CN111752161A - Electric appliance control method, system and storage medium - Google Patents

Abstract

The invention provides an electric appliance control method, a system and a storage medium, wherein the method comprises the following steps: the method comprises the steps of obtaining selection operation of a first room in a first interactive interface, and displaying a second interactive interface corresponding to the first room; acquiring selection operation of a first electrical appliance in the second interactive interface, and displaying a third interactive interface, wherein the third interactive interface comprises a live-action regulation option; acquiring selection operation of the live-action regulation option, and displaying a live-action regulation interface, wherein the live-action regulation interface comprises a live-action image of a room where the first electrical appliance is located; and acquiring the regulation and control operation of the first electrical appliance in the live-action image, generating an instruction for controlling the first electrical appliance to operate according to the working state corresponding to the regulation and control operation, and sending the instruction to the first electrical appliance. The remote accurate control based on the live-action image is carried out on the electric appliance, so that the fixed-point control operation of the electric appliance is realized.

Description

Electric appliance control method, system and storage medium

Technical Field

The invention belongs to the technical field of intelligent home furnishing, and particularly relates to an electric appliance control method, an electric appliance control system and a storage medium.

Background

At present, a plurality of household appliances realize intelligent control, but the household appliances still stay on the common switch control function, do not achieve accurate control and cannot be used visually. Taking an air conditioner as an example, common air conditioners comprise a round cabinet type air conditioner, a square cabinet type air conditioner, an on-hook air conditioner and an air duct type air conditioner, and due to different structures of the round cabinet type air conditioner, the square cabinet type air conditioner, the on-hook air conditioner and the air duct type air conditioner, air supply angles are different, and when functions such as air supply angle adjustment and the like are achieved by using an existing control method, fixed-point processing and accurate control are difficult to.

Therefore, there is a need in the art for a more intelligent precise control scheme for electrical appliances to achieve precise control of the state of the electrical appliances.

Disclosure of Invention

The invention provides an electric appliance control method, an electric appliance control system and a storage medium, and solves the problem that the state of an electric appliance cannot be accurately controlled in the prior art.

In a first aspect, the present invention provides an appliance control method, including:

the method comprises the steps of obtaining selection operation of a first room in a first interactive interface, and displaying a second interactive interface corresponding to the first room, wherein the first interactive interface comprises a preset house type graph, the preset house type graph comprises a plurality of rooms, and the second interactive interface comprises a plurality of electrical appliances in the first room;

acquiring selection operation of a first electrical appliance in the second interactive interface, and displaying a third interactive interface, wherein the third interactive interface comprises a live-action regulation option;

acquiring selection operation of the live-action regulation option, and displaying a live-action regulation interface, wherein the live-action regulation interface comprises a live-action image of a room where the first electrical appliance is located;

and acquiring the regulation and control operation of the first electrical appliance in the live-action image, generating an instruction for controlling the first electrical appliance to operate according to the working state corresponding to the regulation and control operation, and sending the instruction to the first electrical appliance.

According to an embodiment of the present invention, preferably, the first electric appliance is an electric appliance operating in a fixed position state;

the live-action regulation and control interface comprises a three-dimensional live-action image of a room where the first electrical appliance is located, and the three-dimensional live-action image can rotate or be zoomed in and out.

According to the embodiment of the present invention, preferably, the first electrical appliance is an air outlet device, and the adjusting operation includes an operation of adjusting a working angle of the air outlet device.

According to the embodiment of the present invention, preferably, the first electrical appliance is an electrical appliance that operates in a mobile state, and the real-scene control interface includes a two-dimensional real-scene image of a room in which the first electrical appliance is located; the two-dimensional live-action image is provided with a plurality of preset cells, and the size of each preset cell is not smaller than that of the first electric appliance.

According to the embodiment of the present invention, preferably, the step of acquiring a control operation on the first electrical appliance in the live-action image, generating an instruction for controlling the first electrical appliance to operate according to a working state corresponding to the control operation, and sending the instruction to the first electrical appliance includes:

acquiring selection operation of a preset cell;

and generating an instruction taking the selected preset cell as an initial positioning position of the first electric appliance, and sending the instruction to the first electric appliance.

According to the embodiment of the present invention, preferably, the step of acquiring a control operation on the first electrical appliance in the live-action image, generating an instruction for controlling the first electrical appliance to operate according to a working state corresponding to the control operation, and sending the instruction to the first electrical appliance includes:

acquiring selection operation of a preset cell;

and generating an instruction for controlling the first electric appliance to move to the area formed by the selected preset cell to work, and sending the instruction to the first electric appliance.

