CN111854065A - Intelligent household electricity energy-saving management system - Google Patents

Abstract

The invention relates to the technical field of intelligent home, in particular to an intelligent home electricity utilization energy-saving management system, which comprises a server, wherein the server comprises the following modules: the system comprises a data acquisition module, a data processing module and a data processing module, wherein the data acquisition module is used for acquiring house parameter data of a house, and the house comprises a living room and a plurality of bedrooms; an air conditioner parameter acquisition module: the system comprises a monitoring device, a monitoring system and a control device, wherein the monitoring device is used for acquiring air-withering parameter data of air-withering installed in a house; a demand acquisition module: the method comprises the steps of obtaining demand information of a user needing to start an air conditioner; the refrigerating capacity calculation module: the system comprises a room information acquisition unit, a room information acquisition unit and a control unit, wherein the room information acquisition unit is used for acquiring room information of the air conditioner; an energy-saving management module: the air conditioner screening device is used for screening air conditioners; a sending module: and the air conditioner information is used for sending the screened air conditioner information to the user. The invention solves the problems that when a plurality of air conditioners are started at the same time, the power consumption is huge, the load pressure on a line is large, and power utilization safety accidents are easily caused.

Description

Intelligent household electricity energy-saving management system

Technical Field

The invention relates to the technical field of intelligent home, in particular to an intelligent home electricity utilization energy-saving management system.

Background

With the continuous development of science and technology, electronic technology has also gained rapid development, and the variety of electronic products is also more and more, and people also enjoy various conveniences brought by the development of science and technology. And along with the continuous improvement of people's standard of living, the requirement to the house environment also continuously improves, and then the intelligent house of carrying on various electronic product is in the process of transporting. The intelligent home appliances such as the intelligent television, the intelligent air conditioner and the intelligent refrigerator appear in succession, a user can remotely control the intelligent home appliances through a network and can also control the intelligent home appliances in a voice control mode, and the operation of the user is greatly facilitated.

In hot summer, especially in cities suffering from summer heat all year round, the air conditioner is an indispensable appliance in home. For families with more people, the air conditioners can be installed in a main sleeping room, a secondary sleeping room and a living room, when household personnel are scattered in each room and the air conditioners are turned on, the intelligent air conditioners in the existing intelligent household greatly facilitate the operation of users and can achieve the energy-saving effect to a certain extent, but the plurality of air conditioners are turned on at the same time, the consumption of electric quantity is still very large, the load pressure on a circuit is also very large, and the power utilization safety accidents are easily caused.

Disclosure of Invention

The invention mainly aims to provide an intelligent household electricity energy-saving management system, which solves the problems that when a plurality of air conditioners are started at the same time, the consumed electricity quantity is huge, the load pressure on a line is large, and electricity safety accidents are easily caused.

In order to achieve the above object, there is provided an energy-saving management system for power consumption of smart home, comprising a server, the server comprising the following modules,

a house parameter acquisition module: the system comprises a data acquisition module, a data processing module and a data processing module, wherein the data acquisition module is used for acquiring house parameter data of a house, and the house comprises a living room and a plurality of bedrooms;

an air conditioner parameter acquisition module: the system comprises a monitoring device, a monitoring system and a control device, wherein the monitoring device is used for acquiring air-withering parameter data of air-withering installed in a house;

a demand acquisition module: the method comprises the steps that demand information of a user needing to start an air conditioner is obtained, wherein the demand information comprises room information of a specific room in a house and temperature information of the air conditioner in the specific room needing to be adjusted;

the refrigerating capacity calculation module: the system comprises a room information database, a room information database and a room information database, wherein the room information database is used for counting the number of rooms required to be opened by the air conditioner according to the room information, if the number of the rooms is more than one, the room refrigerating capacity required by each specific room is calculated according to the room parameter data, and a room refrigerating capacity list is generated; calculating the air conditioner refrigerating capacity of the air conditioner in each specific room according to the air conditioning parameter data, and generating an air conditioner refrigerating capacity list;

an energy-saving management module: the air conditioners are used for screening the air conditioner refrigerating capacity and the air conditioners corresponding to the modulated refrigerating capacity in the air-conditioned refrigerating capacity list, so that the starting number of the air conditioners is smaller than the number of rooms, and the comprehensively calculated air conditioner refrigerating capacity is larger than or equal to the comprehensively calculated room refrigerating capacity;

a sending module: and the air conditioner information of the air conditioner screened by the energy-saving management module is sent to the user.

