CN109359751A - Intelligent building operation management system and its management method - Google Patents
Intelligent building operation management system and its management method Download PDFInfo
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- CN109359751A CN109359751A CN201811260028.3A CN201811260028A CN109359751A CN 109359751 A CN109359751 A CN 109359751A CN 201811260028 A CN201811260028 A CN 201811260028A CN 109359751 A CN109359751 A CN 109359751A
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- building
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/20—Administration of product repair or maintenance
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06T—IMAGE DATA PROCESSING OR GENERATION, IN GENERAL
- G06T17/00—Three dimensional [3D] modelling, e.g. data description of 3D objects
- G06T17/10—Constructive solid geometry [CSG] using solid primitives, e.g. cylinders, cubes
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06T—IMAGE DATA PROCESSING OR GENERATION, IN GENERAL
- G06T19/00—Manipulating 3D models or images for computer graphics
- G06T19/006—Mixed reality
Abstract
The present invention relates to a kind of intelligent building operation management system and its management methods, including center service module, virtual reality module and control module, control module is set in a building to monitor building and by monitoring data transmission to center service module, center service module gives the basic data of building and monitoring data transmission to virtual reality module, so that virtual reality module simulation goes out the real-time virtual state model of building, center service module controls the operating status of each equipment in building according to real-time virtual state model.The present invention is implemented in combination with buildings model with virtual reality technology visually to monitor and manage in building, can comprehensive grasp building O&M multidate information, guarantee O&M safety.
Description
Technical field
The present invention relates to building operation management technical field more particularly to a kind of intelligent building operation management systems and its pipe
Reason method.
Background technique
O&M method and design tool are all in continuous evolution in fast-developing building O&M field, however are building at present
During O&M, however it remains some problems: (1) angle and path can only be often fixed in traditional architecture O&M exhibition method
Displaying (such as plane visual effect and three-dimensional stereo model), cause building O&M information representation on omission and with Party A manage
There are deviations in solution, so that the actual effect after building O&M is bad.(2) the data information association under O&M background is digitized
With with interaction design problem.The advantage for building O&M field BIM is collaborative design, however BIM visualization and range are not
Foot, the deviation of the inaccuracy and understanding that cause information to transmit, causes to cooperate in many ways inefficient.
By (virtual to the very important visualization medium BIM (Building Information Model) in two, O&M field of building and VR
Reality) analysis investigation, it can be found that: (1) Visualization of BIM insufficient, and layman has interpreting blueprints, reads the tired of model
It is difficult.(2) VR is used in the expression of final effect mostly at present, cannot exhibition building well data and information.(3) BIM with
The great complementarity of VR.The advantage of BIM is to cover the data information control and collaborative design of building Life cycle;VR intervention is built
It is that real realize from the impression of people carries out operation management, this is to be taken in the past for the method for building O&M compares tradition
Mode all cannot achieve.
Summary of the invention
The purpose of the present invention is to provide a kind of intelligent building operation management system and its management methods, can pass through BIM
Platform modeling is shown by VR, and result is applied to during actual building O&M.
In order to achieve the above object, the present invention provides a kind of intelligent building operation management systems, including center service mould
Block, virtual reality module and control module, the control module are set in a building to monitor the building and will supervise
Control data are transmitted to the center service module, and the center service module is by the basic data of the building and the monitoring
Data are transferred to the virtual reality module, so that the virtual reality module simulation goes out the real-time virtual state of the building
Model, the center service module control the operation shape of each equipment in the building according to the real-time virtual state model
State.
Optionally, the center service module includes Database Unit, and the building is stored in the Database Unit
The basic data of object, and the Database Unit is also used to store the monitoring data.
Optionally, the center service module further includes control unit, and the center service module is single by the control
Member sends control instruction to the control module, to control the operating status of each equipment in the building.
Optionally, each equipment includes lift facility, security device, lighting apparatus, air-conditioning equipment, HVAC in the building
One of equipment and monitoring device are a variety of.
Optionally, the control module includes that video monitor unit, event-monitoring unit, electromechanical equipment unit and communication are single
One of member is a variety of, and the control module is connected by data acquisition with transmission module and the center service module by signal
It connects.
