CN105223936A - For control method and the device of intelligent appliance - Google Patents

Abstract

The present invention proposes a kind of control method for intelligent appliance and device, and this control method being used for intelligent appliance comprises the status information of current environment and the current operating conditions parameter of intelligent appliance that wearable device detects user place; Wearable device, according to the current operating conditions parameter of the status information of current environment and intelligent appliance, controls intelligent appliance adjust operation state or keeps running status constant.The running status of intelligent appliance can be controlled by the present invention according to the status information of the current environment at user place, effectively promote Consumer's Experience.

Description

Control method and device for intelligent household appliance

Technical Field

The invention relates to the technical field of intelligent home, in particular to a control method and device for an intelligent household appliance.

Background

At present, along with the continuous progress of the intelligent home technology and the improvement of the living standard of a user, more and more household appliances can realize intelligent operation. For example, when a user uses the air conditioner to adjust the indoor temperature, the air conditioner may be manually adjusted to perform heating or cooling according to the user's own requirement for temperature, for example, when the user feels tired after moving for a period of time, and at this time, the user may wish to set the air conditioner to a suitable operation state to help relieve the tiredness.

In the prior art, a user can adjust the running state of the air conditioner device in a manual mode, the running state of the intelligent household appliance cannot be controlled according to the state information of the current environment where the user is located, and user experience is poor.

Disclosure of Invention

The present invention is directed to solving, at least to some extent, one of the technical problems in the related art.

Therefore, an object of the present invention is to provide a control method for an intelligent household appliance, which can control an operating state of the intelligent household appliance according to state information of a current environment where a user is located, so as to effectively improve user experience.

Another object of the present invention is to provide a control device for an intelligent appliance.

In order to achieve the above object, a control method for an intelligent appliance according to an embodiment of a first aspect of the present invention includes: the wearable device detects the state information of the current environment where the user is located and the current running state parameters of the intelligent household appliance; and the wearable equipment controls the intelligent household appliance to adjust the running state or keep the running state unchanged according to the state information of the current environment and the current running state parameters of the intelligent household appliance.

According to the control method for the intelligent household appliance, provided by the embodiment of the first aspect of the invention, the intelligent household appliance is controlled to adjust the running state or keep the running state unchanged according to the state information of the current environment detected by the wearable device and the current running state parameters of the intelligent household appliance, so that the user experience is effectively improved.

In order to achieve the above object, a control device for an intelligent appliance according to an embodiment of a second aspect of the present invention includes: the state information and running state parameter detection module is used for detecting the state information of the current environment where the user is located and the current running state parameters of the intelligent household appliance; and the running state control module is used for controlling the intelligent household appliance to adjust the running state or keep the running state unchanged according to the state information of the current environment and the current running state parameters of the intelligent household appliance.

According to the control device for the intelligent household appliance, provided by the embodiment of the second aspect of the invention, the intelligent household appliance is controlled to adjust the running state or keep the running state unchanged according to the state information of the current environment detected by the wearable device and the current running state parameters of the intelligent household appliance, so that the user experience is effectively improved.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The foregoing and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic flowchart of a control method for an intelligent household appliance according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a system of an intelligent wearable device in an embodiment of the invention;

fig. 3 is a schematic diagram of system interaction between the intelligent wearable device and the air conditioner in the embodiment of the invention;

FIG. 4 is a schematic diagram of system interaction between the smart band and the air conditioner according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a system of an intelligent bracelet according to an embodiment of the present invention;

FIG. 6 is a schematic view of the system structure of the air conditioner in the embodiment of the present invention;

fig. 7 is a flowchart illustrating a control method for an intelligent home appliance according to another embodiment of the present invention;

fig. 8 is a schematic structural diagram of a control device for an intelligent appliance according to another embodiment of the present invention;

fig. 9 is a schematic structural diagram of a control device for an intelligent home appliance according to another embodiment of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.

Fig. 1 is a schematic flowchart of a control method for an intelligent home appliance according to an embodiment of the present invention, where the method includes:

s11: and detecting the state information of the current environment where the user is located and the current running state parameters of the intelligent household appliance.

The execution subject of the embodiment of the invention is a wearable device.

The wearable device is intelligent wearing equipment, for example watch, intelligent bracelet to and intelligent shoes.

The embodiment of the invention takes the intelligent household appliance as an example, namely an air conditioner.

Wherein the state information of the current environment is a current environment temperature value.

The current ambient temperature value may be represented by T1.

The current operating state parameters include a set temperature, a set wind speed, and a set wind direction of the air conditioner.

Wherein the set temperature may be represented by Ts and the set wind speed may be represented by S.

The set temperature is, for example, 27 ℃, the set wind speed is, for example, high wind, and the set wind direction is, for example, north wind.

