CN116582832A - WIFI-based power supply data acquisition method, system and equipment - Google Patents

Abstract

The invention relates to a power supply data acquisition method, system and equipment based on WIFI, which aim to realize intelligent management and control of various electric equipment, save electricity cost, improve electricity utilization efficiency, ensure electricity utilization safety and improve electricity utilization quality. The method of the invention comprises the following steps: the power, current and voltage parameters of the inserted electric appliance are measured and recorded in real time through the intelligent power socket. The system comprises an intelligent power socket, a cloud platform and an intelligent sound box. The intelligent power supply socket comprises an intelligent power supply socket with an automatic identification function and a human body infrared sensor function, a cloud platform with a processing and analyzing function, a sharing function, an early warning function and an optimizing function, and an intelligent sound box with voice identification and voice synthesis technology for realizing voice control of intelligent household power supply equipment. The invention can be applied to different electricity utilization environments and requirements of families, offices, hotels, schools and the like.

Description

WIFI-based power supply data acquisition method, system and equipment

Technical Field

The invention relates to the technical field of power data acquisition, in particular to a WIFI-based power data acquisition method, a WIFI-based power data acquisition system and WIFI-based power data acquisition equipment.

Background

Along with the development of science and technology and the improvement of living standard, people have more and more demands and uses on electric equipment, how to effectively monitor and manage the electric equipment, improve the electric efficiency and the safety, save energy and cost, and become a problem to be solved urgently. At present, some power data acquisition devices exist on the market, such as intelligent sockets, intelligent patch boards, intelligent monitors and the like, which can realize remote control and data acquisition on electric equipment, but the devices have the following defects:

the data acquisition and transmission modes are single, and the data can be connected to a mobile phone or a computer only by wired or Bluetooth modes and the like, so that the real-time updating and sharing of the data are not facilitated;

the data processing and analysis capability is weak, and only simple electricity consumption parameters can be displayed generally, so that deep data analysis and optimization suggestions are difficult to provide;

the data display and interaction functions are poor, data query and control instructions can be generally carried out only through a simple interface or voice, rich charts, curves and other forms are difficult to provide for data display and sharing, and various interaction functions are difficult to support;

the data security and reliability are low, and generally, functions such as encryption and authentication are not available, so that data leakage and tampering are easy to cause.

Therefore, a method, a system and a device for collecting power data based on WIFI are needed, which can overcome the above-mentioned shortcomings and provide more efficient, intelligent and safe power management service.

Disclosure of Invention

The invention aims to provide a WIFI-based power supply data acquisition method, a WIFI-based power supply data acquisition system and WIFI-based power supply data acquisition equipment, which have the advantages of efficient, intelligent and safe power consumption management, and solve the problem of the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: a WIFI-based power supply data acquisition method, system and equipment, wherein the method comprises the following steps:

s1, installing an intelligent power socket on power equipment to be monitored, measuring and recording power, current and voltage parameters of an electric appliance in real time, and sending the parameters to a cloud platform through a WIFI network;

s2, storing, processing, analyzing and displaying the received data on a cloud platform, generating various reports, charts and curves, providing a user-friendly interface and functions, and realizing visual monitoring of power supply data;

s3, generating a power utilization control instruction or alarm information by the cloud platform according to a preset rule and algorithm, and transmitting the power utilization control instruction or alarm information to the intelligent power socket through the WIFI network;

s4, according to the received instruction or information, the intelligent power socket adjusts the on-off, brightness and temperature parameters of the electric appliance.

Preferably, the preset rules and algorithms include the following:

calculating electricity cost and energy-saving potential according to the power, working state and using frequency factors of the electric equipment;

according to indoor and outdoor temperature, humidity and illumination environment information, parameters of air conditioner, lamplight and curtain electric equipment are adjusted;

setting the switching time and working mode parameters of the electric equipment according to habit, preference and schedule information of the user;

and detecting abnormal or dangerous electricity consumption according to the voltage, current and power data of the electric equipment, and sending alarm information.

Preferably, the intelligent power socket has an automatic identification function for automatically adjusting output voltage and current according to the type and electricity consumption of the inserted electric appliance and protecting the electric appliance from overvoltage or undervoltage.

