CN110120617B

CN110120617B - Method for turning off household electrical appliance and intelligent socket

Info

Publication number: CN110120617B
Application number: CN201910311286.8A
Authority: CN
Inventors: 董明珠; 祝泽坤; 陈道远; 周宝; 谢颖浩
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2019-04-18
Filing date: 2019-04-18
Publication date: 2020-07-07
Anticipated expiration: 2039-04-18
Also published as: CN110120617A

Abstract

The invention discloses a method for turning off household appliances and an intelligent socket, which are used for solving the problem that in the prior art, an air conditioner partner cannot turn off a relay intelligently, so that resource waste is caused. In the embodiment of the invention, the intelligent socket monitors the circuit parameters of the household appliance inserted into the intelligent socket; and then, after the monitored circuit parameter is smaller than a preset circuit parameter threshold value corresponding to the household appliance, closing a relay in the intelligent socket. Therefore, after the household electrical appliance is turned off by a user, when the circuit parameter of the household electrical appliance monitored by the intelligent socket is lower than the preset circuit parameter threshold corresponding to the household electrical appliance, the current household electrical appliance can be determined to be in a standby state, the relay in the intelligent socket is turned off at the moment, the power supply of the household electrical appliance can be completely cut off, the electric quantity of the household electrical appliance lost in the standby state is further reduced fundamentally, and resources are saved.

Description

Method for turning off household electrical appliance and intelligent socket

Technical Field

The invention relates to the field of intelligent equipment, in particular to a method for turning off household electrical appliances and an intelligent socket.

Background

In recent years, intelligent air conditioners have entered the lives of people, and the intelligent air conditioners capable of being remotely controlled greatly facilitate the lives of people. However, as a large household appliance, the air conditioner is not frequently replaced in a common household, which makes the air conditioner in most of the homes still unable to be remotely controlled, and for a user who wants to experience the remote control of the air conditioner, it is a good choice to use the air conditioner partner to realize the intelligent remote control of the common air conditioner.

At present, whether power is saved or not is a problem which is always concerned by consumers for an air conditioner partner used in cooperation with an air conditioner, however, most air conditioner partners in the market need users to manually click a key of a closing relay on an APP (application) to cut off the power supply of the air conditioner after the users close the air conditioner. This operation is performed separately from the air conditioning off operation, and is therefore easily forgotten by the user, which results in a waste of electric power.

In summary, the air conditioner partner in the prior art cannot intelligently close the relay, thereby causing resource waste.

Disclosure of Invention

The invention provides a method for turning off household appliances and an intelligent socket, which are used for solving the problem that in the prior art, an air conditioner partner cannot turn off a relay intelligently, so that resource waste is caused.

In a first aspect, an embodiment of the present invention provides a method for turning off a home appliance, where the method includes:

the intelligent socket monitors circuit parameters of household electrical appliances inserted into the intelligent socket;

and the intelligent socket closes a relay in the intelligent socket after the monitored circuit parameter is smaller than a preset circuit parameter threshold corresponding to the household appliance.

According to the method, the intelligent socket monitors the circuit parameters of the household appliance inserted into the intelligent socket; and after the monitored circuit parameters are smaller than the preset circuit parameter threshold corresponding to the household appliance, closing a relay in the intelligent socket. Therefore, after the user closes the household appliance, when the circuit parameters of the household appliance monitored by the intelligent socket are lower than the preset circuit parameter threshold corresponding to the household appliance, the current household appliance can be determined to be in the standby state, and the relay in the intelligent socket is closed at the moment, so that the power supply of the household appliance can be completely cut off, the electric quantity of the household appliance lost in the standby state is radically reduced, and resources are saved.

In one possible embodiment, the smart socket monitors a circuit parameter of an electrical home device inserted into the smart socket, and includes:

the intelligent socket monitors circuit parameters of household appliances inserted into the intelligent socket through an electric quantity power chip.

According to the method, the intelligent socket monitors the circuit parameters of the household appliance inserted into the intelligent socket through the configured electric quantity power chip, so that the relay in the intelligent socket can be closed when the monitored circuit parameters of the household appliance inserted into the intelligent socket are lower than the preset circuit parameter threshold corresponding to the household appliance, the electric quantity consumed by the household appliance in the standby state is further reduced fundamentally, and resources are saved.

