CN110032793A - Micromodule data managing method, device, computer equipment and storage medium - Google Patents

Abstract

The present invention relates to micromodule data managing method, device, computer equipment and storage medium, this method includes acquisition building relevant information, to obtain initial information；BIM component is built according to initial information, to obtain component base；Building environment model and micromodule model are built according to component base；Micromodule model is arranged in building environment model, to obtain buildings model；Buildings model is analyzed, to obtain analysis result；Whether discriminatory analysis result meets setting condition；If it is not, then carrying out corresponding adjustment to building environment model and micromodule model, and return and micromodule model is arranged in building environment model, to obtain buildings model.The present invention, which realizes, shortens the design-build period, improves arrangement and method for construction science, improves architectural design accuracy.

Description

Micromodule data managing method, device, computer equipment and storage medium

Technical field

The present invention relates to micromodule data managing methods, more specifically refer to micromodule data managing method, device, meter Calculate machine equipment and storage medium.

Background technique

As shown in Figures 1 and 2, current micromodule data center rapidly develops, and micromodule data center is by traditional machine room The system integrations such as rack, air-conditioning, wiring, distribution, monitoring and illumination be integration entirety, using modular component and system One interface standard realizes the quick of data center, flexible deployment and the enlarging in later period, and construction can be not only greatly reduced in this Cost, and the construction and deployment cycle of data center can be shortened, enhance the mobility and flexibility of data center deployment.

Arrangement, construction and the later period O&M of micromodule data center need to combine building great deal of related information, comprising: build Build specialized information such as flooring geomery, information, the structure discipline information such as door-window opening, layer height, heating conduction such as wall beam plate The structural elements information such as column, whole structural model information, the various pipelines in electromechanical speciality information such as room, ventilation, refrigeration, daylighting etc. Relevant device information etc., traditional design, construction and operation management mode, it is poor that there are information completeness, and the level of IT application is low, expresses Unintelligible, low efficiency, it is error-prone the problems such as, for example data center is built in some room of existing building, using micromodule The problems such as how form arranges that arrangement is how much, and whether clear height is enough, and room refrigeration effect is how, and whether structural bearing capacity reaches, A large amount of architecture informations are related to, traditional approach is in-site measurement and combines original drawing as design considerations, but drawing is different It is fixed sound, it is more likely that there are information deficiencies, prove insufficient problem；In the construction process, how is sequence of construction, and equipment is such as What carry, can into the room that comes all be problem, need combine existing building information, carry out construction simulation, guarantee construction safety With go on smoothly.During operation maintenance, conventionally employed two-dimensional expression way is not intuitive, especially pipeline information, once It needs to safeguard and for example replaces some valve, how accurately to find component, need three-dimensional intuitive operation maintenance platform as branch Support.

Therefore, it is necessary to design a kind of new method, realize and shorten the design-build period, improves arrangement and method for construction science, Improve architectural design accuracy.

Summary of the invention

It is an object of the invention to overcome the deficiencies of existing technologies, micromodule data managing method, device, computer are provided Equipment and storage medium.

To achieve the above object, the invention adopts the following technical scheme: micromodule data managing method, comprising:

Acquisition building relevant information, to obtain initial information；

BIM component is built according to the initial information, to obtain component base；

Building environment model and micromodule model are built according to the component base；

Micromodule model is arranged in the building environment model, to obtain buildings model；

Buildings model is analyzed, to obtain analysis result；

Judge whether the analysis result meets setting condition；

If it is not, then carrying out corresponding adjustment to building environment model and micromodule model, and return described by micromodule model It is arranged in the building environment model, to obtain buildings model.

Its further technical solution are as follows: relevant information is built in the acquisition, to obtain initial information, comprising:

Obtain building scene；

Judge whether the building scene is new building；

If so, design information is obtained, to obtain initial information；

If it is not, then obtaining existing information；

Existing information is carried out it is perfect, to obtain initial information.

Its further technical solution are as follows: it is described that BIM component is built according to the initial information, to obtain component base, comprising:

Architectural environment component is constructed according to the initial information, to form architectural environment component base；

Micromodule component is constructed according to the initial information, to form micromodule component base；

The architectural environment component base and the micromodule component base are integrated, to obtain component base.

