CN105467855A

CN105467855A - Intelligent home electricity fire-fighting monitoring system

Info

Publication number: CN105467855A
Application number: CN201610029399.5A
Authority: CN
Inventors: 张磊
Original assignee: Beijing Zhihui Xiaoshumiao Technology Co Ltd
Current assignee: Beijing Zhihui Xiaoshumiao Technology Co Ltd
Priority date: 2016-01-16
Filing date: 2016-01-16
Publication date: 2016-04-06

Abstract

The invention discloses an intelligent home electricity fire-fighting monitoring system, which can obtain a faulted load out of multiple loads, and determine a faulted power grid and fault time. The system is characterized by comprising a detection module and a wireless communication; a control terminal stores detection signals in a total database, determines the detection signals, and stores the detection signals into a fault database if the voltage and current on loads appear overcurrent, overvoltage and/or undervoltage. The intelligent home electricity fire-fighting monitoring system stores voltage and current in the total database in real time, thereby facilitating obtaining and analyzing stored data in a later period, and obtaining corresponding electricity power factors, electricity conditions, electricity qualities, etc.; meanwhile, the voltage and current when faults occur are stored in the fault database, thereby facilitating obtaining corresponding faulted loads, and providing convenience for later maintenance.

Description

A kind of electricity consumption firefighting monitoring system of Smart Home

Technical field

The present invention relates to Smart Home, more particularly, it relates to a kind of electricity consumption firefighting monitoring system and method thereof of Smart Home.

Background technology

Smart Home is a kind of living environment of people, and it is that stage+module has intelligent domestic system with house, realizes family life safer, energy-conservation, intelligence, convenient and comfortable.Take house as platform, utilize comprehensive wiring technology, the network communications technology, Smart Home-system design scheme security precautions technology, automatic control technology, audio frequency and video technology by integrated for facility relevant for life staying idle at home, build the management system of efficient housing facilities and family's schedule affairs, promote house security, convenience, comfortableness, artistry, and realize the living environment of environmental protection and energy saving.

Current power monitoring system is on the market monitored a certain family in a whole community or office building often, thus realize monitoring the electricity consumption situation of this resident family, if break down, then directly the power supply at this family can be carried out cutting off to avoid occurring danger, can bring inconvenience to resident family in the process, power supply administration is often needed to send someone to go to place of resident family to investigate, after each fault is got rid of, in help, resident family is electrified, need after resident family's power-off in whole process to wait for that maintenance personal reaches, then wait for that maintenance personal carries out investigation fault again, finally also to keep in repair, effort again consuming time, need resident family to wait for for a long time could continue to have access to electricity, very large impact is caused on the life of resident family, so the electricity consumption firefighting monitoring system of Smart Home has certain room for improvement at present.

Summary of the invention

For the deficiency that prior art exists, the object of the present invention is to provide a kind of electricity consumption firefighting monitoring system of Smart Home, can effectively monitor time that corresponding load breaks down, corresponding be which load and electricity consumption situation, be convenient to later period maintenance etc.

For achieving the above object, the invention provides following technical scheme: a kind of electricity consumption firefighting monitoring system of Smart Home, comprise control terminal, total data storehouse and Mishap Database, also comprise the voltage in the voltage in detection of grid, electric current and/or load, the detection module of electric current, the detection signal that exports for wireless transmission detection module to the wireless communication module of control terminal;

Detection signal is stored to total data storehouse by described control terminal, and described control terminal judges detection signal, if overcurrent, overvoltage and/or under-voltage appear in the voltage in load, electric current, described control terminal is stored to Mishap Database by corresponding to overcurrent, overvoltage and/or under-voltage detection signal.