Optionally, the video monitor unit includes several video cameras, to obtain the video information of the building in real time;
The event-monitoring unit includes one of luminous lamp switch monitor, smoke alarm and Temperature Humidity Sensor or a variety of;
The electromechanical equipment unit includes one of elevator, headlamp and air-conditioning or a variety of;The communication unit include each unit it
Between network protocol and several communication interfaces, to realize the communication between each unit.
Optionally, the virtual reality module includes data transceiving unit and display unit, the data transceiving unit with
The center service module by signal connection, for receiving the data of the center service module transfer;The display unit is used for
Show the real-time virtual state model.
The present invention also provides a kind of intelligent building operation management methods, comprising:
Intelligent building operation management system as described above is provided;
Control one building of module monitors is to obtain monitoring data, and by the monitoring data transmission to center service mould
Block;
The center service module is by the basic data of the building and the monitoring data transmission to described virtual existing
Real module;
The virtual reality module simulates the real-time of the building according to the basic data and the monitoring data
Virtual state model;
The center service module controls the operation of each equipment in the building according to the real-time virtual state model
State.
Optionally, the center service module includes a Database Unit, and described build is stored in the Database Unit
The basic data for building object, after the center service module receives the monitoring data, the center service module will be described
Supervising data storage is into Database Unit.
Optionally, the center service module further includes a control unit, and the virtual reality module simulation goes out described build
After building the real-time virtual state model of object, the center service module sends control instruction to described by described control unit
Module is managed, to control the operating status of each equipment in the building.
The present invention obtains the monitoring data of building by the control module, and will be built by the center service module
The basic data and monitoring data transmission of object give virtual reality module, and the virtual reality module simulation is made to go out the building
Real-time virtual state model, by make buildings model and virtual reality technology be implemented in combination in building visually monitoring and
Control, the O&M multidate information of the comprehensive grasp building of energy, guarantees O&M safety;Further, center service module can root
The operating status that each equipment in the building is remotely controlled according to the real-time virtual state model, reaches the battalion of intelligent high-efficiency
Fortune management.
Detailed description of the invention
Fig. 1 is intelligent building operation management system the functional block diagram provided by the invention.
In figure: 1- center service module;11- Database Unit;111- basic data;112- monitoring data;2- is virtually existing
Real module;3- manages module;31- video monitor unit;32- event-monitoring unit;33- electromechanical equipment unit;34- communication is single
Member;The acquisition of 4- data and transmission module.
Specific embodiment
A specific embodiment of the invention is described in more detail below in conjunction with schematic diagram.According to following description,
Advantages and features of the invention will become apparent from.It should be noted that attached drawing is all made of very simplified form and using non-accurate
Ratio, only for the purpose of facilitating and clarifying the purpose of the embodiments of the invention.
As shown in Figure 1, a kind of intelligent building operation management system, including center service module 1, virtual reality module 2 and
Module 3 is managed, the control module 3 is set in a building to monitor the building and be transmitted to monitoring data 112
The center service module 1, the center service module 1 is by the basic data 111 of the building and the monitoring data 112
It is transferred to the virtual reality module 2, so that the virtual reality module 2 simulates the real-time virtual state mould of the building
Type, the center service module 1 control the operating status of each equipment in the building according to the real-time virtual state model.
Specifically, the control module 3 can be deployed in multiple crucial monitoring positions in building, and with the center
Service module 1 communicates, for monitoring the parameters of each equipment in building and monitoring data 112 being transmitted to center service mould
Block 1;The monitoring data 112 is merged into the Database Unit 11 by the center service module 1, the center service mould
Block 1 is connect by data transformation interface with virtual reality module 2, and by the basic data of the building 111 and the monitoring
Data 112 are transferred to the virtual reality module 2, and the virtual reality module 2 introduces the model data for building O&M virtual
In real world devices, so that administrative staff carry out three-dimension interaction experience in real-time virtual state model and the outdoor scene of virtual reality is handed over
Mock survey is realized in mutually experience in virtual reality device, realizes the long-range control to each equipment in the building.
