WO2024099213A1 - Air conditioner and control method therefor - Google Patents

Abstract

An air conditioner and a control method therefor. The control method comprises: receiving an intelligent air-supply mode enabling instruction; acquiring a real-time heart rate x of a human body in a room and an operation mode of an air conditioner; confirming a motion state of the human body according to the real-time heart rate x; and adjusting an air supply state of the air conditioner according to the operation mode and the motion state. The intelligent air-supply mode of the air conditioner can be adapted to different cooling and heating requirements of a user in different motion states.

Description

Air conditioner and control method thereof Technical Field

The present invention relates to the technical field of air conditioning, and in particular to an air conditioner and a control method thereof.

Background technique

With the improvement of living standards, air conditioners have become an indispensable electrical appliance in homes and commercial settings. Air conditioners usually have a variety of adjustment options for users to adjust. For example, users can adjust the target temperature, wind speed, wind direction of the air guide plate (i.e., up and down wind direction), and wind direction of the swing blade.

However, many users only set the target temperature when using the air conditioner, and rarely pay attention to or actively use other adjustment functions. Some users are keen on combining and frequently adjusting various adjustment functions of the air conditioner, but due to lack of professional knowledge, it is difficult to obtain the best cooling effect.

Summary of the invention

The object of the present invention is to solve at least one of the above-mentioned defects in the prior art and to provide an air conditioner with an intelligent air supply mode and a control method thereof.

A further object of the present invention is to enable the intelligent air supply mode of the air conditioner to match the different cooling and heating needs of users in different motion states.

In one aspect, the present invention provides a method for controlling an air conditioner, comprising:

Receive the intelligent air supply mode start command;

Get the real-time heart rate x of the indoor human body and the operating mode of the air conditioner;

confirming the motion state of the human body according to the real-time heart rate x;

The air supply state of the air conditioner is adjusted according to the operation mode and the motion state.

Optionally, the step of “obtaining the real-time heart rate x of a human body indoors” includes:

Initially obtaining the instantaneous heart rate of the human body in the room and using it as the real-time heart rate x;

Thereafter, each interval of a preset time length is set as a collection point, and the average value of each instantaneous heart rate obtained between each collection point and the previous collection point is used as the real-time heart rate x of the collection point.

Optionally, the motion state of the human body includes one or more of a leisure state with gradually increasing intensity, a walking state, a jogging state, a fitness state, and a sprint state.

Optionally, the step of “confirming the motion state of the human body according to the real-time heart rate x” includes:

If x≤a+0.3b, it is determined that the human body is in the leisure state;

If a+0.3b＜x≤a+0.5b, it is determined that the human body is in the walking state;

If a+0.5b＜x≤a+0.7b, it is determined that the human body is in the jogging state;

If a+0.7b＜x≤a+0.8b, it is determined that the human body is in the fitness state;

If x＞a+0.8b, it is determined that the human body is in the fast running state;

a is the pre-stored resting heart rate, b=220-human age-a.

Optionally, the air conditioner comprises a housing with an air outlet, a fan arranged in the housing, a plurality of air guide plates arranged at the air outlet for guiding air upward and downward, and a swing blade assembly for swinging air leftward and rightward;

The air supply status includes one or more of the opening number and air guide angle of the air guide plate, the swinging state of the swing blade assembly, the rotation speed of the fan, the fresh air volume and the target temperature.

Optionally, the plurality of air guide plates include an upper air guide plate and a lower air guide plate arranged vertically;

The step of “determining the air supply state of the air conditioner according to the operation mode and the motion state” includes:

If the human body is in the leisure state or the walking state, in the cooling mode, only the upper air guide plate is opened to guide the air upward, and in the heating mode, only the lower air guide plate is opened to guide the air downward;

If the human body is in the jogging state, the fitness state or the sprinting state, in the cooling mode and the heating mode, the upper air guide plate is opened to guide the air forward or upward, and the lower air guide plate is opened to guide the air downward.

Optionally, the step of “determining the air supply state of the air conditioner according to the operation mode and the motion state” includes:

If the human body is in the leisure state, the walking state or the jogging state, the swing blade assembly is turned on to swing the wind in a circular reciprocating manner;

If the human body is in the fitness state or the fast running state, the swing blade assembly is kept at an angle that maximizes the air flow rate.

Optionally, the step of “determining the air supply state of the air conditioner according to the operation mode and the motion state” includes:

If the human body is in the leisure state or the walking state, the fan is operated at a low wind speed;

If the human body is in the jogging state, the fan is operated at a medium wind speed;

If the human body is in the fitness state, the fan is operated at a high wind speed;

If the human body is in the fast running state, the fan is operated at the highest wind speed.

