CN202632501U - Wireless sensor network-based building group energy consumption monitoring device - Google Patents

Abstract

The utility model discloses a wireless sensor network-based building group energy consumption monitoring device, which comprises an information input and display device, a data center component, at least one group of information acquisition and transceiver device component, an information acquisition and transceiver device electric power storage device and an external data center power supply. The data center component comprises a data center data management module, a data center wireless module and a data center database, which are connected with a data center central processor respectively. The information acquisition and transceiver device component comprises a sensor, an information acquisition and transceiver device power management module, an information acquisition and transceiver device wireless module, an information acquisition and transceiver device database and an information acquisition and transceiver device data analysis module, which are connected with the information acquisition and transceiver device central processor respectively.

Description

Groups of building energy-consumption monitoring device based on wireless sensor network

Technical field

The utility model relates to a kind of groups of building energy-consumption monitoring device based on wireless sensor network.

Background technology

Along with among intelligent residential district, the intelligent CBD etc., the heavy construction crowd is popular big and medium-sized cities, the building energy consumption monitoring becomes and becomes increasingly complex, network layout, cable data transmission cost become the problem that administration and supervision authorities have to pay attention to along with the progression expansion of scale.

It is online that present radio sensing network concentrates on sensor groups in the building energy Application in Monitoring, existing research under the prerequisite unimpeded through cloth promise communication, less to the balancing energy of all nodes of wireless sensor network and the consideration of saving problem.

The utility model content

It is low that the technical matters that the utility model will solve provides a kind of cost, and what the energy service efficiency was high can be to the groups of building energy-consumption monitoring device based on radio sensing network of groups of building energy consumption monitoring.

In order to solve the problems of the technologies described above; The utility model provides a kind of groups of building energy-consumption monitoring device based on wireless sensor network, comprises information input and display device, data center's assembly, at least one group information acquisition and R-T unit assembly, information acquisition and R-T unit electrical storage device and data center's external power supply; Data center's assembly comprises respectively data center's data management module, data center's wireless module and the data center's database that is connected with the data center central processing unit; Said information input and display device are connected with the data center central processing unit; Data center's wireless module is connected with data center's wireless transmitter; Information acquisition and R-T unit assembly comprise respectively sensor, information acquisition and R-T unit power management module, information acquisition and R-T unit wireless module, information acquisition and R-T unit database and information acquisition and the R-T unit data analysis module that is connected with the R-T unit central processing unit with information acquisition; Said information acquisition is connected with the R-T unit wireless module with information acquisition with the R-T unit wireless transmitter; Said information acquisition and R-T unit wireless transmitter are connected with data center wireless transmitter signal; Said information input and display device, data center's data management module, data center's central processing unit, data center's wireless module, data center's database and data center wireless transmitter all are connected with the data center external power supply; Sensor, information acquisition all are connected with the R-T unit electrical storage device with information acquisition with the R-T unit wireless transmitter with information acquisition with the R-T unit data analysis module with R-T unit database, information acquisition with R-T unit wireless module, information acquisition with R-T unit power management module, information acquisition with R-T unit central processing unit, information acquisition.

As the improvement based on the groups of building energy-consumption monitoring device of wireless sensor network to the utility model: data center's central processing unit is connected with alarm, and said alarm is connected with the data center external power supply.

The utility model is through a kind of effective enforcement of wireless sensor network in the groups of building energy consumption monitoring of multilayer sub-clustering; Alleviate the complexity and the wiring cost of building energy consumption monitoring wiring greatly; And mode preferred through a kind of bunch of head, multi-hop communication; The energy consumption of balanced whole wireless sensor network, the life cycle of prolonging wireless sensor network greatly is through in certain intelligent residential district test; Single 20000 joules wireless senser can open-airly under the condition of not charging effectively be worked nearly 3 months, and the life cycle of whole network can reach 6 months.Because wireless sensor network disposition is convenient, has many-sided extensibility, fault-tolerance, robustnesses such as overlay area, life cycle, perceived accuracy.

Description of drawings

Below in conjunction with accompanying drawing the embodiment of the utility model is done further explain.

Fig. 1 is the groups of building energy-consumption monitoring device structural representation based on wireless sensor network of the utility model.

