CN201796269U - Building electric equipment networking system - Google Patents

Building electric equipment networking system Download PDF

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Publication number
CN201796269U
CN201796269U CN2010201947966U CN201020194796U CN201796269U CN 201796269 U CN201796269 U CN 201796269U CN 2010201947966 U CN2010201947966 U CN 2010201947966U CN 201020194796 U CN201020194796 U CN 201020194796U CN 201796269 U CN201796269 U CN 201796269U
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equipment
building
room
radio
room controller
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CN2010201947966U
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张桂青
汪明
申斌
闫俏
张琳
王路
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山东建筑大学
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Abstract

The utility model relates to a building electric equipment networking system, which comprises at least one building. Each building is provided with at least one data management computer, each data management computer is connected with a data management center via the Ethernet, communicated with a mobile phone terminal through a wireless communication network and connected with a remote control terminal through a wide area network, each building is provided with a plurality of room units, at least one environment module, at least one room controller and at least one equipment wireless measurement and control module are disposed in each room unit, at least one building electric equipment is disposed in each room unit, the building electric equipment is connected with the corresponding equipment wireless measurement and control modules, the environment modules are integrated with a group of sensors and receive personnel RFID information, and the room controllers are mounted on an information socket, can be used immediately after being plugged, are connected with the environment modules and the equipment wireless measurement and control modules through a wireless sensor network, and simultaneously is further connected with the data management computers through the Ethernet.

Description

Internet-of-things system of building electric device

Technical field

The utility model relates to the internet-of-things system of building electric device of a kind of Industrial Ethernet and wireless sensor network and GPRS/GSM network, wide area network mixed structure.

Background technology

China is a country populous, that energy resources are poor relatively, annual nearly 1,300,000,000 square metres building total amount, half of approaching whole world building total amount, wherein building energy consumption has accounted for about 40% of whole society's total energy consumption, fell behind 13 years than developed country, the building energy consumption problem has become the bottleneck of Future in China sustainable economic development.The energy that various Architectural Equipment consumed in building energy consumption accounts for 80% of building energy consumption, therefore, reaches the importance that energy-saving run is a building energy conservation thereby how to take intellectualized technology effectively the buildings consumer to be controlled.

Along with the development of INTELLIGENT BUILDING TECHNIQUE, automated systems such as central air conditioner computer control, constant pressure water supply, intelligent lighting provide comfortable work and living environment for buildings, also provide effective means for the control of building electricity consumption device energy conservation.Yet building is place focusing on people, present The intelligence building system is to control according to the definite value of setting in advance, whether thereby the automatic adjustment equipment state is realized energy-conservation less than the existence according to the people, more do not consider the preference of environment to be realized personalized control according to different people, for example: equipment such as air-conditioning, illumination, water supply, heating are on the one hand having man-hour to need to open, thus nobody the time can close or revise setting value and reach further energy-conservation purpose.In the actual life, because people's awareness of saving energy does not provide corresponding technical measures also can't reach this point by force or not.Especially in public places such as office building, classrooms, no matter daytime still be night the pilot burner phenomenon still exist, after coming off duty, perhaps night, office building was empty especially, but the operation as usual of systems such as illumination at this moment, air-conditioning, water supply, heating installation.Therefore, if can utilize intelligent means that distribution situation and the behavioural habits of personnel in the buildings are detected, provide comfortable working environment, unmanned zone to control the consumer outage automatically or be in the low power consumpting state operation at the district system opertaing device that the people is arranged, will further promote the consumer energy saving space.

In view of the value volume and range of product of the consumer in the buildings more and more, traditional global optimization that Energy Saving Control is theoretical and method has been difficult to be competent at various device in the building at single equipment or triangular web, and technology of Internet of things makes all consumers be connected in the network, obtaining with sharing of mass datas such as equipment state and information and environmental parameter becomes possibility, for the global optimization Energy Saving Control of the huge various building electricity consumption equipment of diversity, quantity provides new approach.The Architectural Equipment Internet of Things complex networks that to be various building electricity consumption equipment form by technology of Internet of things, it is highly integrated communication, calculating, control and physical system are a complexity, dynamic, the system that people-oriented.In the Architectural Equipment Internet of Things, equipment is interconnected in the unified network by different medium (wired, wireless etc.) and form (fixing, move etc.), obtains information (receiving order, heat transfer agent, data etc.) and be network service (information is provided, carries out and calculate, realize device control etc.) from network.How to make up the Architectural Equipment Internet of Things effectively and make consumer move with lowest energy consumption, and simultaneously can for people provide safe, comfortable, fast, life or working environment easily, this will be a very significant research contents in the control of building electricity consumption device energy conservation.