The working principle and the advantages are as follows:

1. when the user buys the air conditioner, the user does not know how to buy the air conditioner and the parameters of the air conditioner, and generally recommends to buy high performance through a shopping guide. And the area size of each user's house is different for the air conditioner parameter of high performance air conditioner probably overflows for some rooms, can't give full play to the performance of air conditioner, if let a plurality of air conditioners open at the same time, it is huge to consume the electric quantity and load pressure to the circuit is also big. The house parameter acquisition module and the air conditioner parameter acquisition module are arranged to acquire the house parameters and the air conditioner parameters to provide data support for specific starting and use of the air conditioner.

2. The requirement acquisition module is arranged to acquire requirement information of a user for starting the air conditioner, for example, the air conditioner is started in a room, the temperature is adjusted to a certain degree, and the like, so that the user requirement is digitally quantized, and subsequent automatic energy-saving management is facilitated.

3. The refrigerating capacity calculation module and the energy-saving management module are arranged, so that the room refrigerating capacity required by each specific room can be calculated, and a room refrigerating capacity list is generated; calculating the air conditioner refrigerating capacity of the air conditioner in each specific room according to the air conditioning parameter data, and generating an air conditioner refrigerating capacity list; and screening the air conditioner refrigerating capacity in the air conditioning refrigerating capacity list and the air conditioners corresponding to the air conditioning refrigerating capacity, so that the number of the opened air conditioners is smaller than the number of rooms, the comprehensively calculated air conditioner refrigerating capacity is larger than or equal to the comprehensively calculated room refrigerating capacity, the performance of the air conditioners is fully exerted, the number of the opened air conditioners is reduced while the user requirements are met, and the energy-saving effect is achieved. But also can reduce the load pressure of the line and avoid the generation of electric safety accidents.

Further, still include electric quantity statistics device, the server includes following module:

electric quantity statistics module: the power consumption statistical device is used for calculating the actual power consumption after the single opening and closing period of the idle process;

electric quantity estimation module: the system is used for predicting the virtual power consumption required by the air withering under the same condition and after the air withering is completely and independently started according to the demand information;

electric quantity statistics comparison module: comparing the difference value of the actual power consumption and the virtual power consumption;

a sending module: for sending the difference to the user.

The electric quantity statistical module is used for counting the actual electric consumption of the air conditioner after the user controls the air conditioner according to the system; the electric quantity estimation module estimates that the air conditioner is in the same condition and meets all conditions of a user and virtual electric power consumption required by the air conditioner; the electric quantity statistics comparison module calculates the difference between the actual electric consumption and the virtual electric consumption, wherein the difference represents the electricity saving quantity of the user, so that the user can clearly know how much electricity is saved.

Further, still include temperature measurement device, the server includes the following module:

a temperature acquisition module: the temperature measuring device is used for acquiring temperature values of all rooms in the house;

a temperature difference calculation module: the temperature difference value of the set temperature value and the current indoor temperature value is calculated;

the temperature difference monitoring module: the temperature difference monitoring device is used for monitoring the change of the temperature difference value and the change of the power consumption of the air conditioner in a fixed period, and when the change of the temperature difference value is small and the change of the power consumption of the air conditioner is small and is maintained at a certain value, a prompt signal is generated;

a sending module: and also for sending a prompt signal to the user.

The temperature acquisition module, the temperature difference calculation module and the temperature difference monitoring module are arranged, so that saved electric energy can be displayed for a user, and the applicable viscosity of the user is improved.