Embodiment

Fig. 1～Fig. 5 has provided a kind of groups of building energy-consumption monitoring device based on wireless sensor network, comprises information input and display device 1, data center's assembly 2, alarm 3, at least one group information acquisition and R-T unit assembly 6, information acquisition and R-T unit electrical storage device 7 and data center's external power supply 8.Data center's assembly 2 comprises data center's data management module 21, data center's central processing unit 22, data center's wireless module 24 and data center's database 25.Information acquisition and R-T unit assembly 6 comprise sensor 61, information acquisition and R-T unit central processing unit 62, information acquisition and R-T unit power management module 63, information acquisition and R-T unit wireless module 64, information acquisition and R-T unit database 65 and information acquisition and R-T unit data analysis module 66.

Information input and display device 1, data center's data management module 21, data center's central processing unit 22, data center's wireless module 24, data center's database 25, alarm 3 and data center wireless transmitter 4 all are connected with data center external power supply 8, by data center's external power supply 8 power supply are provided; Sensor 61, information acquisition all are connected with R-T unit electrical storage device 7 with information acquisition with R-T unit wireless transmitter 5 with information acquisition with R-T unit data analysis module 66 with R-T unit database 65, information acquisition with R-T unit wireless module 64, information acquisition with R-T unit power management module 63, information acquisition with R-T unit central processing unit 62, information acquisition, by information acquisition and R-T unit electrical storage device 7 power supply are provided.For keeping drawing clean and tidy, omit all the electrical connection marks in the accompanying drawing.

Information input and display device 1, data center's data management module 21, data center's wireless module 24, data center's database 25 and alarm 3 are connected with data center central processing unit 22 respectively, and data center's wireless module 24 is connected with data center's wireless transmitter 4; Sensor 61, information acquisition all are connected with R-T unit central processing unit 62 with information acquisition with R-T unit data analysis module 66 with information acquisition with R-T unit database 65 with R-T unit wireless module 64, information acquisition with R-T unit power management module 63, information acquisition, and information acquisition and R-T unit wireless module 64 are connected with information acquisition and R-T unit wireless transmitter 5; Data center's wireless transmitter 4 is connected with R-T unit wireless transmitter 5 signals with information acquisition.

During actual the use; Information acquisition and R-T unit assembly 6 be distributed in each has the place of energy loss in the buildings; And several information acquisitions in the zonule that will be close to and basic unit's group of R-T unit assembly 6 compositions, a bunch head of basic unit (being one of them information acquisition and R-T unit assembly 6) is set in each basic unit's group; And the high-rise group of several basic units bunch first composition in the big zone that will be close to, in each high-rise group a high level bunch head (being bunch head of one of them basic unit) is set; With all high levels bunch top layer group of first composition, a top layer bunch head (being one of them high-rise bunch head) is set in each top layer group; Information acquisition and R-T unit assembly 6 in each basic unit's group are sent to bunch head of basic unit with information; Bunch head of each basic unit is sent to information in the high-rise bunch head again; Each high-rise bunch head is sent to top layer bunch head with information again; Top layer bunch head is sent to information in data center's assembly 2 again, is carried out the last processing of data by data center's assembly 2.

The step of choosing bunch head of basic unit, high-rise bunch head and top layer bunch head is following:

In information acquisition and R-T unit database 65, insert the unique sequence number of each information acquisition and R-T unit assembly 6 (01 to N, the value of N is looked groups of building unit's number of required monitoring and decide) and basic unit's bunch first power supply threshold value, high-rise bunch first power supply threshold value and top layer bunch first power supply threshold value (promptly being respectively) when the minimum amount of power value of appointing bunch head of basic unit, when the minimum amount of power value of appointing high-rise bunch head with when the minimum amount of power value of a top layer bunch head.

Choose bunch head of basic unit:

In sequence number was basic unit's group of 01 to 10, all information acquisitions and R-T unit assembly 6 all carried out following operation:

1, No. 01 information acquisition and R-T unit assembly 6 are operated as follows:

1.1, information acquisition and R-T unit central processing unit 62 read the power storage amount information in information acquisition and the R-T unit power management module 63.

1.2, information acquisition and R-T unit central processing unit 62 read the basic unit's bunch first power supply threshold value in information acquisition and the R-T unit database 65; If the power storage amount that power storage amount information shows is greater than basic unit's bunch first power supply threshold value, then power storage amount information being sent to sequence number in basic unit's group is in 02 to No. 10 the information acquisition and R-T unit assembly 6.