Adopt such scheme, by to the voltage in electrical network, voltage in electric current and/or load, the real-time storage of electric current is in total data storehouse, realize the function of record ripple in real time, also be convenient to the later stage transfers analysis to stored data simultaneously, be convenient to know corresponding to the power factor (PF) to its electricity consumption, electricity consumption situation, electricity consumption quality etc., simultaneously by voltage when breaking down, electric current is stored to Mishap Database, the mode that this kind of storage mode adopts stacking-type to store, the waveform only broken down is carried out admission to store, by the admission of corresponding fault waveform, be convenient to obtain and corresponding to which load go wrong, be convenient to later period maintenance, the problem that the problem of strong and weak electricity cabling complexity and strong and weak electricity disturb mutually effectively can be solved by wireless communication module, greatly improve the convenient degree of wiring, effectively can realize the transmission of remote data by wireless communication module simultaneously, be convenient to transfer to the control terminal place be arranged in property in the heart, be convenient to the collection of data, avoid adopting wire transmission and the extravagant situation that is chaotic, cost waste of the cable that causes occurs.

As preferably, described detection module comprises the first test set and the second test set, and described first test set and the second test set include voltage transformer (VT) and current transformer, and described first test set is used for voltage, electric current in detection of grid; Described second test set is for detecting voltage, the electric current in load.

Adopt such scheme, two groups are divided into detect, to detect electrical network and load respectively, if there is several loads simultaneously, if then corresponding each and every one the second test set of setting, so that detect all electric loadings, be convenient to carry out carrying out record ripple to electricity consumption situation, after being stored to total data storehouse, being convenient to the later stage calls, to analyze the electricity consumption situation that corresponding load is formed, thus calculate which load and dragged down power factor (PF), to do adaptive adjustment, if break down simultaneously, such as excess current, superpotential or the situation such as under-voltage, then inquire about to corresponding load by control terminal, be convenient to investigation maintenance, avoid needing to cut off all power supplys to carry out to investigate and the situation of making troubles to resident family.

As preferably, described second test set and wireless communication module are all arranged in the socket in load.

Adopt such scheme, can monitor accurately the electricity consumption situation of load, and effectively avoid occurring the mixed and disorderly problem brought that connects up.

As preferably, also comprise fault and cut off module, described fault is cut off module and is controlled by control terminal, and when described control terminal detects overcurrent and/or overvoltage, described control terminal controls fault and cuts off module work only to cut off the corresponding load producing fault.

Adopt such scheme, according to the real-time recorder data of the storage that control terminal receives, carry out judging whether to break down, if break down electric current, during fault electric arc, and fault current, fault electric arc produce institute show appearance be exactly overcurrent and overvoltage, namely when control terminal detects overcurrent and/or overvoltage, then cut off module by fault and section is carried out in corresponding load, avoid the situation occurring bringing out fire or burning out load, can effectively avoid fuse cut off all power supplys and bring inconvenience to resident family simultaneously, the load of breaking down by only cutting off correspondence also can reduce servicing time, avoid needing the problem of long-time investigation to occur, can proof load use security, the effect of maintenance can be improved again, greatly reduce the impact on resident family.

As preferably, described fault is cut off module and is arranged in the socket in load, and described control terminal cuts off module by wireless communication module to fault controls.

Adopt such scheme, if break down, then cut off module by fault and cut off, greatly improve the security of use, undertaken while transmission controls effectively to ensure working properly carrying out, effectively to avoid again occurring the mixed and disorderly problem brought that connects up by wireless communication module simultaneously.

As preferably, described detection module also comprises the temperature detecting unit for detecting the temperature that load produces, described temperature detecting unit compares with output temperature comparison signal the temperature detected and set reference temperature value and this temperature comparison signal is transferred to control terminal, if the temperature detected be greater than reference temperature value and described control terminal detects overcurrent and/or overvoltage time, described control terminal controls fault and cuts off module work only to cut off the corresponding load producing fault.

Adopt such scheme, by temperature detecting unit, the equipment broken down is detected, if when there is the situation higher than temperature reference value, in conjunction with corresponding to the overcurrent that detects of control terminal and/or the situation of overvoltage, fault cut-out module is being controlled, while control terminal detects overcurrent and/or overvoltage, temperature detecting unit also detects that the temperature of corresponding load raises rapidly, thus cut off by fault cut-out module, avoid causing damage to load, improve the security used.

