CN112528373B - BIM-based interaction and collaborative design method among water treatment project specialties - Google Patents

Abstract

The invention provides a BIM-based interaction and collaborative design method among water treatment project specialties, which utilizes design data finished by a process specialty, a structure specialty, a building specialty and a heating and ventilation specialty to be directly downloaded to a revit project file finished by a designer through a corresponding platform, thereby saving the design processes of mutually transmitting drawings, pasting primitives and checking drawings among different specialties, saving a large amount of time, facilitating each professional designer to upload to the corresponding platform to finish upgrading after finishing the professional design result, avoiding adverse effects brought to downstream specialties due to untimely upgrading, uploading each design result to a server and downloading other professional design results required by the server to a collaborative design mode of corresponding positions in the revit project file, and reducing the interaction pressure among different specialties.

Description

BIM-based interaction and collaborative design method among water treatment project specialties

Technical Field

The invention relates to the technical field of water treatment engineering design, in particular to a BIM-based interaction and collaborative design method among water treatment engineering specialties.

Background

The arrangement form of the water treatment engineering plant is divided into an overground type, a semi-underground type and an underground type, along with the continuous development of the economy of China, the general land occupation of cities is short, the requirement of urban environment construction is higher and higher, the arrangement form of the water treatment engineering facilities in large cities is more and more prone to selecting the underground type water treatment engineering plant with small land occupation, can be coordinated with the surrounding environment, and has strong sealing performance and no secondary pollution. In the design of an underground water treatment engineering plant, structural design, fire protection design, building fire prevention partition design, heating ventilation smoke prevention and exhaust design and the like are indispensable, mutual fund collection among the professions such as process, electric automatic control, structure, fire protection, building and heating ventilation is carried out, and check drawings occupy a large proportion in the whole design period. In the traditional design, the interaction mode among the professionals is limited to providing the professional drawings mutually, and designers manually copy and paste the drawings and the primitives provided by other professionals and integrate the drawings into the professional drawings, so that much time and energy are needed, and mistakes are easily made.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a BIM-based mutual and collaborative design method for water treatment engineering specialties, which utilizes an automatic drawing system to complete plane layout design of a water treatment engineering plant area at a revit end, uploads a plane layout design result to a server, downloads a single structure lightweight model and a box body in the plane layout design result from the server based on a structural specialty, arranges a corresponding column net and a corresponding main beam according to the design, uploads the design and layout result to the server, downloads a single structure lightweight model, a box body and a column net in the plane layout design result from the server based on the construction specialty, designs a fire partition of an operation layer and a tank layer according to the design, uploads the fire partition to the server, downloads the single structure lightweight model, the box body, the column net and the fire partition in the plane layout design result from the server based on the heating specialty, designs a heating ventilation fan room for arranging an operation layer and the tank layer, uploads a three-dimensional ventilation fan to the server, and generates a CAD (computer aided design) design drawing, a CAD (computer-aided design) system, a high-pressure-based on the single structure lightweight model, the electrical design and the CAD; according to the BIM-based interaction and collaborative design method for the water treatment project, design data finished by a process specialty, a structure specialty, a building specialty and a heating ventilation specialty are directly downloaded to a revit project file finished by a designer through a corresponding platform, so that design processes of mutually transmitting drawings, pasting primitives and checking the drawings of different specialties are omitted, a large amount of time is saved, and each professional designer can upload the design result to the corresponding platform to complete the contribution after completing the professional design result, so that adverse effects brought to downstream specialties due to untimely contribution are avoided, and the respective design result can be uploaded to a server and download other professional design results required by the user to a collaborative design mode of corresponding positions in the revit project file, so that interaction pressure among different specialties is reduced.