Further, the center service module 1 includes Database Unit 11, is stored in the Database Unit 11
The basic data 111 of building is stated, and the Database Unit 11 is also used to store the monitoring data 112.Wherein, the base
Plinth data 111 correspond to the property parameters that entity builds itself, such as position of building, direction, shape, height, internal structure, color
Reconciliation texture etc. passes through architectural drawing and establishes the threedimensional model of building and build the threedimensional model of interior each equipment.The monitoring number
It is the integration for managing the monitoring data that module 3 obtains according to 112.Basic data 111 and monitoring number in the Database Unit 11
The three-dimensional building scene model data for having merged each equipment in building itself and building according to 112, the Database Unit 11
Visualization Model data after light-weight technologg being transferred through to virtual reality module 2.
Further, each equipment includes lift facility, security device, lighting apparatus, air-conditioning equipment, warms up in the building
Logical one of equipment and monitoring device or a variety of.
Further, the control module 3 includes video monitor unit 31, event-monitoring unit 32, electromechanical equipment unit
One of 33 and communication unit 34 are a variety of, and the control module 3 passes through data acquisition and transmission module 4 and the center
The connection of 1 signal of service module.
Further, the video monitor unit 31 includes several video cameras, to obtain the video of the building in real time
Information;The event-monitoring unit 32 includes luminous lamp switch monitor, smoke alarm and Temperature Humidity Sensor etc.;The view
Frequency monitoring unit 31 and event-monitoring unit 32 are used to monitor in real time the operation state of relevant device in the building, and to different
Ordinary affair part is detected automatically, event information reports and logout.
The electromechanical equipment unit 33 includes all kinds of electromechanical equipments used in the building, such as elevator, headlamp, sky
Tune and HVAC etc..The communication unit 34 includes the network protocol and several communication interfaces between each unit, for realizing each list
Flexible dispatching and intercommunication between data transmission and Communications service are realized in communication between member.
Further, the center service module 1 further includes server unit, to data acquisition and transmission module 4
The monitoring data 112 transmitted is screened, analyzed and is integrated, and is stored into the Database Unit 11.Specifically, operation
The monitoring data that the control module 3 obtains in the process is uploaded to via data acquisition with transmission module 4 genuinely convinced in described
Business module 1 is screened and is analyzed to acquisition data by the server unit of the center service module 1, rejected a large amount of
Effective monitoring data 112 are transferred to the Database Unit 11 in the center service module 1 by invalid and useless data.
Further, the virtual reality module 2 includes data transceiving unit and display unit, the data transceiving unit
It is connect with 1 signal of center service module, the data transmitted for receiving the center service module 1;The display unit
For showing the real-time virtual state model;
Preferably, the virtual reality module 2 further includes instruction input unit, it is described for inputting the control instruction
Instruction input unit can be key-press input plate.Virtual reality module 2 and center service module 1 carry out information exchange, virtual existing
Real module 2 receives and shows the Visualization Model data from center service module 1, and administrative staff is made to pass through virtual reality module
2 can see real-time virtual state model relevant to real-time monitoring in building, and can be according to demand in instruction input list
Input control instructs in member, and the control instruction is sent to the center service module 1 by the data transceiving unit.This implementation
In example, the virtual reality module 2 is VR module.
Further, the center service module 1 further includes control unit, and the center service module 1 passes through the control
Unit processed sends control instruction to the control module 3, to control the operating status of each equipment in the building.Specifically,
Described control unit receives the control instruction of the transmission of the data transceiving unit in the virtual reality module 2, sends out after amendment
It send to the control module 3 and controls the operating status of each equipment in the building.
The center service module 1 is as by the control core of the intelligent building operation management system of BIM and VR technological incorporation
The heart realizes the control to control module 3 by interaction design for realizing interconnecting for information.
The center service module 1 receives the monitoring data of the control module 3, and the monitoring data includes environmental quality
The monitoring data 112 is merged into Database Unit 11 by the data such as data, equipment operating parameter, the center service module 1
In summarize;In addition the center service module 1 also receives the control instruction of the virtual reality module 2, sends after amendment
Into control module 3, for implementing to control to equipment each in the building;It can be realized by the center service module 1
Intercommunication and data transmission between modules, and data are interrelated between modules, modification any one module
Data, the data of other modules are also modified automatically.
