CN109408850A - A kind of equipment machine room forward design method based on BIM - Google Patents

Abstract

The invention discloses a kind of equipment machine room forward design method based on BIM, belongs to electromechanical engineering equipment machine room design field, the technical solution of use are as follows: include the following steps: S1, determine the design parameter of equipment machine room according to electromechanical installation design requirement；S2, data integration and information integration are carried out to the equipment machine room design parameter of collection；S3, the information data of integrating is passed to collaborative platform；It S4, take collaborative platform as support, progress three-dimensional modeling, optimization design, data information real-time update；S5, color identification is carried out to equipment corresponding in threedimensional model, pipeline, attachment, pipe fitting；S6, pipeline information, device model, dimension information are identified in the three-dimensional model；S7, equipment machine room BIM blueprint is provided；S8, two dimensional code mark is carried out to the equipment machine room BIM blueprint provided.On the basis of the modeling of electromechanical engineering equipment machine room, across the two-dimensional design stage, with color is identified to pipeline category automatically, design idea is very clear.

Description

A kind of equipment machine room forward design method based on BIM

Technical field

The present invention relates to electromechanical engineering equipment machine room design field, specifically a kind of equipment machine room based on BIM is just To design method.

Background technique

Social now, computer room is exactly Internet data center.Computer room refer to telecommunications, Netcom, movement, two-wire, electric power with And government or enterprise etc., service device, the place of service IT is provided for user and employee, tens small square meters, one As place twenty or thirty cabinet, big square meters up to ten thousand place thousands of a cabinets, and even more, various clothes are usually placed in computer room the inside Business device and minicomputer, such as IBM minicomputer, HP minicomputer, SUN minicomputer, etc..Computer room is critically important, without computer room, work Make, life all, so each computer room there will be professional's management, can be guaranteed that business operates normally by extreme influence!

BIM (Building Information Modeling, Building Information Model) is one highly integrated, complicated, digital Change threedimensional model.BIM model is simultaneously non-static, but the gradually evolution with the continuous development of life cycle environment assessment, from early period The information in scheme to each stage such as detailed design, construction drawing design, construction and operation maintenance can constantly be integrated into model In.Currently, the engineering construction field including equipment machine room more and more appreciates the importance of BIM, and adopts one after another With BIM technology.But by the end of currently, the BIM application of most units also rests on the local or certain link of project On, three-dimensional modeling, collision detection, project amount statistics etc..The BIM application of systematization also faces problems, relies on BIM technology obtains good economic benefits and social benefit is even more to be faced with many obstacles, among these, the defect of BIM software itself Disconnection with BIM technology and domestic Practical Project process is one of the main problem for having to solve, this is also current China Slow one of most important reason of BIM application in engineering design.

Summary of the invention

In view of the defects and deficiencies of the prior art, the present invention intends to provide a kind of equipment machine rooms based on BIM just To design method, this method changes traditional design mode, mentality of designing, ditch on the basis of electromechanical engineering equipment machine room models Logical mode directly carries out data integration, information integration, real-time update with cooperative design platform across the two-dimensional design stage Three-dimensional modeling and optimization design identify color to pipeline category automatically by color identification, and design idea is very clear.

Technical assignment of the invention realizes in the following manner, a kind of equipment machine room forward design method based on BIM, This method comprises the following steps:

S1, the design parameter that equipment machine room is determined according to electromechanical installation design requirement；

S2, data integration and information integration are carried out to the equipment machine room design parameter of collection；

S3, the information data of integrating is passed to collaborative platform；

It S4, take collaborative platform as support, progress three-dimensional modeling, optimization design, data information real-time update；

S5, color identification is carried out to equipment corresponding in threedimensional model, pipeline, attachment, pipe fitting；

S6, pipeline information, device model, dimension information are identified in the three-dimensional model；

S7, equipment machine room BIM blueprint is provided；

S8, two dimensional code mark is carried out to the equipment machine room BIM blueprint provided, and two dimensional code mark is supplied to exploitation unit and is applied Work order position.

Wherein, zero commonly used in the prior art is used to the color identification of equipment, pipeline, attachment, pipe fitting in step S5 Part color identification method.