As preferably, also comprise display module, described display module is controlled by control terminal to show load operating condition.

Adopt such scheme, display is transferred with the data obtained control terminal by display module, also the information such as the power factor (PF) of correspondence and electricity consumption situation can be shown simultaneously, the monitor staff being convenient to property center obtains, if during the too low situation of emergent power factor, then can hold consultation with corresponding resident family and solve this problem in property center, improves the efficiency of obtaining information and monitoring.

As preferably, also comprise autonomous learning module and temperature and humidity regulation module, described autonomous learning module definition one timing node, a temperature value and a humidity value, indoor temperature and humidity, according to defined timing node, to be adjusted to by temperature and humidity regulation module with the time period early than timing node X minute and to correspond to defined temperature value and humidity value by described control terminal.

Adopt such scheme, by autonomous learning module, can according to corresponding algorithm, define a timing node, by the definition of timing node, make control terminal in early than certain hour, just first can open temperature and humidity regulation system according to timing node, carry out the humiture in conditioning chamber, so that resident family just can enjoy more comfortable environment after going back home, and the humiture of this environment is also by certain algorithm by autonomous learning module, temperature value required for acquisition and humidity value, by temperature and humidity regulation module according to the temperature value of correspondence and humidity value, regulate, autonomous learning module according to for the previous period in collected data analysis calculate, to draw timing node and temperature value, humidity value, indoor temperature and humidity situation before data collected by autonomous learning module are, the humiture required for budget today is carried out by the humiture situation of indoor before.

As preferably, described autonomous learning module comprises personnel's detecting unit, and whether described personnel's detecting unit has personnel to get back to premises for detecting in early than timing node X minute to the time period of timing node;

If have personnel to get back to premises to the time period of timing node in early than timing node X minute, then described control terminal control temperature and humidity regulation module works all the time; If do not have personnel to get back to premises to the time period of timing node in early than timing node X minute, then described control terminal controls the closedown of temperature and humidity regulation module.

Adopt such scheme, by the setting of personnel's detecting unit, within the set time period, people is had to get back to indoor if can ensure, then temperature and humidity regulation module can work all the time, very comfortable all the time with the humiture in holding chamber, but within the secondary time, if do not return, then control terminal controls the closedown of temperature and humidity regulation module, avoids the situation occurring waste of energy.

As preferably, described temperature and humidity regulation module comprises outdoor temperature humidity detecting unit, thermostat unit and humidity adjustment unit for detecting outdoor temperature humidity, detected outdoor temperature humidity is transferred to control terminal by described outdoor temperature humidity detecting unit, if the temperature of outdoor is within the scope of a≤T≤b, then described control terminal control temperature regulon cuts out; If the humidity of outdoor is within the scope of c≤H≤d, then described control terminal controlled humidity regulon cuts out.

Adopt such scheme, if inside and outside humiture is more or less the same, outdoor temperature is in a≤T≤b scope and is within the scope of c≤H≤d with outdoor humidity, then can control temperature regulon cuts out, humidity adjustment unit closes, avoid the waste of electric energy, reduce energy consumption.

The present invention is in terms of existing technologies:

1, by carrying out being stored in total data storehouse voltage, electric current in real time, being convenient to the later stage transfers analysis to stored data, is convenient to know corresponding to the power factor (PF) to its electricity consumption, electricity consumption situation, electricity consumption quality etc.;

2, voltage when breaking down, electric current are stored to Mishap Database, are convenient to acquisition and corresponding to which load go wrong, be convenient to later period maintenance;

3, by the setting of wireless communication module, effectively can avoid the problem of wiring confusion, and strong and weak electricity can be avoided to produce the problem of interference mutually;

4, by autonomous learning module, can regulate the humiture in room in advance, so that resident family is got back in room can a more comfortable environment.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the system chart one of the present embodiment;

Fig. 2 is the system chart two of the present embodiment;

Fig. 3 is the system chart three of the present embodiment;

Fig. 4 is the system schematic one of the present embodiment;

Fig. 5 is the system schematic two of the present embodiment.