The invention provides a BIM-based water treatment project professional interaction and collaborative design method, which is characterized by comprising the following steps:

s1, finishing the plane layout design of a water treatment plant at a revit end by using an automatic plotting system, and uploading the plane layout design result to a server;

s2, downloading the monomer structure lightweight model and the box body in the planar layout design result from the server based on structural specialties, designing and arranging corresponding column nets and main beams according to the model, and uploading the design and arrangement result to the server;

s3, downloading the monomer structure lightweight model, the box body and the column network in the plane layout design result from the server based on the construction specialty, designing and arranging the fire partitions of the operation layer and the pool layer according to the monomer structure lightweight model, the box body and the column network, and uploading the fire partitions to the server;

s4, downloading a single structure lightweight model, a box body, a column net and a fireproof subarea in the planar layout design result from the server based on heating ventilation specialties, designing and arranging heating ventilation machine rooms of an operation layer and a pool body layer, and uploading the heating ventilation machine rooms to the server;

s5, based on the electric automatic control specialty, generating an electric automatic control calculation table, a three-dimensional model of a transformation and distribution room, a CAD drawing of the transformation and distribution room and a CAD drawing of a high-low voltage system according to equipment information formed after the lightweight model of the single structure is uploaded to a server;

further, in the step S1, completing the floor plan design of the water treatment plant at the revit end by using the automatic graph making system, and uploading the floor plan design result to the server specifically includes:

step S101, downloading a required lightweight model of the single structure of the water treatment engineering plant by using an automatic plotting plug-in of an automatic plotting system, wherein the lightweight model is a family pre-constructed according to a common form of the single structure of the water treatment engineering plant, and a parameter binding relation associated with a design calculation book is built in the lightweight model so as to adjust the overall dimension of the lightweight model by adjusting parameter values;

step S102, specific parameters of the single structures are adjusted in a window provided by an automatic drawing plug-in unit according to design requirements, the downloaded lightweight model is generated into a size and a form which meet the design requirements, and the plane layout of the single structures in the water treatment engineering plant is completed in an assembly model form;

step S103, automatically generating a box body outer wall, a top plate, an operation layer plate and a pipe gallery layer plate of a water treatment engineering plant according to the height of the generated lightweight model and the angular point selected by a user by utilizing a box body generation function of the automatic drawing plug-in;

step S104, uploading the adjusted lightweight model and the box body information to a server;

further, in step S2, downloading the single structure lightweight model and the box in the floor layout design result from the server based on structural expertise, designing and arranging a corresponding column net and a main beam, and uploading the result of the design and arrangement to a server specifically includes:

step S201, downloading a lightweight model and a box uploaded by a process specialty to a local client revit platform by using a downloading model and a box downloading function of an automatic drawing plug-in unit based on the structure specialty;

step S202, exporting a structural operation layer view plane and a structural pool body layer view plane which are automatically generated by the automatic drawing plug-in after the box body is downloaded into a CAD drawing, and laying a column network and a main beam on the CAD drawing;

step S203, importing the column network and the main beam on the CAD drawing into a revit project file downloaded with a lightweight model and a box body by using an automatic drawing plug-in;

step S204, uploading the column network and the main beam in the result of design and arrangement to a server;

further, in step S3, downloading the single structure lightweight model, the box body, and the column network in the floor layout design result from the server based on a construction specialty, so as to design a fire partition for arranging the operation floor and the pool floor, and uploading the fire partition to a server specifically includes:

step S301, downloading the lightweight model, the box body and the column network uploaded by the process and structure specialties to a local client revit platform by using the functions of downloading the model, the box body and the column in the automatic drawing plug-in unit based on the building specialties;

step S302, based on construction specialties, in a revit project file loaded with a lightweight model, a box body and a column network, in a plane view of a construction operation layer and a plane view of a construction pool body layer generated by an automatic plotting plug-in, a fireproof partition drawing function provided by the automatic plotting plug-in is used for assisting in designing a fireproof partition, and finally, fireproof partition area blocks distinguished by colors are generated;

step S303, uploading the fire-proof partition area blocks of the designed and arranged operation layer and the pool layer to a server;

further, in step S4, downloading the single structure lightweight model, the box, the column network, and the fire protection partition in the floor plan design result from the server based on a heating ventilation specialty, so as to design a heating ventilation machine room in which the operation layer and the pool layer are arranged, and uploading the heating ventilation machine room to the server specifically includes:

step S401, downloading lightweight models, boxes, column networks and fireproof partitions uploaded by the process, structure and building professions to a local client revit platform by utilizing the functions of downloading models, downloading boxes, downloading structural columns and downloading fireproof partitions in the automatic drawing plug-in based on heating and ventilation profession;

step S402, based on heating ventilation specialties, selecting and generating different types of light-weight models of heating ventilation machine rooms from heating ventilation operation layer plane views and heating ventilation pool layer plane views generated by automatic drawing plug-ins in a revit project file loaded with a light-weight model, a box body, a column net and a fireproof partition;

step S403, adjusting specific parameters of the heating and ventilating fan room in a window provided by the automatic drawing plug-in unit according to design requirements, generating the size and the shape which meet design requirements by using the downloaded lightweight model, and moving the position to place the heating and ventilating fan room at a proper position;

step S404, uploading the designed lightweight model information of the heating and ventilating fan room to a server;

further, in step S5, based on the electrical automation specialty, generating an electrical automation calculation table, a three-dimensional model of a distribution room, a CAD drawing of the distribution room, and a CAD drawing of a high-low voltage system according to the device information formed after the lightweight model of the single structure is uploaded to the server includes:

step S501, equipment information which can change along with model parameters is contained in a lightweight model generated based on a process specialty, a structure specialty, a building specialty and a heating and ventilation specialty, the equipment information is uploaded to a server, and an excel-format equipment table is correspondingly generated for downloading;

step S502, after the equipment table is generated, the automatic drawing plug-in is utilized to immediately grab related parameters and transmit the parameters to an electric automatic control calculation table template corresponding to an electric automatic professional, so that an electric automatic calculation table which accords with the project is automatically generated;

and S503, transmitting the parameter information of the electric automatic calculation table to a CAD end and a revit end so as to select a one-key drawing at the CAD end to obtain a CAD drawing of a transformer substation floor plan drawing and a CAD drawing of a high-low voltage system drawing, and automatically generating a lightweight model of the transformer substation at the revit end.

Compared with the prior art, the BIM-based water treatment project professional interaction and collaborative design method completes water treatment project plant area plane layout design at a revit end by using an automatic drawing system, uploads the plane layout design result to a server, downloads a single structure lightweight model and a box body in the plane layout design result from the server based on structural specialties, arranges corresponding column nets and main beams according to the design, uploads the design and arrangement result to the server, downloads the single structure lightweight model, the box body and the column net in the plane layout design result from the server based on the construction specialties, designs and arranges fireproof subareas of an operation layer and a pool layer according to the design, uploads the fireproof subareas to the server, downloads the single structure lightweight model, the box body, the column nets and the fireproof subareas in the plane layout design result from the server based on the heating specialties, designs and arranges a heating ventilation machine room of an operation layer and a pool layer, uploads the heating ventilation machine room to the server based on the electrical specialties, forms lightweight model, electrical equipment configuration information, electrical distribution table and CAD (CAD) automatic control system drawing; according to the BIM-based interaction and collaborative design method for the water treatment project, design data finished by a process specialty, a structure specialty, a building specialty and a heating ventilation specialty are directly downloaded to a revit project file finished by a designer through a corresponding platform, so that design processes of mutually transmitting drawings, pasting primitives and checking the drawings of different specialties are omitted, a large amount of time is saved, and each professional designer can upload the design result to the corresponding platform to complete the contribution after completing the professional design result, so that adverse effects brought to downstream specialties due to untimely contribution are avoided, and the respective design result can be uploaded to a server and download other professional design results required by the user to a collaborative design mode of corresponding positions in the revit project file, so that interaction pressure among different specialties is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments or technical descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic flow chart of the interaction and collaborative design method between BIM-based water treatment project specialties provided by the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a schematic flow chart of the BIM-based method for inter-professional interaction and collaborative design of water treatment engineering provided by the present invention. The BIM-based water treatment project professional interaction and collaborative design method comprises the following steps:

s1, finishing the plane layout design of a water treatment plant at a revit end by using an automatic plotting system, and uploading the plane layout design result to a server;

s2, downloading the single structure lightweight model and the box body in the plane layout design result from the server based on the structural speciality, designing and arranging corresponding column nets and main beams according to the lightweight model and the box body, and uploading the design and arrangement result to the server;

s3, downloading the lightweight model, the box body and the column network of the single structure in the plane layout design result from the server based on the construction major, designing and arranging the fire partitions of the operation layer and the pool layer according to the lightweight model, the box body and the column network, and uploading the fire partitions to the server;

s4, downloading the monomer structure lightweight model, the box body, the column network and the fireproof subarea in the plane layout design result from the server based on the heating ventilation specialty, designing and arranging a heating ventilation machine room of an operation layer and a pool body layer according to the weight model, and uploading the heating ventilation machine room to the server;

and S5, based on the electric automatic control specialty, generating an electric automatic control calculation table, a three-dimensional model of a transformation and distribution room, a CAD drawing of the transformation and distribution room and a CAD drawing of a high-low voltage system according to equipment information formed after the lightweight model of the single structure is uploaded to the server.

The beneficial effects of the above technical scheme are: according to the BIM-based interaction and collaborative design method for the water treatment project, design data finished by a process specialty, a structure specialty, a building specialty and a heating ventilation specialty are directly downloaded to a revit project file finished by a designer through a corresponding platform, so that design processes of mutually transmitting drawings, pasting primitives and checking the drawings of different specialties are omitted, a large amount of time is saved, and each professional designer can upload the design result to the corresponding platform to complete the contribution after completing the professional design result, so that adverse effects brought to downstream specialties due to untimely contribution are avoided, and the respective design result can be uploaded to a server and download other professional design results required by the user to a collaborative design mode of corresponding positions in the revit project file, so that interaction pressure among different specialties is reduced.

Preferably, in step S1, the automatic plotting system is used to complete the floor plan design of the water treatment plant at the revit end, and uploading the floor plan design result to the server specifically includes:

step S101, downloading a required lightweight model of the single structures of the water treatment engineering plant by using an automatic plotting plug-in of an automatic plotting system, wherein the lightweight model is a family which is constructed in advance according to the common form of the single structures of the water treatment engineering plant, and a parameter binding relation associated with a design calculation book is built in the lightweight model so as to adjust the overall dimension of the lightweight model by adjusting parameter values;

step S102, specific parameters of the single structures are adjusted in a window provided by an automatic drawing plug-in unit according to design requirements, the downloaded lightweight model is generated into a size and a shape which meet design requirements, and the plane layout of the single structures of the water treatment engineering plant is completed in a form of an assembled model;

step S103, automatically generating a box body outer wall, a top plate, an operation layer plate and a pipe gallery layer plate of a water treatment engineering plant according to the height of the generated lightweight model and the angular point selected by a user by utilizing a box body generation function of the automatic drawing plug-in;

and step S104, uploading the adjusted lightweight model and the box body information to a server.

Preferably, in step S2, downloading the single-structure lightweight model and the box in the floor layout design result from the server based on the structural expertise, designing and arranging the corresponding column net and the main beam, and uploading the result of the design and arrangement to the server specifically includes:

step S201, based on the structure specialty, downloading the lightweight model and the box uploaded by the process specialty to a local client revit platform by using the downloading model and the box downloading function of the automatic drawing plug-in;

step S202, exporting a structural operation layer view plane and a structural pool body layer view plane which are automatically generated by the automatic drawing plug-in after the box body is downloaded into a CAD drawing, and laying a column network and a main beam on the CAD drawing;

step S203, importing the column network and the main beam on the CAD drawing into a revit project file downloaded with a lightweight model and a box body by using an automatic drawing plug-in;

and step S204, uploading the column network and the main beam in the result of the design and arrangement to a server.