In a possible implementation, after the smart socket closes the relay in the smart socket, the method further includes:

and the intelligent socket informs a user of information for indicating that the household appliance is in a closed state.

According to the method, after the intelligent socket closes the relay in the intelligent socket, the information for indicating that the household appliance is in the closed state is notified to a user. Therefore, compared with the prior art that after the household appliance is turned off by a user, the working state of the household appliance cannot be fed back to the user, in the embodiment of the invention, the intelligent socket can determine the current working state of the household appliance according to the monitored circuit parameters of the household appliance, and further can send the working state characters of the household appliance to software corresponding to an air conditioner partner on a mobile phone of the user, and the user is informed of the current working state of the household appliance and simultaneously prompts whether a control instruction of the household appliance sent by the user succeeds.

after receiving a starting instruction triggered by a user, the intelligent socket starts a relay in the intelligent socket and sends an infrared code containing the starting instruction to the household appliance.

According to the method, the intelligent socket closes the relay in the intelligent socket, and after receiving a starting instruction triggered by a user, the relay in the intelligent socket is started, and the infrared code containing the starting instruction is sent to the household appliance. So, after being in the electric quantity that standby state consumed with practicing thrift the tame electric installation through the relay that closes in the smart jack, can also receive the opening instruction that the user triggered after, open the relay in the smart jack, further open tame electric installation for tame electric installation normal operating satisfies user's demand.

In a possible embodiment, before the smart socket monitors a circuit parameter of a home device inserted into the smart socket, the method further includes:

and the intelligent socket determines a preset circuit parameter threshold corresponding to the household appliance according to the type and the model of the household appliance bound with the intelligent socket at present.

According to the method, the intelligent socket monitors the circuit parameters of the household appliance inserted into the intelligent socket after determining the preset circuit parameter threshold corresponding to the household appliance according to the type and the model of the household appliance bound with the intelligent socket at present. Therefore, the intelligent socket can determine the preset circuit parameter threshold corresponding to the household appliance according to the type and the model of the household appliance bound with the intelligent socket, judge whether the household appliance is in a standby state or not according to the preset circuit parameter threshold corresponding to the household appliance, and disconnect a relay on the intelligent socket when the household appliance is determined to be in the standby state. Therefore, when the household appliance is determined, the state of the household appliance can be more accurately determined according to the preset circuit parameter threshold corresponding to the household appliance.

In one possible embodiment, the smart socket determines the type and model of the bound home device by:

the intelligent socket determines at least one category of the household appliance inserted into the intelligent socket according to the rated circuit parameters of the household appliance monitored by the electric quantity power chip and a preset circuit parameter threshold;

the intelligent socket informs the user of the determined at least one category and determines an infrared code set corresponding to the type selected by the user;

the intelligent socket sequentially sends the infrared codes in the infrared code set to household appliances, and binds the types and the models of the household appliances corresponding to the infrared codes responded by the household appliances with the intelligent socket.

According to the method, the intelligent socket determines at least one category of the household appliance inserted into the intelligent socket according to the rated circuit parameters of the household appliance monitored by the electric quantity power chip and the preset circuit parameter threshold; the intelligent socket informs the user of the determined at least one category and determines an infrared code set corresponding to the type selected by the user; the intelligent socket sequentially sends the infrared codes in the infrared code set to household appliances, and binds the types and the models of the household appliances corresponding to the infrared codes responded by the household appliances with the intelligent socket. Therefore, the intelligent socket can determine the type and the model of the household appliance bound with the intelligent socket, further determine the corresponding preset circuit parameter threshold according to the determined type and the model of the household appliance, and then determine the working state of the household appliance according to the determined circuit parameter threshold.

In a second aspect, an embodiment of the present application further provides an intelligent socket for turning off a home appliance, where the intelligent socket includes: at least one processing unit and at least one memory unit, the apparatus having functionality to implement the embodiments of the first aspect described above.

