. And the server acquires parameter information in the three-dimensional model by using the plug-in, wherein the parameter information comprises editing parameter information and visual parameter information corresponding to the three-dimensional model. Editing parameter information refers to parameter information that can modify a component in a three-dimensional model. The visualization parameter information refers to information such as the position and the size of the three-dimensional model, and the three-dimensional model can be constructed according to the visualization parameter information, but the member in the three-dimensional model cannot be modified, such as the size and the shape of the member cannot be modified. The member means a component constituting a building, such as a wall, a ceiling, a window, a door, a floor, etc.

S200, receiving visualization parameter information of the three-dimensional model sent by the server, wherein the visualization parameter information is extracted from the parameter information of the three-dimensional model by the server;

specifically, after the server acquires the parameter information of the three-dimensional model, the server extracts the visual parameter information corresponding to the three-dimensional model from the parameter information, and then sends the visual parameter information to the management platform on the terminal.

S300, constructing and displaying the three-dimensional model according to the visualization parameter information;

specifically, the management platform can construct a three-dimensional model according to the acquired visual parameter information, and display the constructed three-dimensional model. The visual parameter information can comprise position information and size information of each component, the visual information of the whole three-dimensional model can be obtained according to the position information and the size information of each component, a user can conveniently watch the visual information, meanwhile, editing parameter information used for modifying and editing the components in the three-dimensional model is stored in the server and is not sent to the management platform, light-weight display of the management platform can be achieved, the configuration requirement on a terminal is lowered, and the situation that the visual loading speed is low due to the fact that the data redundancy in the three-dimensional model is high is prevented.

When the components in the three-dimensional model need to be modified, the components can be modified in the three-dimensional modeling software, then a new three-dimensional model drawing is exported, the newly exported three-dimensional model is imported into a management platform of the terminal, and the management platform sends the new three-dimensional model to the server so as to update the parameter information of the three-dimensional model stored in the server. And when each management platform needs to display the three-dimensional model, the server sends the updated visual parameter information to the management platform.

When the server sends the visualization parameter information to the management platform, the server can selectively send the relevant information according to the requirements of the user. For example, a user only wants to view information of the component a in the three-dimensional model, and can select to view the component a of the three-dimensional model in the management platform, the server sends visualization parameter information corresponding to the component a to the management platform according to the selection of the user, and the management platform constructs the visualization information of the component a according to the received visualization parameter information of the component a.

The management platform can cache the visual parameter information in the local after receiving the visual parameter information sent by the server, and when the visual parameter information stored on the server is not updated and the management platform builds and displays the three-dimensional model for the second time, the management platform can directly build and display the three-dimensional model through the locally cached data so as to improve the loading speed of the visual information. If the visualization parameter information stored in the server is updated, the management platform needs to acquire the updated visualization parameter information from the server again when building and displaying the three-dimensional model for the second time, and rebuilds and displays the three-dimensional model according to the updated visualization parameter information.

S400, detecting a selection operation performed on a component in the three-dimensional model;

specifically, after the visualized information of the three-dimensional model is displayed on the management platform, the user may perform some operations on the displayed three-dimensional model, such as selecting a certain component, viewing attribute information of the component, and the like. The management platform detects whether the user performs selection operation on the components in the three-dimensional model in real time.

S500, acquiring a target component according to the selection operation, and acquiring input indication information related to the target component;

specifically, the indication information may be text information, label information, and the like. For example, in the actual construction process, if the supervisor finds that the window is not installed as required, the member of the window may be selected in the three-dimensional model displayed on the management platform, and then text information, such as "check" may be input.

S600, the indication information and the target component are sent to the server, so that the server generates and issues the cooperation information according to the indication information and the target component.

Specifically, after acquiring a target component selected by a user and indication information input by the user, the management platform can send the indication information and the target component to the server, the server generates collaboration information according to the indication information and the target component and issues the collaboration information to each management platform, when the user views the three-dimensional model on the management platform on the terminal of the user, the collaboration information issued by the server can be seen, and then corresponding processing is performed according to the collaboration information. Namely, each user can perform some marking operations on the components in the three-dimensional model on the management platform of the terminal of the user, such as special marking, size marking, character marking, graphic marking and the like; and then the server issues the marking operation to other management platforms for other personnel to check so as to realize the cooperative management of different places and different personnel. For example, after an actual constructor sees the collaborative information which needs to be checked at a certain window of the mark, the actual constructor can carry out on-site check to determine whether the window has a problem, and reply to the issued collaborative information according to the actual check result; after receiving the reply information sent by a certain management platform, the server can issue the reply information on each management platform, so that related personnel can know the event.

In this embodiment, the server generates the cooperation information according to the acquired indication information and the target component, and issues the cooperation information to each management platform, so that cooperation management of building data in a building process can be realized, the information interaction efficiency among people is improved, all cooperation information in the whole building process is displayed on the management platform in a more intuitive manner, and the cooperation information is conveniently searched and traced in a later stage.

