CN205481538U - Energy efficiency management system is synthesized to building - Google Patents

Abstract

The utility model relates to an energy efficiency management system is synthesized to building, energy efficiency management system is synthesized to building is including building device management network system, fresh air unit monitored control system, combined type air conditioner group monitored control system, combination formula monitored control system, intelligence illumination monitored control system and the energy consumption monitoring system of taking a breath that newly air exhaust, fresh air unit monitored control system, combined type air conditioner group monitored control system, combination formula are newly aired exhaust and are taken a breath monitored control system, intelligence illumination monitored control system and energy consumption monitoring system and communicate with control center through building device management network system respectively, the utility model discloses can not only understand and grasp the premises power consumption with can the situation, can assist the property personnel to look over whether normal operating of architectural equipment in addition, whether inspection operation tactics are equitable to reach the effect of energy -conservation, reduction of discharging, high efficiency, green, environmental protection.

Description

A kind of building comprehensive energy efficiency management system

Technical field

The utility model relates to a kind of building comprehensive energy efficiency management system.

Background technology

Statistics according to UNEP (United Nations Environment Program), building energy consumption accounts for more than the 70% of city public organizations energy consumption, China's economic is also faced with the immense pressure of energy shortage and environmental degradation while growing continuously and fast, for this series of problems, building intelligence energy efficiency management system arises at the historic moment as a new concept, it, in high energy consumption Enterprise Construction energy consumption monitoring, management, control system, improves energy use efficiency by technological innovation, helps the target that enterprise realizes energy efficiency, cleaning produces.The energy efficiency control system of its energy comprehensive to building proposes and realizes energy-conservation 10% to 30%, the function of the highest 50%.Along with the development of fine-grained management, this building comprehensive energy efficiency management system will become trend.

Utility model content

The utility model provides a kind of building comprehensive energy efficiency management system, power consumption energy situation in grasp building can not only be understood, and property personnel can be assisted to check that Architectural Equipment is the most properly functioning, check that operation reserve is whether reasonable, thus reach energy-conservation, reduce discharging, efficiently, green, the effect of environmental protection.

The utility model solves its technical problem and be the technical scheme is that

A kind of building comprehensive energy efficiency management system, described building comprehensive energy efficiency management system includes that Architectural Equipment manages network system, Fresh air handling units monitoring system, unitary air handling unit monitoring system, combined type new exhaust ventilation monitoring system, Intelligent illumination monitoring system and energy-consumption monitoring system, described Fresh air handling units monitoring system, unitary air handling unit monitoring system, combined type new exhaust ventilation monitoring system, Intelligent illumination monitoring system is connected with control centre by Architectural Equipment management network system respectively with energy-consumption monitoring system, each system signal is sent to control centre by Architectural Equipment management network system, instruction is sent to each system by control centre by Architectural Equipment management network system simultaneously；

As of the present utility model further preferably, described Fresh air handling units monitoring system includes the first fresh wind tube, first ajutage, first blower fan and the first digitial controller, the two ends of described first blower fan respectively with the first fresh wind tube, first ajutage is connected, the first new air-valve it is sequentially provided with in described first fresh wind tube, first screen pack, first coil pipe and the first humidifier, described first new air-valve is connected by the first fan valve executor and the first digitial controller, first screen pack is connected by the first filter screen differential pressure pickup and the first digitial controller, first coil pipe is connected with the first digitial controller by the first water valve actuator, first humidifier is connected by the first distribution box and the first digitial controller；Described first blower fan is connected by the second distribution box and the first digitial controller；The side of described first ajutage is connected with one end of the first temperature sensor, one end of the first humidity sensor, one end of the first air quality detector respectively, and the other end of the first temperature sensor, the other end of the first humidity sensor, the other end of the first air quality detector are connected with the first digitial controller simultaneously；