In a third aspect, an embodiment of the present application further provides an apparatus for deep learning convolution calculation, where the apparatus includes: a monitoring module and a processing module, the device having the functionality of implementing the embodiments of the first aspect described above.

In a fourth aspect, the present application also provides a computer-readable storage medium having stored therein instructions, which, when run on a computer, cause the computer to perform the method of any of the first aspects described above.

Drawings

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

Fig. 1 is a schematic flowchart of a method for turning off a home device according to an embodiment of the present invention;

fig. 2 is a schematic structural flow chart of a smart socket that may be implemented according to an embodiment of the present invention;

fig. 3 is a detailed flowchart of a method for turning off a home device, which takes power as an example of a circuit parameter according to an embodiment of the present invention;

fig. 4 is a schematic flow chart of a first apparatus for turning off a home device according to an embodiment of the present invention;

fig. 5 is a flowchart illustrating a second apparatus for turning off a home device according to an embodiment of the present invention.

Detailed Description

In recent years, the intelligent air conditioner has entered the life of people, and the intelligent air conditioner capable of being remotely controlled greatly facilitates the life of people. However, as a large household appliance, the air conditioner is not frequently replaced in a common household, which makes the air conditioner in most of the homes still unable to be remotely controlled, and for a user who wants to experience the remote control of the air conditioner, it is a good choice to use the air conditioner partner to realize the intelligent remote control of the common air conditioner.

At present, when an air conditioner partner is used for realizing intelligent control of an air conditioner, the air conditioner is in a standby state after a user closes the air conditioner by using a remote controller or the air conditioner partner. At this time, the air conditioner will consume electric power, and after the remote controller or the air conditioner partner sends out a closing instruction, the air conditioner partner cannot determine whether the air conditioner is closed, and cannot feed back the working state of the air conditioner to the user.

In order to solve the above problems, embodiments of the present invention provide a method for turning off a home appliance and an intelligent socket, where a circuit parameter of the home appliance inserted into the intelligent socket is monitored by an electric quantity power chip disposed in the intelligent socket, and a working state of the home appliance is determined according to a preset circuit parameter threshold corresponding to the home appliance, and when it is determined that the monitored circuit parameter is smaller than the preset circuit parameter threshold corresponding to the home appliance, that is, the home appliance is in a standby state, a relay in the intelligent socket is turned off, so as to completely cut off power supply of the home appliance, thereby achieving a purpose of saving power.

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a method for turning off an electrical home appliance, where the method includes:

step 100, monitoring circuit parameters of household electrical appliances inserted into an intelligent socket by the intelligent socket;

step 101, after the monitored circuit parameter is smaller than a preset circuit parameter threshold corresponding to the household appliance, the intelligent socket closes a relay in the intelligent socket.

In specific implementation, the intelligent socket monitors circuit parameters of household appliances inserted into the intelligent socket; and after the monitored circuit parameters are smaller than the preset circuit parameter threshold corresponding to the household appliance, closing a relay in the intelligent socket. Therefore, after the user closes the household appliance, when the circuit parameters of the household appliance monitored by the intelligent socket are lower than the preset circuit parameter threshold corresponding to the household appliance, the current household appliance can be determined to be in the standby state, and the relay in the intelligent socket is closed at the moment, so that the power supply of the household appliance can be completely cut off, the electric quantity of the household appliance lost in the standby state is radically reduced, and resources are saved.

The circuit parameters of the household appliance plugged into the smart socket, which can be monitored by the smart socket, include but are not limited to: current, voltage, amount of electricity, power, etc.

When the working state of the household appliance is determined according to the circuit parameters, the circuit parameter values are larger when the household appliance is in the working state, and the circuit parameter values are smaller when the household appliance is in the standby state.

In addition, when the intelligent socket monitors the circuit parameters of the household appliance plugged into the intelligent socket, the circuit parameters are monitored through an electric quantity power chip configured on the intelligent socket.

In specific implementation, the intelligent socket monitors the circuit parameters of the household appliance inserted into the intelligent socket through an electric quantity power chip configured by the intelligent socket, and when the monitored circuit parameters of the household appliance inserted into the intelligent socket are lower than a preset circuit parameter threshold corresponding to the household appliance, a relay in the intelligent socket is closed, so that the electric quantity lost when the household appliance is in a standby state is reduced fundamentally, and resources are saved.

