CN110232235A - Relational data processing method, device and electronic equipment based on threedimensional model - Google Patents

Abstract

Disclose a kind of relational data processing method, device and electronic equipment based on threedimensional model, by being checked the architecture storey model of acquisition to determine whether acquired architecture storey model is qualified, all information of the architecture storey model are identified when the architecture storey model qualification, and all information formation standardized data is synchronized to cloud database, advantage of the BIM in three-dimensional visualization, ease for operation and information integration has been played comprehensively, has realized effectively managing and maintaining for information.

Description

Relational data processing method, device and electronic equipment based on threedimensional model

Technical field

The present invention relates to architecture information management domains, and in particular to a kind of relational data processing side based on threedimensional model Method, device and electronic equipment.

Background technique

With the development of domestic construction design field, Building Information Model (Building Information Modeling, BIM) Preliminary Applications in architectural engineering industry and shown its huge commercial value, but for current BIM Application status, still there is significant limitation, BIM is in the building O&M stage using less.

Current existing BIM is based primarily upon form data management method and information in the building O&M stage and edits in model Method.Wherein, a large amount of relation tables and information point table are relied on based on form data management method to record and manage data.Letter The method edited in model is ceased i.e. under data exchange standard i.e. IFC standard card cage, direct editing and storage letter in BIM Breath.Its information uses dependence BIM software.Although BIM software has the function of some information processings and extraction, do not have logarithm According to the ability of secondary operation and abstract, the data of extraction are excessively primary, and inconvenient engineering directly uses, and performance is poor.

Summary of the invention

It is set in view of this, the present invention provides a kind of relational data processing method, device and electronics based on threedimensional model It is standby, realize effectively managing and maintaining for three-dimensional model information.

In a first aspect, the embodiment of the invention provides a kind of relational data processing method based on threedimensional model, described Method includes:

Obtain at least one architecture storey model, the architecture storey model includes that all in current architecture storey set Standby, dimensional component, building enclosure class component and equipment pipe network；

Check whether the architecture storey model is qualified with the determination architecture storey model；

Identify all information of the architecture storey model in response to the architecture storey model qualification, and by all information Form standardized data；

The standardized data is synchronized to cloud database.

Preferably, described to check whether qualification includes: the architecture storey model with the determination architecture storey model

It is high with the floor of the determination architecture storey model and layer to obtain the absolute altitude of the architecture storey model；

All devices in the architecture storey model and dimensional component are obtained with the determination all devices and space structure Whether part is in the corresponding floor of the architecture storey model and layer high scope；

The building enclosure class component of the architecture storey model is obtained with the closed area of the determination architecture storey model；

Obtain the typonym of all devices and all devices pipe network with the determination typonym whether standard；

Examine whether the equipment with connector connects with corresponding pipeline.

Preferably, all devices obtained in the architecture storey model and dimensional component include:

Obtain the top edge height and lower edge height of each equipment and dimensional component.

Preferably, all information that the architecture storey model is identified in response to the architecture storey model qualification, And include: by all information formation standardized data

Identify file name and the absolute altitude of the architecture storey model with the floor of the determination architecture storey model；

It is formed according to building enclosure class component described in the building enclosure class component identification of the architecture storey model multiple Closed area, and extracted using each closed area as space；

Device type is identified according to the typonym of all devices, and is compiled according to the device type generating device Code；

According to the geometrical relationship in all devices and multiple spaces with the determination all devices with it is multiple described The relationship in space；

According to equipment pipe network type and equipment and the connection relationship of pipeline to form equipment pipe network connection topology information.

Preferably, all information include the floor of the architecture storey model, the space, the device coding, The all devices connect topology information with the relationship in multiple spaces and the equipment pipe network.

Preferably, the geometrical relationship according to all devices and multiple spaces is with the determination all devices Relationship with multiple spaces includes:

Multiple three-dimensional geometry bodies are determined according to the three-dimensional coordinate in multiple spaces；

It is determined according to the geometrical relationship of the three-dimensional coordinate of all devices and the multiple three-dimensional geometry body described all The relationship of equipment and multiple spaces.

Preferably, described to include: by all information formation standardized data

All information are subjected to coding according to tentation data format and parametrization forms standardized data.