2, to be sent to sequence number in basic unit's group be that No. 02 information acquisition is following with R-T unit assembly 6 interior concrete steps to the power storage amount information in No. 01 information acquisition and the R-T unit assembly 6:

2.1, the information acquisition in No. 01 information acquisition and the R-T unit assembly 6 and R-T unit central processing units 62 are sent to power storage amount information in No. 01 information acquisition and R-T unit the assembly 6 interior information acquisition and R-T unit wireless module 64,

2.2, the information acquisition in No. 01 information acquisition and the R-T unit assembly 6 and the 64 control information collections of R-T unit wireless module and R-T unit wireless transmitter 5 be sent to power storage amount information in No. 02 information acquisition and R-T unit the assembly 6 interior information acquisition and R-T unit wireless transmitter 5

2.3, after the information acquisition in No. 02 information acquisition and the R-T unit assembly 6 and R-T unit wireless transmitter 5 receive power storage amount information; Power storage amount information is sent in No. 02 information acquisition and the information acquisition and R-T unit wireless module 64 in the R-T unit assembly 6

2.4, the information acquisition in No. 02 information acquisition and the R-T unit assembly 6 and R-T unit wireless modules 64 are sent to power storage amount information in No. 02 information acquisition and R-T unit the assembly 6 interior information acquisition and R-T unit central processing unit 62,

2.5, the information acquisition in No. 02 information acquisition and the R-T unit assembly 6 and R-T unit central processing units 62 are sent to power storage amount information in No. 02 information acquisition and R-T unit the assembly 6 interior information acquisition and R-T unit database 65.

No. 03 information acquisition and R-T unit assembly 6 and No. 10 information acquisition and the information of R-T unit assembly 6 transmit with step 2.

3, after the power storage amount information of the information acquisition that receives 02 to No. 10 of information acquisition in No. 01 information acquisition and the R-T unit assembly 6 and R-T unit central processing unit 62 and R-T unit assembly 6, operate as follows in No. 01 information acquisition and the R-T unit assembly 6:

3.1, information acquisition and R-T unit central processing unit 62 begin to read 02 to No. 10 the information acquisition and the power storage amount information of R-T unit assembly 6; And 02 to No. 10 the information acquisition and the power storage amount information of R-T unit assembly 6 be sent in information acquisition and the R-T unit data analysis module 66

3.2, information acquisition and R-T unit data analysis module 66 be through after analyzing; (information acquisition and R-T unit data analysis module 66 are analyzed contrast to feed back to the information acquisition of No. 01,62 1 of information acquisition and R-T unit central processing units and the highest information of power storage amount of R-T unit assembly 6; Select an information acquisition and a R-T unit assembly 6 that the power storage amount is the highest; This information acquisition and R-T unit assembly 6 of sentencing No. 01 is example)

After the information acquisition that No. 6 to 10, No. 02 information acquisition and R-T unit assembly and the information acquisition of R-T unit assembly 6 and R-T unit central processing unit 62 received the power storage amount information of other nine information acquisitions and R-T unit assembly 6, processing mode was with step 3.

Because comparing result is that No. 01 the power storage amount of information acquisition and R-T unit assembly 6 is the highest, so temporarily ought a bunch head of basic unit with R-T unit assembly 6 by No. 01 information acquisition.

Choose high-rise bunch head:

Selecting with sequence number is 01,11,21,31,41 and 51 to be the first back of basic unit bunch (selection rule is the above-described basic unit's bunch stem branch of choosing); 01, chooses a high level bunch head automatically among 11 and 21 3 bunch head of more approaching basic unit, choose a high level bunch head among 31,41 and 51 3 bunch head of more approaching basic unit automatically.

4, No. 01 information acquisition and R-T unit assembly 6 are operated as follows:

4.1, information acquisition and R-T unit central processing unit 62 read the power storage amount information in information acquisition and the R-T unit power management module 63.

4.2, information acquisition and R-T unit central processing unit 62 read the high level bunch first power supply threshold value in information acquisition and the R-T unit database 65; If the power storage amount that power storage amount information shows is greater than high-rise bunch first power supply threshold value, then power storage amount information being sent to sequence number in basic unit's group is in 11 and No. 21 the information acquisition and R-T unit assembly 6.