As shown in fig. 2, the smart socket according to the embodiment of the present invention at least includes the following modules:

the processor 200 is configured to determine the type and model of the household appliance inserted into the smart socket, and determine a working state of the household appliance according to a monitored circuit parameter of the household appliance and a preset circuit parameter threshold corresponding to the household appliance;

a memory 201 for storing corresponding data;

the electric quantity power chip 202 is used for monitoring circuit parameters of the household appliance plugged into the intelligent socket;

the relay 203 is used for being controlled by the processor to further realize the power on and off of the household appliance;

a WiFi module 204; the controller is used for receiving a starting instruction triggered by a user and receiving closing information of the household appliance determined by the controller to inform the user;

and the infrared code sending module 205 is configured to send an infrared code to the home appliance.

In addition, the air conditioner partner mentioned above is an intelligent socket suitable for an air conditioner, the intelligent socket in the embodiment of the present invention is not limited to the air conditioner partner, and various home appliances that can be controlled by the intelligent socket are also available, so the embodiment of the present invention is not limited.

The following description will be made in conjunction with examples.

In a specific implementation process, the smart socket is firstly required to be matched with the household appliance.

In specific implementation, the intelligent socket determines the type and model of the bound household appliance in the following way, and establishes a binding relationship with the type and model.

The method comprises the steps that firstly, the intelligent socket determines at least one category of the household appliance inserted into the intelligent socket according to rated circuit parameters and preset circuit parameter thresholds of the household appliance monitored by an electric quantity power chip.

In the step, after the household appliance is inserted into the intelligent socket by default, the relay of the intelligent socket is in a connection state, namely the household appliance inserted into the intelligent socket is in a power-on state and in a working state. Therefore, the electric quantity power chip on the intelligent socket can monitor the circuit parameters of the household appliance, and compare the monitored rated circuit parameters of the household appliance with the preset circuit parameter threshold value, and preliminarily classify the household appliance so as to reduce the complexity of selecting the household appliance needing to be matched by a user.

For example, (1) the power of the household appliance is used as a monitored circuit parameter;

when the power of the household electrical equipment is set to be more than 1000W, the household electrical equipment is determined to be large-scale household electrical equipment, such as an air conditioner, a water heater, a microwave oven and a refrigerator;

when the power of the household appliance is not more than 1000W, the household appliance is determined to be small-sized household appliances, such as a television, a humidifier and a washing machine;

at this time, when the user connects the air conditioner with the rated working power of 2000W in series with the smart socket, and the power of the inserted household appliance monitored by the electric quantity power chip of the smart socket is greater than the preset power threshold, it is determined that the household appliance is a large household appliance, and further, when the household appliance is pushed to the user, the large household appliance with the power greater than 1000W is pushed to the user.

(2) Taking the voltage of the household appliance as a monitored circuit parameter;

setting that when the voltage of the household appliance is more than 50V, the household appliance is determined to be a first type of household appliance, and supposing that the household appliance comprises an air conditioner, a water heater and a microwave oven;

when the voltage of the household appliance is not more than 50V, the household appliance is determined to be a second type of household appliance, and the household appliance is assumed to comprise a television, a humidifier, a washing machine and a refrigerator;

if the user connects the air conditioner with the rated working voltage of 220V in series with the smart socket, and the working voltage of the inserted household appliance monitored by the electric quantity power chip of the smart socket is greater than a preset voltage threshold, the household appliance is determined to be a first type of household appliance, and when the household appliance is further pushed to the user, the first type of household appliance with the voltage greater than 50V is pushed to the user.

In addition, when the current or voltage is used as the circuit parameter of the home appliance, the classification process is substantially similar to the two methods, and thus, the description thereof is omitted.

It should be noted that the foregoing classification of large and small home appliances is only one possible implementation manner, and there may be multiple optional options for specifically implementing the circuit parameters of the home appliances serving as the determination conditions, and the classification of the home appliances is not only two classifications, so the foregoing embodiment is merely an example, and does not limit the embodiment of the present invention.