Furthermore, the electric quantity counting device and the temperature measuring device are integrated into an intelligent socket, and the intelligent socket further comprises a communication module which is in remote communication with the server and an infrared control module which controls the air conditioner; the intelligent socket is electrically connected to the socket, and the air conditioner is electrically connected to the intelligent socket.

The intelligent socket is convenient to control the air conditioner to be turned on, turned off and adjusted in a remote communication mode.

Further, still include intelligent bracelet, the server still includes following module:

a sleep detection module: the intelligent bracelet is used for acquiring the sleep condition of a user;

a sleep temperature management module: the temperature adjusting device is used for acquiring a temperature value of a room in a house when a user falls asleep, comparing the temperature value with a preset sleep temperature suitable interval, and generating temperature adjusting information if the temperature value does not meet the temperature suitable interval;

a control module: and the intelligent socket is used for adjusting the set temperature of the air conditioner according to the temperature adjustment information, acquiring the current temperature information required to be adjusted and sending the temperature information to the intelligent socket.

When a human body is in a sleep stage, the sensitivity of the human body to temperature is reduced. And because the user generally starts the air conditioner, think of quick refrigeration, will adjust the set temperature of air conditioner very low, once the user enters the sleep state, very easily catch a cold, and take an electric charge. The sleep detection module and the sleep temperature management module are arranged, so that the temperature value can be adjusted to a temperature suitable interval when a user sleeps.

Further, the server further comprises the following modules:

the air conditioner use recording module: used for counting and storing the use records of the air conditioners in all rooms of the house.

Further, the server further comprises the following modules:

the using time counting module: the system is used for counting the use duration of each air conditioner according to the use record of the air conditioner;

a cleaning management module: the system comprises a time length detection module, a time length comparison module and a cleaning prompt module, wherein the time length detection module is used for comparing the use time length of the air conditioner with a preset time length threshold value, and if the use time length is greater than the preset time length threshold value, the cleaning prompt module generates cleaning prompt information;

a sending module: and is also used for sending cleaning prompt information to the user.

Since the air conditioner is not cleaned for a long time after being installed, the accumulated dust is further accumulated, which eventually causes the efficiency of the operation of the air conditioner to be gradually reduced, eventually affects the cooling and heating functions of the air conditioner, and causes additional electricity charge loss. The arrangement of the cleaning management module can regularly remind a user of cleaning the air conditioner, so that the waste of meaningless electric energy is avoided.

Further, the server further comprises the following modules:

a remaining life calculation module: the system is used for acquiring the air conditioning parameter data of each air conditioner and calculating the remaining life of each air conditioner according to the service time of each air conditioner;

a life management module: the air conditioner replacement prompting information is generated when the remaining life of the air conditioner tends to zero;

a sending module: and the air conditioner replacement prompt message is sent to the user.

When the air conditioner is used, parts of the air conditioner are lost, so that each air conditioner has a fixed service life, the loss of the air conditioner is larger near the end of the service life, and the power consumption is gradually increased. The setting of remaining life-span calculation module can each empty surplus life-span of withering, and the life-span management module can generate the air conditioner and change prompt message, and the user of being convenient for in time changes the air conditioner, avoids the extravagant unnecessary electric energy of old air conditioner.

Furthermore, the intelligent socket also comprises a control switch module, and the control switch module is used for controlling the on-off of the air conditioner; the server further comprises the following modules:

the power saving module: and when the demand information that the user needs to open the air conditioner is not received, the air conditioner is completely powered off by controlling the switch module.

The electric equipment consumes power in a standby state, and the air conditioner is no exception. Through the arrangement of the intelligent socket and the power saving module, the air conditioner can be powered on only when needed, and the condition of standby power consumption is avoided.

Further, the communication module is a WiFi module. The router is installed in most families, so that the server and the intelligent socket can be conveniently connected in a remote communication mode.