Optionally, the step of “determining the air supply state of the air conditioner according to the operation mode and the motion state” includes:

If the human body is in the leisure state or the walking state, the fresh air volume is adjusted to a low level;

If the human body is in the jogging state, the fitness state or the sprint state, the fresh air volume is adjusted to a high level.

Optionally, in the step of "determining the air supply state of the air conditioner according to the operating mode and the motion state", as the intensity of exercise increases, the target temperatures of the cooling mode and the heating mode gradually decrease.

Optionally, the control method further includes:

Get the user's gender input by the user or detected by the air conditioner;

The target temperature is adjusted according to the gender of the user so that the target temperature corresponding to males is lower than that corresponding to females.

In another aspect, the present invention further provides an air conditioner, comprising:

A housing having an air outlet;

a fan, disposed in the housing, for blowing the conditioned airflow in the housing out of the air outlet;

A plurality of air guide plates are rotatably mounted at the air outlet for guiding air upward and downward;

A swing blade assembly, installed at the air outlet, for swinging air left and right; and

A controller comprises a processor and a memory, wherein the memory stores a computer program, and when the computer program is executed by the processor, the computer program is used to implement the control method according to any one of claims 1 to 10.

In the air conditioner and control method thereof of the present invention, an intelligent air supply mode is designed to simplify user operation and improve the intelligence level of the air conditioner. In the intelligent air supply mode, the air conditioner determines the user's exercise state based on the user's heart rate data, and then reasonably determines the air supply state of the air conditioner based on the exercise state and the operation mode of the air conditioner to accurately match the different cooling and heating needs of the user in different exercise states, making the wind feeling of the human body more comfortable.

Furthermore, in the air conditioner and control method thereof of the present invention, the movement state of the human body is determined based on the relationship between the real-time heart rate, the resting heart rate, the human age and other parameters, and the estimated data is very reasonable and clever, so that the subsequent adjustment of the air supply state can better meet the user's needs.

According to the following detailed description of the specific embodiments of the present invention in conjunction with the accompanying drawings, those skilled in the art will The above and other objects, advantages and features of the present invention will become more apparent.

BRIEF DESCRIPTION OF THE DRAWINGS

Hereinafter, some specific embodiments of the present invention will be described in detail in an exemplary and non-limiting manner with reference to the accompanying drawings. The same reference numerals in the accompanying drawings indicate the same or similar components or parts. It should be understood by those skilled in the art that these drawings are not necessarily drawn to scale. In the accompanying drawings:

FIG1 is a schematic structural diagram of an air conditioner according to an embodiment of the present invention;

FIG2 is a schematic diagram of the air conditioner shown in FIG1 when the upper air guide plate is performing upward air guidance;

FIG3 is a schematic diagram of the air conditioner shown in FIG1 when the lower air guide plate is sinking to guide air;

FIG4 is a schematic diagram of the upper air guide plate and the lower air guide plate of the air conditioner shown in FIG1 when they are in an enveloping air supply mode;

FIG5 is a schematic block diagram of an air conditioner according to an embodiment of the present invention;

FIG6 is a schematic diagram of a method for controlling an air conditioner according to an embodiment of the present invention;

FIG. 7 is a flow chart of a method for controlling an air conditioner according to an embodiment of the present invention.

Detailed ways

An air conditioner and a control method thereof according to an embodiment of the present invention will be described below with reference to FIGS. 1 to 7 .

The flow chart and block diagram in the accompanying drawings show the possible architecture, function and operation of the system, method and computer program product according to multiple embodiments of the present invention. In this regard, each square box in the flow chart or block diagram can represent a part of a module, program segment or instruction, and a part of the module, program segment or instruction includes one or more executable instructions for realizing the specified logical function. In some alternative implementations, the function marked in the square box can also occur in a sequence different from that marked in the accompanying drawings. For example, two continuous square boxes can actually be executed substantially in parallel, and they can sometimes be executed in reverse order, depending on the functions involved. It should also be noted that each square box in the block diagram and/or flow chart, and the combination of the square boxes in the block diagram and/or flow chart can be implemented with a dedicated hardware-based system that performs the specified function or action, or can be implemented with a combination of dedicated hardware and computer instructions.

The flow chart provided by the present embodiment is not intended to indicate that the operation of the method will be performed in any particular order, or that all operations of the method are included in all every case. In addition, the method may include additional operations. Within the scope of the technical thinking provided by the present embodiment method, additional changes may be made to the above method.