Embodiment

Below in conjunction with accompanying drawing, the present invention is described in further detail.

This specific embodiment is only explanation of the invention; it is not limitation of the present invention; those skilled in the art can make to the present embodiment the amendment not having creative contribution as required after reading this instructions, as long as but be all subject to the protection of Patent Law in right of the present invention.

The electricity consumption firefighting monitoring system of a kind of Smart Home disclosed in the present embodiment, as shown in Figures 1 to 3, comprise control terminal, total data storehouse and Mishap Database, control terminal comprises mobile terminal and fixed terminal, mobile terminal can be PAD, smart mobile phone and Portable handheld computer etc., fixed terminal can be desktop computer, server etc., preferably fixed terminal is used in the present invention, due to native system control terminal namely do not need after installation is complete moving, and the arithmetic speed of fixed terminal, and performance is better than mobile terminal, therefore native system preferably adopts fixed terminal, total data storehouse and Mishap Database are preferably built by SQLserver database, be both and also can be built by other database.

As shown in Figure 1, the voltage in the voltage in detection of grid, electric current and/or load, the detection module of electric current, the detection signal that exports for wireless transmission detection module is also comprised to the wireless communication module of control terminal; Detection signal is stored to total data storehouse by control terminal, and control terminal judges detection signal, if overcurrent, overvoltage and/or under-voltage appear in the voltage in load, electric current, control terminal is stored to Mishap Database by corresponding to overcurrent, overvoltage and/or under-voltage detection signal.

In one embodiment, wireless communication module is preferably ZigBee module, also can adopt other wireless communication mode.

ZigBee is the low-power consumption LAN protocol based on IEEE802.15.4 standard.According to international standard regulation, ZigBee technology is the wireless communication technology of a kind of short distance, low-power consumption.This title (also known as ZigBee protocol) derives from the Eight characters dance of honeybee, due to honeybee (bee) by circle in the air and " drone " (zig) shake wing " dancing " and come to transmit pollen place azimuth information with companion, that is honeybee relies on such mode to constitute communication network in colony.Be characterized in closely, low complex degree, self-organization, low-power consumption, low data rate.Mainly be suitable for automatically controlling and remote control field, various equipment can be embedded.By ZigBee module can directly by data cube computation to control terminal, mutual to realize.

In one embodiment, detection module comprises the first test set and the second test set, and the first test set and the second test set include voltage transformer (VT) and current transformer, and the first test set is used for voltage, electric current in detection of grid; Second test set is for detecting voltage, the electric current in load, there is several loads in room simultaneously, and each load all has the second above-mentioned test set and wireless communication module, and the second test set and wireless communication module are all arranged in the socket in load, to detect that the waveform transfer of the electric current of corresponding load, voltage is to control terminal by wireless communication module, and data corresponding for multiple load are stored in total data storehouse by control terminal, as shown in Figure 5.

In one embodiment, when the voltage in load, electric current occur overcurrent, overvoltage and/or under-voltage time, following methods can be adopted the data of correspondence to be stored to corresponding Mishap Database, and the step of the method comprises:

Step one, carries out data acquisition by voltage transformer (VT) and current transformer to the voltage in load or electrical network, electric current;

Step 2, starts to protect interrupt spot one by the data of collection stored in internal memory in collection;

Step 3, judges whether to there is fault, if judge whether fixed, then restoring scene one, return step one, if judging is affirmative, when namely finding that there is fault data in interruption, again open up a new stack area, keep the scene intact two, to avoid conflicting with old stack area;

Step 4, allows fault data library storage to interrupt and data acquisition is interrupted, and stores to realize image data limit, limit;

Step 5, judge whether to there is other fault, if judge be affirmative, then by gather data stored in Mishap Database, then return the step judging whether to exist other fault, if it is fixed to judge whether, namely until failure removal, restoring scene two, release stack area, restoring scene one, then turns back to step one again.