Its further technical solution are as follows: it is described that architectural environment component is constructed according to the initial information, to form building ring Border component base, comprising:

The architectural discipline component and corresponding informance in initial information are obtained, to obtain first component；

The structure discipline component and corresponding informance in initial information are obtained, to obtain second component；

The electromechanical speciality component and corresponding informance in initial information are obtained, to obtain third component；

The first component, second component and third component are integrated, to form architectural environment component base.

Its further technical solution are as follows: described that corresponding adjustment is carried out to building environment model and micromodule model, comprising:

The pipeline arrangement in building environment model is adjusted, and/or, the micromodule distance of micromodule model is adjusted, and/or, The micromodule quantity of micromodule model is adjusted, and/or, rearrangement is carried out to the micromodule of micromodule model, and/or, adjustment The pedestal of micromodule model.

Its further technical solution are as follows: it is described that buildings model is analyzed, with obtain analysis result before, further includes:

Information inquiry and three-dimensional visualization processing are carried out to buildings model.

The present invention also provides micromodule data administrators, comprising:

Information acquisition unit, for acquiring building relevant information, to obtain initial information；

Component base builds unit, for building BIM component according to the initial information, to obtain component base；

Model buildings unit, for building building environment model and micromodule model according to the component base；

Arrangement unit, for micromodule model to be arranged in the building environment model, to obtain buildings model；

Analytical unit, for analyzing buildings model, to obtain analysis result；

Judging unit, for judging whether the analysis result meets setting condition；

Adjustment unit, for if it is not, then carry out corresponding adjustment to building environment model and micromodule model, and described in returning Micromodule model is arranged in the building environment model, to obtain buildings model.

Its further technical solution are as follows: the information acquisition unit includes:

Scene obtains subelement, for obtaining building scene；

Scene judgment sub-unit, for judging whether the building scene is new building；

Design information obtains subelement, is used for if so, design information is obtained, to obtain initial information；

Existing information obtains subelement, for if it is not, then obtaining existing information；

Subelement is improved, it is perfect for being carried out to existing information, to obtain initial information.

The present invention also provides a kind of computer equipment, the computer equipment includes memory and processor, described to deposit Computer program is stored on reservoir, the processor realizes above-mentioned method when executing the computer program.

The present invention also provides a kind of storage medium, the storage medium is stored with computer program, the computer journey Sequence can realize above-mentioned method when being executed by processor.

Compared with the prior art, the invention has the advantages that: the present invention by using BIM to the initial information of acquisition into The building of row component base, then building for building environment model and micromodule model is carried out based on the component base, by micromodule model Buildings model can be obtained by being arranged in the building environment model, analyzed buildings model and adjusted, and can be obtained full The buildings model required enough is realized and shortens the design-build period, improves arrangement and method for construction science, improves architectural design accuracy.

The invention will be further described in the following with reference to the drawings and specific embodiments.

Detailed description of the invention

Technical solution in order to illustrate the embodiments of the present invention more clearly, below will be to needed in embodiment description Attached drawing is briefly described, it should be apparent that, drawings in the following description are some embodiments of the invention, general for this field For logical technical staff, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram one of the micromodule of the prior art；

Fig. 2 is the structural schematic diagram two of the micromodule of the prior art；

Fig. 3 is the application scenarios schematic diagram of micromodule data managing method provided in an embodiment of the present invention；

Fig. 4 is the flow diagram of micromodule data managing method provided in an embodiment of the present invention；

Fig. 5 is the sub-process schematic diagram of micromodule data managing method provided in an embodiment of the present invention；

Fig. 6 is the sub-process schematic diagram of micromodule data managing method provided in an embodiment of the present invention；

Fig. 7 is the sub-process schematic diagram of micromodule data managing method provided in an embodiment of the present invention；

Fig. 8 be another embodiment of the present invention provides micromodule data managing method flow diagram；

Fig. 9 is the schematic block diagram of micromodule data administrator provided in an embodiment of the present invention；

Figure 10 be another embodiment of the present invention provides micromodule data administrator schematic block diagram；

Figure 11 is the schematic block diagram of computer equipment provided in an embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are some of the embodiments of the present invention, instead of all the embodiments.Based on this hair Embodiment in bright, every other implementation obtained by those of ordinary skill in the art without making creative efforts Example, shall fall within the protection scope of the present invention.

It should be appreciated that ought use in this specification and in the appended claims, term " includes " and "comprising" instruction Described feature, entirety, step, operation, the presence of element and/or component, but one or more of the other feature, whole is not precluded Body, step, operation, the presence or addition of element, component and/or its set.