As of the present utility model further preferably, described unitary air handling unit monitoring system includes the second fresh wind tube, second ajutage, first backwind tube, second blower fan and the second digitial controller, the two ends of described second blower fan respectively with the second fresh wind tube, second ajutage is connected, the second new air-valve it is sequentially provided with in described second fresh wind tube, second screen pack, second coil pipe and the second humidifier, described second new air-valve is connected by the second fan valve executor and the second digitial controller, second screen pack is connected by the second filter screen differential pressure pickup and the second digitial controller, second coil pipe is connected with the second digitial controller by the second water valve actuator, second humidifier is connected by the 3rd distribution box and the second digitial controller, described second blower fan is connected by the 4th distribution box and the second digitial controller；Described first backwind tube and the second fresh wind tube vertical connection are arranged, and first backwind tube to be located at second new between air-valve and the second screen pack, being provided with the first air returning valve in described first backwind tube, described first air returning valve is connected by the 3rd fan valve executor and the second digitial controller；The side of described first backwind tube is connected with one end of the second temperature sensor, one end of the second humidity sensor, one end of the second air quality detector respectively, and the other end of the second temperature sensor, the other end of the second humidity sensor, the other end of the second air quality detector are connected with the second digitial controller simultaneously；

As of the present utility model further preferably, described combined type new exhaust ventilation monitoring system includes first row water pipe, 3rd fresh wind tube, 3rd ajutage, second backwind tube, 3rd blower fan and four fan device, the two ends of described 3rd blower fan respectively with the 3rd fresh wind tube, 3rd ajutage is connected, the 3rd new air-valve it is sequentially provided with in described 3rd fresh wind tube, 3rd screen pack, 3rd coil pipe and the 3rd humidifier, described 3rd new air-valve is connected by the 4th fan valve executor and the 3rd digitial controller, described 3rd screen pack is connected by the 3rd filter screen differential pressure pickup and the 3rd digitial controller, 3rd coil pipe is connected with the 3rd digitial controller by the 3rd water valve actuator, 3rd humidifier is connected by the 5th distribution box and the 3rd digitial controller, described 3rd blower fan is connected by the 6th distribution box and the 3rd digitial controller；The two ends of described four fan device are connected with first row airduct, the second backwind tube respectively, the side of described second backwind tube is connected with one end of three-temperature sensor, one end of the 3rd humidity sensor, one end of the 3rd air quality detector respectively, the other end of three-temperature sensor, the other end of the 3rd humidity sensor, the other end of the 3rd air quality detector are connected with the 3rd digitial controller simultaneously, and described four fan device is connected by the 7th distribution box and the 3rd digitial controller；It is provided with plate-type heat recovery device between described 3rd blower fan and four fan device；

As of the present utility model further preferably, described Intelligent illumination monitoring system includes that on off control and on off operating mode are monitored by off control, on off operating mode and the 4th digitial controller, described 4th digitial controller by timetable；

As of the present utility model further preferably, described energy-consumption monitoring system include data acquisition unit, remote transmitting water meter, intelligent electric meter and can scale, and described data acquisition unit, remote transmitting water meter, intelligent electric meter, can scale be sequentially connected with；

As of the present utility model further preferably, the return air amount of described first backwind tube and the resh air requirement sum of the second fresh wind tube are 100%.

By above technical scheme, relative to prior art, the beneficial effects of the utility model are:

1) power consumption situation in building is grasped: the quantity of energy resource consumption and composition, be distributed and flow to；

2) by energy level in understanding building: Energy harvesting damaed cordition, device efficiency, energy utilization rate, comprehensive energy consumption；

3) energy consumption problem in building is found out: the energy waste problem in management, equipment, technological operation；

4) building energy-saving potentiality are investigated thoroughly: remaining recoverable quantity, kind, parameter, character；

5) building energy-saving effect is adjusted: the economic benefit of technological improvement, renewal of the equipment, technological innovation etc., amount of energy saving；

6) clear and definite building energy-saving direction: energy saving technology transformation, product reducing energy consumption, formulation technical reform scheme, measure etc..

Accompanying drawing explanation

With embodiment, the utility model is further illustrated below in conjunction with the accompanying drawings.