And total data storehouse and Mishap Database preferably adopt hard disk to store.

In one embodiment, as shown in Figure 2, the electricity consumption firefighting monitoring system of Smart Home also comprises fault and cuts off module, and fault is cut off module and is controlled by control terminal.

Embodiment one, when control terminal detects overcurrent and/or overvoltage, control terminal control fault cuts off module work only to cut off the corresponding load producing fault, and fault is cut off module and is arranged in the socket in load, and control terminal is controlled fault cut-out module by wireless communication module.

Fault is cut off module and is preferably midget relay, the normally closed contact of midget relay is connected on the socket of load, when socket work is plugged in load, because load normally works, midget relay does not work, if load occurs abnormal, and cause occurring overcurrent and/or overvoltage phenomenon, therefore by detection module, it is detected, the waveform making control terminal receive load to break down, then control terminal controls fault switch module, midget relay can be controlled start, thus the normally closed contact of midget relay is disconnected, thus load is disconnected, to avoid the situation occurring that load damages, improve the security used.

Embodiment two, on the basis based on embodiment one, detection module also comprises the temperature detecting unit for detecting the temperature that load produces, temperature detecting unit compares with output temperature comparison signal the temperature detected and set reference temperature value and this temperature comparison signal is transferred to control terminal, if the temperature detected be greater than reference temperature value and control terminal detects overcurrent and/or overvoltage time, control terminal controls fault and cuts off module work only to cut off the corresponding load producing fault.

Temperature detecting unit comprises temperature sensor and comparer, temperature sensor is arranged in load to detect its temperature, and temperature sensor is transferred to the in-phase end of comparer after collecting the temperature of load, and the end of oppisite phase of comparer is also provided with the reference temperature value of corresponding temperature, by comparing it, temperature of detection and reference temperature value are compared, when control terminal detects overcurrent and/or overvoltage, control terminal control temperature detecting unit works, thus make temperature sensor to the temperature detection in load, if the temperature detected is greater than reference temperature value, then comparer exports a high level, by wireless communication module with the signal making control terminal receive high level, thus control terminal judges that load exists fault and causes its overcurrent and/or overvoltage there is overheated situation, avoid causing due to external interference occurring that temporary transient overvoltage and/or overcurrent are to perform the situation cutting off load, improve the rationality of monitoring, reduce accidentalia and cause the problem of cut-out.

In one embodiment, as shown in Figure 3, the electricity consumption firefighting monitoring system of Smart Home also comprises display module, and display module is controlled by control terminal to show load operating condition.Control terminal carries out computational analysis by the voltage to load, electric current, and draw the parameters such as corresponding power factor (PF), and these parameters shown by display module, display module is preferably LCD display, also can adopt other display mode.

In one embodiment, as shown in Figure 3, the electricity consumption firefighting monitoring system of Smart Home also comprises autonomous learning module and temperature and humidity regulation module, autonomous learning module definition one timing node, a temperature value and a humidity value, indoor temperature and humidity, according to defined timing node, to be adjusted to by temperature and humidity regulation module with the time period early than timing node X minute and to correspond to defined temperature value and humidity value by control terminal.

Autonomous learning module is for definition time node, temperature value and humidity value, and correspondence includes autonomous learning database, all timing nodes of house are got back to by the resident family storing front surrounding in autonomous learning database, this timing node starts record after entering house by resident family's enabling, and also storing temperature value, the humidity value that correspondence set after house is got back to by resident family, this temperature value and humidity value carry out detection by temperature sensor and humidity sensor and obtain.

Embodiment one, infer resident family in all Z(1≤Z≤7 and Z is integer) timing node of getting back to house can adopt and obtain with the following method:

The first step, when transferring all Z in front surrounding, the timing node of house is got back to by resident family, front surrounding be configured to first week, second week, the 3rd week and 4th week, and the time that correspondence gets back to house be respectively j, k, p, q;

Second step, the weight corresponding to all Z of first week is set to 10%; The weight corresponding to all Z of second week is set to 20%; The weight corresponding to all Z of the 3rd week is set to 30%; The weight corresponding to all Z of 4th week is set to 40%;

3rd step, all Z get back to the timing node=j*10%+k*20%+p*30%+q*40% of house.