The present invention also provides a kind of intelligent building operation management methods, comprising:
Intelligent building operation management system as described above is provided;
It manages module 3 and monitors a building to obtain monitoring data 112, and the monitoring data 112 is transmitted
To center
Service module 1;
The basic data 111 of the building and the monitoring data 112 are transferred to described by the center service module 1
Virtual reality module 2;
The virtual reality module 2 simulates the building according to the basic data 111 and the monitoring data 112
Real-time virtual state model;
The center service module 1 controls the operation of each equipment in the building according to the real-time virtual state model
State.
Further.The center service module 1 includes a Database Unit 11, is stored in the Database Unit 11
The basic data 111 of the building, after the center service module 1 receives monitoring data 112, it is described in it is genuinely convinced
Business module 1 stores the monitoring data 112 into Database Unit 11.
Specifically, it is described control module 3 by data acquisition with transmission module 4 acquisition bottom video monitor unit 31,
The monitoring data 112 of event-monitoring unit 32, electromechanical equipment unit 33, and the monitoring data 112 is transmitted to the center
Service module 1;It is carried out by the server unit pair of the center service module 1 monitoring data 112 relevant to building O&M
It analyzes, integrate, summarize, and effective monitoring data 112 are merged into Database Unit 11 and are stored, the monitoring data 112
After being merged with the basic data 111 of the buildings model pre-stored in Database Unit 11, formed true with three-dimensional
The corresponding visual model data of model of place is built, and is transferred to virtual reality module 2, the virtual reality module 2
The real-time virtual state model and express fact by fiction scape for simulating the building are shown.
Further, the center service module 1 further includes a control unit, and the virtual reality module 2 simulates institute
After the real-time virtual state model for stating building, the center service module 1 sends control instruction by described control unit
To the control module 3, to control the operating status of each equipment in the building.
It is integrated with environment that building may be implemented in the real-time virtual state model that the virtual reality module 2 simulates
Integrated emulation, can dimensional topography scene interact formula get a bird's eye view, flight any angle, electrodeless scaling, fast browsing etc..Pipe
Reason personnel are by virtual reality module 2 it can be seen that real-time virtual state model relevant to real-time monitoring in building, makes pipe
Reason personnel realize the functions such as mock survey, equipment control, operation management as on the spot in person in virtual vision module 2, and can
To send control instruction to center service module 1 according to demand to correct the control strategy built in it, and then control the control
Module 3 for the operating status and monitor state of each equipment in different event adjustment buildings, and records event overall process.
By the creation of center service module 1 and the various relevant informations of integral entity intelligent building, to entity intelligent building
The physical attribute and functional character of system are digitized, are visually converted, and are stored in Database Unit 11, and can be led to
The display of virtual reality module 2 is crossed, makes the concrete condition of administrative staff's correct understanding the intelligence building system, is provided for it more accurate
And valuable information, to take corresponding measure to control the relevant device in building.
To sum up, the present invention passes through center service module and virtual reality module for BIM threedimensional model and VR virtual reality skill
Art blends, can not only monitoring state in real time inspection building, provide technical support for optimization design, O&M scheme,
Traditional approach can also be broken through and realize that human-computer interaction, progress are visually dynamically checked and managed, it can be to existing not at the scene
Building situation grasp comprehensively and be managed and instruct, guarantee entire O&M process safely, go on smoothly.In addition, having
Multidate information is runed conducive to comprehensive grasp, finds emergency event in time, so as to quick response and disposition, substantially increases management
Efficiency ensure that operation security, in combination with control module, keeps operation management orderly feasible, reaches the operation of intelligent high-efficiency
Management.
The above is only a preferred embodiment of the present invention, does not play the role of any restrictions to the present invention.Belonging to any
Those skilled in the art, in the range of not departing from technical solution of the present invention, to the invention discloses technical solution and
Technology contents make the variation such as any type of equivalent replacement or modification, belong to the content without departing from technical solution of the present invention, still
Within belonging to the scope of protection of the present invention.