Because Internet of Things is the new technology that occurred in recent years, present many exploratory stages that also are in of the research of relevant internet of things system structure design and application facet.People such as Kottenstette consider the security and the reliability requirement of Internet of Things, have proposed a kind of Internet of Things Theoretical Framework based on the passive adaptation notion; Also have the formalization architecture mode is used for complicated Internet of Things design and has set up a kind of framework of customer-centric at multiple agent Internet of things system at random; Karsai etc. have set up a completely parallel system from model driven method for Internet of Things, carry out the integrated calculating of model, realize mutual between Internet of Things and the model.The research work of these Internet of Things provides useful thinking for the architecture Design of Architectural Equipment Internet of Things.The Architectural Equipment Internet of Things not only has general feature of Internet of Things such as features such as complicacy, dynamic, reconstruct and re_configurability, and have its distinctive key character focusing on people, do not see as yet that about the research of Architectural Equipment Internet of Things relevant report is arranged both at home and abroad.Therefore, the architecture and the application thereof of research Architectural Equipment Internet of Things have certain challenge, have many theory and technology problems to need to solve.

The utility model content

The purpose of this utility model is exactly in order to address the above problem, and has proposed a kind of internet-of-things system of building electric device, and it is more flexible and changeable to the control mode of equipment, has overcome the classic method model by directly linking to each other with equipment and has been difficult to the accurately deficiency of foundation.

For achieving the above object, the utility model adopts following technical scheme:

A kind of internet-of-things system of building electric device, it comprises at least one building, each building is provided with at least one data management computing machine, the data management computing machine utilizes Ethernet to be connected with the control data corporation computing machine, the computing machine of data management is simultaneously also communicated by letter with mobile phone terminal by cordless communication network, is connected with remote control terminal by wide area network; Be provided with several room units in each building, in each room unit, be provided with at least one environment module, at least one room controller and at least one equipment wireless control module, be provided with at least one building electricity consumption equipment in room unit, each building electricity consumption equipment is connected with a corresponding equipment radio fest and control module; One group of sensor acquisition environmental information that environment module is integrated, and reception staff RFID information; Room controller is installed in and is instant inserted and instant using type on the telecommunications outlet, and room controller is connected with the equipment wireless control module with environment module by wireless sensor network, and room controller also is connected with the data management computing machine by Ethernet simultaneously.

Described building electricity consumption equipment comprises at least a in air-conditioning or central air conditioner, lighting, electric heater and the water pump.

Described equipment wireless control module is gathered the state and the parameter information thereof of corresponding building electricity consumption equipment, and send to room controller with wireless mode by radio-frequency (RF) transceiver, receive control command from room controller simultaneously and realize operation and control corresponding consumer; Each building electricity consumption equipment is controlled by switching signal, and corresponding with it radio fest and control module is provided with relay and control knob; Realization is to the switch control of building electricity consumption equipment automatically by send order to the equipment wireless control module for room controller, and control knob allows manual mode that building electricity consumption equipment is operated simultaneously, and manual operation priority is the highest; For the building electricity consumption equipment of Digital Signals, corresponding with it radio fest and control module realizes control to building electricity consumption equipment by analog telecommand device mode; The master controller of radio fest and control module is the MEGA64 chip.

Described environment module comprises environment module master controller, illuminance sensor, Temperature Humidity Sensor, pyroelectric infrared sensor, gas concentration lwevel sensor and radio-frequency (RF) transceiver; Environment module is gathered environment temperature, humidity, illuminance, infrared sensing information, gas concentration lwevel and personal information; Be linked in the wireless sensor network by the radio-frequency (RF) transceiver environment module and carry out two-way communication and reception staff's identity RFID information with room controller; The environment module master controller is the MEGA64 chip.

