CN109812936B - Air conditioner and air conditioner air outlet temperature adjusting method and device thereof - Google Patents

Abstract

The invention provides an air conditioner and an air conditioner air outlet temperature adjusting method and device thereof, and relates to the technical field of air conditioners. Acquiring a human body surface temperature curve of a human body in the current environment in real time; then extracting the current change characteristics of the human body surface temperature curve; and finally, adjusting the air outlet temperature of the air conditioner according to the current change characteristics and the current air conditioner running mode, thereby realizing real-time accurate control of the air outlet temperature of the air conditioner and enabling a user to feel the temperature comfort of the more fitting requirement all the time.

Description

Air conditioner and air conditioner air outlet temperature adjusting method and device thereof

Technical Field

The invention relates to the technical field of air conditioners, in particular to an air conditioner and an air conditioner air outlet temperature adjusting method and device thereof.

Background

With the development of science and technology and the improvement of living standard of people, air conditioners have gone into thousands of households, and more comfortable temperature environment is provided for users. When a user uses the air conditioner, if the indoor unit measures the room temperature by using the self-carried ambient temperature sensor of the indoor unit, the temperature difference with the real temperature of the user can be a certain degree, so that the comfort level of the user is poor, and therefore, the air conditioner is designed to have a function of making the user feel.

The portable temperature sensing function of the air conditioner in the traditional technology adopts a remote controller of the air conditioner to automatically send a portable temperature to an indoor unit at preset time intervals, at the moment, the indoor unit temporarily shields the temperature acquisition of an ambient temperature sensor of the indoor unit, the portable temperature sensing acquired by the remote controller replaces the ambient temperature sensor of the indoor unit to carry out processing and judgment, and further the air outlet temperature of the indoor unit is adjusted. However, the above adjustment method of temperature according to body feeling cannot adjust the air outlet temperature of the air conditioner according to the real-time temperature state of the user, which causes poor comfort of the user.

Disclosure of Invention

The invention solves the problem of how to accurately control the air outlet temperature of the air conditioner in real time, so that a user can feel more comfortable temperature according with the requirement.

In order to solve the above problems, the present invention provides an air conditioner and a method and a device for adjusting an outlet air temperature of the air conditioner.

In a first aspect, an embodiment of the present invention provides an air conditioner outlet air temperature adjusting method, where the method includes:

acquiring a human body surface temperature curve of a human body in the current environment in real time;

extracting the current change characteristics of the human body surface temperature curve;

and adjusting the air outlet temperature of the air conditioner according to the current change characteristics and the current air conditioner operation mode.

The air conditioner air outlet temperature adjusting method obtains a human body surface temperature curve of a human body in the current environment in real time; then extracting the current change characteristics of the human body surface temperature curve; and finally, adjusting the air outlet temperature of the air conditioner according to the current change characteristics and the current air conditioner running mode, thereby realizing real-time accurate control of the air outlet temperature of the air conditioner and enabling a user to feel the temperature comfort of the more fitting requirement all the time.

Further, the current change characteristic comprises a first derivative of the human body surface temperature curve, and the step of adjusting the air conditioner outlet air temperature according to the current change characteristic comprises:

and adjusting the air outlet temperature of the air conditioner according to the current air conditioner operation mode and the difference value between the first derivative and the O.

The difference between the first derivative of the human body surface temperature curve and the O can represent the change trend (rising or falling) of the human body surface temperature, and the air conditioner can accurately adjust the air outlet temperature of the air conditioner by combining with the current air conditioner operation mode.

Further, when the current air conditioner running mode is a refrigeration mode and the first derivative is positive, reducing the refrigeration temperature of the air conditioner; or when the current air conditioner operation mode is a refrigeration mode, the first derivative is negative, and the current human body surface temperature is smaller than a preset first threshold value, the refrigeration temperature of the air conditioner is increased.

Further, when the current air conditioner operation mode is a heating mode and the first derivative is negative, the heating temperature of the air conditioner is increased, or when the current air conditioner operation mode is the heating mode, the first derivative is positive and the current human body surface temperature is greater than a preset second threshold, the heating temperature of the air conditioner is decreased.

Further, the current change characteristic comprises a second derivative of the human body surface temperature curve, and the step of adjusting the air conditioner outlet air temperature according to the current change characteristic further comprises:

and determining the speed for adjusting the air outlet temperature of the air conditioner according to the second derivative of the human body surface temperature curve and a preset third threshold value.