Infer resident family in all Z(1≤Z≤7 and Z is integer) set by temperature value can adopt with the following method obtain:

The first step, temperature value when transferring all Z in front surrounding set by resident family, front surrounding be configured to first week, second week, the 3rd week and 4th week, and the time that correspondence gets back to house be respectively j, k, p, q;

3rd step, the temperature value=j*10%+k*20%+p*30%+q*40% set by all Z.

Infer resident family in all Z(1≤Z≤7 and Z is integer) set by humidity value can adopt with the following method obtain:

The first step, humidity value when transferring all Z in front surrounding set by resident family, front surrounding be configured to first week, second week, the 3rd week and 4th week, and the time that correspondence gets back to house be respectively j, k, p, q;

3rd step, the humidity value=j*10%+k*20%+p*30%+q*40% set by all Z.

Embodiment two, infer resident family in all Z(1≤Z≤7 and Z is integer) timing node of getting back to house can adopt and obtain with the following method:

The first step, before transferring all Z, all timing nodes of house are got back to by N Tian Zhong resident family, are N-1 days, N-2 days, N-3 days ... corresponding timing node is respectively n-1, n-2, n-3

Second step, is S N-1 days assignment, N-2 days assignment is S-1, is S-2 N-3 days assignment ..., obtain respective weights by formulae discovery: the weight of N-1 days is P _n-1=S/(S+S-1+S-2 ...); The weight of N-2 days is P _n-2=S-1/(S+S-1+S-2 ...); The weight of N-3 days is P _n-3=S-2/(S+S-1+S-2 ...)

3rd step, all Z get back to timing node=(n-1) * P of house _n-1+ (n-2) * P _n-2+ (n-3) * P _n-3

The first step, the temperature value before transferring all Z set by N Tian Zhong resident family, is N-1 days, N-2 days, N-3 days ..., corresponding temperature value is respectively n-1, n-2, n-3

3rd step, temperature value=(n-1) * P of all Z _n-1+ (n-2) * P _n-2+ (n-3) * P _n-3

The first step, the humidity value before transferring all Z set by N Tian Zhong resident family, is N-1 days, N-2 days, N-3 days ..., corresponding humidity value is respectively n-1, n-2, n-3

3rd step, humidity value=(n-1) * P of all Z _n-1+ (n-2) * P _n-2+ (n-3) * P _n-3

Embodiment three, the present embodiment is based on the method acquisition time node of embodiment one or embodiment two, temperature value and humidity value, autonomous learning module comprises personnel's detecting unit, and whether personnel's detecting unit has personnel to get back to premises for detecting in early than timing node X minute to the time period of timing node; If have personnel to get back to premises to the time period of timing node in early than timing node X minute, then control terminal control temperature and humidity regulation module works all the time; If do not have personnel to get back to premises to the time period of timing node in early than timing node X minute, then control terminal controls the closedown of temperature and humidity regulation module, personnel's detecting unit adopts pyroelectric infrared sensor, by pyroelectric infrared sensor to detect in room whether have biological thermal source, namely detect whether someone exists.

Embodiment four, on the basis of embodiment three, temperature and humidity regulation module comprises outdoor temperature humidity detecting unit, thermostat unit and humidity adjustment unit for detecting outdoor temperature humidity, detected outdoor temperature humidity is transferred to control terminal by outdoor temperature humidity detecting unit, if the temperature of outdoor is within the scope of a≤T≤b, then control terminal control temperature regulon cuts out; If the humidity of outdoor is within the scope of c≤H≤d, then control terminal controlled humidity regulon cuts out, outdoor temperature humidity detecting unit adopts Temperature Humidity Sensor to obtain outdoor humiture, thermostat unit and humidity adjustment unit are all preferably air-conditioning, owing to generally all there is air-conditioning in current room, and air-conditioning inherently has the function regulating temperature and humidity, the equipment such as well heater and humidifier also can be adopted respectively to realize.