Described room controller is connected to wireless sensor network and environment module by radio-frequency (RF) transceiver, thereby knows the environmental information in each room; Room controller and equipment wireless control module carry out the state parameter information that two-way communication obtains building electricity consumption equipment; Room controller is by sending order to corresponding building electricity consumption device control to the equipment wireless control module simultaneously; Be connected with the data management computing machine by Ethernet; Room controller is MC9S12NE64 and MEGA64 chip.

Described wireless sensor network node adopts radio-frequency (RF) transceiver UM2455 radio transmitting and receiving chip as master controller; Equipment wireless control module, environment module and room controller all are connected in the wireless sensor network by radio-frequency (RF) transceiver.

Described data management computing machine connects each room controller by Ethernet, the environmental information of the room unit of room controller being uploaded with the form of database and the status information of building electricity consumption equipment are carried out unified management, send the device control order to room controller according to the global optimization result; The computing machine of data management simultaneously provides the subscriber equipment administration interface of Browser/Server framework, allow the authorized user telnet, utilize wide area network or mobile phone terminal to check room environment parameter, building electricity consumption equipment state and parameter, control building electricity consumption equipment start-stop, and equipment failure is diagnosed.

Described cordless communication network is GPRS network or cdma network or 3G network.

Internet-of-things system of building electric device in the utility model is made of Industrial Ethernet and wireless sensor network and GPRS/GSM network, wide area network.

The utility model mainly utilizes following technology:

1, network communication of wireless sensor

In internet-of-things system of building electric device, room controller and environment module carry out two-way communication by wireless sensor network, also are to communicate by wireless sensor network between the radio fest and control module of room controller and equipment.Wireless sensor network build the effect of the structure of whole internet-of-things system of building electric device being played the sufficient weight that covers.When room controller and environment module or room controller and equipment wireless control module communicate, transmit leg can send a frame information in wireless sensor network, it is respectively physics frame head, network frame head and data payload that this frame information includes 3 fields.Receive that in this wireless sensor network the node of this frame information can resolve the network frame head, obtain source address and destination address.Wireless communication networks is a tree-shaped network, whether according to present node is that telegon judges it is up or down to transmit data along tree, if up, then the routing node from each layer begins to judge that whether destination node is at this layer, if do not exist, then be forwarded to last layer up to top layer; Down, also be to judge whether this node or at this layer or at following one deck, up to depth capacity, through transmission from level to level, information finally arrives destination address from each routing node successively.When room controller and environment module or room controller and equipment wireless control module communicate, form according to the transmit leg of information and take over party's different pieces of information load is also inequality, and concrete data payload frame format is as shown in appendix communication protocol.

After the startup of the room controller in the room unit and some parameters of initialization (working channel, network ID, neighbor table or the like), environment module and equipment wireless control module start thereupon automatically, and seek the network node that can add to room controller.The environment module and the equipment wireless control module that need to add network are at first registered to room controller, and this behavior can be realized by following program:

1. send to need add the request broadcast frame of network, the room controller of Cun Zaiing also will be responded this broadcast frame on every side, and the frame of response still is a broadcast frame, and the information that the inside comprises is the environment module that is requested to add or the short address of equipment wireless detection module.Environment module or equipment wireless detection module that request adds will be monitored these broadcast frames within a certain period of time, select the best node of one of them signal intensity to add.

2. in case determined to need to add which node, this environment module or equipment wireless control module are obtained the short address that will add from broadcast frame, distribute the address to the node request that has this address, what send simultaneously also has oneself ID number, uses for address registration.

3. be requested the environment module or the equipment wireless control module that add, generate a short address by specific method and register to room controller.The allocation scheme of the similar IP of the generating mode of this address address, different section (IP address XX:XX:XX:XX by the IP address, four sections, four layers of similar tree network), can allow adding equipment know under which node of subordinate, and know also how the short address this distribute if other environment module or equipment wireless control module application adding oneself are arranged.