For example, the intelligent wearable device detects that the current ambient temperature value is 25 ℃, the current operating state parameter of the air conditioner is the set temperature of 27 ℃, the wind speed is set to be high wind, and the wind direction is set to be north wind.

In the present invention, the system structure of the smart wearable device may be as shown in fig. 2, wherein the smart wearable device 20 includes a battery and charging module 201, a wireless communication module 202, a temperature detection module 203, and other modules 204. The battery is used for providing the electric energy for intelligent wearing equipment with the module 201 that charges, and wireless communication module 202 is used for realizing wireless communication with the air conditioner and is connected to further realize the remote control to the air conditioner, wherein, wireless communication connection mode is bluetooth or WIFI. The temperature detection module 203 is used for detecting a current environment temperature value of a current environment where the user is located, and the other modules 204 are used for integrating other functional modules of the intelligent wearable device.

In the present invention, a system interaction block diagram of the intelligent wearable device and the air conditioner can be seen in fig. 3, wherein the human body intelligent wearable device detects a current environment temperature value of a current environment where a user is located and a current operation state parameter of the air conditioner, and controls the air conditioner to adjust an operation state or keep the operation state unchanged according to state information of the current environment and the current operation state parameter of the air conditioner, so that the air conditioner operates in a state suitable for a human body.

Taking the example that the intelligent wearable device is an intelligent bracelet, a system interaction block diagram of the intelligent bracelet and the air conditioner can be seen in fig. 4.

Specifically, the system structure of the smart band may be as shown in fig. 5, wherein the smart band 50 includes a battery and charging module 501, a bluetooth module 502, a motor driving module 503, a temperature detecting module 504, and a button and display module 505. Wherein, battery and the module 501 that charges are used for providing the electric energy for intelligent bracelet, and bluetooth module 502 is used for realizing wireless communication with the air conditioner with the wireless communication mode of bluetooth and is connected to further realize the remote control to the air conditioner, and motor drive module 503 is used for driving intelligent bracelet and carries out work, and temperature detection module 504 is used for detecting the current ambient temperature value of the current environment at user place, and button and display module 505 are used for showing the activity volume condition of human body.

Referring to fig. 6, fig. 6 is a schematic system structure diagram of an air conditioner, wherein the air conditioner 60 includes an air conditioner electronic control system 601 and a wireless communication module 602. The air conditioner electric control system 601 is used for controlling the air conditioner to work, the wireless communication module 602 is used for achieving wireless communication connection with the air conditioner, and the wireless communication connection mode is Bluetooth or WIFI.

S12: and controlling the intelligent household appliance to adjust the running state or keep the running state unchanged according to the state information of the current environment and the current running state parameters of the intelligent household appliance.

Optionally, the current operation state of the intelligent household appliance may be determined according to the current operation state parameter of the intelligent household appliance; and controlling the intelligent household appliance to adjust the running state or keep the running state unchanged according to a preset rule corresponding to the current running state and the current environmental temperature value.

Wherein the current operating state comprises: be in the start and refrigeration running state, according to the rule of predetermineeing and the current ambient temperature value that corresponds with current running state, control intelligent household electrical appliances adjustment running state or keep the running state unchangeable, include: comparing the current environment temperature value with a preset temperature threshold value to obtain a comparison result, and generating a control instruction or not according to the comparison result; and when the control instruction is generated, the control instruction is sent to the intelligent household appliance so that the intelligent household appliance adjusts the running state according to the control instruction, or when the control instruction is not generated, the intelligent household appliance keeps the running state unchanged.

The preset temperature threshold value can be preset by a built-in program of the intelligent household appliance.

The preset temperature threshold may be denoted by Tmi, where 1 ═ i < ═ n and n ═ 1, 2, 3, 4.

Specifically, the preset temperature threshold includes a preset first temperature threshold, a preset second temperature threshold, a preset third temperature threshold, and a preset fourth temperature threshold. Wherein the preset first temperature threshold is represented by Tm1, the preset second temperature threshold is represented by Tm2, the preset third temperature threshold is represented by Tm3, and the preset fourth temperature threshold is represented by Tm 4.

The control command may, for example, control the air conditioner to lower the set temperature.

Specifically, the control instructions include a first control instruction, a second control instruction, a third control instruction, a fourth control instruction, a fifth control instruction, and a sixth control instruction. The first control instruction is used for controlling the air conditioner to be shut down; the second control instruction is used for controlling the air conditioner to change the set wind direction; the third control instruction is used for controlling the air conditioner to increase the set temperature, and the increased set temperature is less than or equal to the preset maximum temperature value; the fourth control instruction is used for controlling the air conditioner to change the set wind direction; the fifth control instruction is used for controlling the air conditioner to reduce the set temperature, and the reduced set temperature is greater than or equal to the preset minimum temperature value; and the sixth control instruction is used for controlling the air conditioner to reduce the set temperature, and the reduced set temperature is greater than or equal to the preset minimum temperature value.