Fig. 1 is the stereogram of preferred embodiment of the present utility model；

Fig. 2 is the Fresh air handling units monitoring system structure chart of preferred embodiment of the present utility model；

Fig. 3 is the unitary air handling unit monitoring system structure chart of preferred embodiment of the present utility model；

Fig. 4 is the combined type new exhaust ventilation monitoring system structure chart of preferred embodiment of the present utility model；

Fig. 5 is the Intelligent illumination monitoring system structure chart of preferred embodiment of the present utility model；

Fig. 6 is the energy-consumption monitoring system structure chart of preferred embodiment of the present utility model.

nullIn figure: 1 is the first fresh wind tube，2 is the first ajutage，3 is the first blower fan，4 is the first digitial controller，5 is the first new air-valve，6 is the first screen pack，7 is the first coil pipe，8 is the first humidifier，9 is the first distribution box，10 is the first temperature sensor，11 is the first humidity sensor，12 is the first air quality detector，13 is the first filter screen differential pressure pickup，14 is the second fresh wind tube，15 is the second ajutage，16 is the second blower fan，17 is the second digitial controller，18 is the second new air-valve，19 is the second screen pack，20 is the second coil pipe，21 is the second humidifier，22 is the second distribution box，23 is the second temperature sensor，24 is the second humidity sensor，25 is the second air quality detector，26 is the second filter screen differential pressure pickup，27 is the first backwind tube，28 is the first air returning valve，29 is the 3rd fan valve executor，30 is the first fan valve executor，31 is the second fan valve executor，32 is the 3rd distribution box，33 is the 4th distribution box，34 is the 3rd fresh wind tube，35 is the 3rd ajutage，36 is the 3rd blower fan，37 is the 3rd digitial controller，38 is the 3rd new air-valve，39 is the 3rd screen pack，40 is the 3rd coil pipe，41 is the 3rd humidifier，42 is the 4th fan valve executor，43 is three-temperature sensor，44 is the 3rd humidity sensor，45 is the 3rd air quality detector，46 is the 3rd filter screen differential pressure pickup，47 is first row airduct，48 is the second backwind tube，49 is the 5th distribution box，50 is the 6th distribution box，51 is the 7th distribution box，52 is on off operating mode，53 is on off control，54 is data acquisition unit，55 is remote transmitting water meter，56 is intelligent electric meter，57 is control centre，58 manage network system for Architectural Equipment，59 is Fresh air handling units monitoring system，60 is can scale，61 is the first water valve actuator，62 is the second water valve actuator，63 is the 3rd water valve actuator，64 is four fan device，65 is the 4th digitial controller，66 is unitary air handling unit monitoring system，67 is combined type new exhaust ventilation monitoring system，68 is Intelligent illumination monitoring system，69 is energy-consumption monitoring system.

Detailed description of the invention

Presently in connection with accompanying drawing, the utility model is described in further detail.These accompanying drawings are the schematic diagram of simplification, and basic structure of the present utility model is described the most in a schematic way, and therefore it only shows the composition relevant with the utility model.

nullAs shown in Figure 1，The utility model provides a kind of building comprehensive energy efficiency management system，Described building comprehensive energy efficiency management system includes that Architectural Equipment manages network system 58、Fresh air handling units monitoring system 59、Unitary air handling unit monitoring system 66、Combined type new exhaust ventilation monitoring system 67、Intelligent illumination monitoring system 68 and energy-consumption monitoring system 69，Described Fresh air handling units monitoring system 59、Unitary air handling unit monitoring system 66、Combined type new exhaust ventilation monitoring system 67、Intelligent illumination monitoring system 68 is connected with control centre 57 by Architectural Equipment management network system 58 respectively with energy-consumption monitoring system 69，Each system signal is sent to control centre 57 by Architectural Equipment management network system 58，Instruction is sent to each system by control centre 57 by Architectural Equipment management network system 58 simultaneously；

Shown in Fig. 2, as of the present utility model further preferably, described Fresh air handling units monitoring system 59 includes the first fresh wind tube 1, first ajutage 2, first blower fan 3 and the first digitial controller 4, the two ends of described first blower fan 3 respectively with the first fresh wind tube 1, first ajutage 2 is connected, the first new air-valve 5 it is sequentially provided with in described first fresh wind tube 1, first screen pack 6, first coil pipe 7 and the first humidifier 8, described first new air-valve 5 is connected with the first digitial controller 4 by the first fan valve executor 30, first screen pack 6 is connected with the first digitial controller 4 by the first filter screen differential pressure pickup 13, first coil pipe 7 is connected with the first digitial controller 4 by the first water valve actuator 61, first humidifier 8 is connected with the first digitial controller 4 by the first distribution box 9；Described first blower fan 3 is connected with the first digitial controller 4 by the second distribution box 22；The side of described first ajutage 2 is connected with one end of the first temperature sensor 10, one end of the first humidity sensor 11, one end of the first air quality detector 12 respectively, and the other end of the first temperature sensor 10, the other end of the first humidity sensor 11, the other end of the first air quality detector 12 are connected with the first digitial controller 4 simultaneously；This system is by monitoring screen pack state, air-supply humiture, air mass sensor parameter, realize air-valve, water valve, humidifier, the control of blower fan, the fully automatic operation of unit can be realized, extend the life-span of unit, reduce the consumption of the energy, alleviate the workload of property personnel, annual for providing fresh air in building, meet health demand.