Fig. 2 is a flowchart of a collaborative management method for building data according to a second embodiment of the present invention, where in this embodiment, on the basis of the first embodiment, the step S300 of constructing and displaying the three-dimensional model according to the visualization parameter information specifically includes:

s310, constructing the three-dimensional model according to the visual parameter information and a preset unit model;

s320, generating a component catalog of the three-dimensional model according to the visualization parameter information;

s330, displaying the three-dimensional model in a first preset area, and displaying a component catalog of the three-dimensional model in a second preset area.

Specifically, the preset unit model refers to a minimum unit model which is constructed in advance, such as a triangular model, a rectangular model, and the like. The triangular model is used in this embodiment. After receiving the visual parameter information sent by the server, the management platform acquires the size information of each component in the visual parameter information, and then constructs each component according to the size information of each component and the triangular model, namely each component is formed by splicing the triangular models. And after all the components are spliced by the triangular model, a visual three-dimensional model can be obtained.

When the three-dimensional model is constructed, a component catalog corresponding to the three-dimensional model can be generated according to the component information in the visualization parameter information. And each member in the member catalog is arranged in one-to-one correspondence with each member in the three-dimensional model.

After the three-dimensional model is built and the component catalog is generated, the built three-dimensional model can be displayed in a first preset area on the management platform, the generated component catalog can be displayed in a second preset area, for example, the component catalog is displayed on the left side of the management platform, and the built three-dimensional model is displayed on the right side and the middle area of the management platform. When the user does not need to display the component catalog, the second preset area can be hidden so as to enlarge the display area of the first preset area.

The corresponding component can be searched in the three-dimensional modeling according to the component catalog on the management platform, or the corresponding component can be searched in the component catalog according to the component in the three-dimensional modeling.

Preferably, the method for searching and screening the member specifically comprises the following steps:

s710, extracting the ID information of each component in the visualization parameter information;

s720, converting the ID information into RGBA values;

s730, rendering each component according to the color corresponding to the RGBA value;

s740 obtaining colors of the members selected in the three-dimensional modeling;

s750, calculating a corresponding target ID according to the RGBA value corresponding to the color of the component;

s760, according to the target ID, finding the corresponding target component in the component catalog of the three-dimensional model.

Specifically, when modeling is performed by the three-dimensional modeling software, ID information is given to each constructed component, so that each constructed ID information can be converted into RGBA (red, green, blue, transparent) values under the condition that each component has a unique ID, and then each component in the three-dimensional modeling is rendered by using the color corresponding to the RGBA value of each component obtained through calculation.

The equation for converting the ID to a 32-bit RGBA value is:

R＝ID％256/255.0

G＝(ID/256)％256/255.0

B＝(ID/256/256)％256/255.0

A＝(ID/256/256/256)％256/255.0

wherein,% is remainder operator, in the calculation process of R, ID value and 256 remainder are taken, and then remainder is divided by 255.0; similarly, in the calculation of G, the ID value is divided by 256, then the remainder is taken from the value obtained by dividing the ID value by 256 and 256, and finally the remainder is divided by 255.0.

When a user selects one component in the three-dimensional modeling, the color of the selected component is obtained, then the ID corresponding to the RGBA value is calculated according to the RGBA value corresponding to the color of the component, and finally the target component is selected in the component catalog corresponding to the three-dimensional model according to the calculated ID so as to realize the searching of the component. Similarly, the corresponding component can be found in the three-dimensional modeling according to the ID of the target component selected by the user in the component catalog.

Wherein, converting the RGBA into the ID formula is as follows:

ID＝R+G*256+B*256*256+A*256*256*256。

in the scheme, the components can be screened according to the levels, when a designer carries out three-dimensional modeling, the corresponding levels can be established for each component in a project, and a user can carry out screening by opening or closing the corresponding levels. In addition, screening can be performed according to the attribute information of the component.

Fig. 3 is a flowchart of a collaborative management method for building data according to a third embodiment of the present invention, and on the basis of the second embodiment, the method further includes:

s810, acquiring a target component according to the selection operation, and acquiring an uploaded file;

s820, establishing an incidence relation between the target component and the file;

s830 sends the file and the association relationship between the target component and the file to the server, so that the server updates the component directory according to the file and the association relationship between the target component and the file.

In particular, the present embodiment may enable binding of components with files. There are many documents in the building design or construction process, such as design requirements of components, maintenance information of the components by maintenance personnel, problems of the components needing attention in the construction process, and the like. In order to facilitate constructors, engineers and the like to conveniently obtain relevant information (requirement information, maintenance information, construction attention and the like) of each component, the components and the files need to be bound, and after the components and the files are bound, other personnel can view or download the files on a management platform of other terminal equipment. A building block may bind one or more files.