According to an embodiment of the present invention, preferably, when the first electrical appliance is an electrical appliance with a thermal bulb, the method further includes:

receiving the temperature of the first electric appliance sent by the temperature sensing bulb;

judging whether the first electric appliance is in a use state or not;

if the first electric appliance is not in a use state and the difference between the temperature received at the current moment and the temperature received at the previous moment exceeds a first preset threshold value, the first electric appliance is abnormal and an alarm signal is sent out;

if the first electric appliance is in a use state, the received temperature at the current moment is in an ascending trend compared with the received temperature at the previous moment, and the received temperature at the current moment exceeds a second preset threshold value, the first electric appliance is abnormal, and an alarm signal is sent out.

According to an embodiment of the present invention, preferably, the method further comprises:

if response operation aiming at the alarm signal is not obtained within a preset time length, the alarm signal is sent to a first target position;

and if the response operation of the first target position to the alarm signal is not acquired, sending the alarm signal to a second target position.

In a second aspect, the present invention provides an appliance control system comprising:

and the terminal equipment is used for realizing the steps of the electric appliance control method in the first aspect.

And the server is connected with the terminal equipment and is used for storing the preset user type graph.

In a third aspect, the present invention provides a storage medium having stored thereon a computer program which, when executed by one or more processors, implements an appliance control method as described in the first aspect.

Compared with the prior art, one or more embodiments in the above scheme can have the following advantages or beneficial effects:

the method includes the steps that a first room is selected from a preset house type graph, then a first electric appliance of the first room is selected, regulation and control operation of the first electric appliance is conducted in a live-action image of the room where the first electric appliance is located, an instruction for controlling the first electric appliance to run according to a working state corresponding to the regulation and control operation is generated and sent to the first electric appliance, and through the method, remote accurate control based on the live-action image is conducted on the electric appliance, so that fixed-point control operation of the electric appliance is achieved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a flowchart of an electrical appliance control method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a first interactive interface according to an embodiment of the present invention;

fig. 3 is a schematic view of a first operation of adjusting a working angle of an air conditioner on an XY plane according to an embodiment of the present invention;

fig. 4 is a second schematic diagram of an operation of adjusting an operating angle of an air conditioner on a YZ plane according to an embodiment of the present invention;

fig. 5 is a schematic view of a live-action image of a living room area according to an embodiment of the present invention.

Fig. 6 is a block diagram of an electrical appliance control apparatus according to a second embodiment of the present invention;

fig. 7 is a block diagram of an electrical appliance control system according to a third embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1, the present embodiment provides an electrical appliance control method, which can be applied to a terminal device, and the method includes the following steps:

and step S1, acquiring selection operation of a first room in the first interactive interface, and displaying a second interactive interface corresponding to the first room.

The first interactive interface comprises a preset house type graph, the preset house type graph comprises a plurality of rooms, and the second interactive interface comprises a plurality of electric appliances in the first room.

It will be appreciated that the first room may be any room in a pre-set floor plan. The first interactive interface and the second interactive interface can be interfaces displayed through a touch screen of the terminal equipment.

The operation of selecting the first room in the first interactive interface may be an operation of clicking a touch screen or an operation of long-pressing the touch screen, which is not limited herein.

And step S2, obtaining the selection operation of the first electrical appliance in the second interactive interface, and displaying a third interactive interface, wherein the third interactive interface comprises a real-scene regulation option.

It will be appreciated that the first appliance may be any appliance in a first room in a pre-set user-type diagram. The third interactive interface may be an interface displayed through a touch screen of the terminal device.

The selection operation on the first electrical appliance in the second interactive interface may be an operation of clicking a touch screen or an operation of long-pressing the touch screen, which is not limited herein.

In a specific application, a selection operation of a first room can be completed by clicking one room in a first interactive interface, and then a second interactive interface is entered, wherein the second interactive interface includes a plurality of electrical appliances in the first room, specifically, the actual arrangement condition of each electrical appliance in the selected first room can be displayed in the second interactive interface, the electrical appliances in the first room can also be displayed in a list form, in some embodiments, the actual arrangement condition of each electrical appliance in the selected first room and the list of the electrical appliances in the first room can also be simultaneously displayed, so that the actual condition of the room in which the electrical appliance to be controlled is located can be visually displayed, and any electrical appliance in the selection list or any electrical appliance selected to be actually arranged is subjected to real-scene regulation and control according to requirements, and remote accurate control is realized.