nullShown in Fig. 3，As of the present utility model further preferably，Described unitary air handling unit monitoring system 66 includes the second fresh wind tube 14、Second ajutage 15、First backwind tube 27、Second blower fan 16 and the second digitial controller 17，The two ends of described second blower fan 16 respectively with the second fresh wind tube 14、Second ajutage 15 is connected，The second new air-valve 18 it is sequentially provided with in described second fresh wind tube 14、Second screen pack 19、Second coil pipe 20 and the second humidifier 21，Described second new air-valve 18 is connected with the second digitial controller 17 by the second fan valve executor 31，Second screen pack 19 is connected with the second digitial controller 17 by the second filter screen differential pressure pickup 26，Second coil pipe 20 is connected with the second digitial controller 17 by the second water valve actuator 62，Second humidifier 21 is connected with the second digitial controller 17 by the 3rd distribution box 32，Described second blower fan 16 is connected with the second digitial controller 17 by the 4th distribution box 33；Described first backwind tube 27 and the second fresh wind tube 14 vertical connection are arranged, and first backwind tube 27 be located between the second new air-valve 18 and the second screen pack 19, being provided with the first air returning valve 28 in described first backwind tube 27, described first air returning valve 28 is connected with the second digitial controller 17 by the 3rd fan valve executor 29；The side of described first backwind tube 27 is connected with one end of the second temperature sensor 23, one end of the second humidity sensor 24, one end of the second air quality detector 25 respectively, and the other end of the second temperature sensor 23, the other end of the second humidity sensor 24, the other end of the second air quality detector 25 are connected with the second digitial controller 17 simultaneously；This system is by monitoring screen pack state, return air humiture, air mass sensor parameter, it is achieved to air-valve, water valve, humidifier, the control of blower fan.The fully automatic operation of unit can be realized, extend the life-span of unit, alleviate the workload of property personnel, for work, the living environment of whole building Creating Comfort, be greatly improved comfort level and the operating efficiency of the interior personnel of building.

nullShown in Fig. 4，As of the present utility model further preferably，Described combined type new exhaust ventilation monitoring system 67 includes first row water pipe、3rd fresh wind tube 34、3rd ajutage 35、Second backwind tube 48、3rd blower fan 36 and four fan device 64，The two ends of described 3rd blower fan 36 respectively with the 3rd fresh wind tube 34、3rd ajutage 35 is connected，The 3rd new air-valve 38 it is sequentially provided with in described 3rd fresh wind tube 34、3rd screen pack 39、3rd coil pipe 40 and the 3rd humidifier 41，Described 3rd new air-valve 38 is connected with the 3rd digitial controller 37 by the 4th fan valve executor 42，Described 3rd screen pack 39 is connected with the 3rd digitial controller 37 by the 3rd filter screen differential pressure pickup 46，3rd coil pipe 40 is connected with the 3rd digitial controller 37 by the 3rd water valve actuator 63，3rd humidifier 41 is connected with the 3rd digitial controller 37 by the 5th distribution box 49，Described 3rd blower fan 36 is connected with the 3rd digitial controller 37 by the 6th distribution box 50；The two ends of described four fan device 64 are connected with first row airduct the 47, second backwind tube 48 respectively, the side of described second backwind tube 48 is connected with one end of three-temperature sensor 43, one end of the 3rd humidity sensor 44, one end of the 3rd air quality detector 45 respectively, the other end of three-temperature sensor 43, the other end of the 3rd humidity sensor 44, the other end of the 3rd air quality detector 45 are connected with the 3rd digitial controller 37 simultaneously, and described four fan device 64 is connected with the 3rd digitial controller 37 by the 7th distribution box 51；It is provided with plate-type heat recovery device between described 3rd blower fan 36 and four fan device 64；This system is by monitoring screen pack state, return air humiture, air mass sensor parameter, it is achieved to air-valve, water valve, humidifier, the control of blower fan.The waste heat of return air temperature is made full use of by runner heat reclamation device, reduces the use of cold, indirectly reduces the consumption of the energy.And realize the fully automatic operation of unit, and extend the life-span of unit, alleviate the workload of property personnel, air dirty in simultaneously discharging building, for work, the living environment of whole building Creating Comfort, it is greatly improved comfort level and the operating efficiency of personnel in building.