Second aspect, the embodiment of the invention also provides a kind of relational data processing unit based on threedimensional model, institute Stating device includes:

Module is obtained, is configured as obtaining at least one architecture storey model, the architecture storey model includes currently building Build all devices, dimensional component, building enclosure class component and the equipment pipe network in floor；

It checks module, it is whether qualified with the determination architecture storey model to be configured to check for the architecture storey model；

Identification module is configured to respond to the architecture storey model qualification and identifies all of the architecture storey model Information, and all information are formed into standardized data；

Synchronization module is configured as the standardized data being synchronized to cloud database.

The third aspect, the embodiment of the invention also provides a kind of computer readable storage mediums, store computer journey thereon Sequence instruction, the computer program instructions realize method as described in relation to the first aspect when being executed by processor.

Fourth aspect, the embodiment of the invention also provides a kind of electronic equipment, including memory and processor, the storages Device is for storing one or more computer program instructions, wherein one or more computer program instructions are by the place Device is managed to execute to realize method as described in relation to the first aspect.

The embodiment of the present invention determines acquired architecture storey mould by being checked the architecture storey model of acquisition Whether type is qualified, identifies all information of the architecture storey model when the architecture storey model qualification, and by all letters Breath forms standardized data and is synchronized to cloud database, has played BIM comprehensively in three-dimensional visualization, ease for operation and information collection At upper advantage, effectively managing and maintaining for information is realized.

Detailed description of the invention

By referring to the drawings to the description of the embodiment of the present invention, the above and other purposes of the present invention, feature and Advantage will be apparent from, in the accompanying drawings:

Fig. 1 is the flow chart of the relational data processing method based on threedimensional model of the embodiment of the present invention；

Fig. 2 be the embodiment of the present invention determination architecture storey model whether He Ge flow chart；

Fig. 3 is that all information of the architecture storey model of the embodiment of the present invention form the flow chart of standardized data；

Fig. 4 is the determination all devices of the embodiment of the present invention and the relationship flow chart in multiple spaces；

Fig. 5 is the structure chart of the relational data processing unit based on threedimensional model of the embodiment of the present invention；

Fig. 6 is the structure chart of the electronic equipment of the embodiment of the present invention.

Specific embodiment

Below based on embodiment, present invention is described, but the present invention is not restricted to these embodiments.Under Text is detailed to describe some specific detail sections in datail description of the invention.Do not have for a person skilled in the art The present invention can also be understood completely in the description of these detail sections.In order to avoid obscuring essence of the invention, well known method, mistake There is no narrations in detail for journey, process, element and circuit.

In addition, it should be understood by one skilled in the art that provided herein attached drawing be provided to explanation purpose, and What attached drawing was not necessarily drawn to scale.

Unless the context clearly requires otherwise, "include", "comprise" otherwise throughout the specification and claims etc. are similar Word should be construed as the meaning for including rather than exclusive or exhaustive meaning；That is, be " including but not limited to " contains Justice.

In the description of the present invention, it is to be understood that, term " first ", " second " etc. are used for description purposes only, without It can be interpreted as indication or suggestion relative importance.In addition, in the description of the present invention, unless otherwise indicated, the meaning of " multiple " It is two or more.

Unless otherwise clearly defined and limited, the terms such as term " installation ", " connected ", " connection ", " fixation " should be done extensively Reason and good sense solution may be a detachable connection for example, it may be being fixedly connected, or integral；It can be mechanical connection, it can also be with It is electrical connection；Can be directly connected, can also indirectly connected through an intermediary, can be connection inside two elements or The interaction relationship of two elements, unless otherwise restricted clearly.For the ordinary skill in the art, Ke Yigen The concrete meaning of above-mentioned term in the present invention is understood according to concrete condition.

Fig. 1 is relational data processing method flow chart of the present embodiment based on threedimensional model.As shown in Figure 1, the side Method includes:

Step S100, at least one architecture storey model is obtained.

Buildings model needs are generally required to be modeled according to floor namely a buildings model in modeling specification Including multiple architecture storey models, a floor forms an architecture storey model file.It is carried out at data to buildings model During reason, multiple architecture storey models of buildings model can be disposably obtained, then each architecture storey model is carried out Data processing；An architecture storey model can also be once obtained, after the completion of handling the architecture storey model data of acquisition again It is secondary to obtain other architecture storey models progress data processings until all architecture storey model datas of buildings model are handled and completed. The architecture storey model can model to be formed by three-dimensional software, and the file of the architecture storey model can be building trade General Revit model file.When forming architecture storey model, each architecture storey model itself has a filename Claim, different architecture storey models can differentiate floor by filename.