By wireless sensor network, carry out two-way communication between environment module and equipment wireless control module and the room controller.Wherein environment module is uploaded to room controller and includes environmental parameter (containing personal information), and the equipment wireless control module is uploaded the state parameter of corresponding equipment to room controller.Room controller can send the control of the control command realization of corresponding device to equipment to the equipment wireless control module by wireless sensor network.

2, ethernet technology

Utilize C# exploitation web application, by setting up the management system of B/S framework, the browser interface that makes authorized user to provide by login system is anywhere checked building environmental parameter, equipment running status, the switch of all right Long-distance Control relevant device.Carry out the exploitation of Socket network program by Visual C#, make each room controller in data management computing machine and the equipment Internet of things system connect, and carry out the exchange of data, environmental parameter, the equipment running status in the real-time whole building of demonstration by transmission control protocol TCP.The information that the data management computing machine is also uploaded each room controller simultaneously is saved in the special database and to database comprising the state parameter information of the building electricity consumption equipment in environmental parameter that each room unit is arranged (containing personal information) and the room carries out maintenance and management.Authorized user lands data management system, sends the Long-distance Control of realization to Architectural Equipment of issuing an order by supervisory computer to each room controller.

3, GPRS/GSM network technology

The start-stop that utilizes the GSPS/GSM network to allow the user to come remote control equipment by the mode of sending short messages with mobile phone.We link to each other by serial ports the data management computing machine with Siemens gsm module TC35, use the AT of standard to order the radio communication function of controlling gsm module realization supervisory computer and user mobile phone.

The beneficial effects of the utility model are: the equipment Internet of things system that the utility model makes up has mixed Industrial Ethernet and wireless sensor network and GPRS/GSM network, wide area network to make more flexible and changeable to the control mode of equipment, overcome the classic method model by directly linking to each other and be difficult to the accurately deficiency of foundation, for building electricity consumption device intelligence chemical control system provides new thinking with equipment.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is the environment module structural drawing;

Fig. 3 is the room controller structural drawing;

Fig. 4 is an equipment wireless control module structural drawing;

Fig. 5 is the radio-frequency (RF) transceiver circuit;

Fig. 6 is consumer switch control principle figure.

Wherein, 1. environment module master controller, 2. illuminance sensor, 3. Temperature Humidity Sensor, 4. pyroelectric infrared sensor, 5. gas concentration lwevel sensor, 6. other types sensor, 7. radio-frequency (RF) transceiver, 8. room controller, 9. equipment wireless control module, 10. personnel identity identification card, 11. building electricity consumption equipment, 12. Ethernet interface, 13. building, 14. data management computing machines, 15. control data corporation computing machines, 16. wide area network, 17. remote control terminal, 18. cordless communication networks, the input of 19. mobile phone terminals, 20. switching values, 21. digital quantity input, 22. switching value output, the output of 23. digital quantities, the output of 24. analog quantitys.

Embodiment

Below in conjunction with drawings and Examples the utility model is described further.

Among Fig. 1, internet-of-things system of building electric device comprises several buildings 13, each is built and is provided with a data management computing machine 14 in 13, data management computing machine 14 is connected with control data corporation computing machine 15 by Industrial Ethernet, and 15 in control data corporation computing machine passes through wide area network 16 and is connected with remote control terminal 17; Each data management computing machine 14 also is connected with mobile phone terminal 19 by cordless communication network 18 simultaneously; Each room subelement is provided with room controller 8, and room controller 8 is connected to wireless sensor network and environment module and equipment wireless control module 9 by radio-frequency (RF) transceiver 7 and carries out two-way communication; Room controller 8 is by communicating environmental information, the personal information that can know each room with environment module, by communicating the information such as state parameter of knowing building electricity consumption equipment 11 with equipment wireless control module 9, room controller 8 is by sending the control of order realization to corresponding building electricity consumption equipment 11 to equipment wireless control module 9 simultaneously.Room controller 8 is connected with data management computing machine 14 by Ethernet, room controller 8 give state that data management computing machine 14 uploads room environment information, personnel identity information, building electricity consumption equipment 11 and during to the information of same such as corresponding operating of building electricity consumption equipment 11 room controller 8 receive and carry out issuing an order of data supervisory computer 14.