In the embodiment, the intelligent household appliance is controlled to adjust the running state or keep the running state unchanged through the state information of the current environment detected by the wearable device and the current running state parameters of the intelligent household appliance, and the user experience is effectively improved.

Fig. 7 is a flowchart illustrating a control method for an intelligent appliance according to another embodiment of the present invention, where the method includes:

s701: and detecting the current environment temperature value of the current environment where the user is located and the current operation state parameter of the air conditioner.

The execution subject of the embodiment of the invention is a wearable device.

The wearable device is intelligent wearing equipment, for example watch, intelligent bracelet to and intelligent shoes.

The current ambient temperature value may be represented by T1.

The current operating state parameters include a set temperature, a set wind speed, and a set wind direction of the air conditioner.

Wherein the set temperature may be represented by Ts and the set wind speed may be represented by S.

The set temperature is, for example, 27 ℃, the set wind speed is, for example, high wind, and the set wind direction is, for example, north wind.

For example, the intelligent wearable device detects that the current ambient temperature value is 25 ℃, the current operating state parameter of the air conditioner is the set temperature of 27 ℃, the wind speed is set to be high wind, and the wind direction is set to be north wind.

S702: and determining the current operation state of the air conditioner according to the current operation state parameters of the air conditioner.

The current operating state is, for example, an air conditioner on and cooling operating state.

S703: and judging whether the current ambient temperature value is less than or equal to a preset first temperature threshold value, if so, executing the step S704, otherwise, executing the step S705.

Wherein the preset first temperature threshold is represented by Tm 1.

In the embodiment of the invention, Tm1 is 20 ℃ by default, specifically, Tm1 can be preset by an air conditioner built-in program, and Tm1 has a value range of (0 ℃, 23 ℃).

For example, if the current ambient temperature value T1 is 15 ℃ and is less than the preset first temperature threshold value of 20 ℃, then step S704 is triggered to be executed.

S704: and generating a first control instruction, and sending the first control instruction to the air conditioner so that the air conditioner adjusts the running state according to the first control instruction.

The first control instruction is used for controlling the air conditioner to be turned off.

For example, the air conditioner is turned off after receiving the first control instruction.

S705: and judging whether the current ambient temperature value is less than or equal to a preset second temperature threshold value, if so, executing the steps S706-S708, otherwise, executing the step S709 and the subsequent steps.

Wherein the preset second temperature threshold is represented by Tm 2.

In the embodiment of the invention, Tm2 defaults to 23 ℃, specifically, Tm2 can be preset by an air conditioner built-in program, and the value range of Tm2 is (20 ℃, 23 ℃).

For example, if the current ambient temperature value T1 is 21 ℃, is less than the preset second temperature threshold value 23 ℃ and is greater than the preset first temperature threshold value 20 ℃, then the execution of steps S706-S708 is triggered.

S706: and generating a second control instruction, and sending the second control instruction to the air conditioner so that the air conditioner adjusts the running state according to the second control instruction.

And the second control instruction is used for controlling the air conditioner to change the set wind direction.

For example, if the set wind direction of the air conditioner is 45 °, the air conditioner changes the set wind direction by 20 ° upon receiving the second control command.

S707: and when the current time reaches the preset time, detecting the current environment temperature value again.

Wherein the preset time is preset by a built-in program of the air conditioner.

The preset time may be represented by Td 1.

Td1 is for example 3 minutes.

For example, when the current time reaches 3 minutes, the current ambient temperature value T1 is detected again as 22 ℃.

S708: and if the re-detected current environment temperature value is greater than the preset first temperature threshold value and less than or equal to the preset second temperature threshold value, generating a third control instruction, and sending the third control instruction to the air conditioner so that the air conditioner adjusts the operation state according to the third control instruction.

And the third control instruction is used for controlling the air conditioner to increase the set temperature, and the increased set temperature is less than or equal to the preset maximum temperature value.

The preset maximum temperature value is for example 30 ℃.

For example, if the re-detected current ambient temperature value T1 is 22 ℃, is less than the preset second temperature threshold value 23 ℃, and is greater than the preset first temperature threshold value 20 ℃, the air conditioner increases the set temperature by 1 ℃ after receiving the third control command.

S709: and judging whether the current ambient temperature value is less than or equal to a preset third temperature threshold value, if so, executing the step S710, otherwise, executing the step S711.

Wherein the preset third temperature threshold is represented by Tm 3.