In the present embodiment, the architecture storey model includes all devices in current architecture storey, dimensional component, encloses Protection structure class component and equipment pipe network.The equipment and equipment pipe network include building structure, Heating,Ventilating and Air Conditioning, plumbing, fire-fighting, The equipment and pipe network of security protection, strong and weak electricity etc..Dimensional component refers to the existing component in modeling tool.Building enclosure class component refers to Wall, pillar, door, window etc. can be set to the structure of space boundary.

Step S200, check whether the architecture storey model is qualified with the determination architecture storey model.

In the present embodiment, determine whether the architecture storey model is qualified to be used for the later period to the architecture storey model Information effectively identified and managed.

Specifically, Fig. 2 be the present embodiment determination architecture storey model whether He Ge flow chart.As shown in Fig. 2, described Method includes:

Step S210, the absolute altitude of the architecture storey model is obtained with the floor and layer of the determination architecture storey model It is high.

In an optional implementation manner, the absolute altitude can refer to mean sea level to the architecture storey model most Vertical range between high point (face).It should be understood that in the present embodiment, each floor uses same set of absolute altitude system, for example, The absolute altitude is also possible to relative elevation namely a fixed height above sea level plane to the highest point (face) of the architecture storey model Between vertical range.In the present embodiment, when obtaining architecture storey model, the text of architecture storey model itself can be passed through Part name gets the specific floor of the architecture storey model.In modeling, the layer height of common buildings floor model is all identical, when When getting the absolute altitude and floor information of architecture storey model, the layer height for obtaining current architecture storey model can be calculated.Institute State the altitude range that layer height refers to the floor to ceiling of the floor.

Step S220, all devices in the acquisition architecture storey model and dimensional component are with the determination all devices With dimensional component whether in the corresponding floor of the architecture storey model and layer high scope.

Out of, acquisition architecture storey model, the upper of all devices in the architecture storey model and dimensional component is obtained Brim height and lower edge height (namely the highest vertical range and most of all devices and dimensional component relative to mean sea level Low vertical range), it can determine the spatial position of all devices and dimensional component in architecture storey model；Then with step The architecture storey model absolute altitude and layer height obtained in S210 is compared, and can determine whether are all devices and dimensional component In the corresponding floor of architecture storey model and layer high scope, namely whether belong to current floor.When all equipment of inspection When belonging to current floor with dimensional component, enters step S230 and continue to check.When checking a certain equipment or a certain sky Between component stop data processing when being not belonging to current floor, and modeling personnel is prompted to modify architecture storey model, re-starts inspection It looks into, until entering step S300 after passed examination.

For example, obtaining the top edge height and lower edge height of a Heating,Ventilating and Air Conditioning, the height of Heating,Ventilating and Air Conditioning can be determined, Whether be then compared with the specific floor of architecture storey model and layer height can determine the Heating,Ventilating and Air Conditioning in the architecture storey In the corresponding floor of model and layer high scope, i.e. whether inspection Heating,Ventilating and Air Conditioning belongs to current floor.When Heating,Ventilating and Air Conditioning belongs to currently When floor, continue to check other equipment and dimensional component, until all devices and dimensional component that check belong to and work as When preceding floor, S230 is entered step.When Heating,Ventilating and Air Conditioning is not belonging to current floor, stop data processing, and prompt modeling personnel Architecture storey model is modified, inspection is re-started.

Step S230, the building enclosure class component of the architecture storey model is obtained with the determination architecture storey model Closed area.

In the present embodiment, the building enclosure class component includes wall, column, floor, door, window etc..With building enclosure class structure Part is space boundary, can determine all geometry closed areas of the floor, in order to subsequent carry out space identity, be can establish The relationship of building and floor.

Step S240, all devices are obtained and the typonym of all devices pipe network is with the determination typonym No standard.