Described building electricity consumption equipment 11 comprises at least a in air-conditioning, central air conditioner, lighting device, the pumping plant, and they carry out two-way communication by corresponding equipment radio fest and control module 9 with it through wireless sensor network and room controller 8.State and parameter information thereof that equipment wireless control module 9 is gathered building electricity consumption equipment 11 send to room controller 8 by radio-frequency (RF) transceiver 7 with wireless mode, receive control command from room controller 8 simultaneously and realize operation and control to corresponding building electricity consumption equipment 11.Building electricity consumption equipment 11 for by switching signal control is added with solid-state relay and control knob on the corresponding with it equipment wireless control module 9; By give equipment wireless control module 9 send order realize automatically to equipment open and close operation simultaneously control knob allow the people manually equipment to be operated and manual operation preferential.For the building electricity consumption equipment 11 of Digital Signals, the function of corresponding with it equipment wireless control module 9 by the analog telecommand device realizes the control to equipment;

Described environment module comprises environment module master controller 1, integrated illuminance sensor 2, Temperature Humidity Sensor 3, pyroelectric infrared sensor 4, gas concentration lwevel sensor 5 and radio-frequency (RF) transceiver 7 on it are to gather environment temperature, humidity, illuminance, infrared sensing information, gas concentration lwevel.Be linked in the wireless sensor network and can reception staff's identity RFID information by radio-frequency (RF) transceiver 7 environment modules 1; The sensor 6 that needs all right integrated other types of environment module for expansion later on.The environment module master controller is the MEGA64 chip; Radio-frequency (RF) transceiver is the UM2455 radio transmitting and receiving chip.

Described room controller 8 also is provided with radio-frequency (RF) transceiver 7 and is connected with wireless sensor network, and radio-frequency (RF) transceiver 7 is the UM2455 radio transmitting and receiving chip; Carry out two-way communication by wireless sensor network room controller 8 and environment module 1 and equipment wireless control module 9; Room controller 8 is connected with Ethernet by Ethernet interface; State and parameter information thereof that equipment wireless control module 9 is gathered consumers send to room controller 8 with wireless mode, receive control command from room controller 8 simultaneously and realize operation and control to corresponding building electricity consumption equipment 11; Room controller 8 is MC9S13NE64 and MEGA64 chip.

Described data management computing machine 14 connects each room controller 8 by Ethernet, form with database is carried out unified management to data, sends the device control order according to the global optimization result and finishes control to corresponding building electricity consumption equipment 11 to room controller 8 by equipment wireless control module 9; Simultaneously data management computing machine 14 provides the subscriber equipment administration interface of Browser/Server framework, allow authorized user long-range through the internet or mobile phone check room environment parameter, equipment state and parameter, opertaing device start and stop.

Among Fig. 2, environment module comprises the other types sensor 6 and the radio-frequency (RF) transceiver 7 of integrated illuminance sensor 2 on the environment module master controller 1, Temperature Humidity Sensor 3, pyroelectric infrared sensor 4, gas concentration lwevel sensor 5 and expansion as required; Main environment temperature, humidity, illuminance, infrared sensing information, gas concentration lwevel, the personnel identity information RFID of gathering can also further expand as required; Wherein the collection to information such as humiture, illuminance mainly is the environment that comes the perception room by integrated sensor, and mainly is transceiver by radio communication for the collection of personnel's situation information---radio-frequency (RF) transceiver is used for reception staff's identity information RFID.

Environment module master controller 1 is the MEGA64 chip, comprises 8 road A/D input, common I/O interface, and SPI, TWI etc. have covered the common various kinds of sensors interface in market basically.The utility model has used unibus Temperature Humidity Sensor (DHT21, Ao Song company product), and this sensor takies an I/O mouth; Infrared sensor, an I/O mouth; Photoresistance takies one road A/D.Except a shared SPI mouth of UM2455, vacant other pins of MEGA64 are all external, can use an environment module to finish the measurement of various environmental parameters like this.

Among Fig. 3, it is connected room controller 8 with wireless sensor network by radio-frequency (RF) transceiver 7; Can carry out two-way communication with environment module and equipment wireless control module by the wireless sensor network room controller; Be connected with Ethernet by Ethernet interface 12; The state and the parameter information thereof of equipment wireless control module 9 collecting devices send to room controller 8 with wireless mode, receive simultaneously from the control command of room controller 8 and realize operation and control to corresponding building electricity consumption equipment 11.