In the embodiment of the invention, Tm3 defaults to 25 ℃, specifically, Tm3 can be preset by an air conditioner built-in program, and Tm3 has a value range of (24 ℃, 27 ℃).

For example, if the current ambient temperature value T1 is 24 ℃, is less than the preset third temperature threshold value 25 ℃, and is greater than the preset second temperature threshold value 23 ℃, then step S710 is triggered.

S710: and no control instruction is generated so as to keep the air conditioner in the running state unchanged.

S711: and judging whether the current ambient temperature value is less than or equal to a preset fourth temperature threshold value, if so, executing the steps S712-S714, otherwise, executing the step S715.

Wherein the preset fourth temperature threshold is represented by Tm 4.

In the embodiment of the invention, Tm4 is 28 ℃ by default, specifically, Tm4 can be preset by an air conditioner built-in program, and Tm4 is in a value range of (27 ℃, 60 ℃).

For example, if the current ambient temperature value T1 is 26 ℃, is smaller than the preset fourth temperature threshold value 28 ℃, and is greater than the preset third temperature threshold value 25 ℃, then the execution of steps S712-S714 is triggered.

S712: and generating a fourth control instruction, and sending the fourth control instruction to the air conditioner so that the air conditioner adjusts the running state according to the fourth control instruction.

And the fourth control instruction is used for controlling the air conditioner to change the set wind direction.

For example, if the set wind direction of the air conditioner is 45 °, the air conditioner changes the set wind direction by 20 ° upon receiving the second control command.

S713: and when the current time reaches the preset time, detecting the current environment temperature value again.

Wherein the preset time is preset by a built-in program of the air conditioner.

The preset time may be represented by Td 1.

Td1 is for example 3 minutes.

For example, when the current time reaches 3 minutes, the current ambient temperature value T1 is again detected as 27 ℃.

S714: and if the re-detected current ambient temperature value is greater than the preset third temperature threshold and less than or equal to the preset fourth temperature threshold, generating a fifth control instruction, and sending the fifth control instruction to the air conditioner so that the air conditioner adjusts the running state according to the fifth control instruction.

And the fifth control instruction is used for controlling the air conditioner to reduce the set temperature, and the reduced set temperature is greater than or equal to the preset minimum temperature value.

The preset minimum temperature value is, for example, 20 ℃.

For example, if the current ambient temperature value T1 detected again is 27 ℃, is less than the preset fourth temperature threshold value 28 ℃, and is greater than the preset third temperature threshold value 25 ℃, the air conditioner decreases the set temperature by 1 ℃ after receiving the fifth control command.

S715: and generating a sixth control instruction, and sending the sixth control instruction to the air conditioner so that the air conditioner adjusts the operation state according to the sixth control instruction.

And the sixth control instruction is used for controlling the air conditioner to reduce the set temperature, and the reduced set temperature is greater than or equal to the preset minimum temperature value.

The preset minimum temperature value is, for example, 20 ℃.

For example, when the set temperature is 29 ℃ and is greater than the preset fourth temperature threshold value of 28 ℃, the air conditioner reduces the set temperature by 3 ℃ after receiving the fifth control instruction.

In the embodiment, a comparison result is obtained by comparing the current environmental temperature value detected by the wearable device with a preset temperature threshold, and a control instruction is generated or not generated according to the comparison result; when the control instruction is generated, the control instruction is sent to the intelligent household appliance, so that the intelligent household appliance adjusts the running state according to the control instruction, or when the control instruction is not generated, the air conditioner keeps the running state unchanged, and the user experience is effectively improved.

Fig. 8 is a schematic structural diagram of a control apparatus for an intelligent household appliance according to another embodiment of the present invention, where the apparatus 80 includes a status information and operating status parameter detection module 801 and an operating status control module 802, where the status information and operating status parameter detection module 801 is configured to detect status information of a current environment where a user is located and a current operating status parameter of the intelligent household appliance; and an operation state control module 802, configured to control the intelligent appliance to adjust an operation state or keep the operation state unchanged according to the state information of the current environment and the current operation state parameters of the intelligent appliance.

And a status information and operating status parameter detecting module 801, configured to detect status information of a current environment where the user is located and current operating status parameters of the intelligent appliance.

The execution subject of the embodiment of the invention is a wearable device.

The wearable device is intelligent wearing equipment, for example watch, intelligent bracelet to and intelligent shoes.

The embodiment of the invention takes the intelligent household appliance as an example, namely an air conditioner.

Wherein the state information of the current environment is a current environment temperature value.

The current ambient temperature value may be represented by T1.

The current operating state parameters include a set temperature, a set wind speed, and a set wind direction of the air conditioner.

Wherein the set temperature may be represented by Ts and the set wind speed may be represented by S.