Preferably, in step S3, downloading the single-body structure lightweight model, the box body and the column network in the floor plan design result from the server based on the construction specialties, so as to design the fire-protection partition for the arrangement operation layer and the pool layer, and uploading the fire-protection partition to the server specifically includes:

step S301, downloading the lightweight model, the box body and the column network uploaded by the process and structure specialties to a local client revit platform by using the functions of downloading the model, the box body and the column in the automatic drawing plug-in unit based on the building specialties;

step S302, based on construction specialties, in a revit project file loaded with a lightweight model, a box body and a column network, in a plane view of a construction operation layer and a plane view of a construction pool body layer generated by an automatic drawing plugin, a fireproof partition drawing function provided by the automatic drawing plugin is used for assisting in designing a fireproof partition, and finally, fireproof partition area blocks distinguished by colors are generated;

and step S303, uploading the fire-proof partition area blocks of the design layout operation layer and the pool layer to a server.

Preferably, in step S4, downloading the single-structure lightweight model, the box, the column network, and the fire protection partition in the floor plan design result from the server based on the heating ventilation specialties, so as to design the heating ventilation machine room for arranging the operation floor and the pool floor, and uploading the heating ventilation machine room to the server specifically includes:

step S401, downloading lightweight models, boxes, column networks and fireproof partitions uploaded by the process, structure and building professions to a local client revit platform by utilizing the functions of downloading models, downloading boxes, downloading structural columns and downloading fireproof partitions in the automatic drawing plug-in based on heating and ventilation profession;

step S402, based on heating ventilation specialties, selecting and generating different types of light-weight models of heating ventilation machine rooms from heating ventilation operation layer plane views and heating ventilation pool layer plane views generated by automatic drawing plug-ins in a revit project file loaded with a light-weight model, a box body, a column net and a fireproof partition;

step S403, adjusting specific parameters of the heating and ventilating fan room in a window provided by the automatic drawing plug-in unit according to design requirements, generating the size and the shape which meet design requirements by using the downloaded lightweight model, and moving the position to place the heating and ventilating fan room at a proper position;

and S404, uploading the designed lightweight model information of the heating and ventilating fan room to a server.

Preferably, in step S5, based on the electrical automation specialty, generating an electrical automation calculation table, a three-dimensional model of a distribution room, a CAD drawing of the distribution room, and a CAD drawing of a high-low voltage system according to the device information formed after the lightweight model of the single structure is uploaded to the server includes:

step S501, generating a lightweight model based on a process specialty, a structure specialty, a building specialty and a heating and ventilation specialty, wherein the lightweight model is internally provided with equipment information which can change along with model parameters, uploading the equipment information to a server, and correspondingly generating an equipment list in an excel format for downloading;

step S502, after the equipment table is generated, the automatic drawing plug-in unit is used for instantly grabbing related parameters and transmitting the related parameters to an electric automatic control calculation table template corresponding to an electric automatic professional, so that an electric automatic calculation table meeting the project is automatically generated;

and step S503, transmitting the parameter information of the electric automatic calculation table to the CAD end and the revit end, so that a CAD drawing is selected at the CAD end to obtain a CAD drawing of a transformation and distribution room floor plan drawing and a CAD drawing of a high-low voltage system drawing, and a lightweight model of the transformation and distribution room is automatically generated at the revit end.