It is also understood that mesh of the term used in this description of the invention merely for the sake of description specific embodiment And be not intended to limit the present invention.As description of the invention and it is used in the attached claims, unless on Other situations are hereafter clearly indicated, otherwise " one " of singular, "one" and "the" are intended to include plural form.

It will be further appreciated that the term "and/or" used in description of the invention and the appended claims is Refer to any combination and all possible combinations of one or more of associated item listed, and including these combinations.

Fig. 3 and Fig. 4 are please referred to, Fig. 3 is that the application scenarios of micromodule data managing method provided in an embodiment of the present invention show It is intended to.Fig. 3 is the schematic flow chart of micromodule data managing method provided in an embodiment of the present invention.The micromodule data management Method is applied in server.The server and terminal carry out data interaction, are input to end for relevant information is built by terminal End constructs buildings model by BIM technology by server, and is adjusted to the buildings model, by modeler model adjusted Output.

Fig. 4 is the flow diagram of micromodule data managing method provided in an embodiment of the present invention.As shown in figure 4, the party Method includes the following steps S110 to S180.

S110, acquisition building relevant information, to obtain initial information.

In the present embodiment, initial information refers to architectural discipline information such as flooring geomery, door-window opening, layer be high, The structural elements information such as the information such as heating conduction, structure discipline information such as wall beam sheet-pile, whole structural model information, electromechanical speciality Relevant devices information such as the various pipelines in information such as room, ventilation, refrigeration, daylighting etc..

In one embodiment, referring to Fig. 5, above-mentioned step S110 may include step S111~S115.

S111, building scene is obtained；

S112, judge whether the building scene is new building；

S113, if so, obtain design information, to obtain initial information；

S114, if it is not, then obtaining existing information；

S115, existing information is carried out it is perfect, to obtain initial information.

In the present embodiment, first obtaining the current scene for carrying out buildings model building is built for existing building Model construction is still directed to new building and carries out buildings model building, and different scenes building relevant information collected is not Together, can be by design information by terminal typing for new building, that is, designer directly enters or by existing plan Equal documents pass through in terminal typing server.For existing building, associated drawing can be collected, for drawing missing or table In-site measurement investigation can be used up to inaccurate part, the auxiliary such as outdoor scene modeling technique, laser scanner technique is perfect, to obtain standard True and complete architecture information.

S120, BIM component is built according to the initial information, to obtain component base.

In the present embodiment, component base refers to architectural environment component base and micromodule component base.

In one embodiment, referring to Fig. 6, above-mentioned step S120 may include step S121~S123.

S121, architectural environment component is constructed according to the initial information, to form architectural environment component base.

In the present embodiment, architectural environment component base includes architectural discipline component, structure discipline component and electromechanical speciality Component.

In one embodiment, referring to Fig. 7, above-mentioned step S121 may include step S1211~S1214.

Architectural discipline component and corresponding informance in S1211, acquisition initial information, to obtain first component.

In the present embodiment, first component include architectural discipline component and door-window opening, non-bearing wall body, ceiling, Building coats, the information such as layer height, heating conduction.

Structure discipline component and corresponding informance in S1212, acquisition initial information, to obtain second component.

In the present embodiment, second component include the structural elements such as structure discipline component and room interior wall slab column, it is whole Structural information, including component information, load information, place information etc. need if load is irregular or is more than design load Re-start overall calculation.

Electromechanical speciality component and corresponding informance in S1213, acquisition initial information, to obtain third component.

In the present embodiment, third component includes the various pipelines of structure discipline component and room, ventilation, refrigeration, daylighting Equal relevant devices information etc..

S1214, the integration first component, second component and third component, to form architectural environment component base.

S122, micromodule component is constructed according to the initial information, to form micromodule component base.

In the present embodiment, micromodule component base include pedestal, cabinet, distribution, air-conditioning, monitoring, fire-fighting, wiring, illumination, Security system etc..For ease of implementing deployment, refrigeration modes of blowing between closing cold passage, column can be used, without the lower air-supply of arrangement System requires lower, flexible arrangement to clear height.

S123, the architectural environment component base and the micromodule component base are integrated, to obtain component base.

S130, building environment model and micromodule model are built according to the component base.

In the present embodiment, component base is established using BIM, which is the basis of model, with the component base component dies Type, bearer related information, it is ensured that information completeness and uniqueness.Using the three-dimensional expression of BIM, What You See Is What You Get is visual and clear.