The set temperature is, for example, 27 ℃, the set wind speed is, for example, high wind, and the set wind direction is, for example, north wind.

For example, the intelligent wearable device detects that the current ambient temperature value is 25 ℃, the current operating state parameter of the air conditioner is the set temperature of 27 ℃, the wind speed is set to be high wind, and the wind direction is set to be north wind.

In the present invention, the system structure of the smart wearable device may be as shown in fig. 2, wherein the smart wearable device 20 includes a battery and charging module 201, a wireless communication module 202, a temperature detection module 203, and other modules 204. The battery is used for providing the electric energy for intelligent wearing equipment with the module 201 that charges, and wireless communication module 202 is used for realizing wireless communication with the air conditioner and is connected to further realize the remote control to the air conditioner, wherein, wireless communication connection mode is bluetooth or WIFI. The temperature detection module 203 is used for detecting a current environment temperature value of a current environment where the user is located, and the other modules 204 are used for integrating other functional modules of the intelligent wearable device.

In the present invention, a system interaction block diagram of the intelligent wearable device and the air conditioner can be seen in fig. 3, wherein the human body intelligent wearable device detects a current environment temperature value of a current environment where a user is located and a current operation state parameter of the air conditioner, and controls the air conditioner to adjust an operation state or keep the operation state unchanged according to state information of the current environment and the current operation state parameter of the air conditioner, so that the air conditioner operates in a state suitable for a human body.

Taking the example that the intelligent wearable device is an intelligent bracelet, a system interaction block diagram of the intelligent bracelet and the air conditioner can be seen in fig. 4.

Specifically, the system structure of the smart band may be as shown in fig. 5, wherein the smart band 50 includes a battery and charging module 501, a bluetooth module 502, a motor driving module 503, a temperature detecting module 504, and a button and display module 505. Wherein, battery and the module 501 that charges are used for providing the electric energy for intelligent bracelet, and bluetooth module 502 is used for realizing wireless communication with the air conditioner with the wireless communication mode of bluetooth and is connected to further realize the remote control to the air conditioner, and motor drive module 503 is used for driving intelligent bracelet and carries out work, and temperature detection module 504 is used for detecting the current ambient temperature value of the current environment at user place, and button and display module 505 are used for showing the activity volume condition of human body.

Referring to fig. 6, fig. 6 is a schematic system structure diagram of an air conditioner, wherein the air conditioner 60 includes an air conditioner electronic control system 601 and a wireless communication module 602. The air conditioner electric control system 601 is used for controlling the air conditioner to work, the wireless communication module 602 is used for achieving wireless communication connection with the air conditioner, and the wireless communication connection mode is Bluetooth or WIFI.

And an operation state control module 802, configured to control the intelligent appliance to adjust an operation state or keep the operation state unchanged according to the state information of the current environment and the current operation state parameters of the intelligent appliance.

In another embodiment, referring to fig. 9, the operation state control module 802 includes: the current operation state determining submodule 8021 is configured to determine a current operation state of the intelligent household appliance according to the current operation state parameter of the intelligent household appliance.

In another embodiment, the operation state control module 802 is specifically configured to control the intelligent home appliance to adjust the operation state or keep the operation state unchanged according to a preset rule corresponding to the current operation state and the current environment temperature value.

The current operating state includes: and the system is in a starting and cooling running state.

In another embodiment, referring to fig. 9, the operation state control module 802 further includes: the control instruction generating sub-module 8022 is configured to compare the current ambient temperature value with a preset temperature threshold value to obtain a comparison result, and generate a control instruction or not according to the comparison result.

In another embodiment, the operation state control module 802 is further specifically configured to send the control instruction to the intelligent appliance when the control instruction is generated, so that the intelligent appliance adjusts the operation state according to the control instruction, or when the control instruction is not generated, the intelligent appliance keeps the operation state unchanged.

The preset temperature threshold value can be preset by a built-in program of the intelligent household appliance.

The preset temperature threshold may be denoted by Tmi, where 1 ═ i < ═ n and n ═ 1, 2, 3, 4.

Specifically, the preset temperature threshold includes a preset first temperature threshold, a preset second temperature threshold, a preset third temperature threshold, and a preset fourth temperature threshold. Wherein the preset first temperature threshold is represented by Tm1, the preset second temperature threshold is represented by Tm2, the preset third temperature threshold is represented by Tm3, and the preset fourth temperature threshold is represented by Tm 4.

The control command may, for example, control the air conditioner to lower the set temperature.