In some embodiments, as shown in fig. 2, in addition to the preset user type fig. 1, the first interactive interface may provide an appliance list 2 of the whole house, and the user may select the first appliance by looking up the appliance list of the whole house when it is uncertain which room the first appliance that wants to be remotely controlled is in.

And step S3, obtaining the selection operation of the real-scene regulation option, and displaying a real-scene regulation interface, wherein the real-scene regulation interface comprises a real-scene image of the room where the first electrical appliance is located.

Specifically, the real-scene images can be displayed on the terminal equipment according to the actual conditions of the electric appliances and the houses with different models, structures and control ranges, so that the use condition of the electric appliances in the room is simulated, and the purpose of real-time remote control is achieved.

And step S4, acquiring a regulation and control operation on the first electric appliance in the live-action image, generating an instruction for controlling the first electric appliance to operate according to a working state corresponding to the regulation and control operation, and sending the instruction to the first electric appliance.

In the embodiment, after the electrical appliance in the room to be remotely controlled is selected, the electrical appliance in the live-action image can be regulated, the remote accurate fixed-point regulation of the electrical appliance can be realized, and the intuitive remote use of the electrical appliance can be completed without installing a camera.

In order to accurately simulate the usage environment of the electrical appliance, various information of the usage environment of the electrical appliance needs to be obtained in advance to accurately restore the environment and the position of the electrical appliance in the environment, and meanwhile, the accuracy of performing real-scene control subsequently is improved, so before step S1, the method may further include:

step S5, receiving the input house type information and the electric appliance information in each room; the house type information at least comprises the shape and the size of the house type, and the electrical appliance information at least comprises the shape and the size of the electrical appliance.

The house type information at least includes the shape and size of the house type, a house type diagram corresponding to the area and the house type structure can be generated according to the house type information, and in some embodiments, the house type information also includes the orientation of the house type. In other embodiments, the user may also input environmental information for each room, including the size of items such as furniture in the room and the placement location in the room. The electrical appliance information at least comprises the shape and the size of the electrical appliance, the occupied space of the electrical appliance in the live-action image can be determined according to the shape and the size of the electrical appliance, the electrical appliance information also can comprise the actual installation position of the electrical appliance, and the position of the electrical appliance in the live-action image can be determined according to the actual installation position of the electrical appliance. The appliance information may also include some fixed parameters of the appliance, such as power usage, providing a basis for subsequent backtracking to view power usage for a certain period of time. The appliance information may further include: the range that the electrical apparatus can be controlled when working (for example, the range that the electrical apparatus with the wind sweeping structure can be controlled when working refers to the wind sweeping angle range), and the working mode of the electrical apparatus (the electrical apparatus with multiple gears refers to the mode of different gears, such as the rice cooking and heat preservation modes of the electric cooker, the cooling mode and the heating mode of the air conditioner).

In order to integrate all the electric appliances in the environment where the user is located, the user can input the coded electric appliances in the environment and can also input the information of the electric appliances by himself.

Taking the example of coding all the electric appliances in the environment, all the electric appliances are coded, and the codes correspond to the electric appliances one by one, for example, a bar code, a two-dimensional code or a number is adopted, and a user scans the two-dimensional code through terminal equipment and can also input the codes to record the information of the electric appliances. The corresponding electrical appliance information can be obtained by inputting the codes. Due to the one-to-one correspondence relationship between the codes and the electric appliances, when the user selects the electric appliance corresponding to the codes, the pre-stored electric appliance information can be directly acquired and used for subsequently generating the live-action image.

Taking the self-input of the electrical appliance information as an example, a user can determine the occupied space of the electrical appliance in a room by inputting the shape and the size of the electrical appliance so as to determine the occupied space of the electrical appliance in the live-action image, and can also input the power consumption of the electrical appliance and the controllable range of the electrical appliance during working.

It can be understood that when a new electric appliance is added in the environment, the electric appliance information can be added in a mode of inputting the coded electric appliance or inputting the electric appliance information by self.

And step S6, generating a corresponding preset house type graph according to the house type information.

In order to display the appliances in each room in the corresponding appliance model in the subsequent live-action image, after step S6, the method further includes:

and step S7, determining the position and the occupied space of each electric appliance in the corresponding live-action image according to the electric appliance information in each room.

Specifically, the position of each electrical appliance in the corresponding live-action image may be determined according to the actual installation position of the electrical appliance, and the occupied space of each electrical appliance in the corresponding live-action image may be calculated according to the shape and size of the electrical appliance.