S140, micromodule model is arranged in the building environment model, to obtain buildings model.

In the present embodiment, buildings model is placed in the micromodule model in a certain building environment model.

Building environment model and micromodule model, and perfect relevant information are built respectively in Component- Based Development library.Information is divided into several What information and non-geometry information, the typing of information was deepened constantly with implementation phase, and the information of design phase typing exists Construction stage, which may change, to timely update.What the design phase was formed is to design a model, and construction terminates to will form completion mould Type, O&M stage are O&M models.According to design idea, micromodule model is arranged in building environment model.

S150, buildings model is analyzed, to obtain analysis result.

In the present embodiment, analysis result refer to buildings model carry out comprehensive pipe and clear height analysis, preassembling sunykatuib analysis, Temperature field analysis and the obtained result of structural analysis.

S160, judge whether the analysis result meets setting condition；

S170, if it is not, then carry out corresponding adjustment to building environment model and micromodule model, and return to the step S140。

Specifically, the pipeline arrangement in building environment model is adjusted, and/or, the micromodule distance of micromodule model is adjusted, And/or the micromodule quantity of adjustment micromodule model, and/or, to the micromodule progress rearrangement of micromodule model, and/ Or, the pedestal of adjustment micromodule model.

For and clear height comprehensive for pipe analysis, pipeline arrangement is provided based on BIM technology and is visualized, automatic detection is touched It hits, clear height measures function.

Stud be structure sheaf height-building ground surface layer-top beam height-beam bottom to pipeline and equipment arrangement after height > it is micro- Module minimum requires height (minimum 2.6m)；If conditions are not met, just adjustment pipeline arrangement, more new model after arrangement meets, such as How fruit is all adjusted but, exactly designs and is unsatisfactory in itself, and then this part cannot put micromodule model to existing building, and other positions can To continue to put micromodule model；And new building is formed by initial information and wants adjusted design；It is according to correlation during arrangement Specification totally meets design idea and pipeline arrangement demand；Since pipeline can be bent evacuation and spatial complex needs BIM tri- Dimension is shown.

For preassembling sunykatuib analysis, preassembling simulation, inspection are carried out according to work progress, sequence based on BIM technology Arrangement and method for construction reasonability is tested, while technical training, the scheme of fast understanding buildings model can be carried out to construction personnel.Preassembling portion Dividing is that sequence of construction is carried out three-dimensional animation displaying, and then engineer watches, if thinking that unreasonable irregularity can mention Opinion out, if out of question, so that it may be shown to worker, it is allowed to learn, mainly shown in advance；In installation Transport simulation, for example certain equipment or certain arrowhead of transporting equipment are X, it is practical transport during, certain local space is smaller, Its corresponding arrowhead is Y, and usual X < Y+ minimum safe space meets and passes through, and is unsatisfactory for needing to reformulate transport side Case, for example door is too narrow is changed to window, or destroys behind a face wall and build again, avoids wasting time.Path is empty in real process Between may it is more complicated, need to carry out transport simulation according to practical threedimensional model.

For temperature field analysis, provide threedimensional model and associated parameter data for profession CFD analysis, including room and Internal unit geometrical model, air-conditioning distribution, air quantity and temperature information etc..Interface is provided, data are provided, concrete analysis is calculated by special Industry CFD software is completed, and according to related specifications after calculating, AB class computer room, that is, micromodule inside meets 23 ± 1 DEG C, and C class computer room meets 18~28 DEG C.If conditions are not met, needing to increase air-conditioning quantity in module, perhaps air-conditioning position is arranged between refrigerating capacity or adjustment column Cloth, if it is caused by arranging between micromodule and too closely heat being caused to be not easy diffusion, Yao Jia great micromodule distance, until AB class computer room meets 23 ± 1 DEG C and C class computer rooms and meets 18~28 DEG C until satisfaction.Hereafter, outside progress micromodule, room Internal temperature field simulation analysis.

For structural analysis, structural model and load information are provided for specialty analysis.Referred to herein as room lotus The type and size for not meeting design load are carried, to re-start Structure Calculation, which is provided solely for load foundation, such as one Platform micromodule is multiple, and floor space is much, calculates specification according to dependency structure after calculating and judges whether its internal force and deformation meet phase It closes and requires, do not meet, reducing micromodule quantity, perhaps rearrangement makes it uniformly or increase pedestal reduces part and answers Power, until meeting.

