CN115327962A - Power supply control method of household equipment, socket and electronic equipment - Google Patents

Abstract

The application discloses a power supply control method of household equipment, a socket and electronic equipment, and relates to the technical field of intelligent household. The electronic equipment can automatically disconnect the household equipment from the power supply after determining that the household equipment is in a standby state or an abnormal working state based on the electricity utilization data of the household equipment. Because the connection between the household equipment and the power supply is not required to be manually disconnected by a user, on one hand, the efficiency of disconnecting the connection between the household equipment and the power supply is improved, on the other hand, the operation of the user is simplified, and the user experience is improved. And the electronic equipment can automatically disconnect the household equipment from the power supply after determining that the household equipment is in the abnormal working state, so that the household equipment can be prevented from being damaged, and the service life of the household equipment can be prolonged.

Description

Power supply control method of household equipment, socket and electronic equipment

Technical Field

The application relates to the technical field of smart home, in particular to a power supply control method of home equipment, a socket and electronic equipment.

Background

The household equipment can be connected with the mains supply through the socket so as to work under the driving of the mains supply. After the home equipment stops working, namely is in a standby state, if the commercial power is still connected, the electric energy is still consumed.

In order to reduce the power consumption, the user can manually turn off the socket after the household equipment is in a standby state, so as to disconnect the household equipment from the mains supply.

However, the above-described manner of disconnecting the household device from the power supply is inefficient.

Disclosure of Invention

The application provides a power supply control method of household equipment, a socket and electronic equipment, and can solve the problem of low efficiency of a mode of disconnecting the household equipment from a power supply in the related art. The technical scheme is as follows:

on one hand, a power supply control method of household equipment is provided, and is applied to electronic equipment, and the method comprises the following steps:

acquiring power consumption data of household equipment, wherein the power consumption data comprises at least one of working current and output power of the household equipment, and the household equipment is connected with a power supply through a switch;

if any parameter in the electricity consumption data of the household equipment at the target time is smaller than a corresponding first parameter threshold value, or any parameter in the electricity consumption data at the target time is larger than a corresponding second parameter threshold value, determining a working state of the household equipment based on the electricity consumption data acquired after the target time, wherein the working state is one of the following states: the second parameter threshold is greater than the first parameter threshold;

and if the working state of the household equipment is the standby state or the abnormal working state, the switch is turned off to disconnect the household equipment from the power supply.

In another aspect, an electronic device is provided, which includes a processor configured to:

acquiring power consumption data of household equipment, wherein the power consumption data comprises at least one of working current and output power of the household equipment, and the household equipment is connected with a power supply through a switch;

if any parameter in the electricity consumption data of the household equipment at the target time is smaller than a corresponding first parameter threshold value, or any parameter in the electricity consumption data at the target time is larger than a corresponding second parameter threshold value, determining a working state of the household equipment based on the electricity consumption data acquired after the target time, wherein the working state is one of the following states: the second parameter threshold is larger than the first parameter threshold;

and if the working state of the household equipment is the standby state or the abnormal working state, the switch is turned off so as to disconnect the household equipment from the power supply.

In yet another aspect, there is provided a socket including: a processor and a switch; the processor is configured to:

acquiring power consumption data of household equipment, wherein the power consumption data comprises at least one of working current and output power of the household equipment, and the household equipment is connected with a power supply through the switch;

if any parameter in the electricity consumption data of the household equipment at the target time is smaller than a corresponding first parameter threshold value, or any parameter in the electricity consumption data at the target time is larger than a corresponding second parameter threshold value, determining a working state of the household equipment based on the electricity consumption data acquired after the target time, wherein the working state is one of the following states: the second parameter threshold is larger than the first parameter threshold;

and if the working state of the household equipment is the standby state or the abnormal working state, the switch is turned off to disconnect the household equipment from the power supply.

In still another aspect, an electronic device is provided, which includes: the household equipment power supply control method comprises a memory, a processor and a computer program which is stored on the memory and can run on the processor, wherein when the processor executes the computer program, the power supply control method of the household equipment is realized.

In still another aspect, a computer-readable storage medium is provided, in which a computer program is stored, and the computer program is loaded and executed by a processor to implement the power supply control method for a household device according to the above aspect.

In still another aspect, a computer program product containing instructions is provided, which when running on the computer, causes the computer to execute the power supply control method of the household equipment in the above aspect.

The beneficial effect that technical scheme that this application provided brought includes at least:

the application provides a power supply control method of household equipment, a socket and electronic equipment. Because the connection between the household equipment and the power supply is not required to be manually disconnected by a user, on one hand, the efficiency of disconnecting the connection between the household equipment and the power supply is improved, on the other hand, the operation of the user is simplified, and the user experience is improved. And the electronic equipment can automatically disconnect the household equipment from the power supply after determining that the household equipment is in the abnormal working state, so that the household equipment can be prevented from being damaged, and the service life of the household equipment can be prolonged.

In addition, after the electronic device determines that any parameter in the electricity utilization data at the target time is smaller than the corresponding first parameter threshold value, or after any parameter in the electricity utilization data at the target time is larger than the corresponding second parameter threshold value, the working state of the household device is determined based on the electricity utilization data acquired after the target time, and the working state of the household device does not need to be determined based on the electricity utilization data in real time, so that the computing resources of the electronic device can be saved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a flowchart of a power supply control method for household equipment provided in an embodiment of the present application;

fig. 2 is a schematic diagram of an implementation environment related to a power supply control method for household equipment provided in an embodiment of the present application;

fig. 3 is a flowchart of a power supply control method for another household device according to an embodiment of the present application;

fig. 4 is a block diagram of a socket according to an embodiment of the present disclosure;

fig. 5 is a schematic diagram of an implementation environment related to another power supply control method for household equipment according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a socket provided in an embodiment of the present application;

fig. 7 is a schematic diagram of a mobile terminal displaying a reminder message according to an embodiment of the present application;

fig. 8 is a schematic diagram of another mobile terminal displaying an alert message according to an embodiment of the present application;

fig. 9 is a schematic diagram of another mobile terminal displaying a reminder message according to an embodiment of the present application;

fig. 10 is a block diagram of an electronic device according to an embodiment of the present application.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

The embodiment of the application provides a power supply control method of household equipment, and the method is applied to electronic equipment. The electronic device may be a server or a socket. The server may be a server, or may be a server cluster composed of a plurality of servers, or may be a cloud computing service center. The receptacle may be a movable-position receptacle (e.g., a strip) or may be a fixed-position receptacle. Referring to fig. 1, the method includes:

step 101, acquiring power consumption data of the household equipment.