Specifically, the control instructions include a first control instruction, a second control instruction, a third control instruction, a fourth control instruction, a fifth control instruction, and a sixth control instruction. The first control instruction is used for controlling the air conditioner to be shut down; the second control instruction is used for controlling the air conditioner to change the set wind direction; the third control instruction is used for controlling the air conditioner to increase the set temperature, and the increased set temperature is less than or equal to the preset maximum temperature value; the fourth control instruction is used for controlling the air conditioner to change the set wind direction; the fifth control instruction is used for controlling the air conditioner to reduce the set temperature, and the reduced set temperature is greater than or equal to the preset minimum temperature value; and the sixth control instruction is used for controlling the air conditioner to reduce the set temperature, and the reduced set temperature is greater than or equal to the preset minimum temperature value.

In another embodiment, the control instruction generating sub-module 8022 is specifically configured to:

the preset temperature threshold comprises a preset first temperature threshold, and if the current ambient temperature value is less than or equal to the preset first temperature threshold, a first control instruction is generated and used for controlling the air conditioner to be shut down.

Wherein the preset first temperature threshold is represented by Tm 1.

In the embodiment of the invention, Tm1 is 20 ℃ by default, specifically, Tm1 can be preset by an air conditioner built-in program, and Tm1 has a value range of (0 ℃, 23 ℃).

For example, if the current ambient temperature value T1 is 15 ℃ and is less than the preset first temperature threshold value 20 ℃, a first control instruction is generated and sent to the air conditioner, and the air conditioner is shut down after receiving the first control instruction.

The preset temperature threshold value also comprises a preset second temperature threshold value, if the current environment temperature value is larger than the preset first temperature threshold value and smaller than or equal to the preset second temperature threshold value, a second control instruction is generated and used for controlling the air conditioner to change the set wind direction, the current environment temperature value is detected again after the air conditioner changes the wind direction for a preset time, if the current environment temperature value detected again is larger than the preset first temperature threshold value and smaller than or equal to the preset second temperature threshold value, a third control instruction is generated and used for controlling the air conditioner to raise the set temperature, and the raised set temperature is smaller than or equal to the preset highest temperature value.

Wherein the preset second temperature threshold is represented by Tm 2.

In the embodiment of the invention, Tm2 defaults to 23 ℃, specifically, Tm2 can be preset by an air conditioner built-in program, and the value range of Tm2 is (20 ℃, 23 ℃).

For example, if the set wind direction of the air conditioner is 45 °, the air conditioner changes the set wind direction by 20 ° upon receiving the second control command.

Wherein the preset time is preset by a built-in program of the air conditioner.

The preset time may be represented by Td 1.

Td1 is for example 3 minutes.

For example, when the current time reaches 3 minutes, the current ambient temperature value T1 is detected again as 22 ℃.

The preset maximum temperature value is for example 30 ℃.

The preset temperature threshold value also comprises a preset third temperature threshold value, and if the current ambient temperature value is greater than the preset second temperature threshold value and less than or equal to the preset third temperature threshold value, no control instruction is generated, so that the air conditioner keeps the running state unchanged.

Wherein the preset third temperature threshold is represented by Tm 3.

In the embodiment of the invention, Tm3 defaults to 25 ℃, specifically, Tm3 can be preset by an air conditioner built-in program, and Tm3 has a value range of (24 ℃, 27 ℃).

For example, if the current ambient temperature value T1 is 24 ℃, is less than the preset third temperature threshold value by 25 ℃, and is greater than the preset second temperature threshold value by 23 ℃, no control command is generated, so that the air conditioner keeps the operation state unchanged.

The preset temperature threshold value also comprises a preset fourth temperature threshold value, if the current environment temperature value is greater than the preset third temperature threshold value and less than or equal to the preset fourth temperature threshold value, a fourth control instruction is generated and used for controlling the air conditioner to change the set wind direction, the current environment temperature value is detected again after the air conditioner changes the wind direction for a preset time, if the current environment temperature value detected again is greater than the preset third temperature threshold value and less than or equal to the preset fourth temperature threshold value, a fifth control instruction is generated and used for controlling the air conditioner to reduce the set temperature, and the reduced set temperature is greater than or equal to the preset lowest temperature value.

Wherein the preset fourth temperature threshold is represented by Tm 4.

In the embodiment of the invention, Tm4 is 28 ℃ by default, specifically, Tm4 can be preset by an air conditioner built-in program, and Tm4 is in a value range of (27 ℃, 60 ℃).

Wherein the preset time is preset by a built-in program of the air conditioner.

The preset time may be represented by Td 1.

Td1 is for example 3 minutes.

For example, when the current time reaches 3 minutes, the current ambient temperature value T1 is again detected as 27 ℃.

The preset minimum temperature value is, for example, 20 ℃.

And if the current ambient temperature value is greater than the preset fourth temperature threshold value, generating a sixth control instruction, wherein the sixth control instruction is used for controlling the air conditioner to reduce the set temperature, and the reduced set temperature is greater than or equal to the preset lowest temperature value.