Shown in Fig. 5, as of the present utility model further preferably, described Intelligent illumination monitoring system 68 includes that on off control 53 and on off operating mode 52 are monitored by off control 53, on off operating mode 52 and the 4th digitial controller 65, described 4th digitial controller 65 by timetable；It is simpler that this system makes illuminator control, general lighting is artificially switched and is converted into intelligent management, greatly reduce the operation and maintenance cost of building, the phenomenons such as illumination region " altar lamp " are avoided by intelligent automatic management, laws of use according to illumination starts light fixture, illumination requirement, the most significantly using electricity wisely are not only reached.

This system can suitably reduce lamp working voltage, protects light fixture, extends the life-span, and installs convenient, saves cable, shortens the installation time, saves labour cost.

Shown in Fig. 6, as of the present utility model further preferably, described energy-consumption monitoring system 69 includes data acquisition unit 54, remote transmitting water meter 55, intelligent electric meter 56 and energy scale 60, and described data acquisition unit 54, remote transmitting water meter 55, intelligent electric meter 56, energy scale 60 are sequentially connected with；This system is by the energy consumption parameter concentrated collection such as water, electricity, gas, cold (hot) amount in building, energy consumptions all to user side are finely divided and add up, think that administrative staff or management level show the use Expenditure Levels of all kinds of energy with data intuitively and chart, it is easy to find out high energy consumption point or irrational power consumption custom, the effectively save energy, provides data supporting accurately for the further reducing energy consumption of user or device upgrade.

As of the present utility model further preferably, the return air amount of described first backwind tube 27 and the resh air requirement sum of the second fresh wind tube 14 are 100%.

Operation principle:

Fresh air handling units monitoring system: when the temperature anomaly that the first temperature sensor 10 in control centre 57 Fresh air handling units monitoring interface gathers, now control centre 57 sends order according to Fresh air handling units control principle, the first fan valve executor 30 opened by first digitial controller 4, now the first filter screen differential pressure pickup 13 monitors whether the first screen pack 6 blocks, if the first screen pack 6 is unplugged, first digitial controller 4 starts the first water valve actuator 61, water it is full of in first coil pipe 7, first digitial controller 4 starts the first blower fan 3 by the second distribution box 22, now in control centre 57 Fresh air handling units monitoring interface, the first temperature sensor 10 displays temperature changes；If the first screen pack 6 blocks, the first filter screen differential pressure pickup 13 sends alarm signal, reminds the cleaned filter screen of property personnel, repeats above step until the temperature that the first temperature sensor 10 monitors is in normal range (NR)；

When the humidity exception that the first humidity sensor 11 in control centre 57 Fresh air handling units monitoring interface gathers, now control centre 57 sends order according to Fresh air handling units control principle, the first fan valve executor 30 opened by first digitial controller 4, now the first filter screen differential pressure pickup 13 monitors whether the first screen pack 6 blocks, if the first screen pack 6 is unplugged, first digitial controller 4 starts the first humidifier 8 by the first distribution box 9, then the first digitial controller 4 starts the first blower fan 3 by the second distribution box 22, now in control centre 57 Fresh air handling units monitoring interface, the first humidity sensor 11 shows that humidity changes；If the first screen pack 6 blocks, the first filter screen differential pressure pickup 13 sends alarm signal, reminds the cleaned filter screen of property personnel, repeats above step until the humidity that the first humidity sensor 11 monitors is in normal range (NR)；