Wherein, the power consumption data of house equipment includes: at least one of operating current and output power of the household equipment. For example, the electricity usage data may include: operating current and output power. The working current is as follows: the current flowing through the household equipment.

The household equipment (also called as electric equipment) is connected with a power supply through a switch, and the power supply can supply power to the household equipment. The power supply can be commercial power or a storage battery. The switch may be a switch in a socket. Namely, the household equipment can be connected with the power supply through the switch in the socket.

In the embodiment of the application, if the electronic equipment is a socket, the socket can directly acquire the electricity consumption data of the household equipment. If the electronic device is a server, and referring to fig. 2, a communication connection is established between the electronic device 110 and the socket 120. The socket can collect electricity utilization data of the household equipment and can send the electricity utilization data to the electronic equipment through the communication connection. Accordingly, the electronic device can acquire the power utilization data.

And 102, if any parameter in the electricity utilization data of the household equipment at the target time is smaller than a corresponding first parameter threshold value, or any parameter in the electricity utilization data at the target time is larger than a corresponding second parameter threshold value, determining the working state of the household equipment based on the electricity utilization data acquired after the target time.

The working state of the household equipment is one of the following states: normal operating state, abnormal operating state and standby state. The normal working state is as follows: the home equipment is in a state of working with the parameters which are more than or equal to the first parameter threshold value and less than or equal to the second parameter threshold value. The standby state may refer to: the home equipment is in a state of working with the parameter smaller than the first parameter threshold value. The abnormal operating state may refer to: and the household equipment works in a parameter larger than the second parameter threshold value. This abnormal operating state may also be referred to as a high power state.

The second parameter threshold is greater than the first parameter threshold. If any parameter in the electricity consumption data of the household equipment is the working current, the corresponding parameter threshold (i.e., the first parameter threshold and the second parameter threshold) is the current threshold. If any parameter in the electricity consumption data of the household equipment is the output power, the corresponding parameter threshold (i.e., the first parameter threshold and the second parameter threshold) is the power threshold.

And 103, if the working state of the household equipment is a standby state or an abnormal working state, turning off the switch to disconnect the household equipment from the power supply.

When the household equipment is in a standby state, if the connection between the household equipment and the power supply is not disconnected, the household equipment can continuously consume electric energy. When the household equipment is in an abnormal working state, if the connection between the household equipment and the power supply is not disconnected, the household equipment may be damaged, and a safety accident may be caused. Based on this, after the electronic device obtains the working state of the household device, if the working state is determined to be the standby state or the abnormal working state, the switch can be turned off to disconnect the household device from the power supply, so that the power supply stops supplying power to the household device.

In this embodiment, if the electronic device is a socket, the socket may directly turn off the switch to disconnect the connection between the household device and the power supply. If the electronic equipment is a server, the electronic equipment can send a disconnection instruction to a socket connected with the household equipment. The socket can respond to a disconnection instruction and turn off the switch so as to disconnect the household equipment from the power supply.

To sum up, the embodiment of the present application provides a power supply control method for a home device, where an electronic device is capable of automatically disconnecting a connection between a home device and a power supply after determining that the home device is in a standby state or an abnormal operating state based on power consumption data of the home device. Because the connection between the household equipment and the power supply is not required to be manually disconnected by a user, on one hand, the efficiency of disconnecting the connection between the household equipment and the power supply is improved, on the other hand, the operation of the user is simplified, and the user experience is improved. And the electronic equipment can automatically disconnect the household equipment from the power supply after determining that the household equipment is in the abnormal working state, so that the household equipment can be prevented from being damaged, and the service life of the household equipment can be prolonged.

In addition, after the electronic device determines that any parameter in the electricity utilization data at the target time is smaller than the corresponding first parameter threshold value, or after any parameter in the electricity utilization data at the target time is larger than the corresponding second parameter threshold value, the working state of the household device is determined based on the electricity utilization data acquired after the target time, and the working state of the household device does not need to be determined based on the electricity utilization data in real time, so that the computing resources of the electronic device can be saved.

Fig. 3 is a flowchart of another power supply control method for household equipment, which may be applied to electronic equipment. Referring to fig. 3, the method may include:

step 201, acquiring power consumption data of the household equipment.

Wherein the electricity consumption data comprises at least one of the working current and the output power of the household equipment. For example, the electricity usage data may include: the working current and the output power of the household equipment. The household equipment is connected with the power supply through the switch, and the power supply can supply power for the household equipment. The power supply can be commercial power or a storage battery. The switch may be a switch in a socket. Namely, the household equipment can be connected with the power supply through the switch in the socket.

For example, referring to fig. 4, receptacle 120 has an electrical interface 0a and the receptacle includes a switch 01. A first terminal of the switch 01 is connected to the electrical interface 0a, and a second terminal of the switch 01 is used for connecting to a power supply. And when the socket is connected with a power supply, the second end of the switch 01 can be connected with the power supply.

The electrical interface 0a is used for connecting with household equipment. And the household equipment can be connected with the power supply through the switch 01 after being connected with the electrical interface 0 a. Alternatively, the switch 01 may be a relay.