It should be noted that the logic and/or steps shown in the flowchart or described in other ways herein are Steps, for example, can be considered as an ordered list of executable instructions for implementing logical functions, which can be specifically embodied in any computer-readable medium for use by an instruction execution system, apparatus or device (such as a computer-based system, a system including a processor or other system that can fetch instructions from an instruction execution system, apparatus or device and execute instructions), or used in combination with these instruction execution systems, apparatuses or devices.

An embodiment of the present invention provides an air conditioner.

Air conditioners are used to regulate indoor air, including adjusting the temperature, humidity, and air quality of the air, humidifying and dehumidifying the indoor air, introducing fresh air, etc. Air conditioners can form a vapor compression refrigeration cycle system consisting of an evaporator, condenser, compressor, throttling device, and other necessary components to output cold/hot air through a fan to achieve cooling and heating of the indoor environment.

The air conditioner of the embodiment of the present invention can be a household air conditioner or a central air conditioner. Specifically, the specific form of the air conditioner can be various forms such as split wall-mounted, split vertical, integrated, and patio-type. The embodiment of the present invention does not impose any restrictions on the specific form of the air conditioner. The technical solution of the present invention will be introduced below by taking a split wall-mounted air conditioner as an example. Specifically, Figures 1 to 4 illustrate cross-sectional views of the indoor unit of a split wall-mounted air conditioner, specifically cross-sectional views with the vertical plane extending front and back as the cutting plane.

Figure 1 is a schematic diagram of the structure of an air conditioner according to an embodiment of the present invention; Figure 2 is a schematic diagram of the air conditioner shown in Figure 1 when the upper air guide plate is performing upward air guiding; Figure 3 is a schematic diagram of the air conditioner shown in Figure 1 when the lower air guide plate is performing downward air guiding; Figure 4 is a schematic diagram of the air conditioner shown in Figure 1 when the upper air guide plate and the lower air guide plate are in an embracing air supply mode; Figure 5 is a schematic block diagram of an air conditioner according to an embodiment of the present invention.

As shown in FIG. 1 to FIG. 5 , the air conditioner according to the embodiment of the present invention may generally include a housing 10 , a fan 30 , a plurality of air guide plates, a swing blade assembly 60 , and a controller 800 .

Taking the wall-mounted air conditioner indoor unit shown in FIG1 as an example, the housing 10 defines a storage space for accommodating the main components of the indoor unit, including an evaporator 20, a fan 30, a swing blade assembly 60, a controller 800, and the like. An air outlet 12 is provided at the lower front side of the housing 10 for blowing out a heat exchange airflow. The housing 10 may be a long strip with a length direction along a horizontal transverse direction. An air inlet 11 may be provided at the top of the housing 10 for inhaling indoor air. An air duct 15 is defined inside the housing 10, and the outlet of the air duct 15 is connected to the air outlet 12. The fan 30 is disposed in the housing 10, and is used to blow the regulated airflow in the housing 10 out of the air outlet 12 through the air duct 15 to regulate the indoor air. The regulated airflow is, for example, a heat exchange airflow (cold airflow, hot airflow), a purified airflow, a humidified airflow, a fresh airflow, and the like.

The plurality of air guide plates are rotatably mounted on the housing 10, and the rotation axis of each of the air guide plates is parallel to the lateral direction of the housing 10, and is used to guide the air up and down, that is, to guide the pitch angle of the air outlet 12, or referred to as The upper and lower air outlet angles, that is, the angles between the airflow and the horizontal plane. When the air conditioner is turned off or on standby, multiple air guide plates can be used to close the air outlet 12 to prevent dust and impurities from entering the air outlet 12, as shown in Figure 1. For example, as shown in Figures 1 to 4, the number of multiple air guide plates can be two, namely an upper air guide plate 51 and a lower air guide plate 52 arranged up and down. The air outlet 12 can be opened to the front and bottom, so that the upper air guide plate 51 and the lower air guide plate 52 are respectively located on the front and lower sides of the air outlet 12. Each air guide plate is matched with a motor (not shown), and each motor is independently controlled by the controller 800.

The swing blade assembly 60 is installed at the air outlet 12 for swinging air left and right. The swing blade assembly 60 specifically includes a plurality of swing blades, which are driven by a driving mechanism to swing left/right synchronously and swing back and forth in a cycle. The driving mechanism that can realize the synchronous swinging of the swing blades is widely used in the field of air conditioning, and may include, for example, a motor, a rocker and a connecting rod, which will not be described in detail.