The second derivative of the human body surface temperature curve can represent the speed of the change of the human body surface temperature, and the speed of adjusting the air outlet temperature of the air conditioner can be determined by combining the second derivative with the preset third threshold value, so that the use experience of a user is further enhanced.

Further, the step of determining the speed of adjusting the air conditioner outlet air temperature according to the second derivative of the human body surface temperature curve and a preset third threshold value includes:

when the second derivative is larger than a preset third threshold value, determining to adjust the air conditioner outlet air temperature at a preset first rate;

and when the second derivative is smaller than a preset third threshold value, determining to adjust the air conditioner outlet air temperature at a preset second rate, wherein the second rate is smaller than the first rate.

Further, the step of acquiring a human body surface temperature curve of the human body in the current environment in real time includes:

and receiving a plurality of human body surface temperatures acquired by the thermal imaging sensor every other preset period, and fitting the plurality of human body surface temperatures to obtain a human body surface temperature curve in the current environment.

Through the human surface temperature of periodic collection for the air conditioner operating temperature after the regulation more laminates user's custom and travelling comfort, can avoid causing the error control, improves temperature control's accuracy.

Further, the thermal imaging sensor is an infrared thermopile sensor.

In a second aspect, an embodiment of the present invention further provides an air conditioner outlet air temperature adjusting device, where the device includes an information obtaining unit, a feature extracting unit, and a temperature adjusting unit.

The information acquisition unit is used for acquiring a human body surface temperature curve of a human body in the current environment in real time;

the characteristic extraction unit is used for extracting the current change characteristic of the human body surface temperature curve;

and the temperature adjusting unit is used for adjusting the air outlet temperature of the air conditioner according to the current change characteristics and the current air conditioner operation mode.

The air conditioner air outlet temperature adjusting device acquires a human body surface temperature curve of a human body in the current environment in real time; then extracting the current change characteristics of the human body surface temperature curve; and finally, adjusting the air outlet temperature of the air conditioner according to the current change characteristics and the current air conditioner running mode, thereby realizing real-time accurate control of the air outlet temperature of the air conditioner and enabling a user to feel the temperature comfort of the more fitting requirement all the time.

In a third aspect, an embodiment of the present invention further provides an air conditioner, where the air conditioner includes a processor and a memory, where the memory includes one or more machine executable instructions executed by the processor, and the processor may execute the machine executable instructions to implement the foregoing method.

In a fourth aspect, an embodiment of the present invention further provides a storage medium, where the storage medium stores a computer instruction, where the computer instruction, when read and executed, executes the air conditioner outlet air temperature adjusting method as described above.

Drawings

Fig. 1 is a flowchart of an air conditioner outlet air temperature adjusting method according to an embodiment of the present invention;

fig. 2 is an application environment diagram of the air conditioner outlet air temperature adjusting method according to the embodiment of the present invention;

fig. 3 is a schematic diagram of functional modules of an air conditioner outlet air temperature adjusting device according to an embodiment of the present invention.

Description of reference numerals: 201-a thermal imaging sensor; 202-an optical filter; 203-control circuit board; 301-an information acquisition unit; 302-a feature extraction unit; 303-temperature regulating unit.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Referring to fig. 1, an embodiment of the present invention provides an air conditioner outlet air temperature adjusting method, which is applied to a processor mounted on a control circuit board 203 of an air conditioner. The method comprises the following steps:

step S101: and acquiring a human body surface temperature curve of the human body in the current environment in real time.

Specifically, a plurality of human body surface temperatures acquired by the thermal imaging sensor 201 every preset period are received, and the plurality of human body surface temperatures are fitted to obtain a human body surface temperature curve in the current environment; for example, the thermal imaging sensor 201 collects data every 0.1s and outputs temperature data every 20 cycles, so that a plurality of human body surface temperatures can be fitted to obtain a human body surface temperature curve in the current environment. Through the human surface temperature of periodic collection for the air conditioner operating temperature after the regulation has the real-time, and user's custom and travelling comfort more laminate can avoid causing the error control, improves temperature control's accuracy.