Drawings

Fig. 1 is a logic block diagram of an intelligent household electricity energy-saving management system according to an embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

examples

An intelligent household electricity energy-saving management system is basically as shown in the attached figure 1: including server, user, intelligent bracelet and smart jack. In this embodiment, the user side adopts a smart phone, and the user can send the demand information to the server and also can receive the message sent by the server. The server is connected with the Internet through the home router.

The smart socket comprises an electric quantity counting device, a temperature measuring device and a communication module in remote communication with the server, wherein the communication module is a WiFi module in the embodiment and is connected with the household router. The infrared control module is used for controlling the air conditioner, and the control switch module is used for controlling the on-off of the air conditioner; the intelligent socket is electrically connected to the socket, and the air conditioner is electrically connected to the intelligent socket.

The server comprises the following modules;

a house parameter acquisition module: the system comprises a data acquisition module, a data processing module and a data processing module, wherein the data acquisition module is used for acquiring house parameter data of a house, and the house comprises a living room and a plurality of bedrooms; the parameter data include the area size and the height in sitting room to and the area and the height in every bedroom, and a plurality of bedrooms include bedroom 1, bedroom 2 and bedroom 3 in this embodiment, and the door in bedroom 1, bedroom 2 and bedroom 3 all communicates the sitting room, and air conditioner and smart jack are all installed to every bedroom.

An air conditioner parameter acquisition module: the system comprises a monitoring device, a monitoring system and a control device, wherein the monitoring device is used for acquiring air-withering parameter data of air-withering installed in a house; the air conditioning parameter data comprises the power, the refrigerating capacity and the like of an air conditioner.

A demand acquisition module: the method comprises the steps that demand information of a user needing to start an air conditioner is obtained, wherein the demand information comprises room information of a specific room in a house and temperature information of the air conditioner in the specific room needing to be adjusted; for example, the air conditioners of the living room, the bedroom 1 and the bedroom 2 are started, and the temperature is 24 ℃ for refrigeration.

The refrigerating capacity calculation module: and counting the number of rooms required to be opened by the air conditioner according to the room information, and only opening the air conditioner of the corresponding room if the number of the rooms is one. If the number of rooms is more than one, calculating the room refrigerating capacity required by each specific room according to the room parameter data, wherein the room refrigerating capacity is equal to the refrigerating capacity X room area of the room unit area, and generating a room refrigerating capacity list, for example, the room refrigerating capacity of a living room is W1, and the refrigerating capacities of a bedroom 1 and a bedroom 2 are W2 and W3 respectively; the air conditioner cooling capacity calculation module is further used for calculating the air conditioner cooling capacity of the air conditioner in each specific room according to the air conditioning parameter data and generating an air conditioner cooling capacity list, for example, the air conditioner cooling capacity of the living room is W11, and the air conditioner cooling capacity of the bedroom 1 and the bedroom 2 is W12 and W13 respectively;

an energy-saving management module: the air conditioner refrigerating capacity screening system is used for screening air conditioner refrigerating capacity in the air conditioning refrigerating capacity list and air conditioners corresponding to the air conditioning refrigerating capacity list, the arrangement and combination modes of the air conditioner refrigerating capacity W11, the air conditioner refrigerating capacity W12 and the air conditioner refrigerating capacity W13 are 7, and the first type is W11; the second is W12; the third is W13; the fourth is W11 and W12; the fifth is W12 and W13; the sixth is W11 and W13; the seventh is W11, W12 and W13. Screening from 7 modes to ensure that the starting number of the air conditioners is less than the total number of the living room and the room, and the comprehensively calculated refrigerating capacity of the air conditioners is more than or equal to the comprehensively calculated refrigerating capacity of the room; for example, when the sum of the air-conditioning cooling capacity of the living room and the air-conditioning cooling capacity of the bedroom 1 is greater than the sum of the room cooling capacities of the living room, the bedroom 1 and the bedroom, namely W11+ W12 is greater than W1+ W2+ W3, the number of the opened air-conditioners is smaller than the number of the rooms, and the comprehensively-calculated air-conditioning cooling capacity is greater than or equal to the comprehensively-calculated room cooling capacity, so that only the air-conditioner of the living room and the air-conditioner of the bedroom 1 need to be opened, and the doors of the bedroom 1 and the bedroom 2 need to be opened, so that the living room is communicated with the bedroom 1.