And step two, the intelligent socket informs the user of the determined at least one category, and determines an infrared code set corresponding to the type selected by the user.

In specific implementation, after the category of the household appliance inserted into the intelligent socket is determined, the household appliance belonging to the category is notified to a user according to the determined category of the household appliance, so that the user can select the type of the household appliance currently inserted into the intelligent socket, and further determine a corresponding infrared code set.

For example, the power of the household appliance is used as a monitored circuit parameter;

at this time, when the user connects the air conditioner with the rated working power of 2000W in series with the smart socket, and the power of the inserted household appliance monitored by the electric quantity power chip of the smart socket is greater than the preset power threshold, it is determined that the household appliance is a large household appliance, and further, when the household appliance is pushed to the user, the large household appliance with the power greater than 1000W is pushed to the user. And then, the user selects the air conditioner according to the household appliance inserted into the intelligent socket by the user, and the intelligent socket further determines the infrared code set corresponding to the air conditioner.

Furthermore, when the user selects the type of the household appliance, the brand of the household appliance can be selected, and the infrared code set corresponding to the determined type is bound with the brand of the household appliance.

Such as: the grid force air conditioner infrared code set corresponds to the grid force air conditioner;

the method comprises the following steps of (1) collecting infrared codes of a Grignard refrigerator corresponding to the Grignard refrigerator;

and the hail refrigerator infrared code set corresponding to the hail refrigerator.

And step three, the intelligent socket sequentially sends the infrared codes in the infrared code set to the household appliance, and binds the type and the model of the household appliance corresponding to the infrared codes responded by the household appliance with the intelligent socket.

In the specific implementation, after determining that the household appliance corresponds to the infrared code set, the intelligent socket sequentially sends the infrared codes in the infrared code set to the household appliance, the reaction of the household appliance is observed after the infrared codes are sent, when the household appliance responds to the infrared codes sent by the intelligent socket, the intelligent socket is determined to be successfully matched with the household appliance, and the type and the model of the household appliance corresponding to the infrared codes responded by the household appliance are bound with the intelligent socket.

For example, when the user selects that the household appliance inserted into the smart socket is a grid air conditioner, the infrared code of the grid air conditioner is as follows:

when the intelligent socket is bound with household appliances, the infrared code 1 is firstly sent to the air conditioner, and then whether the air conditioner responds to the infrared code 1 is checked;

after the air conditioner does not respond to the infrared code 1, the intelligent socket sends the infrared code 2 to the air conditioner, and then whether the air conditioner responds to the infrared code 1 or not is checked;

after the air conditioner does not respond to the infrared code 1, the intelligent socket sends the infrared code 3 to the air conditioner, and then whether the air conditioner responds to the infrared code 1 or not is checked;

at the moment, if the air conditioner responds to the infrared code 3, the type and the model of the household appliance corresponding to the infrared code 3 are determined to be the type of the lattice air conditioner KFR-50LW/E (50568L) C1-N1.

It should be noted that the above contents are merely examples of the embodiments of the present invention, and do not limit the embodiments of the present invention.

Through the steps, the intelligent socket can be matched with the household appliance, and the household appliance can be intelligently and remotely controlled through the intelligent socket.

When the intelligent socket is used for carrying out intelligent remote control on the household appliance, the working state of the household appliance can be monitored by adopting the scheme in the embodiment of the invention.

In specific implementation, it is first required to determine whether to use the power saving scheme in the embodiment of the present invention.

If the user clicks the intelligent power saving mode on application software corresponding to the intelligent socket, the intelligent remote control of the household appliance through the intelligent socket is determined, and meanwhile, the power saving scheme in the embodiment of the invention is adopted; otherwise, the intelligent remote control is carried out on the household appliance only by using the intelligent socket.

Further, after the intelligent power saving scheme in the embodiment of the invention is determined, the intelligent socket monitors the circuit parameters of the household appliance inserted into the intelligent socket.

In specific implementation, the intelligent socket monitors circuit parameters of the household appliance inserted into the intelligent socket through an electric quantity power chip.