In the embodiment of the application, the socket can periodically acquire the electricity utilization data of the household equipment according to the sampling period. The sampling period may be pre-stored by the socket. For the implementation mode that the electronic equipment is the socket, the socket can directly acquire the electricity utilization data of the household equipment connected with the socket.

For the implementation mode in which the electronic device is a server, referring to fig. 2, a communication connection is established between the server 110 and the socket 120, and the socket can send the collected electricity consumption data of the home device to the server through the communication connection. Correspondingly, the server can obtain the electricity consumption data of the household equipment.

Alternatively, the communication connection established between the server 110 and the outlet 120 may be a wired communication connection or a wireless communication connection. Wherein, the wireless communication connection may be: one of a wireless fidelity (Wi-Fi) connection, a Bluetooth connection, a ZigBee protocol connection, and a cellular communication connection. The bluetooth connection may be a Bluetooth Low Energy (BLE) connection.

In the present embodiment, referring to fig. 5, the server 110 may be connected to the socket 120 through the router 130. That is, the router 130 may be connected to the server 110 and the socket 120, respectively, so as to establish a communication connection between the server 110 and the socket 120.

In the embodiment of the present application, referring to fig. 4, the socket 120 may further include: a controller 02, and a detection component 03 connected with the controller 02. This detecting element 03 can gather household equipment's operating current and output to can send the operating current and the output who gather to controller 02.

Wherein, this detection component 03 can include: a current sensing element and an output power sensing element. The current detection element can collect the working current of the household equipment, and the output power collection element can collect the output power of the household equipment.

Optionally, the electricity data may further include an operating voltage of the household device. The operating voltage is: a voltage applied to the household device. It can be understood that, if the electricity data further includes an operating voltage of the household device, the detector may further include: the voltage detection element can collect the working voltage of the household equipment.

Optionally, with continued reference to fig. 4, the socket 120 may further include: and a communication module 04 connected to the controller 02. The controller 02 may send the acquired electricity consumption data of the household equipment to the server through the communication module 04. Wherein, this communication module 04 includes: the antenna can be an on-board antenna or an external antenna and the like.

Step 202, if any parameter in the electricity consumption data of the household equipment at the target time is smaller than a corresponding first parameter threshold value or larger than a corresponding second parameter threshold value, determining the working state of the household equipment based on the electricity consumption data acquired after the target time.

In the embodiment of the application, after the electronic device acquires the power consumption data of the household device, whether any parameter in the power consumption data of the household device at the target moment is smaller than a corresponding first parameter threshold value or not and whether any parameter is larger than a corresponding second parameter threshold value or not can be detected. The power utilization data of the household equipment at the target moment is the latest power utilization data acquired by the electronic equipment. Correspondingly, the target time is the acquisition time of the latest power consumption data. Any parameter in the electricity usage data may be an operating current or an output power in the electricity usage data.

If the electronic equipment determines that any parameter in the electricity consumption data of the household equipment at the target moment is greater than or equal to the corresponding first parameter threshold value and less than or equal to the corresponding second parameter threshold value, the household equipment can be determined to be in a normal working state. Wherein, this normal operating condition means: and the household equipment works in a state of a parameter which is greater than or equal to the first parameter threshold value and less than or equal to the second parameter threshold value of the household equipment.

If the electronic device determines that any parameter in the power consumption data of the household device at the target time is smaller than the corresponding first parameter threshold or larger than the corresponding second parameter threshold, the electronic device may determine a working state of the household device based on the power consumption data acquired after the target time, where the working state includes one of the following states: normal operating state, abnormal operating state and standby state. Wherein, the standby state may refer to: and the household equipment works in a parameter less than the first parameter threshold value. The abnormal operating state may refer to: and the household equipment works in a parameter larger than the second parameter threshold value. This abnormal operating state may also be referred to as a high power state.

After the electronic equipment determines that any parameter in the electricity utilization data of the household equipment at the target moment is smaller than the corresponding first parameter threshold value or larger than the corresponding second parameter threshold value, the working state of the household equipment is determined based on the electricity utilization data after the target moment, so that the waste of processing resources of the electronic equipment can be avoided.

In the embodiment of the application, if any parameter of the electricity consumption data of the household equipment is the working current, the corresponding first parameter threshold is the first current threshold, and the corresponding second parameter threshold is the second current threshold. The second current threshold is greater than the first current threshold. If any one of the parameters is the output power, the corresponding first parameter threshold is a first power threshold, and the corresponding second parameter threshold is a second power threshold. The second power threshold is greater than the first power threshold. The first current threshold, the second current threshold, the first power threshold, and the second power threshold may all be pre-stored by the electronic device. I.e. the second parameter threshold is larger than the first parameter threshold.

The first current threshold and the first power threshold may be obtained by testing the household device in a standby state by a worker. The second current threshold may be a maximum current when the home equipment normally works, and the second power threshold may be a maximum power when the home equipment normally works.

It is understood that the maximum current is not the starting instantaneous current of the household equipment, and the maximum power is not the starting instantaneous power of the household equipment. Although the current has impact when the household equipment is started, the current can be quickly reduced, so that the second current threshold value is set as the maximum current when the household equipment normally works, and the second power threshold value is set as the maximum power when the household equipment normally works, and the accuracy of determining the working state of the household equipment based on the second current threshold value and the second power threshold value can be ensured to be higher.

The electronic device determines the working state of the home equipment based on the power consumption data acquired after the target time, and the following two optional implementation manners are taken as examples in the embodiment of the application to exemplarily explain the process of determining the working state of the home equipment based on the power consumption data acquired after the target time.