The method comprises the steps that a user selects a target component from a three-dimensional model displayed on a management platform, then uploads a corresponding file, binds the uploaded file with the selected target component (namely, an association relation between the target component and the file is established), then sends the bound file and target component information to a server, and the server updates a component directory corresponding to the three-dimensional model on each management platform according to the received target component information and the received file, namely, displays the bound file information under each component in the component directory. Other users can conveniently acquire the file information bound by each component by browsing the information displayed by the component directory on the management platform of the other users, and can check or download the files bound by each component so as to realize the cooperative management of the building files.

Fig. 4 is a flowchart of a collaborative management method for building data according to a fourth embodiment of the present invention, which further includes, based on the second or third embodiment:

s910, acquiring the construction sequence of each component from the visualization parameter information;

s920, displaying the construction sequence of each component in the component catalog;

s930 acquiring information of the built component;

s940, judging whether a construction abnormal state exists according to the constructed component information and the construction sequence of each component; and if so, displaying prompt information.

Specifically, the visualization parameter information may further include a building sequence of each component, and the building sequence of each component may be set in advance in the three-dimensional modeling. After the construction sequence of each component is extracted from the visual parameter information, the construction sequence of each component can be displayed in the component catalog so as to be convenient for reference of constructors, and the condition that the construction sequence is wrong and a certain component cannot be smoothly constructed or installed is prevented.

In addition, the information of the built components can be acquired, the information of the built components can be input by workers, whether the construction sequence of the components is abnormal or not can be judged according to the information of the built components and the pre-acquired construction sequence of each component, and if the construction sequence of the components is abnormal, prompt information can be fed back in time, for example, the corresponding components with the abnormal conditions are specially displayed in the three-dimensional modeling to prompt the workers that the construction of the components is abnormal and needs to be checked. Meanwhile, according to the built component information, building progress information can be generated, and a user can check the construction progress conveniently.

It should be understood that, in the foregoing embodiments, the sequence numbers of the steps do not mean the execution sequence, and the execution sequence of the steps should be determined by functions and internal logic, and should not constitute any limitation on the implementation process of the embodiments of the present invention.

Fig. 5 is a schematic block diagram of a structure of a collaborative management system for building data according to a fifth embodiment of the present invention, where the collaborative management system for building data includes:

a model acquisition module 10; the method comprises the steps of obtaining an imported three-dimensional model;

a communication module 20, configured to send the three-dimensional model to a server;

the communication module 20 is configured to receive visualization parameter information of the three-dimensional model sent by the server, where the visualization parameter information is extracted from parameter information of the three-dimensional model by the server;

the model construction module 30 is used for constructing and displaying the three-dimensional model according to the visualization parameter information;

a detection module 40 for detecting a selection operation performed on a component in the three-dimensional model;

an information acquisition module 50, configured to acquire a target component according to the selection operation, and acquire input instruction information related to the target component;

and a coordination information generation module 60, configured to send the indication information and the target component to the server, so that the server generates coordination information according to the indication information and the target component, and issues the coordination information.

Preferably, the model building module 30 comprises:

the model construction unit 31 is used for constructing the three-dimensional model according to the visualization parameter information and a preset unit model;

a catalog generation unit 32, configured to generate a component catalog of the three-dimensional model according to the visualization parameter information;

a display unit 33, configured to display the three-dimensional model in a first preset area, and display a component catalog of the three-dimensional model in a second preset area.

Preferably, the method further comprises the following steps:

a file obtaining module 70, configured to obtain a target component according to the selection operation, and obtain an uploaded file;

a relationship establishing module 80, configured to establish an association relationship between the target component and the file;

a communication module 20, configured to send the file and the association relationship between the target component and the file to the server, so that the server updates the component directory according to the file and the association relationship between the target component and the file.

Preferably, the method further comprises the following steps:

a building sequence acquiring module 90, configured to acquire a building sequence of each component from the visualization parameter information;

the display module 100 is further used for displaying the building sequence of each component in the component catalog;

an information acquisition module 50, which is also used for acquiring the information of the built component;

a judging module 110, configured to judge whether a construction abnormal state exists according to the constructed component information and a construction sequence of each component;

the display module 100 is further configured to display a prompt message when the abnormal construction state exists.

Preferably, the method further comprises the following steps:

an information extraction module 120, configured to extract ID information of each component in the visualization parameter information;

a conversion module 130, configured to convert the ID information into an RGBA value;

a rendering module 140, configured to render each component according to a color corresponding to the RGBA value;

a color obtaining module 150 for obtaining colors of the selected members in the three-dimensional modeling;

a calculating module 160, configured to calculate a corresponding target ID according to an RGBA value corresponding to a color of the component;

and the component searching module 170 is configured to search the component directory of the three-dimensional model for the corresponding target component according to the target ID.

