CN205942416U - Energy -conserving management system of building environment - Google Patents

Abstract

The utility model discloses an energy -conserving management system of building environment, including energy -saving monitoring module and energy -saving monitoring center, energy -saving monitoring center and energy -saving monitoring module communication connection, the energy -saving monitoring module is connected with relay module, floor distribution module, electrical control cabinet and indoor or outdoor environment monitoring module, and the energy -saving monitoring module is classified after giving the energy -saving monitoring center with the information transmission who gathers, assay, demonstration to to be correlated with to instruct to pass on according to actual operation demand and give the energy -saving monitoring module, the energy -saving monitoring module passes on the switching value for electrical control cabinet and floor distribution module. The utility model discloses a to the functions such as real -time data acquisition and processing, show and analysis, control and self -adaptation administration of energy conservation of building environment and equipment energy consumption data, through quantitative some equipment of control of timesharing stop open, the optimization that obtains building environment parameter and energy resource consumption is weighed, can satisfy energy -conserving index and can accomplish again that real energy -conservation subtracts bad news.

Description

A kind of architectural environment energy-saving management system

Technical field

This utility model belongs to energy saving building field, and more specifically, this utility model is related to a kind of architectural environment energy-conservation Management system.

Background technology

Building is the big power consumer of China, and constructing operation energy consumption accounts for the 20% of national total energy consumption, including operation energy consumption, builds Build material energy consumption and indirect energy consumption and account for the 45.5% of national total energy consumption in interior broad sense building energy consumption, therefore building energy conservation Energy-saving and emission-reduction work for China has vital meaning, building energy conservation be listed in national ten big energy conservation projects it One.Wherein government offices' office building and large public building year power consumption account for the 22% of national cities and towns total power consumption, often put down Fang meter Nian power consumption is 10～20 times of ordinarily resident's house.For energy waste phenomenon, country has put into effect relevant policies file, The Ministry of Construction's in April, 2008 formulates《Government offices' office building and large public building energy-consumption monitoring system are built, are checked and accepted and fortune Row management regulation》And the fire protection technology of correlation, the Ministry of Construction formulates within 2009 2 months《Government offices' office building and large-scale public Building energy consumption monitoring system software develops teachings book》, it is intended to requirement and enable to building energy consumption reduction.

But existing some building in order to cater to national preferential policy and to itself stamp energy-conservation, green label, blind By numerous new architectural energy saving techniques " piling up " together, can only the so-called " Energy-saving Building of high cost, high energy consumption in result on mesh ground Build ", not only a large amount of waste of materials, financial resources, and substantial amounts of energy consumption can be produced in actual use, first with energy-saving consumption-reducing Inner feelings runs in the opposite direction.

Utility model content

The utility model discloses a kind of architectural environment energy-saving management system, this system can be to building substance environment and equipment The real time data of energy consumption is acquired and processes, shows and analysis, control and adaptive power conservation management, accomplishes that real energy-conservation subtracts Consumption.

This utility model be employed technical scheme comprise that：

A kind of architectural environment energy-saving management system：

Including energy-saving monitoring module and energy-saving monitoring center, described energy-saving monitoring center and energy-saving monitoring module communication link Connect, in described energy-saving monitoring, be provided with message processing module in the heart；

Described energy-saving monitoring module is connected with trunk module, floor Power entry module, electrical control cabinet and indoor and outdoor surroundingses prison Survey module, described indoor and outdoor surroundingses monitoring modular comprises house data collecting unit and outdoor weather station, and described house data is adopted Collection unit carries out data acquisition to the indoor environment factor such as indoor temperature, humidity, air quality, and by corresponding data transfer To described trunk module, using wirelessly or non-wirelessly communicating to connect between described house data collecting unit and described trunk module, Described outdoor weather station to Factory Building, building outside meteorologic parameter be acquired, and corresponding data is transferred to described relaying mould Block, using wirelessly or non-wirelessly communicating to connect between described outdoor weather station and described trunk module；