When the air quality exception that the first air mass sensor in control centre 57 Fresh air handling units monitoring interface gathers, now control centre 57 sends order according to Fresh air handling units control principle, the first fan valve executor 30 opened by first digitial controller 4, now the first filter screen differential pressure pickup 13 monitors whether the first screen pack 6 blocks, if the first screen pack 6 is unplugged, first digitial controller 4 starts the first blower fan 3 by the second distribution box 22, and now in control centre 57 Fresh air handling units monitoring interface, the first air mass sensor display air quality changes；If the first screen pack 6 blocks, the first filter screen differential pressure pickup 13 sends alarm signal, reminds the cleaned filter screen of property personnel, repeats above step until the air quality that the first air mass sensor monitors is in normal range (NR).

nullUnitary air handling unit monitoring system: when the temperature anomaly that the second temperature sensor 23 in control centre 57 unitary air handling unit monitoring interface gathers，Now control centre 57 sends order according to unitary air handling unit control principle，The second fan valve executor 31 and the 3rd fan valve executor 29 opened by second digitial controller 17，Wherein the second fan valve executor 31 is opened into minimum fresh air requirmente valve position，3rd fan valve executor 29 is opened into go back to air quantity valve position of corresponding minimum fresh air requirmente，Now the second filter screen differential pressure pickup 26 monitors whether the second screen pack 19 blocks，If the second screen pack 19 is unplugged，Second digitial controller 17 starts the second water valve actuator 62，Water it is full of in second coil pipe 20，Second digitial controller 17 starts the second blower fan 16 by the 4th distribution box 33，Now in control centre 57 unitary air handling unit monitoring interface, the second temperature sensor 23 displays temperature changes；If the second screen pack 19 blocks, the second filter screen differential pressure pickup 26 sends alarm signal, reminds the cleaned filter screen of property personnel, repeats above step until the temperature that the second temperature sensor 23 monitors is in normal range (NR)；

nullWhen the humidity exception that the second humidity sensor 24 in control centre 57 unitary air handling unit monitoring interface gathers，Now control centre 57 sends order according to unitary air handling unit control principle，The second fan valve executor 31 and the 3rd fan valve executor 29 opened by second digitial controller 17，Wherein the second fan valve executor 31 is opened into minimum fresh air requirmente valve position，3rd fan valve executor 29 is opened into go back to air quantity valve position of corresponding minimum fresh air requirmente，Now the second filter screen differential pressure pickup 26 monitors whether the second screen pack 19 blocks，If the second screen pack 19 is unplugged，Second digitial controller 17 starts the second humidifier 21 by the 3rd distribution box 32，Then the second digitial controller 17 starts the second blower fan 16 by the 4th distribution box 33，Now in control centre 57 unitary air handling unit monitoring interface, the second humidity sensor 24 shows that humidity changes；If the second screen pack 19 blocks, the second filter screen differential pressure pickup 26 sends alarm signal, reminds the cleaned filter screen of property personnel, repeats above step until the humidity that the second humidity sensor 24 monitors is in normal range (NR)；

When the air quality exception that the second air mass sensor in control centre 57 unitary air handling unit monitoring interface gathers, now control centre 57 sends order according to unitary air handling unit control principle, the second fan valve executor 31 and the 3rd fan valve executor 29 opened by second digitial controller 17, wherein the second fan valve executor 31 is opened into maximum resh air requirement valve position, 3rd fan valve executor 29 is opened into go back to air quantity valve position of corresponding maximum resh air requirement, now the second filter screen differential pressure pickup 26 monitors whether the second screen pack 19 blocks, if the second screen pack 19 is unplugged, second digitial controller 17 starts the second blower fan 16 by the 4th distribution box 33, now in control centre 57 unitary air handling unit monitoring interface, the second air mass sensor display air quality changes；If the second screen pack 19 blocks, the second filter screen differential pressure pickup 26 sends alarm signal, reminds the cleaned filter screen of property personnel, repeats above step until the air quality that the second air mass sensor monitors is in normal range (NR).