From the content of the above embodiment, the BIM based inter-professional interaction and collaborative design method for water treatment engineering completes the floor plan design of the water treatment engineering plant at the revit end by using the automatic plotting system, uploads the floor plan design result to the server, downloads the single structure lightweight model and the box body in the floor plan design result from the server based on the structural speciality, designs and arranges the corresponding column net and the main beam, uploads the design and arrangement result to the server, downloads the single structure lightweight model, the box body and the column net in the floor plan design result from the server based on the construction speciality, arranging the fireproof subareas of the operation layer and the pool body layer according to the design, uploading the fireproof subareas to a server, downloading a monomer structure lightweight model, a box body, a column net and a fireproof subarea in the plane arrangement design result from the server based on a heating and ventilating specialty, designing and arranging a heating and ventilating fan room of the operation layer and the pool body layer according to the design, uploading the heating and ventilating fan room to the server, and generating an electric automatic control calculation table, a variable distribution room three-dimensional model, a variable distribution room CAD drawing and a high-low pressure system CAD drawing according to equipment information formed after the monomer structure lightweight model is uploaded to the server based on an electric automatic control specialty; according to the BIM-based interaction and collaborative design method for the water treatment project, design data finished by a process specialty, a structure specialty, a building specialty and a heating and ventilation specialty are directly downloaded to a revit project file finished by a designer through a corresponding platform, so that design processes of mutually transmitting drawings, pasting primitives and checking the drawings of different specialties are omitted, a large amount of time is saved, and each professional designer can upload the design result to the corresponding platform to complete the contribution after completing the professional design result, so that adverse effects brought to downstream specialties due to insufficient contribution are avoided, and the respective design result can be uploaded to a server and download other professional design results required by the same party to a collaborative design mode of corresponding positions in the revit project file, so that interaction pressure among different specialties is reduced, and design data of each specialty appears in a set, so that the change of design content of a certain professional can directly drive other professional related design content to change, and the condition of matching errors and rework requirement among specialties is avoided to a great extent; in addition, the technology corresponding to the BIM-based interaction and collaborative design method for the water treatment engineering can be applied to construction of sewage plants with numerous monomer structures, and is particularly suitable for sinking type sewage treatment plants with complex structures.

Claims (5)

1. The BIM-based interaction and collaborative design method for water treatment engineering specialties is characterized by comprising the following steps:

s1, finishing the plane layout design of a water treatment plant at a revit end by using an automatic plotting system, and uploading the plane layout design result to a server;

s2, downloading the monomer structure lightweight model and the box body in the planar layout design result from the server based on structural specialties, designing and arranging corresponding column nets and main beams according to the model, and uploading the design and arrangement result to the server;

s3, downloading the single structure lightweight model, the box body and the column network in the plane layout design result from the server based on the construction specialty, designing and arranging the fire partitions of the operation layer and the pool body layer according to the single structure lightweight model, the box body and the column network, and uploading the fire partitions to the server;

s4, downloading the monomer structure lightweight model, the box body, the column network and the fireproof subarea in the plane layout design result from the server based on the heating ventilation specialty, designing and arranging heating ventilation machine rooms of an operation layer and a pool body layer according to the monomer structure lightweight model, the box body, the column network and the fireproof subarea, and uploading the heating ventilation machine rooms to the server;

s5, based on the electric automatic control specialty, generating an electric automatic control calculation table, a three-dimensional model of a transformation and distribution room, a CAD drawing of the transformation and distribution room and a CAD drawing of a high-low voltage system according to equipment information formed after the lightweight model of the single structure is uploaded to a server;

wherein,

step S5 specifically includes:

step S501, generating a lightweight model based on a process specialty, a structure specialty, a building specialty and a heating and ventilation specialty, wherein the lightweight model is internally provided with equipment information which can change along with model parameters, uploading the equipment information to a server, and correspondingly generating an equipment list in an excel format for downloading;

step S502, after the equipment table is generated, the automatic drawing plug-in unit is used for instantly grabbing related parameters and transmitting the related parameters to an electric automatic control calculation table template corresponding to an electric automatic professional, so that an electric automatic calculation table meeting the project is automatically generated;

and S503, transmitting the parameter information of the electric automatic calculation table to a CAD end and a revit end so as to select a one-key drawing at the CAD end to obtain a CAD drawing of a transformer substation floor plan drawing and a CAD drawing of a high-low voltage system drawing, and automatically generating a lightweight model of the transformer substation at the revit end.