Described trunk module is provided with communication unit, transfer processing unit, indicating member, and described communication unit enters to signal Row receives and sends, and described transfer processing unit carries out to the signal that described communication unit receives processing, analyze, calculate and dividing Class；

Return containing floor distribution master switch, socket major loop, illumination major loop, air-conditioning master in described floor Power entry module Road, described floor Power entry module and described energy-saving monitoring module communication connection；

Described electrical control cabinet is connected with exhaust fan, blower fan, air curtain and heat-exchange unit.

Further, described energy-saving monitoring center and described energy-saving monitoring module pass through RS485 interface or tcp/ip communication Connect.

Further, using wirelessly or non-wirelessly communicating to connect between described outdoor weather station and described energy-saving monitoring module.

Further, it is provided with main frame and display in the heart in described energy-saving monitoring.

Further, display lamp, buzzer and warner are contained in described indicating member.

Further, public network or local area network communication are adopted between described floor Power entry module and described energy-saving monitoring module Connect, described floor Power entry module and described trunk module use cooperatively.

After technique scheme, this utility model achieves to building substance environment and the adopting in real time of equipment energy consumption data Collection with process, show with analysis, control and the functions such as adaptive power conservation management, by stopping of the quantitative some equipment of control of timesharing Open, to obtain the optimization balance of architectural environment parameter and energy resource consumption, the system can accomplish real building energy conservation, rather than With simply piling up of how many power-saving technologies, energy-saving index can be met and can accomplish real energy-saving consumption-reducing again.

Brief description

Fig. 1 is a kind of schematic diagram of this utility model architectural environment energy-saving management system；

Fig. 2 is the schematic diagram of this utility model trunk module 4；

Fig. 3 is the schematic diagram of this utility model floor Power entry module 5；

Fig. 4 is the schematic diagram of this utility model indoor and outdoor surroundingses monitoring modular；

In figure：

1st, energy-saving monitoring center 11, message processing module 2, energy-saving monitoring module 3, electrical control cabinet 4, trunk module 41st, communication unit 42, transfer processing unit 43, indicating member 431, display lamp 432, buzzer 433, warner 5, building Layer Power entry module 51, floor distribution master switch 52, socket major loop 53, illumination major loop 54, air-conditioning major loop 55, join Pyroelectric monitor module 6, indoor and outdoor surroundingses monitoring modular 61, house data collecting unit 62, outdoor weather station 7, exhaust fan 8, Blower fan 9, air curtain 10, heat-exchange unit.

Specific embodiment

Purpose, technical scheme and advantage for making this utility model embodiment are clearer, new below in conjunction with this practicality Accompanying drawing in type embodiment, is clearly and completely described to the technical scheme in this utility model embodiment.Following examples It is only used for clearly the technical solution of the utility model being described, and protection model of the present utility model can not be limited with this Enclose.

As Figure 1-4, a kind of architectural environment energy-saving management system, including energy-saving monitoring module 2 and energy-saving monitoring center 1, energy-saving monitoring center 1 and energy-saving monitoring module 2 pass through RS485 interface or tcp/ip communication connects, and energy-saving monitoring center 1 sets There are main frame and display, in described energy-saving monitoring center 1, be provided with message processing module 11；Energy-saving monitoring module 2 is connected with relaying Module 4, floor Power entry module 5, electrical control cabinet 3 and indoor and outdoor surroundingses monitoring modular 6, indoor and outdoor surroundingses monitoring modular 6 comprises House data collecting unit 61 and outdoor weather station 62, house data collecting unit 61 is to indoor temperature, humidity, air quality Carry out data acquisition etc. indoor environment factor, and corresponding data be transferred to trunk module 4, house data collecting unit 61 with Using wirelessly or non-wirelessly communicating to connect between trunk module 4, outdoor weather station 62 to Factory Building, building outside meteorologic parameter adopt Collection, and corresponding data is transferred to trunk module 4, using wirelessly or non-wirelessly leading between outdoor weather station 62 and trunk module 4 Letter connects；