The preset minimum temperature value is, for example, 20 ℃.

For example, when the set temperature is 29 ℃ and is greater than the preset fourth temperature threshold value of 28 ℃, the air conditioner reduces the set temperature by 3 ℃ after receiving the fifth control instruction.

In the embodiment, a comparison result is obtained by comparing the current environmental temperature value detected by the wearable device with a preset temperature threshold, and a control instruction is generated or not generated according to the comparison result; when the control instruction is generated, the control instruction is sent to the intelligent household appliance, so that the intelligent household appliance adjusts the running state according to the control instruction, or when the control instruction is not generated, the air conditioner keeps the running state unchanged, and the user experience is effectively improved.

It should be noted that the terms "first," "second," and the like in the description of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and alternate implementations are included within the scope of the preferred embodiment of the present invention in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present invention.

It should be understood that portions of the present invention may be implemented in hardware, software, firmware, or a combination thereof. In the above embodiments, the various steps or methods may be implemented in software or firmware stored in memory and executed by a suitable instruction execution system. For example, if implemented in hardware, as in another embodiment, any one or combination of the following techniques, which are known in the art, may be used: a discrete logic circuit having a logic gate circuit for implementing a logic function on a data signal, an application specific integrated circuit having an appropriate combinational logic gate circuit, a Programmable Gate Array (PGA), a Field Programmable Gate Array (FPGA), or the like.

It will be understood by those skilled in the art that all or part of the steps carried by the method for implementing the above embodiments may be implemented by hardware related to instructions of a program, which may be stored in a computer readable storage medium, and when the program is executed, the program includes one or a combination of the steps of the method embodiments.

In addition, functional units in the embodiments of the present invention may be integrated into one processing module, or each unit may exist alone physically, or two or more units are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode. The integrated module, if implemented in the form of a software functional module and sold or used as a stand-alone product, may also be stored in a computer readable storage medium.

The storage medium mentioned above may be a read-only memory, a magnetic or optical disk, etc.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (10)

1. A control method for intelligent household appliances is characterized by comprising the following steps:

the wearable device detects the state information of the current environment where the user is located and the current running state parameters of the intelligent household appliance;

and the wearable equipment controls the intelligent household appliance to adjust the running state or keep the running state unchanged according to the state information of the current environment and the current running state parameters of the intelligent household appliance.

2. The control method for intelligent home appliances according to claim 1, wherein the intelligent home appliances are air conditioners, and the state information of the current environment is a current environment temperature value.

3. The method as claimed in claim 2, wherein the controlling the intelligent appliance to adjust the operation state or keep the operation state according to the state information of the current environment and the current operation state parameter of the intelligent appliance comprises:

determining the current operation state of the intelligent household appliance according to the current operation state parameters of the intelligent household appliance;

and controlling the intelligent household appliance to adjust the running state or keep the running state unchanged according to a preset rule corresponding to the current running state and the current environment temperature value.

4. The control method for intelligent home appliances according to claim 3, wherein the current operation state includes: the method comprises the following steps of starting and refrigerating, controlling the intelligent household appliance to adjust the running state or keep the running state unchanged according to a preset rule corresponding to the current running state and the current environment temperature value, and comprising the following steps:

comparing the current environment temperature value with a preset temperature threshold value to obtain a comparison result, and generating a control instruction or not according to the comparison result;

and when the control instruction is generated, sending the control instruction to the intelligent household appliance so that the intelligent household appliance adjusts the running state according to the control instruction, or when the control instruction is not generated, keeping the running state of the intelligent household appliance unchanged.

5. The method according to claim 4, wherein the step of comparing the current ambient temperature value with a preset temperature threshold to obtain a comparison result, and generating the control command or not according to the comparison result comprises:

the preset temperature threshold comprises a preset first temperature threshold, and if the current ambient temperature value is less than or equal to the preset first temperature threshold, a first control instruction is generated, wherein the first control instruction is used for controlling the air conditioner to be shut down; or,

the preset temperature threshold value also comprises a preset second temperature threshold value, if the current environment temperature value is greater than the preset first temperature threshold value and less than or equal to the preset second temperature threshold value, a second control instruction is generated, the second control instruction is used for controlling the air conditioner to change the set wind direction, the current environment temperature value is detected again after the air conditioner changes the wind direction for a preset time, if the current environment temperature value detected again is greater than the preset first temperature threshold value and less than or equal to the preset second temperature threshold value, a third control instruction is generated, the third control instruction is used for controlling the air conditioner to increase the set temperature, and the increased set temperature is less than or equal to the preset highest temperature value; or,