A temperature acquisition module: the temperature measuring device is used for acquiring temperature values of all rooms in the house;

a temperature difference calculation module: the temperature difference value of the set temperature value and the current indoor temperature value is calculated;

the temperature difference monitoring module: the temperature difference monitoring device is used for monitoring the change of the temperature difference value and the change of the power consumption of the air conditioner in a fixed period, and when the change of the temperature difference value is small and the change of the power consumption of the air conditioner is small and is maintained at a certain value, a prompt signal is generated;

a sleep detection module: the intelligent bracelet is used for acquiring the sleep condition of a user;

a sleep temperature management module: the method is used for acquiring the temperature value of a room in the house when a user falls asleep, comparing the temperature value with a preset sleep temperature suitable interval, and generating temperature adjustment information if the temperature value does not meet the temperature suitable interval. When a human body is in a sleep stage, the sensitivity of the human body to temperature is reduced. And because the user generally starts the air conditioner, think of quick refrigeration, will adjust the set temperature of air conditioner very low, once the user enters the sleep state, very easily catch a cold, and take an electric charge. The sleep detection module and the sleep temperature management module are arranged, so that the temperature value can be adjusted to a temperature suitable interval when a user sleeps, and the effects of preventing the user from catching a cold and saving electricity are achieved.

A control module: and the intelligent socket is used for adjusting the set temperature of the air conditioner according to the temperature adjustment information, acquiring the current temperature information required to be adjusted and sending the temperature information to the intelligent socket.

Electric quantity statistics module: the power consumption statistical device is used for calculating the actual power consumption after the single opening and closing period of the idle process; for example, the actual power consumption after a single on-off period of the air conditioners in the living room and the bedroom 1 is counted. For example, the on-time is 7 pm, the off-time is 7 am, and the duration of a single on-off period is specifically 12 hours, and the power statistics module may count the sum Q1 of the power consumed by the living room and the bedroom 1 in the 12 hours.

Electric quantity estimation module: the system is used for predicting the virtual power consumption required by the air withering under the same condition and after the air withering is completely and independently started according to the demand information; for example, the virtual power consumption after the single on-off period of the air conditioners in the living room, the bedroom 1 and the bedroom 2 is counted. Under the same conditions, for example, the on-time is 7 pm, the off-time is 7 am, and the duration of a single on-off period is specifically 12 hours, the power estimation module may count the sum Q2 of the power consumed by the living room, the bedroom 1, and the bedroom 2 in the 12 hours.

Electric quantity statistics comparison module: comparing the difference value of the actual power consumption and the virtual power consumption; the calculation formula of the difference is Q2-Q1. When Δ Q is a positive number, it means that the amount of electricity consumed to turn on the air conditioners of the living room, the bedroom 1 and the bedroom 2 individually is large, and the amount of electricity consumed to turn on only the air conditioners of the living room and the bedroom 1 is small. When Δ Q is a negative number, it means that the amount of electricity consumed to turn on the air conditioners of the living room, the bedroom 1 and the bedroom 2 individually is small, and the amount of electricity consumed to turn on only the air conditioners of the living room and the bedroom 1 is large. The reason is that the internal structure of the house is problematic, for example, a long and narrow corridor is arranged between the living room and the bedroom 1 and the bedroom 2, so that cold air in the living room and the bedroom 1 cannot smoothly enter the bedroom 2, the time spent for lowering the temperature of the bedroom 2 to the temperature suitable for sleeping is long, the time for starting the air conditioner in the living room and the bedroom 1 is long, and the scheme for only starting the air conditioner in the living room and the bedroom 1 is more power-consuming compared with the scheme for completely starting the air conditioners in the living room, the bedroom 1 and the bedroom 2.