Among Fig. 4, equipment wireless control module 9 is connected to wireless sensor network by radio-frequency (RF) transceiver 7 and realizes and the two-way communication of room controller 8, uploads the state parameter information of corresponding building electricity consumption equipment 11 and receives control and the operational order for building electricity consumption equipment 11 that room controller 8 is assigned to room controller 8 by wireless sensor network equipment radio fest and control module 9.Switching value input 20, digital quantity input 21, switching value output 22, digital quantity output 23 and analog quantity output 24 are arranged on the equipment wireless control module.Equipment wireless control module 9 is selected different switching value output 22 or digital quantity output 23 or the analog quantity output 24 realizations automatic control to building electricity consumption equipment 11 according to the control types of building electricity consumption equipment 11.The master controller of equipment wireless control module 9 is the MEGA64 chip; Radio-frequency (RF) transceiver 7 is the UM2455 radio transmitting and receiving chip.

Among Fig. 5, radio-frequency (RF) transceiver 7 is the UM2455 radio transmitting and receiving chip.The UM2455 chip operation is in the free frequency range of (2.4-2.48Ghz) ISM, has 18 spread spectrum communication channels, and transfer rate is 625KBPS, has the CSMA-CCA function, adopt the direct sequence spread spectrum communication, and interference resistance is strong.This chip is connected with CPU by the SPI interface, takies less CPU pin.Operating voltage is that 2.4~3.6V can adopt powered battery, transmitter current 13mA, received current 23mA.Coverage can be from tens meters to hundreds of rice.When being in dormant state, power consumption is also very little.Its dormant state power consumption is 1 μ W only.

Among Fig. 6, comprise that with the corresponding equipment wireless control module 9 of switching value opertaing device the MEGA64 master controller is added with solid-state relay and button, master controller MEGA64 leaves with zero passage by the zero passage of PE5 port controlling solid-state relay and close to realize equipment opened and close control; Confirm the on off state of equipment by the high-low level of retaking of a year or grade PE5 mouth, then judge the state PE5 low level that this equipment is in out when the PE5 high level and judge the state that is in the pass; Have simultaneously button to allow the people manually equipment to be opened and closed operation on the equipment wireless control module and read pulse signal by PE4, each button is pressed and just makes the equipment state upset once, and realization equipment closes or by closing out by reaching.

With the lamp in room of supervisory computer Long-distance Control is example, and the concrete steps that Architectural Equipment Internet of things system function realizes are described:

1) is all room controller distributing IP addresses; Each room controller all has the IP address of oneself, by the two-way communication of ethernet management computer realization and room controller;

2) in room unit, each building electricity consumption equipment all has corresponding equipment radio fest and control module with it; Realize the automatic/hand of lamp is operated with adding relay and control knob on the corresponding radio fest and control module of lamp apparatus, and manual operation is preferential; The radio fest and control module is followed Fig. 6 to the automatic/hand control principle of lamp.

3) room controller and equipment wireless control module carry out two-way communication by wireless sensor network; The equipment wireless control module is registered to the room controller of room, place subelement, succeed in registration back equipment wireless module by the information such as state parameter of wireless sensor network to the room controller uploading device, and room controller sends control command to relevant device by wireless sensor network to the equipment wireless control module; Equipment is carried out operated from a distance with the supervisory computer of room controller permission simultaneously and supervisory computer operational order priority is the highest;

4) supervisory computer finds the room controller of room, lamp apparatus place subelement, follows supervisory computer and room controller communication protocol down order frame format to the control command of room controller transmission to this lamp apparatus;

5) room controller receives the control command of supervisory computer, follow room controller and give the radio fest and control module transmitting control commands corresponding, finally by the switching manipulation of radio fest and control module realization lamp with lamp apparatus with equipment wireless control module communication protocol down order frame format.

Can adopt process same as described above to carry out for the control of other kinds equipment.