Claims (10)
1. a kind of intelligent building operation management system, which is characterized in that including center service module, virtual reality module and control
Module, the control module are set in a building to monitor the building and by monitoring data transmission to genuinely convinced in described
Business module, the center service module give the basic data of the building and the monitoring data transmission to the virtual reality
Module, so that the virtual reality module simulation goes out the real-time virtual state model of the building, the center service module
The operating status of each equipment in the building is controlled according to the real-time virtual state model.
2. intelligent building operation management system as described in claim 1, which is characterized in that the center service module includes number
According to library unit, the basic data of the building is stored in the Database Unit, and the Database Unit is also used to deposit
Store up the monitoring data.
3. intelligent building operation management system as claimed in claim 2, which is characterized in that the center service module further includes
Control unit, the center service module send control instruction to the control module, to control by described control unit
State the operating status of each equipment in building.
4. intelligent building operation management system as claimed in claim 3, which is characterized in that each equipment includes in the building
One of lift facility, security device, lighting apparatus, air-conditioning equipment, heating and ventilating equipment and monitoring device are a variety of.
5. intelligent building operation management system as described in claim 1, which is characterized in that the control module includes video prison
One of unit, event-monitoring unit, electromechanical equipment unit and communication unit or a variety of are controlled, the control module passes through a number
It is connect according to acquisition with transmission module with the center service module by signal.
6. intelligent building operation management system as claimed in claim 5, which is characterized in that if the video monitor unit includes
Dry video camera, to obtain the video information of the building in real time;The event-monitoring unit include luminous lamp switch monitor,
One of smoke alarm and Temperature Humidity Sensor are a variety of;The electromechanical equipment unit includes elevator, headlamp and air-conditioning
One of or it is a variety of;The communication unit includes the network protocol and several communication interfaces between each unit, to realize each list
Communication between member.
7. intelligent building operation management system as described in claim 1, which is characterized in that the virtual reality module includes number
According to Transmit-Receive Unit and display unit, the data transceiving unit is connect with the center service module by signal, described for receiving
The data of center service module transfer;The display unit is for showing the real-time virtual state model.
8. a kind of intelligent building operation management method characterized by comprising
Such as intelligent building operation management system of any of claims 1-7 is provided;
Control one building of module monitors is to obtain monitoring data, and by the monitoring data transmission to center service module;
The center service module gives the basic data of the building and the monitoring data transmission to the virtual reality mould
Block;
The virtual reality module simulates the real-time virtual of the building according to the basic data and the monitoring data
State model;
The center service module controls the operating status of each equipment in the building according to the real-time virtual state model.
9. intelligent building operation management method as claimed in claim 8, which is characterized in that the center service module includes one
Database Unit is stored with the basic data of the building in the Database Unit, when the center service module receives
To after the monitoring data, the center service module is by the supervising data storage into Database Unit.
10. intelligent building operation management method as claimed in claim 8, which is characterized in that the center service module is also wrapped
A control unit is included, the virtual reality module simulation goes out after the real-time virtual state model of the building, the center
Service module sends control instruction to the control module, to control each equipment in the building by described control unit
Operating status.
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CN111401581A (en) * | 2020-03-11 | 2020-07-10 | 中煤航测遥感集团有限公司 | Building operation and maintenance management method, system, equipment and storage medium |
WO2020211432A1 (en) * | 2019-04-15 | 2020-10-22 | 广东康云科技有限公司 | Three-dimensional real-scene intelligent monitoring method, system and apparatus for park |
CN113868102A (en) * | 2020-06-30 | 2021-12-31 | 伊姆西Ip控股有限责任公司 | Method, electronic device and computer program product for information display |
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Address after: 200072 room 293, Zone C, 2f, building 1, No. 32, Lane 951, KANGYE Road, Zhujiajiao Town, Qingpu District, Shanghai Applicant after: Veolia energy technology (Shanghai) Co.,Ltd. Address before: Jingan District Shanghai City, 200072 Canton Road No. 757 building, 10F multimedia Applicant before: SHANGHAI DAS LINKIN TECHNOLOGY & DEVELOPMENT Co.,Ltd. |
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Application publication date: 20190219 |
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