In a first optional implementation manner, the electronic device may detect whether any parameter included in the power consumption data acquired after the target time is smaller than a corresponding first parameter threshold value, and whether the any parameter is larger than a corresponding second parameter threshold value. If the electronic equipment determines that any parameter included in the electricity utilization data is smaller than the corresponding first parameter threshold value, the household equipment can be determined to be in a standby state. If the electronic equipment determines that any parameter included in the electricity utilization data is larger than the corresponding second parameter threshold value, the household equipment can be determined to be in an abnormal working state. Namely, the working state of the household equipment is an abnormal working state. If the electronic equipment determines that any parameter included in the electricity utilization data is larger than or equal to the corresponding first parameter threshold value and smaller than or equal to the corresponding second parameter threshold value, the household equipment can be determined to be in a normal working state.

The first current threshold and the second current threshold corresponding to the working current, and the first power threshold and the second power threshold corresponding to the output power may be pre-stored by the electronic device.

In the embodiment of the present application, for the implementation that the electronic device is a socket, referring to fig. 4, the socket 120 may further include an interaction component 05 connected to the controller 02. The socket may retrieve and store the first current threshold, the second current threshold, the first power threshold, and the second power threshold via the interactive component 05. Optionally, the interactive component 05 may include: a display screen and/or a microphone. For example, referring to fig. 6, the interactive component may include a display screen 051.

If the socket comprises a display screen, the socket can respond to the operation that a worker inputs the first current threshold, the second current threshold, the first power threshold and the second power threshold in the display screen, and the first current threshold, the second current threshold, the first power threshold and the second power threshold are obtained and stored.

If the socket comprises a microphone, the socket can collect a first voice message sent by a worker and used for indicating the setting of the first current threshold, the second current threshold, the first power threshold and the second power threshold, and acquire and store the first current threshold, the second current threshold, the first power threshold and the second power threshold from the first voice message.

For the implementation in which the electronic device is a server, referring to fig. 5, the electronic device 110 further establishes a communication connection with the mobile terminal 140. The first current threshold, the second current threshold, the first power threshold, and the second power threshold may be transmitted by the mobile terminal to the electronic device. The process of obtaining the first current threshold, the second current threshold, the first power threshold, and the second power threshold by the mobile terminal may refer to the process of obtaining the first current threshold, the second current threshold, the first power threshold, and the second power threshold by the socket, which is not described herein again in this embodiment of the application.

In a second optional implementation manner, the electronic device may input the electricity consumption data acquired after the target time into the state detection model of the home equipment, so as to obtain the working state of the home equipment output by the state detection model.

The state detection model may be obtained by the electronic device being trained in advance based on a large amount of sample data. Each sample data may include: and when the sample power consumption data of the household equipment and the power consumption data of the household equipment are the sample power consumption data, the working state of the household equipment is realized.

Optionally, the electronic device may determine the working state of the household device based on the power consumption data of the household device acquired within a target time period after the target time. Therefore, the accuracy of determining the working state of the household equipment can be high, and the disconnection reliability of the connection between the power supply and the household equipment can be high.

Wherein, the target duration may be pre-stored by the electronic device. Any parameter in the electricity consumption data of the household equipment at the target moment is smaller than the target time length under the corresponding first parameter threshold, and any parameter in the electricity consumption data at the target moment can be larger than or equal to the target time length under the corresponding second parameter threshold.

For example, the target duration of the household device when any parameter in the power consumption data of the household device at the target time is smaller than the corresponding first parameter threshold may be 20 minutes (min), and the target duration of the household device when any parameter in the power consumption data of the household device at the target time is larger than the corresponding second parameter threshold may be 5min. That is, if any parameter in the electricity consumption data of the home equipment at the target time is smaller than the corresponding first parameter threshold, the electronic equipment may acquire the electricity consumption data 20min after the target time, and determine the operating state of the home equipment based on the electricity consumption data 20 min. If any parameter in the electricity consumption data of the household equipment at the target moment is greater than the corresponding second parameter threshold, the electronic equipment can acquire the electricity consumption data 5min after the target moment, and determine the working state of the household equipment based on the electricity consumption data 5min.

In this embodiment of the application, the electronic device, which adopts a first optional implementation manner, based on the acquired power consumption data of the household device within the target duration after the target time, determines the working state of the household device by a process that includes:

if the electronic device determines that any parameter included in the electricity utilization data of the household equipment acquired within the target duration is continuously smaller than the corresponding first parameter threshold, it can be determined that the household equipment is in a standby state. If the electronic equipment determines that any parameter included in the electricity utilization data of the household equipment acquired within the target duration is continuously larger than the corresponding second parameter threshold, the household equipment can be determined to be in an abnormal working state.

It can be understood that, if the electronic device determines that any parameter in the electricity consumption data is greater than the corresponding second parameter threshold, the process of determining, by the electronic device, the working state of the household device based on the electricity consumption data acquired after the target time may include:

the electronic device determines that any parameter in the electricity consumption data is greater than the corresponding second parameter threshold, and can send an alarm message to the mobile terminal 140 through the communication connection between the mobile terminals 140 shown in fig. 5. The alarm message is used for indicating that any parameter of the household equipment is larger than a second parameter threshold value and is used for being displayed by the mobile terminal. And then, if the electronic equipment does not receive the power-off instruction sent by the mobile terminal within the reference time length after the sending time of the alarm message, determining the working state of the household equipment according to the power utilization data acquired after the target time. Wherein, the reference duration may be pre-stored by the electronic device. For example, the target time period may be 2 minutes (min).

Optionally, the alert message may include: a text message and/or an audio message. If the warning message includes a text message, the displaying of the warning message by the mobile terminal may refer to: the mobile terminal displays the warning message. If the warning message includes an audio message, the displaying of the warning message by the mobile terminal may refer to: and the mobile terminal plays the alarm message.

And 203, if the working state of the household equipment is a standby state or an abnormal working state, turning off the switch to disconnect the household equipment from the power supply.