In the process, the smart socket can monitor the circuit parameters of the household appliance inserted into the smart socket according to a set period, for example, the circuit parameters of the household appliance inserted into the smart socket are monitored every 5S;

furthermore, when the intelligent socket monitors the circuit parameters of the household appliance inserted into the intelligent socket, the period duration is long enough, and the circuit parameters of the household appliance inserted into the intelligent socket can be monitored in real time by the intelligent socket.

In addition, the smart socket can irregularly monitor the circuit parameters of the household appliance inserted into the smart socket, but the interval between the two power monitoring occurrence times is ensured to be smaller than the set time interval, such as 5S.

It should be noted that the manner in which the smart socket monitors the circuit parameters of the household electrical appliance plugged into the smart socket may be set according to specific requirements, and is not limited to the above method.

And then, when the intelligent socket monitors the circuit parameters of the household appliance inserted into the intelligent socket, if the monitored circuit parameters are smaller than the preset circuit parameter threshold corresponding to the household appliance, closing a relay in the intelligent socket.

Therefore, after the user closes the household appliance, when the circuit parameters of the household appliance monitored by the intelligent socket are lower than the preset circuit parameter threshold corresponding to the household appliance, the current household appliance can be determined to be in the standby state, and the relay in the intelligent socket is closed at the moment, so that the power supply of the household appliance can be completely cut off, the electric quantity of the household appliance lost in the standby state is radically reduced, and resources are saved.

It should be noted here that the types of the home appliances that the smart socket can remotely control are various, so that different power thresholds can be set for different home appliances in order to better determine the operating state of the home appliances.

If so, setting the corresponding preset power threshold value of the air conditioner to be 10W;

the corresponding preset power threshold value of the water heater is 20W;

the corresponding preset power threshold value of the microwave oven is 10W;

the corresponding preset power threshold of the refrigerator is 5W.

And the circuit parameters of the household appliance inserted into the intelligent socket are monitored through an electric quantity power chip after the intelligent socket determines the preset circuit parameter threshold corresponding to the household appliance according to the type and the model of the household appliance bound with the intelligent socket at present.

Therefore, the intelligent socket can determine the preset circuit parameter threshold corresponding to the household appliance according to the type and the model of the household appliance bound with the intelligent socket, judge whether the household appliance is in a standby state or not according to the preset circuit parameter threshold corresponding to the household appliance, and disconnect a relay on the intelligent socket when the household appliance is determined to be in the standby state. Therefore, when the household appliance is determined, the state of the household appliance can be more accurately determined according to the preset power threshold corresponding to the household appliance.

After the smart socket saves power by closing the relay on the smart socket, the state of the household appliance will also be fed back to the user.

Optionally, after the smart socket closes the relay in the smart socket, the method further includes:

In specific implementation, when the monitored circuit parameter is determined to be smaller than the preset circuit parameter threshold corresponding to the household appliance, or when the monitored circuit parameter is determined to be smaller than the preset circuit parameter threshold corresponding to the household appliance and the relay on the smart socket is disconnected, the smart socket determines that the household appliance is in the off state, further sends information indicating that the household appliance is in the off state to application software corresponding to the smart socket through a WiFi module on the smart socket, and displays the information to inform a user that the working state of the household appliance is changed.

The relay in the intelligent socket is closed at the intelligent socket, and the intelligent socket also starts the relay in the intelligent socket after receiving a starting instruction triggered by a user, and sends an infrared code containing the starting instruction to the household appliance.

In a specific fact, the intelligent socket closes the relay in the intelligent socket, and after receiving a starting instruction triggered by a user, the intelligent socket opens the relay in the intelligent socket and sends an infrared code containing the starting instruction to the household appliance. So, after being in standby state small size's electric quantity with practicing thrift the tame electric equipment through the relay that closes in the smart jack, can also receive the opening instruction that the user triggered after, open the relay in the smart jack further opens tame electric equipment for tame electric equipment normal operating satisfies user's demand.

As shown in fig. 3, an embodiment of the present invention provides a detailed flowchart of a method for turning off a home appliance, which is described with power as a circuit parameter.