Claims (7)

1. internet-of-things system of building electric device, it is characterized in that, it comprises at least one building, each building is provided with at least one data management computing machine, the data management computing machine utilizes Ethernet to be connected with the control data corporation computing machine, the computing machine of data management is simultaneously also communicated by letter with mobile phone terminal by cordless communication network, is connected with remote control terminal by wide area network; Be provided with several room units in each building, in each room unit, be provided with at least one environment module, at least one room controller and at least one equipment wireless control module, be provided with at least one building electricity consumption equipment in room unit, each building electricity consumption equipment is connected with a corresponding equipment radio fest and control module; Environment module is integrated one group of sensor acquisition environmental information and reception staff's information in radio frequency; Room controller is installed in and is instant inserted and instant using type on the telecommunications outlet, and room controller is connected with the equipment wireless control module with environment module by wireless sensor network, and room controller also is connected with the data management computing machine by Ethernet simultaneously.
2. internet-of-things system of building electric device as claimed in claim 1 is characterized in that, described building electricity consumption equipment comprises at least a in air-conditioning or central air conditioner, lighting, electric heater and the water pump.
3. internet-of-things system of building electric device as claimed in claim 1 or 2, it is characterized in that, described equipment wireless control module is gathered the state and the parameter information thereof of corresponding building electricity consumption equipment, and send to room controller with wireless mode by radio-frequency (RF) transceiver, receive control command from room controller simultaneously and realize operation and control corresponding consumer; Each building electricity consumption equipment is controlled by switching signal, and corresponding with it radio fest and control module is provided with relay and control knob; Realization is to the switch control of building electricity consumption equipment automatically by send order to the equipment wireless control module for room controller, and control knob allows manual mode that building electricity consumption equipment is operated simultaneously, and manual operation priority is the highest; For the building electricity consumption equipment of Digital Signals, corresponding with it radio fest and control module realizes control to building electricity consumption equipment by analog telecommand device mode; The master controller of radio fest and control module is the MEGA64 chip.
4. internet-of-things system of building electric device as claimed in claim 1, it is characterized in that described environment module comprises environment module master controller, illuminance sensor, Temperature Humidity Sensor, pyroelectric infrared sensor, gas concentration lwevel sensor and radio-frequency (RF) transceiver; Environment module is gathered environment temperature, humidity, illuminance, infrared sensing information, gas concentration lwevel and personal information; Be linked in the wireless sensor network by the radio-frequency (RF) transceiver environment module and carry out two-way communication and reception staff's identity information in radio frequency with room controller; The environment module master controller is the MEGA64 chip.
5. internet-of-things system of building electric device as claimed in claim 1 is characterized in that described room controller is connected to wireless sensor network and environment module by radio-frequency (RF) transceiver, thereby knows the environmental information in each room; Room controller and equipment wireless control module carry out the state parameter information that two-way communication obtains building electricity consumption equipment; Room controller is by sending order to corresponding building electricity consumption device control to the equipment wireless control module simultaneously; Be connected with the data management computing machine by Ethernet; Room controller is MC9S12NE64 and MEGA64 chip.
6. as claim 1 or 3 or 4 or 5 described internet-of-things system of building electric device, it is characterized in that described wireless sensor network node adopts radio-frequency (RF) transceiver UM2455 radio transmitting and receiving chip as master controller; Equipment wireless control module, environment module and room controller all are connected in the wireless sensor network by radio-frequency (RF) transceiver.
7. internet-of-things system of building electric device as claimed in claim 1 is characterized in that, described cordless communication network is GPRS network or cdma network or 3G network.
CN2010201947966U 2010-05-19 2010-05-19 Building electric equipment networking system CN201796269U (en)