Temperature field (refrigeration effect) analysis, the data-interface of structural analysis, to improve design science are provided；Shorten construction In the period, arrangement and method for construction science, preassembling analysis are improved, digitlization is completed；Support operation platform three-dimensional visualization, complete fortune Information is tieed up, O&M is more simple and reliable.

S180, if so, output buildings model.

Buildings model is exported to terminal and is shown, in order to which construction party, maintenance side and design Fang Junke are consulted.

Above-mentioned micromodule data managing method, by the way that the building of component base is carried out to the initial information of acquisition using BIM, Building for building environment model and micromodule model is carried out based on the component base again, micromodule model is arranged in the building ring Buildings model can be obtained in the model of border, buildings model is analyzed and is adjusted, and the buildings model met the requirements can be obtained, It realizes and shortens the design-build period, improve arrangement and method for construction science, improve architectural design accuracy.

Fig. 8 be another embodiment of the present invention provides a kind of micromodule data managing method flow diagram.Such as Fig. 8 institute Show, the micromodule data managing method of the present embodiment includes step S210-S290.Wherein step S210-S240 and above-mentioned implementation Step S110-S140 in example is similar, and step S260-S290 is similar with the step S150-S180 in above-described embodiment, herein not It repeats again.The following detailed description of in the present embodiment increase step S250.

S250, information inquiry and three-dimensional visualization processing are carried out to buildings model.

The geological information and non-geometry information that overall process is related to are stored based on BIM technology, query function, base are provided The three-dimensional visualization analytic function of buildings model is provided in BIM technology.

Fig. 9 is a kind of schematic block diagram of micromodule data administrator 300 provided in an embodiment of the present invention.Such as Fig. 9 institute Show, corresponds to the above micromodule data managing method, the present invention also provides a kind of micromodule data administrators 300.Micro- mould Block data administrator 300 includes the unit for executing above-mentioned micromodule data managing method, which can be configured in In server.

Specifically, referring to Fig. 9, the micromodule data administrator 300 includes:

Information acquisition unit 301, for acquiring building relevant information, to obtain initial information；

Component base builds unit 302, for building BIM component according to the initial information, to obtain component base；

Model buildings unit 303, for building building environment model and micromodule model according to the component base；

Arrangement unit 304, for micromodule model to be arranged in the building environment model, to obtain buildings model；

Analytical unit 306, for analyzing buildings model, to obtain analysis result；

Judging unit 307, for judging whether the analysis result meets setting condition；

Adjustment unit 308 for if it is not, then carry out corresponding adjustment to building environment model and micromodule model, and returns It is described that micromodule model is arranged in the building environment model, to obtain buildings model；

Output unit 309 is used for if so, output buildings model.

In one embodiment, the information acquisition unit 301 includes:

Scene obtains subelement, for obtaining building scene；

Scene judgment sub-unit, for judging whether the building scene is new building；

Design information obtains subelement, is used for if so, design information is obtained, to obtain initial information；

Existing information obtains subelement, for if it is not, then obtaining existing information；

Subelement is improved, it is perfect for being carried out to existing information, to obtain initial information.

In one embodiment, the component base builds unit 302 and includes:

Architectural environment component base forms subelement, for constructing architectural environment component according to the initial information, to be formed Architectural environment component base；

Micromodule component base forms subelement, for constructing micromodule component according to the initial information, to form micro- mould Module component library；

Component base integrates subelement, for integrating the architectural environment component base and the micromodule component base, with To component base.

In one embodiment, the architectural environment component base formation subelement includes:

First component obtains module, for obtaining architectural discipline component and corresponding informance in initial information, to obtain First component；

Second component module, for obtaining structure discipline component and corresponding informance in initial information, to obtain second Component；

Third construction part module, for obtaining electromechanical speciality component and corresponding informance in initial information, to obtain third Component；

Module is integrated, for integrating the first component, second component and third component, to form architectural environment component Library.

Figure 10 be another embodiment of the present invention provides a kind of micromodule data administrator 300 schematic block diagram.Such as Shown in Figure 10, the micromodule data administrator 300 of the present embodiment is to increase query unit on the basis of above-described embodiment 305。

The query unit 305, for carrying out information inquiry and three-dimensional visualization processing to buildings model.