5, to be sent to sequence number in basic unit's group be that No. 11 information acquisition is following with R-T unit assembly 6 interior concrete steps to the power storage amount information in No. 01 information acquisition and the R-T unit assembly 6:

5.1, the information acquisition in No. 01 information acquisition and the R-T unit assembly 6 and R-T unit central processing units 62 are sent to power storage amount information in No. 01 information acquisition and R-T unit the assembly 6 interior information acquisition and R-T unit wireless module 64,

5.2, the information acquisition in No. 01 information acquisition and the R-T unit assembly 6 and the 64 control information collections of R-T unit wireless module and R-T unit wireless transmitter 5 be sent to power storage amount information in No. 11 information acquisition and R-T unit the assembly 6 interior information acquisition and R-T unit wireless transmitter 5

5.3, after the information acquisition in No. 11 information acquisition and the R-T unit assembly 6 and R-T unit wireless transmitter 5 receive power storage amount information; Power storage amount information is sent in No. 11 information acquisition and the information acquisition and R-T unit wireless module 64 in the R-T unit assembly 6

5.4, the information acquisition in No. 11 information acquisition and the R-T unit assembly 6 and R-T unit wireless modules 64 are sent to power storage amount information in No. 11 information acquisition and R-T unit the assembly 6 interior information acquisition and R-T unit central processing unit 62,

5.5, the information acquisition in No. 11 information acquisition and the R-T unit assembly 6 and R-T unit central processing units 62 are sent to power storage amount information in No. 11 information acquisition and R-T unit the assembly 6 interior information acquisition and R-T unit database 65.

The information of No. 21 information acquisition and R-T unit assembly 6 transmits with step 5.

6, after the power storage amount information of the information acquisition that receives 11 and No. 21 of information acquisition in No. 01 information acquisition and the R-T unit assembly 6 and R-T unit central processing unit 62 and R-T unit assembly 6, operate as follows in No. 01 information acquisition and the R-T unit assembly 6:

6.1, information acquisition and R-T unit central processing unit 62 begin to read 11 and No. 21 the information acquisition and the power storage amount information of R-T unit assembly 6; And 11 and No. 21 the information acquisition and the power storage amount information of R-T unit assembly 6 be sent in information acquisition and the R-T unit data analysis module 66

6.2, information acquisition and R-T unit data analysis module 66 be through after analyzing; (information acquisition and R-T unit data analysis module 66 are analyzed contrast to feed back to the information acquisition of No. 01,62 1 of information acquisition and R-T unit central processing units and the highest information of power storage amount of R-T unit assembly 6; Select an information acquisition and a R-T unit assembly 6 that the power storage amount is the highest; This information acquisition and R-T unit assembly 6 of sentencing No. 01 is example)

After the information acquisition of No. 11 information acquisition and R-T unit assembly 6 and No. 21 and the information acquisition of R-T unit assembly 6 and R-T unit central processing unit 62 received the power storage amount information of other two information acquisitions and R-T unit assembly 6, processing mode was with step 6.

Because comparing result is that No. 01 the power storage amount of information acquisition and R-T unit assembly 6 is the highest, thus by No. 01 information acquisition and R-T unit assembly 6 temporarily as a high level bunch head.

31, choose the choose process (information acquisition and the R-T unit assembly 6 that at last draw No. 31 temporarily work as a times high-rise bunch head) of the process of high-rise bunch head among 41 and 51 3 bunch head of more approaching basic unit with above 01,11 and 21 3 bunch head of more approaching basic unit.

Choose top layer bunch head:

Select 01 and No. 31 information acquisition and R-T unit assembly 6 for high-rise bunch head after, sequence number is 01 and No. 31 information acquisition and R-T unit assembly 6 automatic entering top layer groups, and carries out following operation:

7, No. 01 information acquisition and R-T unit assembly 6 are operated as follows:

7.1, information acquisition and R-T unit central processing unit 62 read the power storage amount information in information acquisition and the R-T unit power management module 63.

7.2, information acquisition and R-T unit central processing unit 62 read the basic unit's bunch first power supply threshold value in information acquisition and the R-T unit database 65; If the power storage amount that power storage amount information shows is greater than basic unit's bunch first power supply threshold value, then power storage amount information being sent to sequence number in basic unit's group is in No. 31 the information acquisition and R-T unit assembly 6.