The typonym of equipment and equipment pipe network in all architecture storey models is carried out according to scheduled naming rule Name.When getting the typonym of equipment, according to the detection of scheduled naming rule, whether accessed typonym has There is standardization to identify, namely whether meets the naming rule.It, can be in order to when the typonym of equipment has standardization mark Facility information in subsequent identification architecture storey model, is used for information management.Ibid, whether the name of inspection all devices pipe network Specification, when the Naming conventions of all devices pipe network, identification module 53 can with all devices pipe network in identification model, for pair Equipment pipe network in architecture storey model is identified, information management is carried out.When any one equipment or the type of equipment pipe network When title does not meet corresponding Naming conventions, namely when can not identify the typonym of the equipment or equipment pipe network, stop data Processing, and modeling personnel is prompted to modify the typonym of the equipment or equipment pipe network in architecture storey model, then re-start It checks, until the typonym of all devices and all devices pipe network in the architecture storey model obtained all meets naming rule When, enter step the processing that S250 carries out other information.

Step S250, examine whether the equipment with connector connects with corresponding pipeline.

The equipment with connector includes the equipment such as water pump, air-conditioning box, cold, blower, for detecting these equipment With the connection status of air hose, water pipe etc., to confirm whether these equipment can be with normal operations, in order to subsequent carry out information management When, electromechanical tube net topology information can be formed.When detect the connection of equipment and connector with connector there are when problem, Stop carrying out data processing, return to processing information, modeling personnel re-start step after modifying according to the processing information of return The inspection of rapid S250, until examining the good connection of all equipment with connector in current architecture storey model When, carry out next step operation.

In the present embodiment, described step S230, S240, S250 execute sequence regardless of front and back, can be according to practical need Tandem adjustment is carried out, can also be carried out side by side simultaneously.

Step S300, all information of the architecture storey model are identified in response to the architecture storey model qualification, and All information are formed into standardized data.

All information include the floor of the architecture storey model, the space, the device coding, described all Equipment connect topology information with the relationship in multiple spaces and the equipment pipe network.

Fig. 3 is that all information of the architecture storey model of the present embodiment form the flow chart of standardized data.Such as Fig. 3 institute Show, which comprises

Step S310, the file name and absolute altitude for identifying the architecture storey model are with the determination architecture storey model Floor.

Architecture storey model is established according to floor, and corresponding filename is defined as floor name, such as the title of Stall model It is called F1.Meanwhile a set of absolute altitude system can be shared in all models, for each model file, corresponding absolute altitude is also needed It is marked, such as corresponding Stall absolute altitude can be labeled as F1-saga in Stall model.Pass through identification architecture storey model Filename and elevation mark are synchronized to database after above-mentioned two validation of information is consistent, then accordingly create in lane database The floor of the architecture storey model is built, namely thus two information can confirm the corresponding floor of architecture storey model jointly.

Step S320, the building enclosure class component shape according to the building enclosure class component identification of the architecture storey model At multiple closed areas, and extracted using each closed area as space.

Building enclosure the class component, including wall, curtain wall, floor, door, window etc. in architecture storey model are picked up, these maintenances Structure class component can form multiple closed areas, according to the closed area that the building enclosure class component of identification is formed, Mei Geji What closed area can be used as spatial extraction and come out, and with database synchronization, create space, while create building and building belonging to space The relation table of layer.Wherein, floor is exactly corresponding architecture storey model, the space extracted in which architecture storey model, With regard to establishing the relationship in the space extracted and corresponding floor naturally.Relationship refers to space in the subordinate relation of which floor.

Step S330, device type is identified according to the typonym of all devices, and raw according to the device type Forming apparatus coding.

Different types of equipment is identified with corresponding standardized equipment, therefore can be identified according to the typonym of equipment The type of equipment.Device coding can be automatically generated according to the device type of equipment after identification, equipment and device coding is same Step data library creates equipment.

Step S340, according to the geometrical relationship in all devices and multiple spaces with the determination all devices with The relationship in multiple spaces.

Fig. 4 is the determination all devices of the present embodiment and the relationship flow chart in multiple spaces.As shown in figure 4, the method Include:

Step S341, multiple three-dimensional geometry bodies are determined according to the three-dimensional coordinate in multiple spaces.

The space extracted in architecture storey model carries its geological information, including space as the complete of three-dimensional geometry body Portion's coordinate information.Therefore, shape and the position etc. of three-dimensional geometry body can be determined according to the three-dimensional coordinate in space.