Preferably, the design parameter of equipment machine room includes engineering structure form, geometric dimension, building in the step S1 Property, construction area, building partitioning scenario, equipment machine room size, equipment machine room area, equipment machine room beam and column position, set The size of standby host room beam and column and the load of equipment machine room other design parameters relevant to equipment machine room.

Preferably, the load of the equipment machine room includes flow, lift, refrigerating capacity, air quantity and temperature etc. and equipment The relevant design parameter of computer room load.

Preferably, data integration and information integration are referred to according to equipment machine room in step S1 in the step S2 Model, number of devices, line size, duct length and the attachment specification and pipe of each equipment needed for calculation of design parameters obtains Part specification, while being classified and being concluded according to different functional attributes, measurement unit.

Preferably, the collaborative platform in the step S3 is using the database in server, equipment machine room threedimensional model Each work done in design process all allows input to enter, and real-time update data are automatically analyzed, and feeds back suggestion for revision.If Standby host room threedimensional model design be designed in common cooperation platform, thus reach upstream and downstream profession drawing " upstream modification, Downstream drawing is modified automatically ", Wrong, missing is reduced on source, is touched, is lacked, it is final to promote design efficiency and designing quality.

Preferably, the three-dimensional modeling in the step S4 refer to building structure module inside equipment machine room and Electromechanical module proportionally establishes threedimensional model.

More preferably, the building structure module includes wall, column, beam, floor, gutter, door and window etc..

Preferably, the electromechanical module includes equipment, pipeline, gantry, air hose, pipe fitting, attachment, suspension and support and wooden block Deng.

Preferably, BIM blueprint includes plan view, elevation, sectional view, perspective view and full-page proof in the step S7 Figure.

Equipment machine room forward design method based on BIM of the invention has the advantage that

(1), the present invention changes traditional design mode, mentality of designing, communication on the basis of the modeling of electromechanical engineering equipment machine room Mode, across the two-dimensional design stage, directly carried out with cooperative design platform data integration, information integration, real-time update three Dimension modeling and optimization design identify color to pipeline category automatically by color identification system, and design idea is very clear；

(2), the present invention is based on threedimensional model, directly addition meets the pipeline information for designing icon standard, device model, size The mark such as information, provides BIM blueprint, including plan view, elevation, sectional view, perspective view, drawing etc., while each BIM Blueprint has unique two dimensional code mark, realizes three-dimensional collaboration between electromechanical pipeline, has innovated the expression way of design result, led to It crosses terminal scanning and directly acquires BIM blueprint, improve design efficiency, be the key link for realizing fabricated construction.

Therefore the present invention has the characteristics that design reasonable, easy to use, multi-purpose content, thus, have and promotes the use of well Value.

Detailed description of the invention

The following further describes the present invention with reference to the drawings.

Attached drawing 1 is the flow diagram of the equipment machine room forward design method based on BIM.

Specific embodiment

Referring to Figure of description and specific embodiment to a kind of equipment machine room forward design method based on BIM of the invention It is described in detail below.

Embodiment:

As shown in Fig. 1, the equipment machine room forward design method of the invention based on BIM, this method comprises the following steps:

S1, the design parameter that equipment machine room is determined according to electromechanical installation design requirement；The design parameter of equipment machine room includes Engineering structure form, geometric dimension, building property, construction area, building partitioning scenario, equipment machine room size, equipment machine room face Product, the position of equipment machine room beam and column, the load of the size of equipment machine room beam and column and equipment machine room other and equipment machine room Relevant design parameter；Wherein, the load of equipment machine room includes flow, lift, refrigerating capacity, air quantity and temperature etc. and equipment machine The relevant design parameter of room load.

S2, data integration and information integration are carried out to the equipment machine room design parameter of collection；Data integration and information The model of each equipment needed for integration refers to being obtained according to the calculation of design parameters of equipment machine room in step S1, number of devices, Line size, duct length and attachment specification and pipe fitting specification, while being divided according to different functional attributes, measurement unit Class and conclusion.