8, to be sent to sequence number in basic unit's group be that No. 31 information acquisition is following with R-T unit assembly 6 interior concrete steps to the power storage amount information in No. 01 information acquisition and the R-T unit assembly 6:

8.1, the information acquisition in No. 01 information acquisition and the R-T unit assembly 6 and R-T unit central processing units 62 are sent to power storage amount information in No. 01 information acquisition and R-T unit the assembly 6 interior information acquisition and R-T unit wireless module 64,

8.2, the information acquisition in No. 01 information acquisition and the R-T unit assembly 6 and the 64 control information collections of R-T unit wireless module and R-T unit wireless transmitter 5 be sent to power storage amount information in No. 31 information acquisition and R-T unit the assembly 6 interior information acquisition and R-T unit wireless transmitter 5

8.3, after the information acquisition in No. 31 information acquisition and the R-T unit assembly 6 and R-T unit wireless transmitter 5 receive power storage amount information; Power storage amount information is sent in No. 31 information acquisition and the information acquisition and R-T unit wireless module 64 in the R-T unit assembly 6

8.4, the information acquisition in No. 31 information acquisition and the R-T unit assembly 6 and R-T unit wireless modules 64 are sent to power storage amount information in No. 31 information acquisition and R-T unit the assembly 6 interior information acquisition and R-T unit central processing unit 62,

8.5, the information acquisition in No. 31 information acquisition and the R-T unit assembly 6 and R-T unit central processing units 62 are sent to power storage amount information in No. 31 information acquisition and R-T unit the assembly 6 interior information acquisition and R-T unit database 65.

9, after the power storage amount information of the information acquisition that receives No. 31 of information acquisition in No. 01 information acquisition and the R-T unit assembly 6 and R-T unit central processing unit 62 and R-T unit assembly 6, operate as follows in No. 01 information acquisition and the R-T unit assembly 6:

9.1, information acquisition and R-T unit central processing unit 62 begin to read No. 31 the information acquisition and the power storage amount information of R-T unit assembly 6; And No. 31 the information acquisition and the power storage amount information of R-T unit assembly 6 be sent in information acquisition and the R-T unit data analysis module 66

9.2, information acquisition and R-T unit data analysis module 66 be through after analyzing; (information acquisition and R-T unit data analysis module 66 are analyzed contrast to feed back to the information acquisition of No. 01,62 1 of information acquisition and R-T unit central processing units and the highest information of power storage amount of R-T unit assembly 6; Select an information acquisition and a R-T unit assembly 6 that the power storage amount is the highest; This information acquisition and R-T unit assembly 6 of sentencing No. 01 is example)

After the information acquisition of No. 31 information acquisition and R-T unit assembly 6 and R-T unit central processing unit 62 received No. 01 the power storage amount information of information acquisition and R-T unit assembly 6, processing mode was with step 3.

Because comparing result is that No. 0001 the power storage amount of information acquisition and R-T unit assembly 6 is the highest, so temporarily ought a top layer bunch head with R-T unit assembly 6 by No. 0001 information acquisition.

After selecting bunch head of basic unit, high-rise bunch head and top layer bunch head, operate as follows:

No. 0001 to No. 0010 information acquisition and R-T unit assembly 6 are sent to the data of obtaining in No. 0001 the information acquisition and R-T unit assembly 6.

No. 0011 to No. 0020 information acquisition and R-T unit assembly 6 are sent to the data of obtaining in No. 0011 the information acquisition and R-T unit assembly 6.

No. 0021 to No. 0030 information acquisition and R-T unit assembly 6 are sent to the data of obtaining in No. 0021 the information acquisition and R-T unit assembly 6.

No. 0031 to No. 0040 information acquisition and R-T unit assembly 6 are sent to the data of obtaining in No. 0031 the information acquisition and R-T unit assembly 6.

No. 0041 to No. 0050 information acquisition and R-T unit assembly 6 are sent to the data of obtaining in No. 0041 the information acquisition and R-T unit assembly 6.

No. 0051 to No. 0060 information acquisition and R-T unit assembly 6 are sent to the data of obtaining in No. 0051 the information acquisition and R-T unit assembly 6.

In the information acquisition and R-T unit assembly 6 that the information acquisition of No. 0001, No. 0011 and No. 0021 and R-T unit assembly 6 are sent to the data of obtaining No. 0001.

In the information acquisition and R-T unit assembly 6 that the information acquisition of No. 0031, No. 0041 and No. 0051 and R-T unit assembly 6 are sent to the data of obtaining No. 0031.

In the information acquisition and R-T unit assembly 6 that the information acquisition of No. 0001 and No. 0031 and R-T unit assembly 6 are sent to the data of obtaining No. 0001.

No. 0001 information acquisition and R-T unit assembly 6 are sent to the data of obtaining in the data center 2.

Concrete steps are following:

Sensor 61 in the collection layer group obtains data; And the data of obtaining are sent in the information acquisition and R-T unit central processing unit 62 in the collection layer group; Information acquisition in the collection layer group and R-T unit central processing unit 62 are sent to the data of obtaining in the information acquisition and R-T unit wireless module 64 in the collection layer group, and information acquisition and R-T unit wireless transmitter 5 in the control collection layer group send.