Preferably, the intelligent power socket further comprises a human body infrared sensor for detecting the state that a human body is close to or far from the equipment and automatically controlling the on-off state of the equipment according to the set rule.

A WIFI-based power data acquisition system comprises a plurality of intelligent power sockets for measuring and recording power, current and voltage parameters of an inserted electric appliance in real time and sending the parameters to a cloud platform through a WIFI network;

the intelligent power socket is connected with the cloud platform, and the wireless router and the wireless WIFI network are used for realizing real-time transmission and receiving of data;

the cloud platform comprises a cloud platform which stores, processes, analyzes and displays received data, generates reports, charts and curves and provides user-friendly interfaces and functions.

Preferably, the cloud platform has the early warning function of monitoring and alarming abnormal or dangerous electricity consumption conditions in real time according to a set threshold value or rule and notifying a user or related personnel in a short message, mail or telephone mode.

Preferably, the cloud platform has an optimization proposal or adjustment scheme optimization function for the electric equipment according to the historical data and the analysis result.

Preferably, the cloud platform has a sharing function of sharing the electricity data and the analysis result to other users or platforms in a graph or curve mode.

A smart home power supply device based on WIFI,

the intelligent power socket comprises an intelligent power socket, a human body infrared sensor and a power control module, wherein the intelligent power socket is used for measuring and recording power, current and voltage parameters of an inserted electric appliance in real time and sending the power, current and voltage parameters to a cloud platform through a WIFI network;

the intelligent power supply monitoring device comprises an intelligent power supply monitor, a timing function and a control unit, wherein the intelligent power supply monitor can receive an instruction of a cloud platform, remotely control an intelligent power supply socket and automatically turn on or off an electric appliance on the intelligent power supply socket according to time or conditions set by a user.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention has various data acquisition and transmission modes, and can connect the electric equipment with the cloud platform through the wireless WIFI network to realize real-time transmission and reception of data

2. The data processing and analyzing capability is strong, the received data can be stored, processed, analyzed and displayed through the cloud platform, various reports, charts, curves and the like are generated, and a user-friendly interface and function are provided;

3. the data display and interaction functions are good, the power consumption data and analysis results can be shared to other users or platforms in the form of charts, curves and the like through the cloud platform, and the interaction functions are supported; the operations such as data inquiry, control instruction, optimization suggestion and the like can be performed through voice or artificial intelligence;

4. the data security and reliability are high, the data can be encrypted and authenticated through the wireless WIFI network, and the data transmission security and reliability are ensured; the cloud platform can also monitor and alarm abnormal or dangerous electricity consumption conditions in real time, and inform users or related personnel in a short message, mail, telephone and other modes.

Drawings

Fig. 1 is a schematic diagram of a WIFI-based power data acquisition system according to the present invention;

FIG. 2 is a diagram of the data transmission of the electricity consumption data report of the present invention;

fig. 3 is a schematic diagram of a WIFI-based smart home power device according to the present invention;

FIG. 4 is a graph of the relationship between the parameters of the electrical equipment and the cost and potential of energy conservation;

FIG. 5 is a graph of environmental information versus parameters of electrical equipment according to the present invention;

FIG. 6 is a graph of user information versus consumer parameters according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Please refer to example 1: the embodiment provides a WIFI-based power supply data acquisition method, which comprises the following steps:

s1, installing an intelligent power socket on power equipment to be monitored, measuring and recording power, current and voltage parameters of an electric appliance in real time, and sending the parameters to a cloud platform through a WIFI network;

d2, storing, processing, analyzing and displaying the received data on a cloud platform, generating various reports, charts and curves, providing a user-friendly interface and functions, and realizing visual monitoring of power supply data;

s3, generating a power utilization control instruction or alarm information by the cloud platform according to a preset rule and algorithm, and transmitting the power utilization control instruction or alarm information to the intelligent power socket through the WIFI network;

s4, according to the received instruction or information, the intelligent power socket adjusts the on-off, brightness and temperature parameters of the electric appliance.