Trunk module 4 schematic diagram as shown in Figure 2, trunk module 4 be provided with communication unit 41, transfer processing unit 42, Indicating member 43, communication unit 41 is received and transmitted to signal, in the very first time, signal results can be communicated, carry High SRT；Transfer processing unit 42 carries out to the signal that communication unit 41 receives processing, analyze, calculate and dividing Class, the meteorologic parameter outside the Factory Building of the indoor environment factor data such as the temperature of interior, humidity, air quality and outdoor, building Message processing module 11 through being transferred to by communication unit 41 in energy-saving monitoring center 1 after being processed by transfer processing unit 42, letter Breath processing module 11 is being modeled to those sensing datas, after intellectual analysis, provide the energy-saving scheme of optimization and pass instruction It is defeated by energy-saving monitoring module 2, trunk module 4, dependent instruction is carried out transfer process by the transfer processing unit 42 in trunk module 4 And convey to other relevant devices via communication unit 42；In each floor that trunk module 4 may be mounted in building or every In individual department, contain display lamp 431, buzzer 432 and warner 433 in indicating member 43, to each floor or each portion Door can become blinking red lamp, honeybee by display lamp 431 if there is if fault during carrying out architectural environment administration of energy conservation Ring device 432 buzzing or warner 433 current floor, current department are carried out alert, point out so that current floor, current department User can obtain warning message in time, conveniently evacuated or fault exclusion, increased safety in building and can By property, improve the use functional requirement of user.

Floor distribution master switch 51, socket major loop 52, illumination major loop 53, air-conditioning master is contained in floor Power entry module 5 Loop 54 and special major loop, floor Power entry module 5 is communicated to connect with energy-saving monitoring module 2, and floor Power entry module 5 is supervised with energy-conservation Connected using public network or local area network communication between control module 2, floor Power entry module 5 is used cooperatively with trunk module 4, to each The major loops such as the master switch in floor, socket, illumination, air-conditioning are managed collectively, and each floor is according to indoor in each floor Temperature, the Factory Building of humidity, the indoor environment factor data such as air quality and outdoor, the meteorologic parameter outside building carry out individually Management, is drawn the energy saving optimizing scheme of each floor, each department by energy-saving monitoring center, then gives in floor Power entry module 5 Floor distribution master switch 51, socket major loop 52, illumination major loop 53, the major loop such as air-conditioning major loop 54 be equipped with electricity accordingly Can, it is additionally provided with monitoring power distribution module 55 in floor Power entry module 5, monitoring power distribution module 55 can be in floor Power entry module 5 The major loops such as floor distribution master switch 51, socket major loop 52, illumination major loop 53, air-conditioning major loop 54 carry out operational monitoring, Its power consumption can be monitored it is possible to related Monitoring Data is transferred to energy-saving monitoring center 1, energy-saving monitoring center again 1 pair of its running status shows, carries out classification analysises to its power consumption, and can set up power consumption model, conveniently to architectural energy consumption The analysis of data, management and inquiry.

Electrical control cabinet 3 is connected with exhaust fan 7, blower fan 8, air curtain 9 and heat-exchange unit 10, and electrical control cabinet 3 is according to section The switching value instruction of energy monitoring module 2 is controlled to described exhaust fan 7, blower fan 8, described air curtain 9 and heat-exchange unit 10, section Outside the Factory Building of the energy monitoring module indoor environment factor data such as 2 indoor temperature, humidity, air qualities and outdoor, building Meteorologic parameter collection be transferred to energy-saving monitoring center 1, energy-saving monitoring center 1 is assigned energy-conservation and is instructed to energy-saving monitoring module 2, saves Energy 2 instructions of monitoring module convey to electrical control cabinet 3 and floor Power entry module 5 after being converted to switching value, and electrical control cabinet 3 is right Exhaust fan 7, the operation of blower fan 8, air curtain 9 and heat-exchange unit 10 carry out precise control.