It should be noted that it is apparent to those skilled in the art that, above-mentioned micromodule data management dress The specific implementation process of 300 and each unit is set, it can be with reference to the corresponding description in preceding method embodiment, for convenience of description With it is succinct, details are not described herein.

Above-mentioned micromodule data administrator 300 can be implemented as a kind of form of computer program, the computer program It can be run in computer equipment as shown in figure 11.

Figure 11 is please referred to, Figure 11 is a kind of schematic block diagram of computer equipment provided by the embodiments of the present application.The calculating Machine equipment 500 can be terminal, be also possible to server, wherein terminal can be smart phone, tablet computer, notebook electricity Brain, desktop computer, personal digital assistant and wearable device etc. have the electronic equipment of communication function.Server can be independence Server, be also possible to the server cluster of multiple servers composition.

Refering to fig. 11, which includes processor 502, memory and the net connected by system bus 501 Network interface 505, wherein memory may include non-volatile memory medium 503 and built-in storage 504.

The non-volatile memory medium 503 can storage program area 5031 and computer program 5032.The computer program 5032 include program instruction, which is performed, and processor 502 may make to execute a kind of micromodule data management side Method.

The processor 502 is for providing calculating and control ability, to support the operation of entire computer equipment 500.

The built-in storage 504 provides environment for the operation of the computer program 5032 in non-volatile memory medium 503, should When computer program 5032 is executed by processor 502, processor 502 may make to execute a kind of micromodule data managing method.

The network interface 505 is used to carry out network communication with other equipment.It will be understood by those skilled in the art that in Figure 11 The structure shown, only the block diagram of part-structure relevant to application scheme, does not constitute and is applied to application scheme The restriction of computer equipment 500 thereon, specific computer equipment 500 may include more more or fewer than as shown in the figure Component perhaps combines certain components or with different component layouts.

Wherein, the processor 502 is for running computer program 5032 stored in memory, to realize following step It is rapid:

Acquisition building relevant information, to obtain initial information；

BIM component is built according to the initial information, to obtain component base；

Building environment model and micromodule model are built according to the component base；

Micromodule model is arranged in the building environment model, to obtain buildings model；

Buildings model is analyzed, to obtain analysis result；

Judge whether the analysis result meets setting condition；

If it is not, then carrying out corresponding adjustment to building environment model and micromodule model, and return described by micromodule model It is arranged in the building environment model, to obtain buildings model.

In one embodiment, processor 502 is realizing the acquisition building relevant information, to obtain initial information step When, it is implemented as follows step:

Obtain building scene；

Judge whether the building scene is new building；

If so, design information is obtained, to obtain initial information；

If it is not, then obtaining existing information；

Existing information is carried out it is perfect, to obtain initial information.

In one embodiment, processor 502 realize it is described BIM component is built according to the initial information, to obtain structure When the step of part library, it is implemented as follows step:

Architectural environment component is constructed according to the initial information, to form architectural environment component base；

Micromodule component is constructed according to the initial information, to form micromodule component base；

The architectural environment component base and the micromodule component base are integrated, to obtain component base.

In one embodiment, processor 502 is described according to initial information building architectural environment component in realization, with shape When at architectural environment component base step, it is implemented as follows step:

The architectural discipline component and corresponding informance in initial information are obtained, to obtain first component；

The structure discipline component and corresponding informance in initial information are obtained, to obtain second component；

The electromechanical speciality component and corresponding informance in initial information are obtained, to obtain third component；

The first component, second component and third component are integrated, to form architectural environment component base.

In one embodiment, processor 502 described carries out corresponding tune to building environment model and micromodule model realizing When synchronizing is rapid, it is implemented as follows step:

The pipeline arrangement in building environment model is adjusted, and/or, the micromodule distance of micromodule model is adjusted, and/or, The micromodule quantity of micromodule model is adjusted, and/or, rearrangement is carried out to the micromodule of micromodule model, and/or, adjustment The pedestal of micromodule model.

In one embodiment, processor 502 realize it is described buildings model is analyzed, with obtain analysis result step Before, following steps are also realized:

Information inquiry and three-dimensional visualization processing are carried out to buildings model.

It should be appreciated that in the embodiment of the present application, processor 502 can be central processing unit (Central Processing Unit, CPU), which can also be other general processors, digital signal processor (Digital Signal Processor, DSP), specific integrated circuit (Application Specific Integrated Circuit, ASIC), ready-made programmable gate array (Field-Programmable Gate Array, FPGA) or other programmable logic Device, discrete gate or transistor logic, discrete hardware components etc..Wherein, general processor can be microprocessor or Person's processor is also possible to any conventional processor etc..