Preferably, the actual installation position of the electric appliance can be determined by taking a reference object in the room as a reference and determining the distance between the electric appliance and the reference object, namely, determining the position of the electric appliance (model) in the live-action image of the room. In some embodiments, the appliance (model) may also be placed at the target location by dragging the appliance (model) in the live view image of the room.

In some embodiments, the third interactive interface further includes an appliance usage information query option, configured to query the appliance usage information according to a user requirement, and therefore, the method may further include:

and step S8, acquiring the selection operation of the electric appliance use information inquiry option, and displaying the use information inquiry result of the first electric appliance.

Specifically, the usage information of the first appliance may include, but is not limited to, a power usage amount, a number of switching times, a switching time, and the like.

In the specific application, each electric appliance in the home environment is provided with a wifi module, the use information of the electric appliance can be uploaded at any time in the use process of the electric appliance, when a user has a requirement for inquiring the use information of the electric appliance, the user can select an electric appliance use information inquiry option through clicking operation in a third interactive interface so as to complete inquiry, and the terminal device displays the use information inquiry result of the first electric appliance. For example, when a user needs to check the power consumption of the air conditioner in a period of time, the power consumption can be directly calculated through the power consumption and the service life.

In some embodiments, the third interactive interface further includes an appliance use status display option, configured to query an appliance use status according to a user requirement, and therefore the method may further include:

and step S9, acquiring the selection operation of the electric appliance use state display option, and displaying the live-action image of the use state of the first electric appliance in the room on the electric appliance use state display interface.

In a specific application, the using state of the electric appliance can be checked at any time in the using process of the electric appliance, when a user needs to check the using state of the electric appliance, the using state display option of the electric appliance can be selected through clicking operation in the third interactive interface to finish checking, the terminal device displays the live-action image of the using state of the first electric appliance in a room, preferably displays the using state of the first electric appliance in the room through a three-dimensional live-action image, and displays the air-out state (including a left-right sweeping state, an up-down sweeping state and a vertical sweeping state) of the air conditioner through the three-dimensional live-action image by taking the air conditioner as an example; taking a floor sweeper as an example, the moving sweeping state of the floor sweeper can be displayed through a dynamic three-dimensional live-action image.

In a specific application, the electric appliances are divided according to the working states of the electric appliances, and the electric appliances can be divided into static electric appliances and dynamic electric appliances, wherein the static electric appliances are the electric appliances working in a fixed position state, and the dynamic electric appliances are the electric appliances working in a movable state.

The following describes the regulation and control operation of the first electrical appliance in the live-action image in different cases:

(1) the first electrical appliance is an electrical appliance which works in a fixed position state, namely a static electrical appliance, such as an air outlet device. At this time, the live-action regulation interface includes a three-dimensional live-action image of the room where the first electrical appliance is located, and the three-dimensional live-action image is a three-dimensional live-action image capable of rotating an angle or zooming a size.

When the first electrical appliance is the air outlet device, the adjusting and controlling operation includes an operation of adjusting a working angle of the air outlet device, the controllable range is a limit wind sweeping region of the air outlet device, and the user may specifically include an operation of adjusting a working angle of the air outlet device in left and right wind sweeping regions and an operation of adjusting a working angle of the air outlet device in up and down wind sweeping regions. And the wind sweeping state of the air conditioner can be seen in the live-action image, for example, the range covered by the wind sweeping of the air conditioner is dynamically displayed. Meanwhile, the user can input the environmental information of each room, including the sizes of the furniture and other articles in the room and the placing positions in the room, and the environmental information can also be displayed in the live-action image together, so that the user can better regulate and control the electric appliances.

For other static electric appliances, the controllable range of the electric appliance during operation is the limit operating range of the moving part (e.g. the left and right rotation angle of the traditional fan, the rotation angle of the electric heater, etc.). It will be appreciated that the static appliance may also be an automatic dishwasher, for example for operating range control of the position of the dish after washing.

Taking the air outlet device as an air conditioner as an example, the step S4 specifically includes the following substeps:

and a substep S4-1, acquiring a three-dimensional live-action image of the room where the air conditioner is located, wherein the three-dimensional live-action image is generated according to a preset house type picture, the position of the air conditioner in the three-dimensional live-action image and the occupied space of the air conditioner in the three-dimensional live-action image.