In this embodiment, the intelligent power socket has an automatic identification function of automatically adjusting output voltage and current according to the type of the inserted electric appliance and the electricity consumption condition, and protecting the electric appliance from overvoltage or undervoltage. For example, when a thermos is inserted, the intelligent power socket can identify the power and the working state of the thermos, and automatically adjust the output voltage and the current according to the power consumption characteristics of the thermos, so that the thermos can work normally, and damage to the thermos due to overvoltage or undervoltage is avoided.

In this embodiment, the intelligent power socket further includes a human body infrared sensor for detecting a state that a human body approaches or gets away from the device, and automatically controlling a switching state of the device according to a set rule. For example, when a user approaches an intelligent power socket, the human body infrared sensor can detect the existence of the user and automatically turn on lights or other devices on the socket according to set rules; when the user leaves, the human body infrared sensor can detect the user's leaving and automatically turn off the lights or other devices on the socket according to the set rules.

In this embodiment, the cloud platform processes and analyzes the electricity consumption data according to a preset rule and algorithm, and generates electricity consumption control instructions or alarm information. The preset rules and algorithms include the following:

calculating electricity cost and energy-saving potential according to the power, working state and using frequency factors of the electric equipment;

according to indoor and outdoor temperature, humidity and illumination environment information, parameters of air conditioner, lamplight and curtain electric equipment are adjusted;

setting the switching time and working mode parameters of the electric equipment according to habit, preference and schedule information of the user;

and detecting abnormal or dangerous electricity consumption according to the voltage, current and power data of the electric equipment, and sending alarm information.

In this embodiment, the cloud platform further has a sharing function of sharing the electricity data and the analysis result to other users or platforms in a graph or curve form. For example, the user can share the electricity consumption data and analysis results of the home or office to friends or colleagues of the user through social media such as WeChat, microblog, QQ and the like, or share the electricity consumption data and analysis results to other intelligent home platforms or service providers through the Internet so as to acquire more electricity consumption advice or preferential information.

In this embodiment, the cloud platform further has an early warning function of monitoring and alarming abnormal or dangerous electricity consumption conditions in real time according to a set threshold or rule, and notifying a user or related personnel through a short message, a mail or a telephone mode. For example, when the voltage, current and power of the electric equipment exceed the set threshold values, the cloud platform can judge that the electric equipment is abnormal or dangerous and timely send alarm information to users or related personnel so as to take corresponding measures to avoid electric accidents.

In this embodiment, the cloud platform further has a function of optimizing suggestions or adjusting schemes for the electric equipment according to the historical data and the analysis result. For example, the cloud platform can provide an optimization proposal or adjustment scheme for the user in terms of saving electricity, improving electricity utilization efficiency, reducing electricity utilization cost and the like according to the electricity utilization data and analysis results of the user, and can enable the user to conveniently check and execute through a user-friendly interface and function.

Example 2: the embodiment provides a power data acquisition system based on WIFI, which comprises the following components:

the intelligent power supply socket comprises a cloud platform, a plurality of intelligent power supply sockets, a WIFI network and a power supply, wherein the intelligent power supply sockets are used for measuring and recording power, current and voltage parameters of an inserted electric appliance in real time and sending the power, current and voltage parameters to the cloud platform through the WIFI network;

connecting the intelligent power socket with the cloud platform to realize real-time transmission and receiving of data, wherein the wireless router and the wireless WIFI network are used for realizing real-time transmission and receiving of data;

and the cloud platform is used for storing, processing, analyzing and displaying the received data, generating reports, charts and curves and providing a user-friendly interface and function.

In this embodiment, the intelligent power socket is the same as that in embodiment 1, and has an automatic identification function and a human body infrared sensor function.

In this embodiment, the wireless router and the wireless WIFI network are used to connect the intelligent power socket with the cloud platform, so as to realize real-time transmission and reception of data. The wireless router can be any router device with a WIFI function, and the wireless WIFI network can be any wireless network conforming to the WIFI standard.

In this embodiment, the cloud platform is the same as that in embodiment 1, and has a processing and analyzing function, a sharing function, an early warning function and an optimizing function.