Step S342, it is determined according to the geometrical relationship of the three-dimensional coordinate of all devices and the multiple three-dimensional geometry body The relationship of all devices and multiple spaces.

Meanwhile the equipment of extraction carries its three-dimensional coordinate information.By checking the three-dimensional coordinate of an equipment whether one In a three-dimensional geometry body, equipment can be determined in which space, so as to establish the relationship of equipment Yu place space.

Step S350, it is opened up according to equipment pipe network type and equipment and the connection relationship of pipeline with forming the connection of equipment pipe network Flutter information.

When the typonym of equipment pipe network all meets Naming conventions by step S200 inspection, pass through architecture storey model Extract equipment and pipe element can extract the information that equipment is connect with pipeline simultaneously and find out and set according to this link information Connection relationship between standby forms electromechanical pipe network and connects topology information.

Step S400, the standardized data is synchronized to cloud database.

All information acquired in step S300 are formed standardized data to be encoded and joined according to tentation data format Numberization forms standardized data, these standardized datas is then synchronized to cloud database, and then realize synchronizing information management, Advantage of the BIM in three-dimensional visualization, ease for operation and information integration can have been played comprehensively, realize effective pipe of information Reason and maintenance.

The standardized data formats that the information of architecture storey model is formed, partial information are taken passages as follows:

Architecture information type include essential information, architecture information, building document, work go through, personal information, consumption information Deng, and the attribute information of corresponding information point, such as information point coding, unit, priority, input mode.Building standardization Data format is as shown in table 1:

Table 1

Floor information type includes essential information, structural information, personal information, and corresponding information point, information point category Property etc., such as information point coding, unit, type, priority, input mode.Floor standardized data formats are as shown in table 2:

Table 2

Device-General component information type includes essential information, account parameter, communications parameter, and corresponding information point, Information point attribute etc., such as information point coding, unit, type, priority, input mode.Device-General component format such as table 3 It is shown.

Table 3

Similarly, all professional system equipment of building also carry out data normalization storage according to similar type.The profession System equipment includes system common apparatus and vertical shaft etc..

Standardized data is synchronized in cloud database, by taking Device-General component " water pump " as an example, to part of appliance in number It is taken passages according to the storage form in library, as follows:

Standardized data structures can dock all kinds of subsystems and various data sources, pass through standard interface scheme and system The technical compatibility of product vendor realizes that service application and system administration are realized in BIM, can dock BIM comprehensively in project The existing information generated in overall process, all kinds of and building and the machine generated including design phase, construction phase, detection acceptance phase The relevant parameter information of electric system.Ensure that information is lossless in overall process, orderly, to realize that the maximization of data application value mentions It is provided with niche plinth.

Fig. 5 is the structural schematic diagram of the relational data processing unit based on threedimensional model of the embodiment of the present invention.Such as Fig. 5 Shown, the data processing equipment includes obtaining module 51, checking module 52, identification module 53 and synchronization module 54.Obtain mould Block 51 is configured as obtaining at least one architecture storey model, and the architecture storey model includes all in current architecture storey Equipment, dimensional component, building enclosure class component and equipment pipe network.The architecture storey model can be modeled by three-dimensional software It is formed, the file of the architecture storey model can be the general Revit model file of building trade.Check that module 52 is configured To check whether the architecture storey model is qualified with the determination architecture storey model.Identification module 53 is configured to respond to The architecture storey model qualification identifies all information of the architecture storey model, and all information are formed normalized number According to.Synchronization module 54 is configured as the standardized data being synchronized to cloud database.

Fig. 6 is the schematic diagram of the electronic equipment of the embodiment of the present invention.Electronic equipment shown in fig. 6 is general data processing dress It sets comprising general computer hardware structure includes at least processor 61 and memory 62.Processor 61 and memory 62 It is connected by bus 63.Memory 62 is suitable for the instruction or program that storage processor 61 can be performed.Processor 61 can be independence Microprocessor, be also possible to one or more microprocessor set.Processor 61 is deposited by executing memory 62 as a result, The instruction of storage is realized thereby executing the method flow of embodiment present invention as described above for the processing of data and for other The control of device.Bus 63 links together above-mentioned multiple components, while said modules are connected to 64 He of display controller Display device and input/output (I/O) device 65.Input/output (I/O) device 65 can be mouse, keyboard, modulation /demodulation Device, network interface, touch-control input device, body-sensing input unit, printer and other devices well known in the art.Typically, Input/output device 65 is connected by input/output (I/O) controller 66 with system.Preferably, the electronic equipment of the present embodiment For server.