Step 300, the intelligent socket determines at least one category to which the household appliance inserted into the intelligent socket belongs according to the working power of the household appliance monitored by the electric quantity power chip and a preset power threshold;

step 301, the intelligent socket informs the user of the determined at least one category, and determines an infrared code set corresponding to the type selected by the user;

step 302, the intelligent socket sequentially sends the infrared codes in the infrared code set to household appliances, and binds the types and models of the household appliances corresponding to the infrared codes responded by the household appliances with the intelligent socket;

step 303, the smart jack determines whether to start the smart power saving mode, if so, step 304 is executed; otherwise, go to step 310;

step 304, the intelligent socket remotely controls the household appliance;

step 305, the smart socket determines a preset power threshold corresponding to the household appliance according to the type and model of the household appliance currently bound with the smart socket.

Step 306, the intelligent socket monitors the power of the household appliance inserted into the intelligent socket through an electric quantity power chip;

307, the smart socket judges whether the monitored power of the household appliance is smaller than a preset power threshold corresponding to the household appliance, if so, the step 308 is executed; otherwise, go to step 306;

308, the intelligent socket closes a relay in the intelligent socket;

step 309, after receiving a starting instruction triggered by a user, the smart socket starts a relay in the smart socket and sends an infrared code containing the starting instruction to the household appliance;

and step 310, the intelligent socket remotely controls the household appliance.

Based on the same inventive concept, the embodiment of the present application further provides an intelligent socket for turning off a home appliance device, and as the steps of the method of the embodiment of the present application are implemented by the device and the principle of the device for solving the problem is similar to that of the method, the implementation of the terminal can refer to the implementation of the system, and repeated details are not repeated.

As shown in fig. 4, an embodiment of the present invention provides an intelligent socket for turning off a home appliance, where the intelligent socket includes:

at least one processing unit 400 and at least one memory unit 401, wherein said memory unit stores program code which, when executed by said processing unit, causes said processing unit to perform the following:

monitoring circuit parameters of the household appliance plugged into the intelligent socket; and after the monitored circuit parameters are smaller than the preset circuit parameter threshold corresponding to the household appliance, closing a relay in the intelligent socket.

Optionally, the processing unit 400 is specifically configured to:

and when the circuit parameters of the household appliance inserted into the intelligent socket are monitored, the circuit parameters of the household appliance inserted into the intelligent socket are monitored through the electric quantity power chip.

Optionally, the processing unit 400 is further configured to:

and after the relay in the intelligent socket is closed, informing a user of information for indicating that the household appliance is in a closed state.

Optionally, the processing unit 400 is further configured to:

after the relay in the intelligent socket is closed and a starting instruction triggered by a user is received, the relay in the intelligent socket is opened, and an infrared code containing the starting instruction is sent to the household appliance.

Optionally, the processing unit 400 is further configured to:

before monitoring the circuit parameters of the household electrical appliance inserted into the intelligent socket, determining a preset circuit parameter threshold corresponding to the household electrical appliance according to the type and model of the household electrical appliance currently bound with the intelligent socket.

Optionally, the processing unit 400 is specifically configured to:

determining the type and model of the bound household appliance by the following method:

determining at least one category to which the household appliance inserted into the intelligent socket belongs according to the rated circuit parameters of the household appliance monitored by the electric quantity power chip and a preset circuit parameter threshold;

informing the user of the determined at least one category, and determining an infrared code set corresponding to the type selected by the user;

and sequentially sending the infrared codes in the infrared code set to household appliances, and binding the types and models of the household appliances corresponding to the infrared codes responded by the household appliances with the intelligent socket.

As shown in fig. 5, an embodiment of the present invention provides an intelligent socket for turning off a home appliance, where the intelligent socket includes:

the monitoring module 500 is used for monitoring the circuit parameters of the household appliance plugged into the intelligent socket;

and the processing module 501 is configured to close a relay in the smart socket after the monitored circuit parameter is smaller than a preset circuit parameter threshold corresponding to the household electrical appliance.