Example 3: the embodiment provides intelligent household power supply equipment based on WIFI, which comprises the following components:

the intelligent power socket is used for measuring and recording the power, current and voltage parameters of the inserted electric appliance in real time, transmitting the parameters to the intelligent power socket of the cloud platform through a WIFI network, automatically adjusting output voltage and current according to the type and electricity consumption condition of the inserted electric appliance, protecting the electric appliance from being influenced by overvoltage or undervoltage, and automatically identifying the electric appliance, detecting the state of a human body approaching or keeping away from the equipment, and automatically controlling the on-off state of the equipment according to a set rule;

the intelligent power supply monitor can receive instructions of the cloud platform, remotely control the intelligent power supply socket and automatically turn on or off timing functions of electric appliances on the intelligent power supply socket according to time or conditions set by a user.

In this embodiment, the smart power outlet is the same as that in embodiments 1 and 2, and has an automatic recognition function and a human body infrared sensor function.

In this embodiment, the intelligent power monitor is an intelligent device capable of communicating with a cloud platform, and is capable of receiving an instruction of the cloud platform and remotely controlling an intelligent power socket. For example, a user may send an instruction to the intelligent power monitor through an interface or function of the cloud platform, to turn on or off an appliance on a certain intelligent power socket, or to adjust parameters thereof.

In this embodiment, the intelligent power monitor further has a timing function of automatically turning on or off the electrical appliance on the intelligent power socket according to the time or condition set by the user. For example, a user may set an electrical appliance on a certain smart power socket to be automatically turned on or off when a certain period of time or a certain condition is met through an interface or a function of the smart power monitor. For example, the user may set at 7 a.m., automatically turn on the hot water kettle and coffee maker; or when the indoor temperature is lower than 18 ℃, the heating is automatically started.

Example 4: the embodiment provides intelligent household power supply equipment based on WIFI, which comprises the following components:

the intelligent power socket is used for measuring and recording the power, current and voltage parameters of the inserted electric appliance in real time, transmitting the parameters to the intelligent power socket of the cloud platform through a WIFI network, automatically adjusting output voltage and current according to the type and electricity consumption condition of the inserted electric appliance, protecting the electric appliance from being influenced by overvoltage or undervoltage, and automatically identifying the electric appliance, detecting the state of a human body approaching or keeping away from the equipment, and automatically controlling the on-off state of the equipment according to a set rule;

the intelligent power supply monitor can receive instructions of the cloud platform, remotely control the intelligent power supply socket and has a timing function of automatically starting or stopping an electric appliance on the intelligent power supply socket according to time or conditions set by a user;

the intelligent sound box can interact with a user through voice recognition and voice synthesis technology, and is communicated with the cloud platform and the intelligent power monitor through the WIFI network, so that voice control of intelligent home power equipment is achieved.

In this embodiment, the smart power outlet is the same as those in embodiments 1, 2 and 3, and has an automatic identification function and a human infrared sensor function.

In this embodiment, the intelligent power monitor has a remote control function and a timing function as in embodiment 3.

In this embodiment, the intelligent sound box is an intelligent device which can interact with a user through a voice recognition and voice synthesis technology, and is communicated with the cloud platform and the intelligent power monitor through a WIFI network, so as to realize voice control of intelligent home power equipment. For example, the user can make the intelligent sound box send an instruction to the cloud platform or the intelligent power monitor by speaking a corresponding voice instruction, so as to control the electric appliance on the intelligent power socket. For example, the user may say "hi, B, please turn on the living room light", the intelligent speaker may recognize the user's intention and send a command to the cloud platform or the intelligent power monitor to turn on the living room light. Meanwhile, the intelligent sound box can feed back execution results or other information to the user through a voice synthesis technology. For example, when the light of the living room is turned on, the smart speaker can be said to be "good" and the light of the living room is already turned on.

In this embodiment, the cloud platform is the same as that in embodiments 1, 2 and 3, and has a processing and analyzing function, a sharing function, an early warning function and an optimizing function. In addition, the cloud platform also has the function of interacting and communicating with the intelligent sound box. For example, when the cloud platform receives an instruction from the intelligent sound box, the cloud platform can execute corresponding operation according to the instruction content and return an execution result or other information to the intelligent sound box; when the cloud platform generates a power utilization control instruction or alarm information, voice prompt or reminding can be carried out on the user through the intelligent sound box. For example, when the cloud platform detects abnormal electricity consumption or danger, the intelligent sound box can say 'attention' to the user, and the user can immediately check whether the electric equipment in the home has a problem.