Those of ordinary skill in the art will appreciate that be realize above-described embodiment method in all or part of the process, It is that relevant hardware can be instructed to complete by computer program.The computer program includes program instruction, computer journey Sequence can be stored in a storage medium, which is computer readable storage medium.The program instruction is by the department of computer science At least one processor in system executes, to realize the process step of the embodiment of the above method.

Therefore, the present invention also provides a kind of storage mediums.The storage medium can be computer readable storage medium.This is deposited Storage media is stored with computer program, and processor is made to execute following steps when wherein the computer program is executed by processor:

Acquisition building relevant information, to obtain initial information；

BIM component is built according to the initial information, to obtain component base；

Building environment model and micromodule model are built according to the component base；

Micromodule model is arranged in the building environment model, to obtain buildings model；

Buildings model is analyzed, to obtain analysis result；

Judge whether the analysis result meets setting condition；

If it is not, then carrying out corresponding adjustment to building environment model and micromodule model, and return described by micromodule model It is arranged in the building environment model, to obtain buildings model.

In one embodiment, the processor realizes the related letter of the acquisition building executing the computer program Breath, when obtaining initial information step, is implemented as follows step:

Obtain building scene；

Judge whether the building scene is new building；

If so, design information is obtained, to obtain initial information；

If it is not, then obtaining existing information；

Existing information is carried out it is perfect, to obtain initial information.

In one embodiment, the processor is realized described according to the initial information in the execution computer program BIM component is built, when obtaining component base step, is implemented as follows step:

Architectural environment component is constructed according to the initial information, to form architectural environment component base；

Micromodule component is constructed according to the initial information, to form micromodule component base；

The architectural environment component base and the micromodule component base are integrated, to obtain component base.

In one embodiment, the processor is realized described according to the initial information in the execution computer program Building architectural environment component is implemented as follows step when forming architectural environment component base step:

The architectural discipline component and corresponding informance in initial information are obtained, to obtain first component；

The structure discipline component and corresponding informance in initial information are obtained, to obtain second component；

The electromechanical speciality component and corresponding informance in initial information are obtained, to obtain third component；

The first component, second component and third component are integrated, to form architectural environment component base.

In one embodiment, the processor execute the computer program and realize it is described to building environment model and When micromodule model carries out corresponding set-up procedure, it is implemented as follows step:

The pipeline arrangement in building environment model is adjusted, and/or, the micromodule distance of micromodule model is adjusted, and/or, The micromodule quantity of micromodule model is adjusted, and/or, rearrangement is carried out to the micromodule of micromodule model, and/or, adjustment The pedestal of micromodule model.

In one embodiment, the processor is realized and described is divided buildings model executing the computer program Analysis also realizes following steps before obtaining analysis result step:

Information inquiry and three-dimensional visualization processing are carried out to buildings model.

The storage medium can be USB flash disk, mobile hard disk, read-only memory (Read-Only Memory, ROM), magnetic disk Or the various computer readable storage mediums that can store program code such as CD.

Those of ordinary skill in the art may be aware that list described in conjunction with the examples disclosed in the embodiments of the present disclosure Member and algorithm steps, can be realized with electronic hardware, computer software, or a combination of the two, in order to clearly demonstrate hardware With the interchangeability of software, each exemplary composition and step are generally described according to function in the above description.This A little functions are implemented in hardware or software actually, the specific application and design constraint depending on technical solution.Specially Industry technical staff can use different methods to achieve the described function each specific application, but this realization is not It is considered as beyond the scope of this invention.

In several embodiments provided by the present invention, it should be understood that disclosed device and method can pass through it Its mode is realized.For example, the apparatus embodiments described above are merely exemplary.For example, the division of each unit, only Only a kind of logical function partition, there may be another division manner in actual implementation.Such as multiple units or components can be tied Another system is closed or is desirably integrated into, or some features can be ignored or not executed.

The steps in the embodiment of the present invention can be sequentially adjusted, merged and deleted according to actual needs.This hair Unit in bright embodiment device can be combined, divided and deleted according to actual needs.In addition, in each implementation of the present invention Each functional unit in example can integrate in one processing unit, is also possible to each unit and physically exists alone, can also be with It is that two or more units are integrated in one unit.