Combined type new exhaust ventilation monitoring system: when the temperature anomaly that the first temperature sensor 10 in control centre 57 combined type new exhaust ventilation monitoring interface gathers, now control centre 57 sends order according to combined type new exhaust ventilation control principle, the first fan valve executor 30 opened by first digitial controller 4, now the first filter screen differential pressure pickup 13 monitors whether the first screen pack 6 blocks, if the first screen pack 6 is unplugged, first digitial controller 4 starts the first water valve actuator 61, water it is full of in first coil pipe 7, first digitial controller 4 is respectively started the 3rd blower fan 36 and four fan device 64 by the 6th distribution box 50 and the 7th distribution box 51, now in control centre 57 combined type new exhaust ventilation monitoring interface, the first temperature sensor 10 displays temperature changes；If the first screen pack 6 blocks, the first filter screen differential pressure pickup 13 sends alarm signal, reminds the cleaned filter screen of property personnel, repeats above step until the temperature that the first temperature sensor 10 monitors is in normal range (NR)；

When the humidity exception that the 3rd humidity sensor 44 in control centre 57 combined type new exhaust ventilation monitoring interface gathers, now control centre 57 sends order according to combined type new exhaust ventilation control principle, the 4th fan valve executor 42 opened by 3rd digitial controller 37, now the 3rd filter screen differential pressure pickup 46 monitors whether the 3rd screen pack 39 blocks, if the 3rd screen pack 39 is unplugged, 3rd digitial controller 37 starts the 3rd humidifier 41 by the 5th distribution box 49, then the 3rd digitial controller 37 is respectively started the 3rd blower fan 36 and four fan device 64 by the 6th distribution box 50 and the 7th distribution box 51, now in control centre 57 combined type new exhaust ventilation monitoring interface, the 3rd humidity sensor 44 shows that humidity changes；If the 3rd screen pack 39 blocks, the 3rd filter screen differential pressure pickup 46 sends alarm signal, reminds the cleaned filter screen of property personnel, repeats above step until the humidity that the 3rd humidity sensor 44 monitors is in normal range (NR)；

When the air quality exception that the 3rd air mass sensor in control centre 57 combined type new exhaust ventilation monitoring interface gathers, now control centre 57 sends order according to combined type new exhaust ventilation control principle, the 4th fan valve executor 42 opened by 3rd digitial controller 37, now the 3rd filter screen differential pressure pickup 46 monitors whether the 3rd screen pack 39 blocks, if the 3rd screen pack 39 is unplugged, 3rd digitial controller 37 is respectively started the 3rd blower fan 36 and four fan device 64 by the 6th distribution box 50 and the 7th distribution box 51, now in control centre 57 combined type new exhaust ventilation monitoring interface, the 3rd air mass sensor display air quality changes；If the 3rd screen pack 39 blocks, the 3rd filter screen differential pressure pickup 46 sends alarm signal, reminds the cleaned filter screen of property personnel, repeats above step until the air quality that the 3rd air mass sensor monitors is in normal range (NR).

Intelligent illumination monitoring system: on off control 53 and on off operating mode 52 are monitored by the 4th digitial controller 65 by timetable.

With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, relevant staff can carry out various change and amendment completely in the range of without departing from this utility model technological thought.The content that the technical scope of this utility model is not limited on specification, it is necessary to determine its technical scope according to right.

Claims (7)

1. a building comprehensive energy efficiency management system, it is characterized in that: described building comprehensive energy efficiency management system includes that Architectural Equipment manages network system, Fresh air handling units monitoring system, unitary air handling unit monitoring system, combined type new exhaust ventilation monitoring system, Intelligent illumination monitoring system and energy-consumption monitoring system, described Fresh air handling units monitoring system, unitary air handling unit monitoring system, combined type new exhaust ventilation monitoring system, Intelligent illumination monitoring system is connected with control centre by Architectural Equipment management network system respectively with energy-consumption monitoring system, each system signal is sent to control centre by Architectural Equipment management network system, instruction is sent to each system by control centre by Architectural Equipment management network system simultaneously.