In this embodiment, the thermal imaging sensor 201 is an infrared thermopile sensor. The working principle of the infrared thermopile sensor is as follows: as shown in fig. 2, infrared waves with certain intensity and wavelength emitted from the surface of a human body are received, and a part of the infrared waves are absorbed and reflected by ambient air and finally transmitted to the infrared thermopile type sensor. After the main board chip of the air conditioner receives the infrared wave, the potential difference between the surface temperature of the human body and the ambient temperature is calculated, and then the potential difference is subjected to digital simulation to generate the surface temperature of the human body. In addition, the filter 202 can be used to filter 8-14um wavelengths to enhance the accuracy of the collected body surface temperature. Preferably, the thermal imaging sensor 201 can be disposed in an indoor unit of an air conditioner, so as to prolong the service life of a battery of the air conditioner remote controller.

Step S102: and extracting the current change characteristics of the human body surface temperature curve.

In this embodiment, the current change characteristic includes a first derivative and a second derivative of the human body surface temperature curve, where the first derivative indicates a change trend of the human body surface temperature, and the second derivative indicates a speed of the change of the human body surface temperature.

Step S103: and adjusting the air outlet temperature of the air conditioner according to the current change characteristics and the current air conditioner operation mode.

Specifically, in the process of implementing step S103, the air conditioner outlet air temperature may be adjusted according to the current air conditioner operation mode and the difference between the first derivative and O. The difference between the first derivative of the human body surface temperature curve and the O can represent the change trend (rising or falling) of the human body surface temperature, and the air conditioner can accurately adjust the air outlet temperature of the air conditioner by combining with the current air conditioner operation mode.

For example, when the current air conditioner operation mode is the cooling mode and the first derivative is positive, the cooling temperature of the air conditioner is reduced; or when the current air conditioner operation mode is a refrigeration mode, the first derivative is negative, and the current human body surface temperature is smaller than a preset first threshold value, the refrigeration temperature of the air conditioner is increased.

When the current air conditioner operation mode is a cooling mode, the current outdoor temperature is higher, and the human body surface temperature needs to be reduced, at this time, if the first derivative is positive, the human body surface temperature still rises, and the cooling temperature of the air conditioner needs to be reduced, so that the human body surface temperature is reduced. In addition, if the first derivative is negative, it indicates that the human body surface temperature is decreasing, and if the human body surface temperature decreases to be less than the preset first threshold, it indicates that the human body surface temperature is already low, which causes discomfort to the human body at the current cooling temperature, and therefore it is necessary to increase the cooling temperature of the air conditioner. The method for increasing the cooling temperature of the air conditioner may be to increase the cooling gear of the air conditioner, for example, to adjust the current middle wind gear of the air conditioner to a high wind gear; for another example, the high wind gear where the air conditioner is currently located is adjusted to a strong gear; the cooling temperature of the air conditioner can be reduced by reducing the cooling gear of the air conditioner, for example, adjusting the current high gear of the air conditioner to the medium gear; for another example, the strong gear where the air conditioner is currently located is adjusted to a high gear.

For another example, when the current air conditioner operation mode is the heating mode and the first derivative is negative, the heating temperature of the air conditioner is increased, or when the current air conditioner operation mode is the heating mode, the first derivative is negative, and the current human body surface temperature is greater than the preset second threshold, the heating temperature of the air conditioner is decreased.

When the current air conditioner operation mode is a heating mode, the outdoor temperature is low, the human body surface temperature needs to be increased, and when the first-order derivative is negative, the human body surface temperature is decreased, and the heating temperature of the air conditioner needs to be increased, so that the human body surface temperature is increased; in addition, if the first derivative is positive, it indicates that the surface temperature of the human body is increasing, and when the current surface temperature of the human body is increased to be greater than the preset second threshold, it indicates that the surface temperature of the human body is higher, and the current heating temperature is maintained, which may cause discomfort to the human body, so that the heating temperature of the air conditioner needs to be decreased. The mode of raising the heating temperature of the air conditioner can be to raise the heating gear of the air conditioner, for example, to adjust the current middle gear of the air conditioner to a high gear; for another example, the high wind gear where the air conditioner is currently located is adjusted to a strong gear; the heating temperature of the air conditioner can be reduced by reducing the heating gear of the air conditioner, for example, adjusting the current high gear of the air conditioner to the medium gear; for another example, the strong gear where the air conditioner is currently located is adjusted to a high gear.

In order to further improve the user experience, the current variation characteristic includes a second derivative of the human body surface temperature curve, and the step S103 may further include: and determining the speed for adjusting the air outlet temperature of the air conditioner according to the second derivative of the human body surface temperature curve and a preset third threshold value.