In order to illustrate the superiority or effect of the invention, some charts or data can be added to show the aspects of saving the electricity cost, improving the electricity utilization efficiency, guaranteeing the electricity utilization safety and the like. For example:

1. saving electricity cost: the electricity consumption cost which can be saved by the invention can be calculated by comparing the electricity consumption and the electricity consumption cost of the same electric equipment in the same time period under the condition of using the invention and not using the invention. As shown in table 1, the electricity consumption and the electricity cost of one hot water kettle in one month using and not using the present invention are shown. As can be seen from the figure, under the condition of using the invention, the electricity consumption and the electricity consumption cost of the water heating kettle are lower by about 30 percent than those under the condition of not using the invention, which shows that the invention can save the electricity consumption cost of the water heating kettle.

TABLE 1

2. Improvement of electricity utilization efficiency: the power utilization efficiency which can be improved by the invention can be calculated by comparing the power factors of the same electric equipment in the same working state under the condition of using the invention and not using the invention. The power factor refers to the ratio of active power to apparent power, reflecting the degree of utilization of electrical energy by the device. The closer the power factor is to 1, the more fully the device utilizes the electric energy, and the higher the electric efficiency. As shown in table 2, the power factor of an air conditioner in a cooling mode using and without using the present invention is shown. As can be seen from the figure, the power factor of the air conditioner is 0.95 in the case of using the present invention, and 0.85 in the case of not using the present invention, which means that the present invention can improve the electricity efficiency of the air conditioner.

Improvement of electricity utilization efficiency	Use of the invention	Without using the invention
			Air conditioner power factor	0.95	0.85

TABLE 2

3. And (3) ensuring electricity safety: the electricity utilization safety which can be ensured by the invention can be calculated by comparing the times and types of the abnormal or dangerous events which occur in the same electric equipment in the same time period under the conditions of using the invention and not using the invention. Abnormal or dangerous events include over-voltage, under-voltage, over-current, short circuit, electrical leakage, fire, etc. Table 3 shows the number of abnormal or dangerous events that occur in a microwave oven during a year using and without the present invention. As can be seen from the figure, in the case of using the present invention, the microwave oven does not have any abnormality or dangerous event in one year; under the condition that the invention is not used, the microwave oven has 3 times of overvoltage, 2 times of undervoltage, 1 time of overcurrent and 1 time of short circuit events in one year, which shows that the invention can ensure the microwave oven

TABLE 3 Table 3

Table 4 measurement data of power, current and voltage of electric equipment

Electric equipment	Power (W)	Current (A)	Voltage (V)	Electric equipment
					Air conditioner	1200	5.2	230	Air conditioner
Television set	80	0.4	200	Television set
					Refrigerator with a refrigerator body	150	0.8	190	Refrigerator with a refrigerator body

TABLE 4 Table 4

Table 5 calculation data of electricity cost and energy saving potential of electric equipment

TABLE 5

TABLE 6 measurement data of ambient temperature and humidity and illumination

TABLE 6

TABLE 7 data for adjusting air conditioner parameters and curtain parameters

TABLE 7

The automatic identification function, the human body infrared sensor function and the processing and analysis function of the cloud platform are supplemented with respect to the intelligent power socket in the scheme.

Automatic identification function of intelligent power socket: the intelligent power socket has the automatic identification function of automatically adjusting output voltage and current according to the type and electricity consumption condition of the inserted electric appliance and protecting the electric appliance from overvoltage or undervoltage. This function is achieved by providing a microcontroller and a voltage-current sensor inside the smart power outlet. The microcontroller can be matched with a preset electrical appliance type and electricity utilization characteristic database according to the power and the working state of the electrical appliance measured by the voltage and current sensor, so that the inserted electrical appliance type is identified, and the output voltage and current are automatically regulated according to the electricity utilization characteristic of the inserted electrical appliance type. The function can effectively protect electric equipment of different types from overvoltage or undervoltage, and improves the safety and efficiency of electricity.