A control module: and when the delta Q is less than 0, the scheme of the air conditioner starting at this time is recorded in the server and marked as a heterogeneous energy-saving-free scheme, and when the requirement information of the same user is acquired next time, the air conditioner starting scheme executed by the electric quantity estimation module is preferentially pushed to the user. And when the delta Q is greater than 0, marking the air conditioner starting scheme executed by the electric quantity estimation module as a heterogeneous energy-saving scheme, and when the requirement information of the same user is acquired next time, preferentially pushing the air conditioner starting scheme executed by the electric quantity statistics module to the user.

The air conditioner use recording module: used for counting and storing the use records of the air conditioners in all rooms of the house.

The using time counting module: the system is used for counting the use duration of each air conditioner according to the use record of the air conditioner;

a cleaning management module: the system comprises a time length detection module, a time length comparison module and a cleaning prompt module, wherein the time length detection module is used for comparing the use time length of the air conditioner with a preset time length threshold value, and if the use time length is greater than the preset time length threshold value, the cleaning prompt module generates cleaning prompt information;

a remaining life calculation module: the system is used for acquiring the air conditioning parameter data of each air conditioner and calculating the remaining life of each air conditioner according to the service time of each air conditioner;

a life management module: the air conditioner replacement prompting information is generated when the remaining life of the air conditioner tends to zero; when the air conditioner is used, parts of the air conditioner are worn, so that each air conditioner has a fixed service life, the service life of the air conditioner in the current market is mostly 8-10 years, the more the service life is close to the end point, the larger the loss of the air conditioner is, and the power consumption and the noise are gradually increased. The setting of remaining life-span calculation module can each empty surplus life-span of withering, and the life-span management module can generate the air conditioner and change prompt message, and the user of being convenient for in time changes the air conditioner, avoids the extravagant unnecessary electric energy of old air conditioner and influences the life.

The power saving module: and when the demand information that the user needs to open the air conditioner is not received, the air conditioner is completely powered off by controlling the switch module. The electric equipment consumes power in a standby state, and the air conditioner is no exception. Through the arrangement of the intelligent socket and the power saving module, the air conditioner can be powered on only when needed, the standby power consumption condition is avoided, and the energy-saving effect is achieved.

A sending module: the air conditioner information processing module is used for sending the air conditioner information of the air conditioner screened by the energy-saving management module to a user; the difference value is also used for sending the difference value to a user; the system is also used for sending a prompt signal to a user; the cleaning system is also used for sending cleaning prompt information to a user; and the air conditioner replacement prompt message is sent to the user.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. Intelligence house power consumption energy-saving management system, its characterized in that: comprising a server, which comprises the following modules,

a house parameter acquisition module: the system comprises a data acquisition module, a data processing module and a data processing module, wherein the data acquisition module is used for acquiring house parameter data of a house, and the house comprises a living room and a plurality of bedrooms;

an air conditioner parameter acquisition module: the system comprises a monitoring device, a monitoring system and a control device, wherein the monitoring device is used for acquiring air-withering parameter data of air-withering installed in a house;

a demand acquisition module: the method comprises the steps that demand information of a user needing to start an air conditioner is obtained, wherein the demand information comprises room information of a specific room in a house and temperature information of the air conditioner in the specific room needing to be adjusted;

the refrigerating capacity calculation module: the system comprises a room information database, a room information database and a room information database, wherein the room information database is used for counting the number of rooms required to be opened by the air conditioner according to the room information, if the number of the rooms is more than one, the room refrigerating capacity required by each specific room is calculated according to the room parameter data, and a room refrigerating capacity list is generated; calculating the air conditioner refrigerating capacity of the air conditioner in each specific room according to the air conditioning parameter data, and generating an air conditioner refrigerating capacity list;

an energy-saving management module: the air conditioners are used for screening the air conditioner refrigerating capacity and the air conditioners corresponding to the modulated refrigerating capacity in the air-conditioned refrigerating capacity list, so that the starting number of the air conditioners is smaller than the number of rooms, and the comprehensively calculated air conditioner refrigerating capacity is larger than or equal to the comprehensively calculated room refrigerating capacity;

a sending module: and the air conditioner information of the air conditioner screened by the energy-saving management module is sent to the user.