The sub-step S4-2 of performing a first regulation operation including adjusting the working angle of the air conditioner on the XY plane, that is: working angles of the left and right wind sweeping areas;

the sub-step S4-3 of performing a second regulation operation including adjusting the operating angle of the air conditioner on the YZ plane, that is: working angles of the upper and lower wind sweeping areas;

and a substep S4-4 of generating an instruction for controlling the air conditioner to operate according to the working state corresponding to the first regulation operation and the second regulation operation, and sending the instruction to the air conditioner.

Fig. 3 is a schematic diagram illustrating a first control operation for adjusting the working angle of the air conditioner on the XY plane, and it can be seen that the first control operation is performed by adjusting the air conditioner on the XY plane 6, and the working angle of the air conditioner is adjusted in the left and right wind sweeping regions 7.

Fig. 4 illustrates a second manipulation operation diagram for adjusting an operating angle of an air conditioner on a YZ plane. It can be seen that the air conditioner is adjusted to the YZ plane 5 to perform the second adjustment and control operation, the range of the upper and lower wind sweeping areas is MIN to MAX, and the working angle of the air conditioner 4 is adjusted in the upper and lower wind sweeping areas 3.

The working angle of the left and right wind sweeping regions and the working angle of the up and down wind sweeping regions can be adjusted by adjusting the plane of the air conditioner (model), so that accurate regulation and control under a live-action image can be realized, and the regulation and control effect and the regulated and controlled working state, such as the left and right wind sweeping conditions and the up and down wind sweeping conditions, can be visually displayed.

By the method, the wind sweeping area of the air outlet equipment with the wind sweeping function, such as an air conditioner/fan, can be remotely controlled manually to work at a certain position or avoid the certain position.

(2) The first electrical appliance is an electrical appliance which works in a moving state, namely a dynamic electrical appliance. At the moment, the live-action regulation and control interface comprises a two-dimensional live-action image of the room where the first electrical appliance is located; the two-dimensional live-action image is provided with a plurality of preset cells, and the size of the preset cells is not smaller than that of the first electric appliance in order to calculate the required movement distance/step number of the sweeper conveniently.

For a dynamic appliance, the relative position of the first appliance in the room may be determined by performing an initial positioning, and therefore, the step S4 may specifically include the following sub-steps:

substep S4-5, obtaining a selection operation on a preset cell; it can be understood that, in order to calculate the distance/number of steps that the sweeper needs to move, the preset cell is obtained by meshing each room in the floor plan on the basis of the preset floor plan, so that the action of the sweeper is more accurate. The user may select one or more preset cells.

And a substep S4-6 of generating an instruction for taking the selected preset cell as an initial positioning position of the first electrical appliance and sending the instruction to the first electrical appliance.

Specifically, when the first electrical appliance is initially positioned, a preset cell selected by a user is used as an initial positioning position, so that the relative position of the first electrical appliance in a room where the first electrical appliance is located is determined, and for example, the first electrical appliance is used as a sweeper, since the position of the sweeper is not fixed, work needs to be completed in motion, and therefore, if a user wants to accurately control a working area of the sweeper, a reference object is needed to determine the position of the user. Because the house type figure is preset, the sweeper only needs to determine the position and the orientation of the sweeper, so that when the sweeper is used for the first time or initial positioning needs to be carried out again, the sweeper is placed at a corner of a house, a positioning surface of the sweeper (one side of the sweeper has a plane result and can be used as a positioning surface) is attached to a wall of the corner, a preset cell corresponding to the position of the sweeper is selected, and the positioning surface of the sweeper (the positioning surface is placed to be coincident with the wall of the room, so that the plane of the corresponding room is selected) can be selected in a real image, so that the initial positioning of the sweeper is completed.

In the use process of a first electric appliance (dynamic electric appliance), a user remotely selects preset cells in a corresponding room to determine the working range of the first electric appliance so as to achieve the aim of remote accurate control. It can be understood that, in the case that the first interactive interface provides the list of the appliances of the whole house, the first appliance may be selected by searching the list of the appliances of the whole house, and the working range of the first appliance, that is, the room range in which the first appliance works, may be determined by obtaining the selection operation of the user on the first room in the preset user type diagram. Therefore, the step S4 may specifically include the following sub-steps:

substep S4-7, obtaining a selection operation on a preset cell;

specifically, a user determines the area range of the first electrical appliance in a room by selecting one or more preset cells, so as to achieve the purpose of remote accurate control.

And a substep S4-8 of generating an instruction for controlling the first electric appliance to move to the region formed by the selected preset cells for working, and sending the instruction to the first electric appliance.