If the integrated unit is realized in the form of SFU software functional unit and when sold or used as an independent product, It can store in one storage medium.Based on this understanding, technical solution of the present invention is substantially in other words to existing skill The all or part of part or the technical solution that art contributes can be embodied in the form of software products, the meter Calculation machine software product is stored in a storage medium, including some instructions are used so that a computer equipment (can be a People's computer, terminal or network equipment etc.) it performs all or part of the steps of the method described in the various embodiments of the present invention.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can readily occur in various equivalent modifications or replace It changes, these modifications or substitutions should be covered by the protection scope of the present invention.Therefore, protection scope of the present invention should be with right It is required that protection scope subject to.

Claims (10)

1. micromodule data managing method characterized by comprising

Acquisition building relevant information, to obtain initial information；

BIM component is built according to the initial information, to obtain component base；

Building environment model and micromodule model are built according to the component base；

Micromodule model is arranged in the building environment model, to obtain buildings model；

Buildings model is analyzed, to obtain analysis result；

Judge whether the analysis result meets setting condition；

If it is not, then carry out corresponding adjustment to building environment model and micromodule model, and returns and described arrange micromodule model In in the building environment model, to obtain buildings model.

2. micromodule data managing method according to claim 1, which is characterized in that relevant information is built in the acquisition, To obtain initial information, comprising:

Obtain building scene；

Judge whether the building scene is new building；

If so, design information is obtained, to obtain initial information；

If it is not, then obtaining existing information；

Existing information is carried out it is perfect, to obtain initial information.

3. micromodule data managing method according to claim 1, which is characterized in that described to be taken according to the initial information BIM component is built, to obtain component base, comprising:

Architectural environment component is constructed according to the initial information, to form architectural environment component base；

Micromodule component is constructed according to the initial information, to form micromodule component base；

The architectural environment component base and the micromodule component base are integrated, to obtain component base.

4. micromodule data managing method according to claim 1, which is characterized in that described according to the initial information structure Architectural environment component is built, to form architectural environment component base, comprising:

The architectural discipline component and corresponding informance in initial information are obtained, to obtain first component；

The structure discipline component and corresponding informance in initial information are obtained, to obtain second component；

The electromechanical speciality component and corresponding informance in initial information are obtained, to obtain third component；

The first component, second component and third component are integrated, to form architectural environment component base.

5. micromodule data managing method according to claim 1, which is characterized in that described to building environment model and micro- Modular model carries out corresponding adjustment, comprising:

The pipeline arrangement in building environment model is adjusted, and/or, the micromodule distance of micromodule model is adjusted, and/or, adjustment The micromodule quantity of micromodule model, and/or, rearrangement is carried out to the micromodule of micromodule model, and/or, adjust micro- mould The pedestal of block models.

6. micromodule data managing method according to any one of claims 1 to 5, which is characterized in that described pair of building mould Type is analyzed, with obtain analysis result before, further includes:

Information inquiry and three-dimensional visualization processing are carried out to buildings model.

7. micromodule data administrator characterized by comprising

Information acquisition unit, for acquiring building relevant information, to obtain initial information；

Component base builds unit, for building BIM component according to the initial information, to obtain component base；

Model buildings unit, for building building environment model and micromodule model according to the component base；

Arrangement unit, for micromodule model to be arranged in the building environment model, to obtain buildings model；

Analytical unit, for analyzing buildings model, to obtain analysis result；

Judging unit, for judging whether the analysis result meets setting condition；

Adjustment unit, for if it is not, then carry out corresponding adjustment to building environment model and micromodule model, and return it is described will be micro- Modular model is arranged in the building environment model, to obtain buildings model.

8. micromodule data administrator according to claim 7, which is characterized in that the information acquisition unit includes:

Scene obtains subelement, for obtaining building scene；

Scene judgment sub-unit, for judging whether the building scene is new building；

Design information obtains subelement, is used for if so, design information is obtained, to obtain initial information；

Existing information obtains subelement, for if it is not, then obtaining existing information；

Subelement is improved, it is perfect for being carried out to existing information, to obtain initial information.

9. a kind of computer equipment, which is characterized in that the computer equipment includes memory and processor, on the memory It is stored with computer program, the processor is realized as described in any one of claims 1 to 6 when executing the computer program Method.

10. a kind of storage medium, which is characterized in that the storage medium is stored with computer program, the computer program quilt Processor can be realized when executing such as method described in any one of claims 1 to 6.