2. The BIM-based interaction and collaborative design method between water treatment engineering specialties of claim 1, wherein:

in the step S1, the automatic graph making system is used to complete the floor plan design of the water treatment plant at the revit end, and uploading the floor plan design result to the server specifically includes:

step S101, downloading a required lightweight model of the single structure of the water treatment engineering plant by using an automatic plotting plug-in of an automatic plotting system, wherein the lightweight model is a family pre-constructed according to a common form of the single structure of the water treatment engineering plant, and a parameter binding relation associated with a design calculation book is built in the lightweight model so as to adjust the overall dimension of the lightweight model by adjusting parameter values;

step S102, specific parameters of the single structures are adjusted in a window provided by an automatic drawing plug-in unit according to design requirements, the downloaded lightweight model is generated into a size and a form which meet the design requirements, and the plane layout of the single structures in the water treatment engineering plant is completed in an assembly model form;

step S103, automatically generating a box body outer wall, a top plate, an operation layer plate and a pipe gallery layer plate of a water treatment engineering plant according to the height of the generated lightweight model and the angular point selected by a user by utilizing a box body generation function of the automatic drawing plug-in;

and step S104, uploading the adjusted lightweight model and the box body information to a server.

3. The BIM-based water treatment engineering inter-professional interaction and collaborative design method according to claim 1, characterized in that:

in step S2, downloading the single structure lightweight model and the box in the floor layout design result from the server based on structural expertise, designing and arranging a corresponding column net and a main beam, and uploading the result of the design and arrangement to a server specifically includes:

step S201, downloading a lightweight model and a box uploaded by a process specialty to a local client revit platform by using a downloading model and a box downloading function of an automatic drawing plug-in unit based on the structure specialty;

step S202, exporting a structural operation layer view plane and a structural pool body layer view plane which are automatically generated by the automatic drawing plug-in after the box body is downloaded into a CAD drawing, and laying a column network and a main beam on the CAD drawing;

step S203, importing a column net and a main beam on a CAD drawing into a revit project file downloaded with a lightweight model and a box body by using an automatic drawing plug-in;

and step S204, uploading the column network and the main beam in the result of the design and arrangement to a server.

4. The BIM-based interaction and collaborative design method between water treatment engineering specialties of claim 1, wherein:

in step S3, downloading the single structure lightweight model, the box body, and the column network in the floor layout design result from the server based on a construction specialty, so as to design a fire protection partition for arranging the operation floor and the pool floor, and uploading the fire protection partition to a server specifically includes:

step S301, downloading the lightweight model, the box body and the column network uploaded by the process and structure specialties to a local client revit platform by using the functions of downloading the model, the box body and the column in the automatic drawing plug-in unit based on the building specialties;

step S302, based on construction specialties, in a revit project file loaded with a lightweight model, a box body and a column network, in a plane view of a construction operation layer and a plane view of a construction pool body layer generated by an automatic plotting plug-in, a fireproof partition drawing function provided by the automatic plotting plug-in is used for assisting in designing a fireproof partition, and finally, fireproof partition area blocks distinguished by colors are generated;

and step S303, uploading the fire-proof partition area blocks of the design layout operation layer and the pool layer to a server.

5. The BIM-based interaction and collaborative design method between water treatment engineering specialties of claim 1, wherein:

in step S4, the step of downloading the single structure lightweight model, the box body, the column network, and the fire protection partition in the floor plan design result from the server based on the heating ventilation specialties, so as to design the heating ventilation machine room in which the operation layer and the pool layer are arranged, and uploading the heating ventilation machine room to the server specifically includes:

step S401, downloading lightweight models, boxes, column networks and fireproof partitions uploaded by the process, structure and building professions to a local client revit platform by utilizing the functions of downloading models, downloading boxes, downloading structural columns and downloading fireproof partitions in the automatic drawing plug-in based on heating and ventilation profession;

step S402, based on heating ventilation specialties, selecting and generating different types of light-weight models of heating ventilation machine rooms from heating ventilation operation layer plane views and heating ventilation pool layer plane views generated by automatic drawing plug-ins in a revit project file loaded with a light-weight model, a box body, a column net and a fireproof partition;

step S403, adjusting specific parameters of the heating and ventilating fan room in a window provided by the automatic drawing plug-in unit according to design requirements, generating the size and the shape which meet design requirements by using the downloaded lightweight model, and moving the position to place the heating and ventilating fan room at a proper position;

and S404, uploading the designed lightweight model information of the heating and ventilating fan room to a server.

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