When the household equipment is in a standby state, if the connection between the household equipment and the power supply is not disconnected, the household equipment can continuously consume electric energy. When the household equipment is in an abnormal working state, if the connection between the household equipment and the power supply is not disconnected, the household equipment may be damaged. Based on this, after the electronic device obtains the working state of the household device, if the working state is determined to be the standby state or the abnormal working state, the switch can be turned off to disconnect the household device from the power supply.

In this embodiment, if the electronic device is a socket, the socket may directly turn off the switch to disconnect the connection between the household device and the power supply. If the electronic device is a server, the electronic device may send a disconnection command to the outlet. The socket can respond to a disconnection instruction and turn off the switch so as to disconnect the household equipment from the power supply.

It will be appreciated that, referring to fig. 4, the switch 01 is also connected to the controller 02 of the outlet 120. The controller 02 may control the switch 01 to be turned off to disconnect the household equipment from the power source.

As can also be seen from fig. 4, the socket may include a plurality of electrical interfaces 0a, and a plurality of switches 01 in one-to-one correspondence with the plurality of electrical interfaces 0 a. Each switch 01 may be connected to the controller 02, and each electrical interface 0a may be used to connect to a piece of household equipment.

Optionally, if the working state of the home device is the standby state, the process of disconnecting the connection between the home device and the power supply by the electronic device may include:

after determining that the home equipment is in the standby state, the electronic equipment can send a reminding message to the mobile terminal 140 through the communication connection with the mobile terminal 140 shown in fig. 5. The reminding message is used for indicating that the household equipment is in a standby state. After receiving the reminding message, the mobile terminal can display the reminding message so that the user can know that the household equipment is in a standby state.

And then, if the user needs the power supply to stop supplying power to the household equipment, sending a power-off instruction to the electronic equipment. The electronic equipment responds to the power-off instruction and can turn off the switch so as to disconnect the household equipment from the power supply. Therefore, in the embodiment of the application, the user can remotely control the connection between the household equipment and the power supply through the mobile terminal based on the working state of the household equipment.

Optionally, the mobile terminal may be a mobile phone, a wearable device, a tablet, a notebook computer, or the like. The communication connection may be a wired communication connection or a wireless communication connection. The alert message may include: a text message and/or an audio message. For example, the alert message may include: a text message.

For example, assuming that the home appliance is a washing machine, the reminding message includes a text message, and the text message is "the washing machine is currently in a standby state", referring to fig. 7, after the mobile terminal receives the reminding message, a text message a may be displayed in the notification bar.

Or, the server may send the reminding message to the mobile terminal in the form of a short message. Correspondingly, referring to fig. 8, the mobile terminal displays the text message b in the application interface of the short message application in response to the touch operation for the short message application.

Assuming that the alert message includes a text message and a voice message and the mobile terminal displays the alert message in the notification bar, referring to fig. 9, after the mobile terminal receives the alert message, a text message a and a play icon c may be displayed in the notification bar of the mobile terminal. And, the mobile terminal may play the sound message in response to a touch operation for the play icon c. The sound message may be "the washing machine is currently in a standby state, please power off in time".

And 204, if a conduction instruction for the household equipment is received, closing the switch to conduct connection between the household equipment and the power supply.

After the connection between the household equipment and the power supply is disconnected, if the electronic equipment receives a conduction instruction for the household equipment, the switch can be closed to conduct the connection between the household equipment and the power supply, so that the household equipment is powered on. Therefore, the electronic equipment provided by the embodiment of the application can realize intelligent power utilization of the household equipment by controlling the connection between the household equipment and the power supply to be switched on and off.

In this embodiment of the application, if the electronic device is a server, the server may send a connection instruction to the socket after receiving a connection instruction for the home device. The socket may then close the switch in response to the communication instruction to turn on the connection between the household device and the power source.

If the electronic equipment is a socket, the socket can respond to a conduction instruction for the household equipment and directly close the switch so as to conduct connection between the household equipment and the power supply.

In this embodiment of the application, for an implementation mode in which the electronic device is a server, the conduction instruction for the home device may be sent to the home device by the mobile terminal. For example, the mobile terminal may display a launch control for the home device. The mobile terminal can respond to the touch operation of the user for the starting control and send a conducting instruction for the household equipment to the server.

For the implementation mode in which the electronic device is a socket, in an optional implementation mode, the conduction instruction for the home device may be triggered by a second voice message, which is acquired by the socket through a microphone and used for instructing to start the home device. For example, if the user needs the power supply to supply power to the home device, the user may send a second voice message for instructing to start the home device. The socket may collect the second voice message through the microphone and may then receive a turn-on command triggered by the second voice message.

For example, if the household device is an oven, the second voice message may be "turn on the oven".

In another alternative implementation, referring to fig. 6, the socket 120 may include: and a plurality of human body induction sensors 06 corresponding to the plurality of switches 01 one to one, and each human body induction sensor 06 is connected with the controller 02. The conduction instruction for the household equipment can be triggered by the human body induction data collected by the target switch and received by the controller. The target switch is a switch for connecting a power supply and household equipment.

For example, if the user needs the power supply to supply power to the home device, the human body induction sensor corresponding to the target switch may be shielded by a body part (e.g., a hand). Correspondingly, the human body induction sensor can acquire human body induction data and send the acquired human body induction data to the controller. The controller can then obtain the conduction instruction triggered by the human body induction data.

Alternatively, the human body induction sensor 06 may be an infrared sensor.

It is understood that the switch 01, the controller 02, the detection component 03, the communication module 04, the interaction component 05 and the human body induction sensor 06 of the socket can be arranged in one circuit board.

In the embodiment of the application, the electronic device may obtain the timing duration of the home equipment, and after the time of obtaining the timing duration and determining that the working duration of the electronic device reaches the timing duration, the connection between the home equipment and the power supply is disconnected. Therefore, the electronic equipment provided by the embodiment of the application can automatically disconnect the household equipment from the power supply according to the timing duration, namely the electronic equipment has a timing function and is rich in functions.