Human infrared sensor function: the intelligent power socket also comprises a human body infrared sensor function for detecting the state that a human body is close to or far from the equipment and automatically controlling the on-off state of the equipment according to the set rule. This function is achieved by providing a human infrared sensor outside the smart power outlet. The human body infrared sensor can detect whether a human body is close to or far from equipment according to an infrared signal sent by the human body, and sends a detection result to the microcontroller. The microcontroller can judge the received detection result according to the rule set by the user, and automatically control the on-off state of the equipment according to the judgment result. The function can effectively save electricity and improve the convenience and comfort of electricity.

Processing and analyzing functions of the cloud platform: the cloud platform provided by the invention has the functions of storing, processing, analyzing and displaying the received data, generating various reports, charts and curves, providing a user-friendly interface and functions, and realizing the processing and analysis functions of visual monitoring of the power supply data. This function is achieved by providing a data processing module and a data analysis module on the cloud platform. The data processing module can perform operations such as cleaning, sorting and storing on the received data, and sends the processed data to the data analysis module. The data analysis module can perform various operations such as statistics, calculation, comparison, prediction and the like on the received data, and display analysis results to a user in various forms such as reports, charts, curves and the like, and provides a user-friendly interface and functions, so that the user can conveniently view and manage own electricity consumption data and analysis results. The function can effectively realize the visual monitoring of the power supply data and improve the transparency and the intelligence of electricity consumption.

Examples:

to illustrate the application scenario or field of the present invention, some descriptions or examples of the present invention are added:

family: the invention can be applied to various electric equipment in families, such as televisions, refrigerators, washing machines, air conditioners, water heaters and the like, and realizes intelligent management and control of household electricity. The user can check and control the electric equipment in the family through the cloud platform or the intelligent sound box at any time and any place, so that the electricity cost is saved, the electricity utilization efficiency is improved, the electricity utilization safety is ensured, and the life quality is improved. For example, before a user goes out, he says "hi, small B, please turn off all electric devices" through the intelligent sound box, the intelligent sound box sends an instruction to the cloud platform, so that all intelligent power sockets turn off electric appliances on the sockets, and electric energy waste is avoided; before the user returns home, the air conditioner and the water heater are turned on through the cloud platform, so that the user can reach comfortable temperature and humidity in advance; the user can also check the electricity consumption and the electricity consumption cost of each electric equipment in the home through the cloud platform, analyze own electricity consumption habit and energy saving potential, and improve own electricity consumption mode according to the optimization suggestions or adjustment schemes provided by the cloud platform.

Office: the invention can be applied to various electric equipment in offices, such as computers, printers, projectors, air conditioners, lamplight and the like, and realizes intelligent management and control of the power consumption of the offices. The user can check and control the electric equipment in the office at any time and any place through the cloud platform or the intelligent sound box, so that the electricity cost is saved, the working efficiency is improved, the working safety is ensured, and the working quality is improved. For example, before a user can go to work, say "hi, small B, please turn on the computer and light on my desk" through the intelligent sound box, the intelligent sound box will send an instruction to the cloud platform, so that the intelligent power socket on the user desk turns on the computer and light on the socket, and the user can start working quickly; after the user gets out of work, all the electric equipment can be closed through the cloud platform, so that electric energy waste is avoided; the user can also check the electricity consumption and electricity consumption cost of each area or department of the office through the cloud platform, analyze the electricity consumption efficiency and energy saving potential of the office, and improve the electricity consumption mode of the office according to the optimization suggestions or adjustment schemes provided by the cloud platform.

Hotel: the intelligent management and control system can be applied to various electric equipment in the hotel, such as air conditioners, lights, curtains, mini bars and the like in a guest room, and can realize intelligent management and control of hotel electricity. The user can check and control the electric equipment in the hotel at any time and any place through the cloud platform or the intelligent sound box, so that accommodation cost is saved, accommodation comfort is improved, accommodation safety is guaranteed, and accommodation quality is improved. For example, before a user can check in, he can say 'hi, B through a cloud platform or an intelligent sound box, please subscribe me for a luxury big bed room, and set my preference', the intelligent sound box can send a command to the cloud platform, so that the cloud platform subscribes a luxury big bed room for the user, and according to the preference of the user, the parameters such as air-conditioning temperature, light brightness, curtain switch and the like in the guest room are automatically adjusted, so that the user feels comfortable and satisfied when the user checks in; the user can check and control the electric equipment in the guest room, such as 'hi, small B, please give some beer to me' at any time through the cloud platform or the intelligent sound box during the living, the intelligent sound box can send an instruction to the cloud platform to enable the mini bar refrigerator in the guest room to be opened, and the beer is put into the refrigerator; before the user returns to the house, the user can check the power consumption and the electricity fee through the cloud platform or the intelligent sound box, and settle accounts or evaluates the power consumption and the electricity fee.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (9)