Optionally, the monitoring module 500 is specifically configured to:

Optionally, the processing module 501 is further configured to:

Optionally, the monitoring module 500 is further configured to:

Optionally, the monitoring module 500 is specifically configured to:

The embodiment of the application also provides a storage medium readable by the computing equipment aiming at the method for turning off the household electrical appliance, namely, the content is not lost after the power is cut off. The storage medium stores a software program, which includes program code, and when the program code runs on the computing device, the software program is read by one or more processors and executed, so as to implement any of the above aspects of the present application when the home device is turned off.

The present application is described above with reference to block diagrams and/or flowchart illustrations of methods, apparatus (systems) and/or computer program products according to embodiments of the application. It will be understood that one block of the block diagrams and/or flowchart illustrations, and combinations of blocks in the block diagrams and/or flowchart illustrations, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, and/or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer and/or other programmable data processing apparatus, create means for implementing the functions/acts specified in the block diagrams and/or flowchart block or blocks.

Accordingly, the subject application may also be embodied in hardware and/or in software (including firmware, resident software, micro-code, etc.). Furthermore, the present application may take the form of a computer program product on a computer-usable or computer-readable storage medium having computer-usable or computer-readable program code embodied in the medium for use by or in connection with an instruction execution system. In the context of this application, a computer-usable or computer-readable medium may be any medium that can contain, store, communicate, propagate, or transport the program for use by or in connection with the instruction execution system, apparatus, or device.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. A method of powering down an appliance, the method comprising:

the intelligent socket closes a relay in the intelligent socket after the monitored circuit parameter is smaller than a preset circuit parameter threshold corresponding to the household appliance;

before the circuit parameter of the household electrical appliance that smart jack monitoring was inserted smart jack, still include:

the intelligent socket determines a preset circuit parameter threshold corresponding to the household appliance according to the type and model of the household appliance bound with the intelligent socket at present;

the intelligent socket determines the type and model of the bound household appliance through the following modes:

2. The method of claim 1, wherein the smart socket monitors circuit parameters of the home device plugged into the smart socket, comprising:

3. The method of claim 1, wherein after the smart socket closes a relay in the smart socket, further comprising:

4. The method of claim 1, wherein after the smart socket closes a relay in the smart socket, further comprising:

5. A smart jack for turning off an appliance, the smart jack comprising:

at least one processing unit and at least one memory unit, wherein the memory unit stores program code that, when executed by the processing unit, causes the processing unit to perform the following:

monitoring circuit parameters of the household appliance plugged into the intelligent socket; after the monitored circuit parameters are smaller than the preset circuit parameter threshold corresponding to the household appliance, closing a relay in the intelligent socket;

the processing unit is further to: before monitoring circuit parameters of household electrical appliances inserted into the intelligent socket, determining a preset circuit parameter threshold corresponding to the household electrical appliances according to the types and models of the household electrical appliances currently bound with the intelligent socket;

the processing unit is specifically configured to: determining the type and model of the bound household appliance by the following method:

determining at least one category to which the household appliance inserted into the intelligent socket belongs according to the rated circuit parameters of the household appliance monitored by the electric quantity power chip and a preset circuit parameter threshold; informing the user of the determined at least one category, and determining an infrared code set corresponding to the type selected by the user; and sequentially sending the infrared codes in the infrared code set to household appliances, and binding the types and models of the household appliances corresponding to the infrared codes responded by the household appliances with the intelligent socket.

6. The smart jack of claim 5, wherein the processing unit is specifically configured to:

7. The smart jack of claim 5, wherein the processing unit is further to:

8. The smart jack of claim 5, wherein the processing unit is further to:

9. A smart jack for turning off an appliance, the smart jack comprising:

the monitoring module is used for monitoring circuit parameters of the household appliance inserted into the intelligent socket;

the processing module is used for closing a relay in the intelligent socket after the monitored circuit parameter is smaller than a preset circuit parameter threshold corresponding to the household appliance;

the processing module is further configured to: before monitoring circuit parameters of household electrical appliances inserted into the intelligent socket, determining a preset circuit parameter threshold corresponding to the household electrical appliances according to the types and models of the household electrical appliances currently bound with the intelligent socket;

the processing module is specifically configured to: determining the type and model of the bound household appliance by the following method:

10. A computer-readable medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 4.