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Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101854281A (en) * 2010-05-19 2010-10-06 山东建筑大学 Internet-of-things system of building electric device
CN102183891A (en) * 2011-04-27 2011-09-14 杜明芳 Urban traffic building energy conservation control method based on internet of things
CN102354206A (en) * 2011-07-25 2012-02-15 山东建筑大学 System and method for diagnosing air conditioner failure based on data fusion in internet-of-things environment
CN102354167A (en) * 2011-06-13 2012-02-15 陈飞 Building equipment analog control system
CN102355498A (en) * 2011-09-30 2012-02-15 山东大学 Information access system for a plurality of wireless sensor networks and access method
CN102395218A (en) * 2011-10-13 2012-03-28 无锡爱房信科技发展有限公司 Universal wireless sensing network intelligent control system and implementation method thereof
CN102411345A (en) * 2011-06-28 2012-04-11 于佳辉 Building Internet of things system and Internet of things method for buildings
CN102999018A (en) * 2011-09-08 2013-03-27 中华电信股份有限公司 Automated building monitoring system
CN105006120A (en) * 2015-06-24 2015-10-28 中南林业科技大学 Internet-of-Things system for electric appliances of building
CN105068438A (en) * 2015-08-06 2015-11-18 国网山东省电力公司 Large-scale office building intelligent electricity utilization electrical appliance control system and method
CN105182922A (en) * 2015-08-06 2015-12-23 山东建筑大学 Electrical information collection and energy-saving control system and method for office building
CN105989702A (en) * 2015-02-05 2016-10-05 南京锐达金电子科技有限公司 Wireless air environment monitoring device and system thereof in mobile internet
CN107390608A (en) * 2017-07-27 2017-11-24 北京机械设备研究所 Internet of Things single-phase electric devices management terminal and method based on power line carrier, PLC

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CN101854281B (en) * 2010-05-19 2012-01-18 山东建筑大学 Internet-of-things system of building electric device
CN101854281A (en) * 2010-05-19 2010-10-06 山东建筑大学 Internet-of-things system of building electric device
CN102183891A (en) * 2011-04-27 2011-09-14 杜明芳 Urban traffic building energy conservation control method based on internet of things
CN102354167A (en) * 2011-06-13 2012-02-15 陈飞 Building equipment analog control system
CN102354167B (en) * 2011-06-13 2013-07-24 陈飞 Building equipment analog control system
CN102411345B (en) * 2011-06-28 2016-08-31 于佳辉 A kind of for architectural Internet of Things method
CN102411345A (en) * 2011-06-28 2012-04-11 于佳辉 Building Internet of things system and Internet of things method for buildings
CN102354206B (en) * 2011-07-25 2013-01-02 山东建筑大学 System and method for diagnosing air conditioner failure based on data fusion in internet-of-things environment
CN102354206A (en) * 2011-07-25 2012-02-15 山东建筑大学 System and method for diagnosing air conditioner failure based on data fusion in internet-of-things environment
CN102999018A (en) * 2011-09-08 2013-03-27 中华电信股份有限公司 Automated building monitoring system
CN102355498A (en) * 2011-09-30 2012-02-15 山东大学 Information access system for a plurality of wireless sensor networks and access method
CN102395218A (en) * 2011-10-13 2012-03-28 无锡爱房信科技发展有限公司 Universal wireless sensing network intelligent control system and implementation method thereof
CN102395218B (en) * 2011-10-13 2014-07-16 无锡爱房信科技发展有限公司 Universal wireless sensing network intelligent control system and implementation method thereof
CN105989702A (en) * 2015-02-05 2016-10-05 南京锐达金电子科技有限公司 Wireless air environment monitoring device and system thereof in mobile internet
CN105006120A (en) * 2015-06-24 2015-10-28 中南林业科技大学 Internet-of-Things system for electric appliances of building
CN105068438A (en) * 2015-08-06 2015-11-18 国网山东省电力公司 Large-scale office building intelligent electricity utilization electrical appliance control system and method
CN105182922A (en) * 2015-08-06 2015-12-23 山东建筑大学 Electrical information collection and energy-saving control system and method for office building
CN105068438B (en) * 2015-08-06 2018-09-28 国网山东省电力公司 Larger office building intelligent electrical appliance control system and method
CN105182922B (en) * 2015-08-06 2017-12-22 山东建筑大学 Office buildings power information gathers and energy-saving control system and method
CN107390608A (en) * 2017-07-27 2017-11-24 北京机械设备研究所 Internet of Things single-phase electric devices management terminal and method based on power line carrier, PLC
CN107390608B (en) * 2017-07-27 2019-05-14 北京机械设备研究所 Internet of Things single-phase electric devices management terminal and method based on power line carrier, PLC

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