S3, the information data of integrating is passed to collaborative platform；Collaborative platform is using the database in server, equipment Each work done in computer room threedimensional model design process all allows input to enter, and real-time update data are automatically analyzed, feedback Suggestion for revision.The design of equipment machine room threedimensional model is designed in common cooperation platform, to reach upstream and downstream profession figure Paper " upstream modification, downstream drawing are modified automatically ", Wrong, missing is reduced on source, touches, lack, final to promote design efficiency and design Quality.

It S4, take collaborative platform as support, progress three-dimensional modeling, optimization design, data information real-time update；Three-dimensional modeling refers to Be equipment machine room inside building structure module and electromechanical module proportionally establish threedimensional model.Building structure module Including wall, column, beam, floor, gutter, door and window etc.；Electromechanical module includes equipment, pipeline, gantry, air hose, pipe fitting, attached Part, suspension and support and wooden block etc..

After S5, threedimensional model are completed, color identification is carried out to equipment, pipeline, attachment, pipe fitting；

S6, pipeline information, device model, dimension information are identified in the three-dimensional model；

S7, equipment machine room BIM blueprint is provided, BIM blueprint includes plan view, elevation, sectional view, perspective view and drawing.

S8, two dimensional code mark is carried out to the equipment machine room BIM blueprint provided, and two dimensional code mark is supplied to exploitation unit And unit in charge of construction.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention., rather than its limitations；To the greatest extent It is fast that present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: its according to So be possible to modify the technical solutions described in the foregoing embodiments, or to some or all of the technical features into Row equivalent replacement；And these are modified or replaceed, various embodiments of the present invention technology that it does not separate the essence of the corresponding technical solution The range of scheme.

Claims (9)

1. a kind of equipment machine room forward design method based on BIM, which is characterized in that this method comprises the following steps:

S1, the design parameter that equipment machine room is determined according to electromechanical installation design requirement；

S2, data integration and information integration are carried out to the equipment machine room design parameter of collection；

S3, the information data of integrating is passed to collaborative platform；

It S4, take collaborative platform as support, progress three-dimensional modeling, optimization design, data information real-time update；

S5, color identification is carried out to equipment corresponding in threedimensional model, pipeline, attachment, pipe fitting；

S6, pipeline information, device model, dimension information are identified in the three-dimensional model；

S7, equipment machine room BIM blueprint is provided；

S8, two dimensional code mark is carried out to the equipment machine room BIM blueprint provided, and two dimensional code mark is supplied to exploitation unit and is applied Work order position.

2. the equipment machine room forward design method according to claim 1 based on BIM, which is characterized in that the step S1 The design parameter of middle equipment machine room include engineering structure form, geometric dimension, building property, construction area, building partitioning scenario, Equipment machine room size, equipment machine room area, the position of equipment machine room beam and column, the size of equipment machine room beam and column and equipment machine The load in room.

3. the equipment machine room forward design method according to claim 2 based on BIM, which is characterized in that the equipment machine The load in room includes flow, lift, refrigerating capacity, air quantity and temperature.

4. the equipment machine room forward design method according to claim 1 based on BIM, which is characterized in that the step S2 Middle data integration and information integration refer to each needed for obtaining according to the calculation of design parameters of equipment machine room in step S1 set Standby model, number of devices, line size, duct length and attachment specification and pipe fitting specification, while according to different functions Attribute, measurement unit are classified and are concluded.

5. the equipment machine room forward design method according to claim 1 based on BIM, which is characterized in that the step S3 In collaborative platform using the database in server.

6. the equipment machine room forward design method according to claim 1 based on BIM, which is characterized in that the step S4 In three-dimensional modeling refer to that building structure module and electromechanical module inside equipment machine room proportionally establish three-dimensional mould Type.

7. the equipment machine room forward design method according to claim 6 based on BIM, which is characterized in that the building knot Structure module includes wall, column, beam, floor, gutter, door and window.

8. the equipment machine room forward design method according to claim 6 or 7 based on BIM, which is characterized in that the electromechanics Module includes equipment, pipeline, gantry, air hose, pipe fitting, attachment, suspension and support and wooden block.

9. the equipment machine room forward design method according to claim 1 based on BIM, which is characterized in that the step S7 Middle BIM blueprint includes plan view, elevation, sectional view, perspective view and drawing.