Meanwhile as skilled in the art will be aware of, the various aspects of the embodiment of the present invention may be implemented as be System, method or computer program product.Therefore, the various aspects of the embodiment of the present invention can take following form: complete hardware Embodiment, complete software embodiment (including firmware, resident software, microcode etc.) usually can all claim herein For the embodiment for combining software aspects with hardware aspect of circuit, " module " or " system ".In addition, side of the invention Face can take following form: the computer program product realized in one or more computer-readable medium, computer can Reading medium has the computer readable program code realized on it.

It can use any combination of one or more computer-readable mediums.Computer-readable medium can be computer Readable signal medium or computer readable storage medium.Computer readable storage medium can be such as (but not limited to) electronics, Magnetic, optical, electromagnetism, infrared or semiconductor system, device or any suitable combination above-mentioned.Meter The more specific example (exhaustive to enumerate) of calculation machine readable storage medium storing program for executing will include the following terms: with one or more electric wire Electrical connection, hard disk, random access memory (RAM), read-only memory (ROM), erasable is compiled portable computer diskette Journey read-only memory (EPROM or flash memory), optical fiber, portable optic disk read-only storage (CD-ROM), light storage device, Magnetic memory apparatus or any suitable combination above-mentioned.In the context of the embodiment of the present invention, computer readable storage medium It can be that can include or store the program used by instruction execution system, device or combine instruction execution system, set Any tangible medium for the program that standby or device uses.

Computer-readable signal media may include the data-signal propagated, and the data-signal of the propagation has wherein The computer readable program code realized such as a part in a base band or as carrier wave.The signal of such propagation can use Any form in diversified forms, including but not limited to: electromagnetism, optical or its any combination appropriate.It is computer-readable Signal media can be following any computer-readable medium: not be computer readable storage medium, and can be to by instructing Program that is that execution system, device use or combining instruction execution system, device to use is communicated, is propagated Or transmission.

Including but not limited to wireless, wired, fiber optic cables, RF etc. or above-mentioned any appropriately combined any can be used Suitable medium transmits the program code realized on a computer-readable medium.

Computer program code for executing the operation for being directed to various aspects of the present invention can be with one or more programming languages Any combination of speech is write, and the programming language includes: programming language such as Java, Smalltalk, C++ of object-oriented etc.； And conventional process programming language such as " C " programming language or similar programming language.Program code can be used as independent software package Fully on the user computer, partly execute on the user computer；Partly exist on the user computer and partly It is executed on remote computer；Or it fully executes on a remote computer or server.It in the latter case, can will be remote Journey computer by include local area network (LAN) or wide area network (WAN) any type of network linking to subscriber computer, or (such as internet by using ISP) can be attached with outer computer.

It is above-mentioned according to the method for the embodiment of the present invention, the flow chart legend of equipment (system) and computer program product and/ Or block diagram describes various aspects of the invention.It will be appreciated that each of flow chart legend and/or block diagram piece and process The combination of block in figure legend and/or block diagram can be realized by computer program instructions.These computer program instructions can be with It is provided to the processor of general purpose computer, special purpose computer or other programmable data processing devices, to generate machine, so that (being executed via computer or the processor of other programmable data processing devices) instruction creation for realizing flow chart and/or The device for the function action specified in block diagram or block.

These computer program instructions can also be stored in can instruct computer, other programmable data processing devices Or in the computer-readable medium that runs in a specific way of other devices, so that the instruction stored in computer-readable medium produces Raw includes the product for realizing the instruction for the function action specified in flowchart and or block diagram block or block.

Computer program instructions can also be loaded on computer, other programmable data processing devices or other devices On so that executed on computer, other programmable devices or other devices it is a series of can operating procedure come generate computer reality Existing process, so that the instruction executed on computer or other programmable devices is provided for realizing in flow chart and/or frame The process for the function action specified in segment or block.