The second derivative of the human body surface temperature curve can represent the speed of the change of the human body surface temperature, and the speed of adjusting the air outlet temperature of the air conditioner can be determined by combining the second derivative with the preset third threshold value, so that the use experience of a user is further enhanced.

For example, when the second derivative is greater than a preset third threshold, determining to adjust the air conditioner outlet air temperature at a preset first rate; and when the second derivative is smaller than a preset third threshold value, determining to adjust the air conditioner outlet air temperature at a preset second rate, wherein the second rate is smaller than the first rate.

When the second derivative is larger than a preset third threshold, the change of the surface temperature of the human body is relatively fast, so that the speed of adjusting the air-conditioning outlet air temperature is relatively fast, and the air-conditioning outlet air temperature meeting the current requirement of a user can be adjusted in time; when the second derivative is smaller than a preset third threshold, it indicates that the change of the surface temperature of the human body is slow, and therefore, the speed of adjusting the air-conditioning outlet air temperature is slow, so that the air-conditioning outlet air temperature meeting the current requirements of the user can be adjusted in time.

The air conditioner air outlet temperature adjusting method obtains a human body surface temperature curve of a human body in the current environment in real time; then extracting the current change characteristics of the human body surface temperature curve; and finally, adjusting the air outlet temperature of the air conditioner according to the current change characteristics and the current air conditioner running mode, thereby realizing real-time accurate control of the air outlet temperature of the air conditioner and enabling a user to feel the temperature comfort of the more fitting requirement all the time.

Referring to fig. 3, an embodiment of the present invention further provides an air conditioner outlet air temperature adjusting device, it should be noted that the basic principle and the generated technical effects of the air conditioner outlet air temperature adjusting device provided in the embodiment of the present invention are the same as those of the above embodiment, and for brief description, corresponding contents in the above embodiment may be referred to where the embodiment of the present invention is not mentioned. The apparatus includes an information acquisition unit 301, a feature extraction unit 302, and a temperature adjustment unit 303.

The information acquiring unit 301 is used for acquiring a human body surface temperature curve of a human body in a current environment in real time.

Specifically, the information obtaining unit 301 may be configured to receive a plurality of human body surface temperatures acquired by the thermal imaging sensor 201 every preset period, and fit the plurality of human body surface temperatures to obtain a human body surface temperature curve in the current environment.

The feature extraction unit 302 is configured to extract a current change feature of the human body surface temperature curve.

The temperature adjusting unit 303 is configured to adjust the air conditioner outlet air temperature according to the current change characteristic and the current air conditioner operation mode.

Specifically, the temperature adjusting unit 303 may be configured to adjust the air conditioner outlet air temperature according to the current air conditioner operating mode and the difference between the first derivative and O.

The temperature adjusting unit 303 is configured to decrease the cooling temperature of the air conditioner when the current air conditioner operation mode is the cooling mode and the first derivative is positive; or when the current air conditioner operation mode is a refrigeration mode, the first derivative is negative, and the current human body surface temperature is smaller than a preset first threshold value, the refrigeration temperature of the air conditioner is increased.

The temperature adjusting unit 303 is configured to increase the heating temperature of the air conditioner when the current air conditioner operation mode is the heating mode and the first derivative is negative, or decrease the heating temperature of the air conditioner when the current air conditioner operation mode is the heating mode, the first derivative is negative, and the current human body surface temperature is greater than a preset second threshold.

In addition, the temperature adjusting unit 303 is further configured to determine a rate of adjusting the air conditioner outlet air temperature according to the second derivative of the human body surface temperature curve and a preset third threshold.

For example, the temperature adjusting unit 303 is configured to determine to adjust the air conditioner outlet air temperature at a preset first rate when the second derivative is greater than a preset third threshold; and when the second derivative is smaller than a preset third threshold value, determining to adjust the air conditioner outlet air temperature at a preset second rate, wherein the second rate is smaller than the first rate.

The air conditioner air outlet temperature adjusting device acquires a human body surface temperature curve of a human body in the current environment in real time; then extracting the current change characteristics of the human body surface temperature curve; and finally, adjusting the air outlet temperature of the air conditioner according to the current change characteristics and the current air conditioner running mode, thereby realizing real-time accurate control of the air outlet temperature of the air conditioner and enabling a user to feel the temperature comfort of the more fitting requirement all the time.