the preset temperature threshold value also comprises a preset third temperature threshold value, and if the current environment temperature value is greater than the preset second temperature threshold value and less than or equal to the preset third temperature threshold value, the control instruction is not generated so that the air conditioner keeps the running state unchanged; or,

the preset temperature threshold value also comprises a preset fourth temperature threshold value, if the current environment temperature value is greater than the preset third temperature threshold value and less than or equal to the preset fourth temperature threshold value, a fourth control instruction is generated, the fourth control instruction is used for controlling the air conditioner to change the set wind direction, the current environment temperature value is detected again after the air conditioner changes the wind direction within the preset time, if the current environment temperature value detected again is greater than the preset third temperature threshold value and less than or equal to the preset fourth temperature threshold value, a fifth control instruction is generated, the fifth control instruction is used for controlling the air conditioner to reduce the set temperature, and the reduced set temperature is greater than or equal to the preset lowest temperature value; or,

and if the current environment temperature value is greater than the preset fourth temperature threshold value, generating a sixth control instruction, wherein the sixth control instruction is used for controlling the air conditioner to reduce the set temperature, and the reduced set temperature is greater than or equal to the preset lowest temperature value.

6. A control device for an intelligent appliance, comprising:

the state information and running state parameter detection module is used for detecting the state information of the current environment where the user is located and the current running state parameters of the intelligent household appliance;

and the running state control module is used for controlling the intelligent household appliance to adjust the running state or keep the running state unchanged according to the state information of the current environment and the current running state parameters of the intelligent household appliance.

7. The control device for intelligent home appliances according to claim 6, wherein the intelligent home appliance is an air conditioner, and the state information of the current environment is a current environment temperature value.

8. The control device for intelligent home appliances according to claim 7, wherein the operation state control module comprises:

a current operation state determining submodule for determining the current operation state of the intelligent household appliance according to the current operation state parameter of the intelligent household appliance;

the operation state control module is specifically configured to control the intelligent household appliance to adjust an operation state or keep the operation state unchanged according to a preset rule corresponding to the current operation state and the current environment temperature value.

9. The control device for intelligent home appliances according to claim 8, wherein the current operation state includes: in the start and refrigeration running state, the running state control module further includes:

the control instruction generation submodule is used for comparing the current environment temperature value with a preset temperature threshold value to obtain a comparison result, and generating a control instruction according to the comparison result or not generating the control instruction;

the operation state control module is further specifically configured to send the control instruction to the intelligent household appliance when the control instruction is generated, so that the intelligent household appliance adjusts the operation state according to the control instruction, or, when the control instruction is not generated, the intelligent household appliance keeps the operation state unchanged.

10. The control device for an intelligent home appliance according to claim 9, wherein the control instruction generation submodule is specifically configured to:

the preset temperature threshold comprises a preset first temperature threshold, and if the current ambient temperature value is less than or equal to the preset first temperature threshold, a first control instruction is generated, wherein the first control instruction is used for controlling the air conditioner to be shut down; or,

the preset temperature threshold value also comprises a preset second temperature threshold value, if the current environment temperature value is greater than the preset first temperature threshold value and less than or equal to the preset second temperature threshold value, a second control instruction is generated, the second control instruction is used for controlling the air conditioner to change the set wind direction, the current environment temperature value is detected again after the air conditioner changes the wind direction for a preset time, if the current environment temperature value detected again is greater than the preset first temperature threshold value and less than or equal to the preset second temperature threshold value, a third control instruction is generated, the third control instruction is used for controlling the air conditioner to increase the set temperature, and the increased set temperature is less than or equal to the preset highest temperature value; or,

the preset temperature threshold value also comprises a preset third temperature threshold value, and if the current environment temperature value is greater than the preset second temperature threshold value and less than or equal to the preset third temperature threshold value, the control instruction is not generated so that the air conditioner keeps the running state unchanged; or,

the preset temperature threshold value also comprises a preset fourth temperature threshold value, if the current environment temperature value is greater than the preset third temperature threshold value and less than or equal to the preset fourth temperature threshold value, a fourth control instruction is generated, the fourth control instruction is used for controlling the air conditioner to change the set wind direction, the current environment temperature value is detected again after the air conditioner changes the wind direction within the preset time, if the current environment temperature value detected again is greater than the preset third temperature threshold value and less than or equal to the preset fourth temperature threshold value, a fifth control instruction is generated, the fifth control instruction is used for controlling the air conditioner to reduce the set temperature, and the reduced set temperature is greater than or equal to the preset lowest temperature value; or,

and if the current environment temperature value is greater than the preset fourth temperature threshold value, generating a sixth control instruction, wherein the sixth control instruction is used for controlling the air conditioner to reduce the set temperature, and the reduced set temperature is greater than or equal to the preset lowest temperature value.