The embodiment of the present invention determines acquired architecture storey mould by being checked the architecture storey model of acquisition Whether type is qualified, identifies all information of the architecture storey model when the architecture storey model qualification, and by all letters Breath forms standardized data and is synchronized to cloud database, has played BIM comprehensively in three-dimensional visualization, ease for operation and information collection At upper advantage, effectively managing and maintaining for information is realized.

The above description is only a preferred embodiment of the present invention, is not intended to restrict the invention, for those skilled in the art For, the invention can have various changes and changes.All any modifications made within the spirit and principles of the present invention are equal Replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of relational data processing method based on threedimensional model, which is characterized in that the described method includes:

At least one architecture storey model is obtained, the architecture storey model includes all devices, sky in current architecture storey Between component, building enclosure class component and equipment pipe network；

Check whether the architecture storey model is qualified with the determination architecture storey model；

All information of the architecture storey model are identified in response to the architecture storey model qualification, and all information are formed Standardized data；

The standardized data is synchronized to cloud database.

2. data processing method according to claim 1, which is characterized in that described to check the architecture storey model with true Whether qualification includes: the fixed architecture storey model

It is high with the floor of the determination architecture storey model and layer to obtain the absolute altitude of the architecture storey model；

The all devices and dimensional component obtained in the architecture storey model are with the determination all devices and dimensional component It is no in the corresponding floor of the architecture storey model and layer high scope；

The building enclosure class component of the architecture storey model is obtained with the closed area of the determination architecture storey model；

Obtain the typonym of all devices and all devices pipe network with the determination typonym whether standard；

Examine whether the equipment with connector connects with corresponding pipeline.

3. data processing method according to claim 2, which is characterized in that described to obtain in the architecture storey model All devices and dimensional component include:

Obtain the top edge height and lower edge height of each equipment and dimensional component.

4. data processing method according to claim 1, which is characterized in that described to be closed in response to the architecture storey model Lattice identify all information of the architecture storey model, and include: by all information formation standardized data

Identify file name and the absolute altitude of the architecture storey model with the floor of the determination architecture storey model；

The multiple closings formed according to building enclosure class component described in the building enclosure class component identification of the architecture storey model Region, and extracted using each closed area as space；

Device type is identified according to the typonym of all devices, and is encoded according to the device type generating device；

According to the geometrical relationship in all devices and multiple spaces with the determination all devices and multiple spaces Relationship；

According to equipment pipe network type and equipment and the connection relationship of pipeline to form equipment pipe network connection topology information.

5. data processing method according to claim 4, which is characterized in that all information include the architecture storey The floor of model, the space, the device coding, all devices and multiple spaces relationship and the equipment Pipe network connects topology information.

6. data processing method according to claim 4, which is characterized in that described according to all devices and multiple institutes The geometrical relationship in space, which is stated, with the determination all devices and the relationship in multiple spaces includes:

Multiple three-dimensional geometry bodies are determined according to the three-dimensional coordinate in multiple spaces；

The all devices are determined according to the geometrical relationship of the three-dimensional coordinate of all devices and the multiple three-dimensional geometry body With the relationship in multiple spaces.

7. data processing method according to claim 1, which is characterized in that described that all information are formed standardized data Include:

All information are subjected to coding according to tentation data format and parametrization forms standardized data.

8. a kind of relational data processing unit based on threedimensional model, which is characterized in that described device includes:

Module is obtained, is configured as obtaining at least one architecture storey model, the architecture storey model includes current building building All devices, dimensional component, building enclosure class component and equipment pipe network in layer；

It checks module, it is whether qualified with the determination architecture storey model to be configured to check for the architecture storey model；

Identification module is configured to respond to all letters that the architecture storey model qualification identifies the architecture storey model Breath, and all information are formed into standardized data；

Synchronization module is configured as the standardized data being synchronized to cloud database.

9. a kind of computer readable storage medium, stores computer program instructions thereon, which is characterized in that the computer program Such as method of any of claims 1-7 is realized in instruction when being executed by processor.

10. a kind of electronic equipment, including memory and processor, which is characterized in that the memory is for storing one or more Computer program instructions, wherein one or more computer program instructions are executed by the processor to realize such as power Benefit requires method described in any one of 1-7.