The first electrical appliance is provided with a distance sensor, the first electrical appliance continuously feeds back the distance of the first electrical appliance moving in a certain direction in the working process, and the position of the first electrical appliance can be judged according to the distance.

Optionally, after the preset cell is selected through a touch screen of the terminal device, the user may set the selected preset cell as an initial positioning position of the first electrical appliance by long pressing, or set the selected preset cell as a working area of the first electrical appliance in a room.

Optionally, taking the first electrical appliance as a sweeper as an example, if the working area is an area commonly used by a user, such as beside a television, under a dining table, and the like, the user may further select a preset cell corresponding to a corresponding position (a tv drama, a dining table, and the like) to perform a custom naming, and after naming, directly select the area with the custom naming when subsequently controlling the sweeper to work, so that the sweeper can automatically sweep the corresponding position and the periphery thereof, and the user does not need to click the preset cell for multiple times to select the working area. Fig. 5 shows a schematic view of a live-action image of a living room area, where the area includes furniture such as a television, a dining table, and a sofa, and in practical application, a relevant area may be defined by selecting preset cells occupied by the furniture, for example, 6 preset cells occupied by the dining table may be selected and named as a dining table area, and after naming, the area may be directly selected when a subsequent sweeper is controlled to sweep the dining table area.

In order to calculate the movement distance of the first electrical appliance, the first electrical appliance (e.g., the sweeper) automatically returns to the initial positioning position for standby after the first electrical appliance is operated, and therefore, the substep S4-9 may be further performed, and the first electrical appliance returns to the initial positioning position after the first electrical appliance is operated.

The intelligent electrical apparatus in the prior art can not carry out self-positioning and remote accurate control of the electrical apparatus, and some electrical apparatuses are provided with the self-positioning, and still need the cooperation of camera to use, and cost are higher, have realized the method of self-positioning of electrical apparatus in this embodiment to show the user state of electrical apparatus through the live-action image, provide the user and carry out accurate fixed point regulation and control, be convenient for user operation.

It can be understood that the dynamic electric appliance can also be an automatic clothes airing machine, and the operation of the dynamic electric appliance on a specific area is controlled through real-scene regulation and control operation.

In some embodiments, the first electrical appliance may also be a thermal bulb-equipped electrical appliance, and when the first electrical appliance is a thermal bulb-equipped electrical appliance, the method may further include:

and step S10, receiving the temperature of the first electric appliance sent by the temperature sensing bulb.

Specifically, the temperature of the first electrical appliance sent by the temperature sensing bulb can reflect the temperature change of the first electrical appliance.

And step S11, judging whether the first electric appliance is in a use state.

Step S12, if the first electrical appliance is not in a use state and the difference between the temperature received at the current time and the temperature received at the previous time exceeds a first preset threshold, the first electrical appliance is abnormal, and an alarm signal is sent.

The first preset threshold value can be set according to actual conditions. For example, the first preset threshold may be set to 10 degrees.

Taking the first electrical appliance as an example of an air conditioner, when the air conditioner is not in a heating function state, the difference between the temperature received at the current moment and the temperature received at the previous moment exceeds 10 degrees, which indicates that the air conditioner has abnormal temperature change, the temperature change is too fast, and a fire risk may exist, at this time, the terminal device may send an alarm signal, and specifically, the user may be reminded in a voice prompt or special sound effect manner. And when the air conditioner is not in the state of starting the heating function, the difference between the temperature received at the current moment and the temperature received at the previous moment is not more than 10 degrees, the air conditioner belongs to the normal temperature variation range, and an alarm signal does not need to be sent out.

And step S13, if the first electric appliance is in a use state, the received temperature at the current moment is in an ascending trend compared with the received temperature at the previous moment, and the received temperature at the current moment exceeds a second preset threshold, the first electric appliance is abnormal, and an alarm signal is sent out.

And the second preset threshold value can be set according to the actual condition. For example, the second preset threshold may be set to 50 degrees.

Taking the first electrical appliance as an example, when the air conditioner starts a heating function, the received temperature at the current moment is in an increasing trend compared with the temperature at the previous moment, and the temperature received at the current moment exceeds 50 ℃, it is indicated that the air conditioner has abnormal temperature change, the temperature change is too fast, and fire risk may exist. And when the air conditioner starts the heating function, the received temperature at the current moment is in an increasing trend compared with the temperature at the previous moment, but the received temperature at the current moment is lower than 30 ℃, further temperature monitoring is carried out, and if the temperature continues to rise and reaches 50 ℃, an alarm signal is sent out.