The embodiment of the invention also provides an air conditioner, which comprises a processor and a memory, wherein the memory and the processor are arranged on the control circuit board. Wherein the memory includes one or more machine executable instructions for execution by the processor, the processor being capable of executing the machine executable instructions to implement the methods of the above embodiments.

In addition, the embodiment of the invention also provides a storage medium, wherein a computer instruction is stored in the storage medium, and when the computer instruction is read and operated, the air conditioner outlet air temperature adjusting method is executed.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (8)

1. The method for adjusting the air conditioner outlet air temperature is characterized by comprising the following steps:

acquiring a human body surface temperature curve of a human body in the current environment in real time;

extracting the current change characteristics of the human body surface temperature curve;

adjusting the air conditioner air outlet temperature according to the current change characteristic and the current air conditioner operation mode, wherein the current change characteristic comprises a first derivative of the human body surface temperature curve;

the step of adjusting the air conditioner outlet air temperature according to the current change characteristics comprises the following steps:

adjusting the air conditioner air outlet temperature according to the current air conditioner operation mode and the difference value between the first derivative and 0; and the number of the first and second electrodes,

the current change characteristic comprises a second derivative of the human body surface temperature curve, and the step of adjusting the air conditioner air outlet temperature according to the current change characteristic further comprises the following steps:

and determining the speed for adjusting the air outlet temperature of the air conditioner according to the second derivative of the human body surface temperature curve and a preset third threshold value.

2. The air conditioner outlet air temperature adjusting method according to claim 1, wherein when the current air conditioner operation mode is a cooling mode and the first derivative is positive, the cooling temperature of the air conditioner is reduced; or when the current air conditioner operation mode is a refrigeration mode, the first derivative is negative, and the current human body surface temperature is smaller than a preset first threshold value, the refrigeration temperature of the air conditioner is increased.

3. The air conditioner outlet air temperature adjusting method according to claim 1, wherein when the current air conditioner operation mode is a heating mode and the first derivative is negative, the heating temperature of the air conditioner is increased, or when the current air conditioner operation mode is a heating mode, the first derivative is positive, and the current human body surface temperature is greater than a preset second threshold, the heating temperature of the air conditioner is decreased.

4. The method for adjusting the outlet air temperature of the air conditioner according to claim 1, wherein the step of determining the rate of adjusting the outlet air temperature of the air conditioner according to the second derivative of the human body surface temperature curve and a preset third threshold value comprises:

when the second derivative is larger than a preset third threshold value, determining to adjust the air conditioner outlet air temperature at a preset first rate;

and when the second derivative is smaller than a preset third threshold value, determining to adjust the air conditioner outlet air temperature at a preset second rate, wherein the second rate is smaller than the first rate.

5. The air conditioner outlet air temperature adjusting method according to claim 1, wherein the step of acquiring a human body surface temperature curve of a human body in the current environment in real time comprises the steps of:

and receiving a plurality of human body surface temperatures acquired by a thermal imaging sensor (201) every preset period, and fitting the plurality of human body surface temperatures to obtain a human body surface temperature curve in the current environment.

6. The utility model provides an air conditioner air-out temperature regulation apparatus which characterized in that, the device includes:

the information acquisition unit (301) is used for acquiring a human body surface temperature curve of a human body in the current environment in real time;

the characteristic acquisition unit (302) is used for extracting the current change characteristic of the human body surface temperature curve;

the temperature adjusting unit (303) is used for adjusting the air conditioner air outlet temperature according to the current change characteristics and the current air conditioner operation mode; wherein the current change characteristic comprises a first derivative of the human body surface temperature curve;

the temperature adjusting unit (303) is used for adjusting the air conditioner outlet air temperature according to the current air conditioner operation mode and the difference value between the first derivative and 0;

the current change characteristics comprise a second derivative of the human body surface temperature curve, and the temperature adjusting unit (303) is further used for determining and adjusting the speed of the air conditioner air outlet temperature according to the second derivative of the human body surface temperature curve and a preset third threshold value.

7. An air conditioner comprising a processor and a memory, wherein the memory comprises one or more machine executable instructions for execution by the processor, and wherein the processor is configured to execute the machine executable instructions to implement the method of any one of claims 1-5.

8. A storage medium, wherein the storage medium stores computer instructions, and when the computer instructions are read and executed, the computer instructions perform the air conditioner outlet air temperature adjusting method according to any one of claims 1 to 5.

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