2. building comprehensive energy efficiency management system as claimed in claim 1, it is characterized in that: described Fresh air handling units monitoring system includes the first fresh wind tube, first ajutage, first blower fan and the first digitial controller, the two ends of described first blower fan respectively with the first fresh wind tube, first ajutage is connected, the first new air-valve it is sequentially provided with in described first fresh wind tube, first screen pack, first coil pipe and the first humidifier, described first new air-valve is connected by the first fan valve executor and the first digitial controller, first screen pack is connected by the first filter screen differential pressure pickup and the first digitial controller, first coil pipe is connected with the first digitial controller by the first water valve actuator, first humidifier is connected by the first distribution box and the first digitial controller；Described first blower fan is connected by the second distribution box and the first digitial controller；The side of described first ajutage is connected with one end of the first temperature sensor, one end of the first humidity sensor, one end of the first air quality detector respectively, and the other end of the first temperature sensor, the other end of the first humidity sensor, the other end of the first air quality detector are connected with the first digitial controller simultaneously.

nullBuilding comprehensive energy efficiency the most according to claim 1 management system，It is characterized in that: described unitary air handling unit monitoring system includes the second fresh wind tube、Second ajutage、First backwind tube、Second blower fan and the second digitial controller，The two ends of described second blower fan respectively with the second fresh wind tube、Second ajutage is connected，The second new air-valve it is sequentially provided with in described second fresh wind tube、Second screen pack、Second coil pipe and the second humidifier，Described second new air-valve is connected by the second fan valve executor and the second digitial controller，Second screen pack is connected by the second filter screen differential pressure pickup and the second digitial controller，Second coil pipe is connected with the second digitial controller by the second water valve actuator，Second humidifier is connected by the 3rd distribution box and the second digitial controller，Described second blower fan is connected by the 4th distribution box and the second digitial controller；Described first backwind tube and the second fresh wind tube vertical connection are arranged, and first backwind tube to be located at second new between air-valve and the second screen pack, being provided with the first air returning valve in described first backwind tube, described first air returning valve is connected by the 3rd fan valve executor and the second digitial controller；The side of described first backwind tube is connected with one end of the second temperature sensor, one end of the second humidity sensor, one end of the second air quality detector respectively, and the other end of the second temperature sensor, the other end of the second humidity sensor, the other end of the second air quality detector are connected with the second digitial controller simultaneously.

nullBuilding comprehensive energy efficiency the most according to claim 1 management system，It is characterized in that: described combined type new exhaust ventilation monitoring system includes first row water pipe、3rd fresh wind tube、3rd ajutage、Second backwind tube、3rd blower fan and four fan device，The two ends of described 3rd blower fan respectively with the 3rd fresh wind tube、3rd ajutage is connected，The 3rd new air-valve it is sequentially provided with in described 3rd fresh wind tube、3rd screen pack、3rd coil pipe and the 3rd humidifier，Described 3rd new air-valve is connected by the 4th fan valve executor and the 3rd digitial controller，Described 3rd screen pack is connected by the 3rd filter screen differential pressure pickup and the 3rd digitial controller，3rd coil pipe is connected with the 3rd digitial controller by the 3rd water valve actuator，3rd humidifier is connected by the 5th distribution box and the 3rd digitial controller，Described 3rd blower fan is connected by the 6th distribution box and the 3rd digitial controller；The two ends of described four fan device are connected with first row airduct, the second backwind tube respectively, the side of described second backwind tube is connected with one end of three-temperature sensor, one end of the 3rd humidity sensor, one end of the 3rd air quality detector respectively, the other end of three-temperature sensor, the other end of the 3rd humidity sensor, the other end of the 3rd air quality detector are connected with the 3rd digitial controller simultaneously, and described four fan device is connected by the 7th distribution box and the 3rd digitial controller；It is provided with plate-type heat recovery device between described 3rd blower fan and four fan device.

Building comprehensive energy efficiency the most according to claim 1 management system, it is characterized in that: described Intelligent illumination monitoring system includes that on off control and on off operating mode are monitored by off control, on off operating mode and the 4th digitial controller, described 4th digitial controller by timetable.

Building comprehensive energy efficiency the most according to claim 1 management system, it is characterized in that: described energy-consumption monitoring system includes data acquisition unit, remote transmitting water meter, intelligent electric meter and energy scale, and described data acquisition unit, remote transmitting water meter, intelligent electric meter, energy scale are sequentially connected with.

Building comprehensive energy efficiency the most according to claim 3 management system, it is characterised in that: the return air amount of described first backwind tube and the resh air requirement sum of the second fresh wind tube are 100%.