If the electronic device is a server, the timing duration may be sent to the server by the mobile terminal. If the electronic device is a socket, the timing duration may be acquired by the socket through the interactive component.

In the embodiment of the application, the socket further has a leakage protection function, an overcurrent protection function, an overvoltage protection function and an overload protection function, so that leakage protection, overcurrent protection, overvoltage protection and overload protection can be performed on household equipment.

Optionally, the socket may further include an electrical interface directly connected to a power source for accessing household devices (e.g., a refrigerator) that are not in a standby state.

In this embodiment, if the electronic device is a server, referring to fig. 5, the server may establish a communication connection with a plurality of home devices 150, and the server is a management server of the home devices. And as can be seen from fig. 5, the server 110 may also be connected with a mobile terminal 140. After each household device in the plurality of household devices operates, the operation data of the household device can be uploaded to the server. The server can obtain the operation data of the household equipment.

And after receiving the acquisition request for the operation data of the household equipment, which is sent by the mobile terminal, the server can also send the operation data of the household equipment to the household equipment. The mobile terminal may then display the operational data so that the user knows the operational data. And then, the user can adjust the running state of the household equipment through the mobile terminal based on the running data.

Wherein the operational data may include: the starting time and the operation parameters of the household equipment are the same. For example, if the household appliance is an oven, the operating parameters may include: the operating mode and temperature of the oven, etc.

In the embodiment of the application, the home equipment can be connected with the server through the router. If the housing of the home device is made of a metal material (the metal housing has a strong signal shielding capability), and the home device is far away from the router, the signal transmitted by the router and received by the home device will be weak, and the communication quality of the communication connection between the home device and the server will be poor.

Based on this, please continue to refer to fig. 5, the home device 150 may be connected to the server 110 through the router 130 and the socket 120. Because the housing of the socket is usually made of plastic, the shielding capability of the plastic housing is weak, and because the socket is usually close to the home equipment, the communication quality between the socket and the router 130 can be ensured to be good, and the communication quality between the socket and the home equipment is good, so that the communication quality of the communication connection between the home equipment and the server can be ensured to be good.

Therefore, the socket can serve as a repeater of a wireless network, relay of router signals is achieved, the coverage range of the wireless network where the router is located is wider, the problem that communication quality between home equipment and the router is poor is solved, and communication quality of communication connection between the home equipment and a server is improved.

The above embodiment is an example of a home device, and an exemplary description is given to a power supply control method of the home device. It can be understood that the electronic device may also control the connection between the plurality of household devices and the power source. At this time, since the rated current and the rated voltage of each household device may be different, the electronic device needs to store the first parameter threshold, the second parameter threshold, and the state detection model corresponding to each household device in the plurality of household devices.

It is understood that the electronic device has a reset function. After the electronic equipment detects that the household equipment is disconnected from the switch, the electronic equipment can execute reset operation to delete the stored first parameter threshold, the stored second parameter threshold and the stored state detection model corresponding to the household equipment, so that the storage resources of the electronic equipment are effectively saved.

In this embodiment of the application, if the electronic device is a socket, after the socket detects that the household device is disconnected from the switch, a prompt message can be displayed through the interactive component of the socket, and the prompt message is used for prompting a user that the household device is disconnected from the switch. Thereafter, the socket may perform a reset operation in response to the reset command. Wherein, the prompting message may include: an audio prompt message and/or a text prompt message.

Optionally, the socket further comprises: and the reset instruction can be triggered by the pressing operation of a user on the reset key. Or a reset control is displayed on a display screen of the socket, and the reset instruction can be triggered by a user through touch operation aiming at the reset control.

If the electronic equipment is a server, the server can send a prompt message to the mobile terminal after detecting that the household equipment is disconnected from the switch, so that the prompt message can be displayed by the mobile terminal. After that, the server may perform a reset operation in response to a reset instruction transmitted by the mobile terminal.

It should be noted that, the sequence of the steps of the power supply control method for the household equipment provided in the embodiment of the present application may be appropriately adjusted, and the steps may also be correspondingly increased or decreased according to the situation. For example, step 204 may be deleted as appropriate. Any method that can be easily conceived by a person skilled in the art within the technical scope disclosed in the present application is covered by the protection scope of the present application, and thus the detailed description thereof is omitted.

In summary, the embodiment of the present application provides a power supply control method for home devices, where after determining that the home devices are in a standby state or an abnormal operating state based on power consumption data of the home devices, an electronic device can automatically disconnect the home devices from a power supply. Because the user does not need to manually disconnect the connection between the household equipment and the power supply, on one hand, the efficiency of disconnecting the connection between the household equipment and the power supply is improved, on the other hand, the operation of the user is simplified, and the user experience is improved. And the electronic equipment can automatically disconnect the household equipment from the power supply after determining that the household equipment is in the abnormal working state, so that the household equipment can be prevented from being damaged, and the service life of the household equipment can be prolonged.

In addition, after the electronic device determines that any parameter in the electricity utilization data at the target time is smaller than the corresponding first parameter threshold value, or after any parameter in the electricity utilization data at the target time is larger than the corresponding second parameter threshold value, the working state of the household device is determined based on the electricity utilization data acquired after the target time, and the working state of the household device does not need to be determined based on the electricity utilization data in real time, so that the computing resources of the electronic device can be saved.