In one embodiment, as shown in Figure 4, control terminal comprises master terminal and a point point terminal, master terminal is positioned at property center, and branch terminal to be in the room of resident family the control terminal in i.e. above-described embodiment, and point point terminal and master terminal carry out data interaction between the two, namely divide the data detected by point terminal to transfer to master terminal, be convenient to store and call.

Claims

1. the electricity consumption firefighting monitoring system of a Smart Home, comprise control terminal, total data storehouse and Mishap Database, it is characterized in that: also comprise the voltage in the voltage in detection of grid, electric current and/or load, the detection module of electric current, the detection signal that exports for wireless transmission detection module to the wireless communication module of control terminal;

2. the electricity consumption firefighting monitoring system of a kind of Smart Home according to claim 1, it is characterized in that: described detection module comprises the first test set and the second test set, described first test set and the second test set include voltage transformer (VT) and current transformer, and described first test set is used for voltage, electric current in detection of grid; Described second test set is for detecting voltage, the electric current in load.

3. the electricity consumption firefighting monitoring system of a kind of Smart Home according to claim 2, is characterized in that: described second test set and wireless communication module are all arranged in the socket in load.

4. the electricity consumption firefighting monitoring system of a kind of Smart Home according to claim 1, it is characterized in that: also comprise fault and cut off module, described fault is cut off module and is controlled by control terminal, and described control terminal is when overcurrent and/or overvoltage being detected, described control terminal controls fault and cuts off module work only to cut off the corresponding load producing fault.

5. the electricity consumption firefighting monitoring system of a kind of Smart Home according to claim 4, is characterized in that: described fault is cut off module and is arranged in the socket in load, and described control terminal is controlled fault cut-out module by wireless communication module.

6. the electricity consumption firefighting monitoring system of a kind of Smart Home according to claim 4, it is characterized in that: described detection module also comprises the temperature detecting unit for detecting the temperature that load produces, described temperature detecting unit compares with output temperature comparison signal the temperature detected and set reference temperature value and this temperature comparison signal is transferred to control terminal, if detect temperature be greater than reference temperature value and described control terminal detects overcurrent and/or overvoltage time, described control terminal controls fault and cuts off module work only to cut off the corresponding load producing fault.

7. the electricity consumption firefighting monitoring system of a kind of Smart Home according to claim 1, is characterized in that: also comprise display module, and described display module is controlled by control terminal to show load operating condition.

8. the electricity consumption firefighting monitoring system of a kind of Smart Home according to claim 1, it is characterized in that: also comprise autonomous learning module and temperature and humidity regulation module, described autonomous learning module definition one timing node, a temperature value and a humidity value, indoor temperature and humidity, according to defined timing node, to be adjusted to by temperature and humidity regulation module with the time period early than timing node X minute and to correspond to defined temperature value and humidity value by described control terminal.

9. the electricity consumption firefighting monitoring system of a kind of Smart Home according to claim 8, it is characterized in that: described autonomous learning module comprises personnel's detecting unit, whether described personnel's detecting unit has personnel to get back to premises for detecting in early than timing node X minute to the time period of timing node;

10. the electricity consumption firefighting monitoring system of a kind of Smart Home according to claim 8, it is characterized in that: described temperature and humidity regulation module comprises outdoor temperature humidity detecting unit, thermostat unit and humidity adjustment unit for detecting outdoor temperature humidity, detected outdoor temperature humidity is transferred to control terminal by described outdoor temperature humidity detecting unit, if the temperature of outdoor is within the scope of a≤T≤b, then described control terminal control temperature regulon cuts out; If the humidity of outdoor is within the scope of c≤H≤d, then described control terminal controlled humidity regulon cuts out.