And step S14, if response operation aiming at the alarm signal is acquired, stopping sending the alarm signal.

Specifically, after the terminal device sends the alarm signal, if the user responds to the alarm signal, for example, the voice prompt or the special sound effect is turned off, at this time, the terminal device stops sending the alarm signal, and the user can automatically alarm according to the actual situation.

And step S15, if the response operation aiming at the alarm signal is not acquired within the preset time, sending the alarm signal to the first target position.

The preset duration can be set according to actual conditions. For example 10 minutes.

For example, if a response operation to the alarm signal is not obtained within 10 minutes, the alarm signal is sent to a first target location, where the first target location may be a terminal device other than the terminal device of the user, and a customer service person in charge of the terminal device performs a response operation, such as turning off a voice prompt or a special sound effect, and the customer service person may alarm itself according to an actual situation.

And step S16, if the response operation of the first target position to the alarm signal is not acquired, sending the alarm signal to a second target position.

Continuing with the previous example, if the response operation of the customer service personnel to the alarm signal is not obtained, the alarm signal is sent to a second target position for alarming, the second target position can be a contact way of E-mail or mobile phone number and the like of the user, which is prestored by a terminal device other than the terminal device of the user, so that the alarm signal is sent by a mail or short message and the like.

In the embodiment, the temperature sensing bulb of the electric appliance is fully used, the purpose of automatic alarm is achieved, and the cost for installing the traditional automatic alarm can be reduced.

Example two

Fig. 6 shows a block diagram of an appliance control device, and as shown in fig. 6, the present embodiment provides an appliance control device, including the following modules:

the first selection module 21 is configured to obtain a selection operation on a first room in a first interactive interface, and display a second interactive interface corresponding to the first room, where the first interactive interface includes a preset house type diagram, the preset house type diagram includes multiple rooms, and the second interactive interface includes multiple electrical appliances in the first room;

the second selection module 22 is configured to acquire a selection operation on the first electrical appliance in the second interactive interface, and display a third interactive interface, where the third interactive interface includes a real-scene control option;

a third selecting module 23, configured to obtain a selection operation on the live-action regulation option, and display a live-action regulation interface, where the live-action regulation interface includes a live-action image of a room where the first electrical appliance is located;

and the instruction generating module 24 is configured to acquire a control operation on the first electrical appliance in the live-action image, generate an instruction for controlling the first electrical appliance to operate according to a working state corresponding to the control operation, and send the instruction to the first electrical appliance.

It is understood that the first selecting module 21 can be used for executing the step S1, the second selecting module 22 can be used for executing the step S2, the third selecting module 23 can be used for executing the step S3, and the command generating module 24 can be used for executing the step S4.

It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and alternatively, they may be implemented by program code executable by a computing device, such that they may be stored in a storage device and executed by a computing device, or they may be separately fabricated into various integrated circuit modules, or multiple modules or steps thereof may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

EXAMPLE III

The present embodiment provides an electrical appliance control system, as shown in fig. 7, including:

the terminal device 31 is configured to execute the steps of the electrical appliance control method according to the first embodiment.

And the server 32 is connected with the terminal equipment 31 and used for storing the preset user profile.

The server 32 is further configured to store the use information, the house type information, and the electrical appliance information in each room uploaded at any time during the use of the electrical appliance 33, so that the user can conveniently retrieve the use information and the house type information through querying. The server 32 may be connected to the terminal device 31 through a wireless network. Please refer to the details of the first embodiment for the steps of the electrical appliance control method, which are not described herein again.

Example four

The embodiment provides an electronic device, which comprises a memory and a processor, wherein the memory stores a computer program, and the computer program realizes the electric appliance control method according to the first embodiment when being executed by the processor.

The Processor in this embodiment may be implemented by an Application Specific Integrated Circuit (ASIC), a Digital Signal Processor (DSP), a Digital Signal Processing Device (DSPD), a Programmable Logic Device (PLD), a Field Programmable Gate Array (FPGA), a controller, a microcontroller, a microprocessor, or other electronic components, and is configured to execute the method in the foregoing embodiment. The method implemented when the computer program running on the processor is executed may refer to a specific embodiment of the electrical appliance control method provided in the first embodiment of the present invention, and details are not described here.

EXAMPLE five

The present embodiment provides a storage medium, which stores a computer program, and when the computer program is executed by one or more processors, the method for controlling an electrical appliance according to the first embodiment is implemented.