An embodiment of the present application provides a socket, this socket includes: a processor and a switch. The processor is configured to:

acquiring power consumption data of the household equipment, wherein the power consumption data comprises at least one of working current and output power of the household equipment, and the household equipment is connected with a power supply through a switch;

if any parameter in the electricity consumption data of the household equipment at the target time is smaller than the corresponding first parameter threshold value, or any parameter in the electricity consumption data at the target time is larger than the corresponding second parameter threshold value, determining the working state of the household equipment based on the electricity consumption data acquired after the target time, wherein the working state is one of the following states: the system comprises a normal working state, an abnormal working state and a standby state, wherein a second parameter threshold value is larger than a first parameter threshold value;

and if the working state of the household equipment is in a standby state or an abnormal working state, the switch is turned off to disconnect the household equipment from the power supply.

Optionally, the processor may be configured to:

if any parameter in the electricity utilization data acquired after the target moment is smaller than the corresponding first parameter threshold value, determining that the household equipment is in a standby state;

and if any parameter in the electricity utilization data acquired after the target moment is larger than the corresponding second parameter threshold value, determining that the household equipment is in an abnormal working state.

Optionally, the processor may be configured to:

and inputting the power utilization data acquired after the target moment into a state detection model of the household equipment to obtain the working state of the household equipment output by the state detection model.

Optionally, the processor may be configured to: and determining the working state of the household equipment based on the power utilization data acquired within the target duration after the target moment.

Optionally, the operating state is a standby state. The processor may be configured to:

sending a reminding message to the mobile terminal, wherein the reminding message is used for indicating that the household equipment is in a standby state and is used for being displayed by the mobile terminal;

and turning off the switch in response to a power-off instruction sent by the mobile terminal.

Optionally, the processor may be further configured to:

and if a conduction instruction for the household equipment is received, closing the switch to conduct connection between the household equipment and the power supply.

To sum up, the embodiment of the application provides a socket, and the socket can automatically turn off a switch after determining that the household equipment is in a standby state or an abnormal working state based on the electricity consumption data of the household equipment, so as to disconnect the household equipment from a power supply. Because the user does not need to manually disconnect the connection between the household equipment and the power supply, on one hand, the efficiency of disconnecting the connection between the household equipment and the power supply is improved, on the other hand, the operation of the user is simplified, and the user experience is improved. And the socket can automatically disconnect the household equipment from the power supply after determining that the household equipment is in the abnormal working state, so that the household equipment can be prevented from being damaged, and the service life of the household equipment can be prolonged.

In addition, after the socket determines that any parameter in the electricity utilization data at the target time is smaller than the corresponding first parameter threshold value, or after any parameter in the electricity utilization data at the target time is larger than the corresponding second parameter threshold value, the working state of the household equipment is determined based on the electricity utilization data acquired after the target time, and the working state of the household equipment does not need to be determined based on the electricity utilization data in real time, so that the computing resources of the electronic equipment can be saved.

The embodiment of the application provides electronic equipment which can be used for executing the power supply control method of the household equipment provided by the embodiment of the method. Referring to fig. 10, the electronic device 110 may include a processor 1101, the processor 1101 configured to:

acquiring power consumption data of the household equipment, wherein the power consumption data comprises at least one of working current and output power of the household equipment, and the household equipment is connected with a power supply through a switch;

if any parameter in the electricity consumption data of the household equipment at the target time is smaller than the corresponding first parameter threshold value, or any parameter in the electricity consumption data at the target time is larger than the corresponding second parameter threshold value, determining the working state of the household equipment based on the electricity consumption data acquired after the target time, wherein the working state is one of the following states: the system comprises a normal working state, an abnormal working state and a standby state, wherein a second parameter threshold value is greater than a first parameter threshold value;

and if the working state of the household equipment is in a standby state or an abnormal working state, the switch is turned off to disconnect the household equipment from the power supply.

Optionally, the processor 1101 may be configured to:

if any parameter in the electricity utilization data acquired after the target moment is smaller than the corresponding first parameter threshold value, determining that the household equipment is in a standby state;

and if any parameter in the electricity utilization data acquired after the target moment is larger than the corresponding second parameter threshold value, determining that the household equipment is in an abnormal working state.

Optionally, the processor 1101 may be configured to:

and inputting the electricity utilization data acquired after the target moment into a state detection model of the household equipment to obtain the working state of the household equipment output by the state detection model.

Optionally, the processor 1101 may be configured to: and determining the working state of the household equipment based on the power utilization data acquired within the target duration after the target moment.

Optionally, the operating state is a standby state. The processor 1101 may be configured to:

sending a reminding message to the mobile terminal, wherein the reminding message is used for indicating that the household equipment is in a standby state and is used for being displayed by the mobile terminal;

and turning off the switch in response to a power-off instruction sent by the mobile terminal.

Optionally, the electronic device is a server, and the switch is a switch in a socket, and the socket is further connected to the electronic device. The processor 1101 may be configured to:

and sending a disconnection instruction to the socket, wherein the disconnection instruction is used for indicating the socket to switch off the switch.

Optionally, the processor 1101 may further be configured to:

and if a conduction instruction for the household equipment is received, closing the switch to conduct connection between the household equipment and the power supply.

To sum up, the embodiment of the present application provides an electronic device, which is capable of automatically disconnecting a power supply from a home device after determining that the home device is in a standby state or an abnormal operating state based on power consumption data of the home device. Because the connection between the household equipment and the power supply is not required to be manually disconnected by a user, on one hand, the efficiency of disconnecting the connection between the household equipment and the power supply is improved, on the other hand, the operation of the user is simplified, and the user experience is improved. And the electronic equipment can automatically disconnect the household equipment from the power supply after determining that the household equipment is in the abnormal working state, so that the household equipment can be prevented from being damaged, and the service life of the household equipment can be prolonged.

In addition, after the electronic equipment determines that any parameter in the electricity utilization data at the target moment is smaller than the corresponding first parameter threshold value, or after any parameter in the electricity utilization data at the target moment is larger than the corresponding second parameter threshold value, the working state of the household equipment is determined based on the electricity utilization data acquired after the target moment, and the working state of the household equipment does not need to be determined based on the electricity utilization data in real time, so that the computing resources of the electronic equipment can be saved.