Information acquisition and R-T unit wireless transmitter 5 in bunch head of basic unit receive the data of obtaining; Be sent to information acquisition and R-T unit central processing unit 62 in bunch head of basic unit; Information acquisition and R-T unit central processing unit 62 in bunch head of basic unit are sent to information acquisition and R-T unit wireless module 64 in bunch head of basic unit with the data of obtaining, and are sent by information acquisition and the R-T unit wireless transmitter 5 in information acquisition in bunch head of basic unit and the R-T unit wireless module 64 control bunch head of basic unit.

Information acquisition and R-T unit wireless transmitter 5 in the high-rise bunch head receive the data of obtaining; Be sent to information acquisition and R-T unit central processing unit 62 in the high-rise bunch head; Information acquisition in the high-rise bunch head and R-T unit central processing unit 62 are sent to information acquisition and R-T unit wireless module 64 in the high-rise bunch head with the data of obtaining, and are sent by information acquisition and the R-T unit wireless transmitter 5 in information acquisition in the high-rise bunch head and the high-rise bunch head of R-T unit wireless module 64 controls.

Information acquisition and R-T unit wireless transmitter 5 in the top layer bunch head receive the data of obtaining; Be sent to information acquisition and R-T unit central processing unit 62 in the top layer bunch head; Information acquisition and R-T unit central processing unit 62 in the top layer bunch head are sent to information acquisition and R-T unit wireless module 64 in the top layer bunch head with the data of obtaining, and are sent by the information acquisition of top layer bunch head and information acquisition and the R-T unit wireless transmitter 5 in the R-T unit wireless module 64 control top layer bunch head.

Data center's wireless transmitter 4 receives the data of obtaining; And be sent in data center's wireless module 24; Data center's wireless module 24 receives the data of obtaining, and is sent in data center's central processing unit 22, and data center's central processing unit 22 receives the data of obtaining; And the data of obtaining are conveyed in data center's data management module 21; Simultaneously, the standard value in data center's central processing unit 22 reading of data central databases 25, and standard value is sent in data center's data management module 21; Data center's data management module 21 compares standard value and the data of obtaining; If the data of obtaining are in standard value range; Then feed back one " normal information ", if the data of obtaining outside standard value range, are then fed back one " unusual information "; After data center's central processing unit 22 receives " unusual information ", just control alarm 3 and report to the police.

At last, it is also to be noted that what more than enumerate only is a specific embodiment of the utility model.Obviously, the utility model is not limited to above embodiment, and many distortion can also be arranged.All distortion that those of ordinary skill in the art can directly derive or associate from the disclosed content of the utility model all should be thought the protection domain of the utility model.

Claims (2)

1. based on the groups of building energy-consumption monitoring device of wireless sensor network, it is characterized in that: comprise information input and display device (1), data center's assembly (2), at least one group information acquisition and R-T unit assembly (6), information acquisition and R-T unit electrical storage device (7) and data center's external power supply (8);

Data center's assembly (2) comprises data center's central processing unit (22), and said data center central processing unit (22) is connected with data center's wireless module (24); Said information input is connected with data center's central processing unit (22) with display device (1); Data center's wireless module (24) is connected with data center's wireless transmitter (4);

Information acquisition and R-T unit assembly (6) comprise R-T unit central processing unit (62), and said R-T unit central processing unit (62) is connected with sensor (61), information acquisition and R-T unit power management module (63) and information acquisition and R-T unit wireless module (64) respectively; Said information acquisition is connected with R-T unit wireless module (64) with information acquisition with R-T unit wireless transmitter (5);

Said information acquisition is connected with data center's wireless transmitter (4) signal with R-T unit wireless transmitter (5);

Said information input all is connected with data center's external power supply (8) with display device (1), data center's central processing unit (22), data center's wireless module (24) and data center's wireless transmitter (4); Sensor (61), information acquisition all are connected with R-T unit electrical storage device (7) with information acquisition with R-T unit wireless transmitter (5) with information acquisition with R-T unit wireless module (64) with R-T unit power management module (63), information acquisition with R-T unit central processing unit (62), information acquisition.

2. the groups of building energy-consumption monitoring device based on wireless sensor network according to claim 1 is characterized in that: data center's central processing unit (22) is connected with alarm (3), and said alarm (3) is connected with data center's external power supply (8).