The storage medium in this embodiment may be implemented by any type of volatile or nonvolatile storage device or combination thereof, such as a Static Random Access Memory (SRAM), an Electrically Erasable Programmable Read-Only Memory (EEPROM), an Erasable Programmable Read-Only Memory (EPROM), a Programmable Read-Only Memory (PROM), a Read-Only Memory (ROM), a magnetic Memory, a flash Memory, a magnetic disk, or an optical disk.

In the embodiments provided in the present invention, it should be understood that the disclosed system and method can be implemented in other ways. The system and method embodiments described above are merely illustrative.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although the embodiments of the present invention have been described above, the above descriptions are only for the convenience of understanding the present invention, and are not intended to limit the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An appliance control method, comprising:

the method comprises the steps of obtaining selection operation of a first room in a first interactive interface, and displaying a second interactive interface corresponding to the first room, wherein the first interactive interface comprises a preset house type graph, the preset house type graph comprises a plurality of rooms, and the second interactive interface comprises a plurality of electrical appliances in the first room;

acquiring selection operation of a first electrical appliance in the second interactive interface, and displaying a third interactive interface, wherein the third interactive interface comprises a live-action regulation option;

acquiring selection operation of the live-action regulation option, and displaying a live-action regulation interface, wherein the live-action regulation interface comprises a live-action image of a room where the first electrical appliance is located;

and acquiring the regulation and control operation of the first electrical appliance in the live-action image, generating an instruction for controlling the first electrical appliance to operate according to the working state corresponding to the regulation and control operation, and sending the instruction to the first electrical appliance.

2. The electric appliance control method according to claim 1, wherein the first electric appliance is an electric appliance that operates in a fixed position state;

the live-action regulation and control interface comprises a three-dimensional live-action image of a room where the first electrical appliance is located, and the three-dimensional live-action image can rotate or be zoomed in and out.

3. The electrical appliance control method according to claim 2, wherein the first electrical appliance is an air outlet device, and the control operation includes an operation of adjusting a working angle of the air outlet device.

4. The electrical appliance control method according to claim 1, wherein the first electrical appliance is an electrical appliance operating in a mobile state, and the live-action regulation and control interface includes a two-dimensional live-action image of a room in which the first electrical appliance is located; the two-dimensional live-action image is provided with a plurality of preset cells, and the size of each preset cell is not smaller than that of the first electric appliance.

5. The electrical appliance control method according to claim 4, wherein the step of acquiring a control operation on the first electrical appliance in the live-action image, generating an instruction for controlling the first electrical appliance to operate according to a working state corresponding to the control operation, and sending the instruction to the first electrical appliance includes:

acquiring selection operation of a preset cell;

and generating an instruction taking the selected preset cell as an initial positioning position of the first electric appliance, and sending the instruction to the first electric appliance.

6. The electrical appliance control method according to claim 4, wherein the step of acquiring a control operation on the first electrical appliance in the live-action image, generating an instruction for controlling the first electrical appliance to operate according to a working state corresponding to the control operation, and sending the instruction to the first electrical appliance includes:

acquiring selection operation of a preset cell;

and generating an instruction for controlling the first electric appliance to move to the area formed by the selected preset cell to work, and sending the instruction to the first electric appliance.

7. The method for controlling an electric appliance according to claim 1, wherein when the first electric appliance is an electric appliance with a thermal bulb, the method further comprises:

receiving the temperature of the first electric appliance sent by the temperature sensing bulb;

judging whether the first electric appliance is in a use state or not;

if the first electric appliance is not in a use state and the difference between the temperature received at the current moment and the temperature received at the previous moment exceeds a first preset threshold value, the first electric appliance is abnormal and an alarm signal is sent out;

if the first electric appliance is in a use state, the received temperature at the current moment is in an ascending trend compared with the received temperature at the previous moment, and the received temperature at the current moment exceeds a second preset threshold value, the first electric appliance is abnormal, and an alarm signal is sent out.

8. The electric appliance control method according to claim 7, further comprising:

if response operation aiming at the alarm signal is not obtained within a preset time length, the alarm signal is sent to a first target position;

and if the response operation of the first target position to the alarm signal is not acquired, sending the alarm signal to a second target position.

9. An appliance control system, comprising:

terminal device for implementing the steps of the appliance control method of any of claims 1 to 8.

And the server is connected with the terminal equipment and is used for storing the preset user type graph.

10. A storage medium having stored thereon a computer program which, when executed by one or more processors, implements an appliance control method according to any one of claims 1 to 8.

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