An embodiment of the present application provides an electronic device, referring to fig. 10, the electronic device may include a memory 1102, a processor 1101, and a computer program stored on the memory 1102 and operable on the processor 1101, and when the processor 1101 executes the computer program, the method for controlling power supply of a household device according to the foregoing embodiment, for example, the method shown in fig. 1 or fig. 3, is implemented.

An embodiment of the present application provides a computer-readable storage medium, where a computer program is stored in the computer-readable storage medium, and the computer program is loaded by a processor and executes a power supply control method of a household device provided in the foregoing embodiment, for example, the method shown in fig. 1 or fig. 3.

The embodiment of the present application further provides a computer program product including instructions, and when the computer program product runs on a computer, the computer is enabled to execute the power supply control method for the household equipment provided by the method embodiment, for example, the method shown in fig. 1 or fig. 3.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

It should be understood that reference herein to "and/or" means that there may be three relationships, for example, a and/or B, may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship. Also, the term "at least one" in the present application means one or more, and the term "a plurality" in the present application means two or more.

In this application, the terms "first," "second," and the like are used for distinguishing identical or similar items with substantially identical functions and functionalities, and it should be understood that "first," "second," and "n" have no logical or temporal dependency, and no limitation on the number or execution order. For example, a first parameter threshold may be referred to as a second parameter threshold, and similarly, a second parameter threshold may be referred to as a first parameter threshold, without departing from the scope of various described examples.

The above description is only exemplary of the application and should not be taken as limiting the application, and any modifications, equivalents, improvements and the like that are made within the spirit and principle of the application should be included in the protection scope of the application.

Claims (10)

1. A power supply control method of household equipment is applied to electronic equipment, and the method comprises the following steps:

acquiring power consumption data of household equipment, wherein the power consumption data comprises at least one of working current and output power of the household equipment, and the household equipment is connected with a power supply through a switch;

if any parameter in the electricity consumption data of the household equipment at the target time is smaller than a corresponding first parameter threshold value, or any parameter in the electricity consumption data at the target time is larger than a corresponding second parameter threshold value, determining a working state of the household equipment based on the electricity consumption data acquired after the target time, wherein the working state is one of the following states: the second parameter threshold is greater than the first parameter threshold;

and if the working state of the household equipment is the standby state or the abnormal working state, the switch is turned off to disconnect the household equipment from the power supply.

2. The method according to claim 1, wherein the determining the working state of the household equipment based on the electricity consumption data acquired after the target time comprises:

if any parameter in the electricity utilization data acquired after the target moment is smaller than the corresponding first parameter threshold, determining that the household equipment is in a standby state;

and if any parameter in the electricity utilization data acquired after the target moment is larger than the corresponding second parameter threshold, determining that the household equipment is in an abnormal working state.

3. The method according to claim 1, wherein the determining the working state of the household equipment based on the power consumption data acquired after the target time comprises:

and inputting the power utilization data acquired after the target moment into a state detection model of the household equipment to obtain the working state of the household equipment output by the state detection model.

4. The method according to any one of claims 1 to 3, wherein the determining the working state of the household equipment based on the power consumption data acquired after the target time comprises:

and determining the working state of the household equipment based on the power utilization data acquired within the target time after the target time.

5. A method according to any one of claims 1 to 3, wherein the operating state is a standby state; the turning off the switch includes:

sending a reminding message to a mobile terminal, wherein the reminding message is used for indicating that the household equipment is in a standby state and is used for being displayed by the mobile terminal;

and turning off the switch in response to a power-off instruction sent by the mobile terminal.

6. The method according to any one of claims 1 to 3, wherein the electronic device is a server, the switch is a switch in a socket, and the socket is further connected to the electronic device; the turning off the switch includes:

and sending a disconnection instruction to the socket, wherein the disconnection instruction is used for instructing the socket to switch off the switch.

7. The method of any of claims 1 to 3, wherein after said turning off said switch, said method further comprises:

and if a conduction instruction aiming at the household equipment is received, closing the switch to conduct the connection between the household equipment and the power supply.

8. An electronic device, comprising a processor configured to:

acquiring power consumption data of household equipment, wherein the power consumption data comprises at least one of working current and output power of the household equipment, and the household equipment is connected with a power supply through a switch;

if any parameter in the electricity consumption data of the household equipment at the target time is smaller than a corresponding first parameter threshold value, or any parameter in the electricity consumption data at the target time is larger than a corresponding second parameter threshold value, determining a working state of the household equipment based on the electricity consumption data acquired after the target time, wherein the working state is one of the following states: the second parameter threshold is larger than the first parameter threshold;

and if the working state of the household equipment is the standby state or the abnormal working state, the switch is turned off so as to disconnect the household equipment from the power supply.

9. The electronic device of claim 8, wherein the processor is configured to:

if any parameter in the electricity consumption data acquired after the target moment is smaller than the corresponding first parameter threshold, determining that the household equipment is in a standby state;

and if any parameter in the electricity utilization data acquired after the target moment is larger than the corresponding second parameter threshold, determining that the household equipment is in an abnormal working state.

10. A socket, comprising: a processor and a switch; the processor is configured to:

acquiring power consumption data of household equipment, wherein the power consumption data comprises at least one of working current and output power of the household equipment, and the household equipment is connected with a power supply through the switch;

if any parameter in the electricity consumption data of the household equipment at the target time is smaller than a corresponding first parameter threshold value, or any parameter in the electricity consumption data at the target time is larger than a corresponding second parameter threshold value, determining a working state of the household equipment based on the electricity consumption data acquired after the target time, wherein the working state is one of the following states: the second parameter threshold is larger than the first parameter threshold;

and if the working state of the household equipment is the standby state or the abnormal working state, the switch is turned off to disconnect the household equipment from the power supply.

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