In this utility model, energy-saving monitoring module 2 can set in building energy consumption data, architectural environment parameter, building The data such as received shipment line parameter are acquired, the information transfer of collection to carrying out behind energy-saving monitoring center 1 classifying, analyze, show, and Dependent instruction is conveyed to by energy-saving monitoring module 2 according to actual operation demand, switching value is conveyed to electrically by energy-saving monitoring module 2 Switch board 3, electrical control cabinet 3 accurately can be controlled to the operation of exhaust fan 7, blower fan 8, air curtain 9 and heat-exchange unit 10 System, and the parameter such as exhaust fan 7, the running status of blower fan 8, air curtain 9 and heat-exchange unit 10, energy consumption also can feed back to energy-conservation prison Control center 1.

Finally it should be noted that：The foregoing is only preferred embodiment of the present utility model, be not limited to this Utility model, although being described in detail to this utility model with reference to the foregoing embodiments, for those skilled in the art For, it still can be modified to the technical scheme described in foregoing embodiments, or to wherein some technical characteristics Carry out equivalent.All of the present utility model spirit and principle within, any modification, equivalent substitution and improvement made etc., all Should be included within protection domain of the present utility model.

Claims (6)

1. a kind of architectural environment energy-saving management system it is characterised in that：

Including energy-saving monitoring module and energy-saving monitoring center, described energy-saving monitoring center and energy-saving monitoring module communicate to connect, institute State in energy-saving monitoring and be provided with message processing module in the heart；

Described energy-saving monitoring module is connected with trunk module, floor Power entry module, electrical control cabinet and indoor and outdoor surroundingses monitoring mould Block, described indoor and outdoor surroundingses monitoring modular comprises house data collecting unit and outdoor weather station, and described house data collection is single Unit carries out data acquisition to the indoor environment factor such as indoor temperature, humidity, air quality, and corresponding data is transferred to institute State trunk module, using wirelessly or non-wirelessly communicating to connect between described house data collecting unit and described trunk module, described Outdoor weather station to Factory Building, building outside meteorologic parameter be acquired, and corresponding data is transferred to described trunk module, institute State between outdoor weather station and described trunk module using wirelessly or non-wirelessly communicating to connect；

Described trunk module is provided with communication unit, transfer processing unit, indicating member, and described communication unit connects to signal Receive and send, described transfer processing unit carries out processing, analyze, calculate and classifying to the signal that described communication unit receives；

Floor distribution master switch, socket major loop, illumination major loop, air-conditioning major loop, institute is contained in described floor Power entry module State floor Power entry module and described energy-saving monitoring module communication connection；

Described electrical control cabinet is connected with exhaust fan, blower fan, air curtain and heat-exchange unit.

2. a kind of architectural environment energy-saving management system according to claim 1 it is characterised in that：Described energy-saving monitoring center Pass through RS485 interface with described energy-saving monitoring module or tcp/ip communication connects.

3. a kind of architectural environment energy-saving management system according to claim 1 it is characterised in that：Described outdoor weather station with Using wirelessly or non-wirelessly communicating to connect between described energy-saving monitoring module.

4. a kind of architectural environment energy-saving management system according to any one of claim 1-3 it is characterised in that：Described energy-conservation Surveillance center is provided with main frame and display.

5. a kind of architectural environment energy-saving management system according to claim 1 it is characterised in that：Contain in described indicating member There are display lamp, buzzer and warner.

6. a kind of architectural environment energy-saving management system according to claim 1 it is characterised in that：Described floor Power entry module Public network or local area network communication is adopted to be connected between described energy-saving monitoring module, described floor Power entry module and described trunk module Use cooperatively.