1. A power supply data acquisition method based on WIFI is characterized by comprising the following steps: the method comprises the following steps:

s1, installing an intelligent power socket on power equipment to be monitored, measuring and recording power, current and voltage parameters of an electric appliance in real time, and sending the parameters to a cloud platform through a WIFI network;

s2, storing, processing, analyzing and displaying the received data on a cloud platform, generating various reports, charts and curves, providing a user-friendly interface and functions, and realizing visual monitoring of power supply data;

s3, generating a power utilization control instruction or alarm information by the cloud platform according to a preset rule and algorithm, and transmitting the power utilization control instruction or alarm information to the intelligent power socket through the WIFI network;

s4, according to the received instruction or information, the intelligent power socket adjusts the on-off, brightness and temperature parameters of the electric appliance.

2. The method according to claim 1, characterized in that: the preset rules and algorithms include the following:

calculating electricity cost and energy-saving potential according to the power, working state and using frequency factors of the electric equipment;

according to indoor and outdoor temperature, humidity and illumination environment information, parameters of air conditioner, lamplight and curtain electric equipment are adjusted;

setting the switching time and working mode parameters of the electric equipment according to habits, preferences and schedule information of users;

and detecting abnormal or dangerous electricity consumption according to the voltage, current and power data of the electric equipment, and sending alarm information.

3. The method according to claim 1, characterized in that: the intelligent power socket has the automatic identification function of automatically adjusting output voltage and current according to the type and electricity consumption condition of the inserted electric appliance and protecting the electric appliance from overvoltage or undervoltage.

4. The method according to claim 1, characterized in that: the intelligent power socket also comprises a human body infrared sensor for detecting the state that a human body is close to or far from the equipment and automatically controlling the on-off state of the equipment according to the set rule.

5. The utility model provides a power data acquisition system based on WIFI which characterized in that:

the intelligent power supply socket comprises a plurality of intelligent power supply sockets for measuring and recording the power, current and voltage parameters of the inserted electric appliances in real time and sending the parameters to the cloud platform through a WIFI network;

the intelligent power socket is connected with the cloud platform, and the wireless router and the wireless WIFI network are used for realizing real-time transmission and receiving of data;

the cloud platform comprises a cloud platform which stores, processes, analyzes and displays received data, generates reports, charts and curves and provides user-friendly interfaces and functions.

6. The system according to claim 5, wherein: the cloud platform has the early warning function of monitoring and alarming abnormal or dangerous electricity consumption conditions in real time according to a set threshold value or rule and informing a user or related personnel in a short message, mail or telephone mode.

7. The system according to claim 5, wherein: the cloud platform has the function of optimizing suggestions or adjusting schemes for the electric equipment according to the historical data and the analysis result.

8. The system according to claim 5, wherein: the cloud platform has a sharing function of sharing electricity consumption data and analysis results to other users or platforms in a graph mode.

9. A WIFI-based intelligent home power supply device is characterized in that,

the intelligent power socket comprises an intelligent power socket, a human body infrared sensor and a power control module, wherein the intelligent power socket is used for measuring and recording power, current and voltage parameters of an inserted electric appliance in real time and sending the power, current and voltage parameters to a cloud platform through a WIFI network;

the intelligent power supply monitoring system comprises an intelligent power supply monitor, a timing function and a control module, wherein the intelligent power supply monitor receives an instruction of a cloud platform, carries out remote control on an intelligent power supply socket, and also has the timing function of automatically starting or stopping an electric appliance on the intelligent power supply socket according to time or conditions set by a user.