2. The intelligent household electricity energy-saving management system according to claim 1, characterized in that: still include electric quantity statistics device, the server includes following module:

electric quantity statistics module: the power consumption statistical device is used for calculating the actual power consumption after the single opening and closing period of the idle process;

electric quantity estimation module: the system is used for predicting the virtual power consumption required by the air withering under the same condition and after the air withering is completely and independently started according to the demand information;

electric quantity statistics comparison module: comparing the difference value of the actual power consumption and the virtual power consumption;

a sending module: for sending the difference to the user.

3. The intelligent household electricity energy-saving management system according to claim 2, characterized in that: still include temperature measurement device, the server includes the following module:

a temperature acquisition module: the temperature measuring device is used for acquiring temperature values of all rooms in the house;

a temperature difference calculation module: the temperature difference value of the set temperature value and the current indoor temperature value is calculated;

the temperature difference monitoring module: the temperature difference monitoring device is used for monitoring the change of the temperature difference value and the change of the power consumption of the air conditioner in a fixed period, and when the change of the temperature difference value is small and the change of the power consumption of the air conditioner is small and is maintained at a certain value, a prompt signal is generated;

a sending module: and also for sending a prompt signal to the user.

4. The intelligent household electricity energy-saving management system according to claim 3, characterized in that: the intelligent socket also comprises a communication module which is in remote communication with the server and an infrared control module which controls the air conditioner; the intelligent socket is electrically connected to the socket, and the air conditioner is electrically connected to the intelligent socket.

5. The intelligent household electricity energy-saving management system according to claim 4, characterized in that: still include intelligent bracelet, the server still includes following module:

a sleep detection module: the intelligent bracelet is used for acquiring the sleep condition of a user;

a sleep temperature management module: the temperature adjusting device is used for acquiring a temperature value of a room in a house when a user falls asleep, comparing the temperature value with a preset sleep temperature suitable interval, and generating temperature adjusting information if the temperature value does not meet the temperature suitable interval;

a control module: and the intelligent socket is used for adjusting the set temperature of the air conditioner according to the temperature adjustment information, acquiring the current temperature information required to be adjusted and sending the temperature information to the intelligent socket.

6. The intelligent household electricity energy-saving management system according to claim 1, characterized in that: the server further comprises the following modules:

the air conditioner use recording module: used for counting and storing the use records of the air conditioners in all rooms of the house.

7. The intelligent household electricity energy-saving management system according to claim 6, characterized in that: the server further comprises the following modules:

the using time counting module: the system is used for counting the use duration of each air conditioner according to the use record of the air conditioner;

a cleaning management module: the system comprises a time length detection module, a time length comparison module and a cleaning prompt module, wherein the time length detection module is used for comparing the use time length of the air conditioner with a preset time length threshold value, and if the use time length is greater than the preset time length threshold value, the cleaning prompt module generates cleaning prompt information;

a sending module: and is also used for sending cleaning prompt information to the user.

8. The intelligent household electricity energy-saving management system according to claim 7, characterized in that: the server further comprises the following modules:

a remaining life calculation module: the system is used for acquiring the air conditioning parameter data of each air conditioner and calculating the remaining life of each air conditioner according to the service time of each air conditioner;

a life management module: the air conditioner replacement prompting information is generated when the remaining life of the air conditioner tends to zero;

a sending module: and the air conditioner replacement prompt message is sent to the user.

9. The intelligent household electricity energy-saving management system according to claim 4, characterized in that: the intelligent socket also comprises a control switch module, and the control switch module is used for controlling the on-off of the air conditioner; the server further comprises the following modules:

the power saving module: and when the demand information that the user needs to open the air conditioner is not received, the air conditioner is completely powered off by controlling the switch module.

10. The intelligent household electricity energy-saving management system according to claim 4, characterized in that: the communication module is a WiFi module.

Images