The specific manner in which each module in this embodiment performs operations has been described in detail in the embodiment related to the method, and is not described herein again.

It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A collaborative management method of building data, characterized by comprising:

acquiring an imported three-dimensional model and sending the three-dimensional model to a server;

receiving visualization parameter information of the three-dimensional model sent by the server, wherein the visualization parameter information is extracted from the parameter information of the three-dimensional model by the server;

constructing and displaying the three-dimensional model according to the visual parameter information;

detecting a selection operation performed on a component in the three-dimensional model;

acquiring a target component according to the selection operation, and acquiring input indication information related to the target component;

and sending the indication information and the target component to the server, so that the server generates and issues the cooperation information according to the indication information and the target component.

2. The cooperative management method for building data according to claim 1, wherein the constructing and displaying the three-dimensional model according to the visualization parameter information specifically includes:

constructing the three-dimensional model according to the visual parameter information and a preset unit model;

generating a component catalog of the three-dimensional model according to the visualization parameter information;

and displaying the three-dimensional model in a first preset area, and displaying the component catalog of the three-dimensional model in a second preset area.

3. The cooperative management method for building data as claimed in claim 2, wherein the detecting the selection operation performed on the components in the three-dimensional model further comprises:

acquiring a target component according to the selection operation, and acquiring an uploaded file;

establishing an incidence relation between the target component and the file;

and sending the file and the association relationship between the target component and the file to the server, so that the server updates the component catalog according to the file and the association relationship between the target component and the file.

4. The cooperative management method for building data according to claim 2, further comprising:

acquiring the construction sequence of each component from the visual parameter information;

displaying the construction sequence of each component in the component catalog;

acquiring information of the built component;

judging whether a construction abnormal state exists or not according to the constructed member information and the construction sequence of each member; if yes, displaying prompt information; and if so, displaying prompt information.

5. The cooperative management method for building data according to claim 1, further comprising:

extracting ID information of each component in the visualization parameter information;

converting the ID information into RGBA values;

rendering each component according to the color corresponding to the RGBA value;

obtaining a color of a member selected in the three-dimensional modeling;

calculating a corresponding target ID according to the RGBA value corresponding to the color of the component;

and finding the corresponding target component in the component catalog of the three-dimensional model according to the target ID.

6. A collaborative management system of building data, comprising:

a model acquisition module; the method comprises the steps of obtaining an imported three-dimensional model;

the communication module is used for sending the three-dimensional model to a server;

the communication module is used for receiving visualization parameter information of the three-dimensional model sent by the server, wherein the visualization parameter information is extracted from the parameter information of the three-dimensional model by the server;

the model construction module is used for constructing and displaying the three-dimensional model according to the visual parameter information;

a detection module for detecting a selection operation performed on a component in the three-dimensional model;

the information acquisition module is used for acquiring a target component according to the selection operation and acquiring input indication information related to the target component;

and the cooperative information generation module is used for sending the indication information and the target component to the server, so that the server generates cooperative information according to the indication information and the target component and issues the cooperative information.

7. The collaborative management system for building data according to claim 6, wherein the model building module comprises:

the model construction unit is used for constructing the three-dimensional model according to the visual parameter information and a preset unit model;

the catalog generating unit is used for generating a component catalog of the three-dimensional model according to the visualization parameter information;

and the display unit is used for displaying the three-dimensional model in a first preset area and displaying the component catalog of the three-dimensional model in a second preset area.

8. The cooperative management system for building data according to claim 7, further comprising:

the file acquisition module is used for acquiring the target component according to the selection operation and acquiring the uploaded file;

the relation establishing module is used for establishing an incidence relation between the target component and the file;

the communication module is used for sending the file and the incidence relation between the target component and the file to the server, so that the server updates the component directory according to the file and the incidence relation between the target component and the file.

9. The cooperative management system for building data according to claim 7, further comprising:

the building sequence acquisition module is used for acquiring the building sequence of each component from the visual parameter information;

the display module is also used for displaying the construction sequence of each component in the component catalog;

the information acquisition module is also used for acquiring the information of the built component;

the judging module is used for judging whether a construction abnormal state exists or not according to the constructed component information and the construction sequence of each component;

the display module is also used for displaying prompt information when the abnormal building state exists.

10. The cooperative management system for building data according to claim 6, further comprising:

the information extraction module is used for extracting the ID information of each component in the visualization parameter information;

the conversion module is used for converting the ID information into RGBA values;

the rendering module is used for rendering each component according to the color corresponding to the RGBA value;

a color obtaining module for obtaining a color of a member selected in the three-dimensional modeling;

the calculation module is used for calculating a corresponding target ID according to the RGBA value corresponding to the color of the component;

and the component searching module is used for searching the corresponding target component in the component catalog of the three-dimensional model according to the target ID.

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