The controller 800 includes a processor 810 and a memory 820 . The memory 820 stores a computer program 821 . When the computer program 821 is executed by the processor 810 , it is used to implement the air conditioner control method according to any embodiment of the present invention.

Another aspect of the present invention provides a method for controlling an air conditioner.

FIG. 6 is a schematic diagram of a method for controlling an air conditioner according to an embodiment of the present invention.

As shown in FIG6 , the air conditioner control method according to the embodiment of the present invention may generally include the following steps:

Step S602: Receive the intelligent air supply mode start command. The command may be issued by the user through the control terminal, which includes a remote control, a control panel, an intelligent terminal app, etc. After receiving the start command, the air conditioner enters the preset "intelligent air supply mode". The following steps are the specific steps of the intelligent air supply mode.

Step S604: obtaining the real-time heart rate x of the human body in the room and the operation mode of the air conditioner. The operation mode of the air conditioner specifically includes cooling mode, heating mode, dehumidification mode, etc.

As shown in FIG5 , the real-time heart rate x can be detected by the terminal device 200. The terminal device 200 can be a smart wearable device such as a bracelet, a wristband, a belt, etc., which can be configured with one or more control applications to detect, store and transmit the user's real-time heart rate x. The terminal device 200 can communicate with the controller 800 through a set communication method, specifically through any one of Bluetooth, Wi-Fi, Mesh, ZigBee, Thread, Z-Wave, NFC, Hilink, UWB, and LiFi. After the controller 800 establishes a connection with the terminal device 200, the real-time heart rate data detected by it can be obtained. After the terminal device 200 collects the real-time heart rate, it can also actively send it to the controller 800.

Step S606: confirming the human body's motion state according to the real-time heart rate x.

The movement state of the human body represents the intensity of the human body's movement. It can be seen that the stronger the intensity of the human body's movement, The greater the heart rate, the higher the heart rate. For example, the human body's exercise state includes one or more of a leisure state with increasing intensity, a walking state, a jogging state, a fitness state, and a sprint state. In this step, it is not necessary to make the real-time heart rate x correspond to the exercise state one by one. The value interval of the real-time heart rate x can be determined first, and each value interval corresponds to a exercise state.

Step S608: Adjust the air supply state of the air conditioner according to the operation mode and motion state.

It should be understood that when the motion state changes, the air supply state also needs to be adjusted in time. Therefore, during the entire intelligent air supply mode, the air supply state may not remain unchanged.

In the air conditioner and control method thereof of the embodiment of the present invention, an intelligent air supply mode is designed to simplify user operation and improve the intelligence level of the air conditioner. In the intelligent air supply mode, the air conditioner determines the user's exercise state based on the user's heart rate data, and then reasonably determines the air supply state of the air conditioner based on the exercise state and the operation mode of the air conditioner to accurately match the different cooling and heating needs of the user in different exercise states, making the wind feeling of the human body more comfortable.

In some embodiments, the aforementioned step S606, namely the step of “confirming the motion state of the human body according to the real-time heart rate x” specifically includes:

If x≤a+0.3b, the human body is judged to be in a leisure state;

If a+0.3b＜x≤a+0.5b, it is judged that the human body is in a walking state;

If a+0.5b＜x≤a+0.7b, it is judged that the human body is in a jogging state;

If a+0.7b＜x≤a+0.8b, the human body is judged to be in a fitness state;

If x＞a+0.8b, the human body is judged to be in a fast running state;

a is the pre-stored resting heart rate, and b=220-human age-a. After the user issues a command to start the intelligent air supply mode through the control terminal, the control terminal can remind the user to enter the age. When the user does not enter the age or there is no such input, the age can be set to a certain value, such as 30. The present invention determines the movement state of the human body based on the relationship between the real-time heart rate and the resting heart rate and human age and other parameters, and the estimated data is very reasonable and clever, so that the subsequent adjustment of the air supply state can better meet the user's needs.

In the aforementioned step S608, i.e., the step of "determining the air supply state of the air conditioner according to the operation mode and the motion state", the air supply state includes one or more of the opening number and the air guide angle of the air guide plate, the swing state of the swing blade assembly, the speed of the fan, the fresh air volume, and the target temperature. Through the above adjustment process, the wind speed, air volume, air supply temperature and other parameters of the air outlet 12 can be changed, thereby changing the wind feeling experience of the human body.

For example, with respect to the opening quantity of the air guide plate and the control direction of the air guide angle, step S608 may include:

If the human body is in a leisure state or a walking state, in the cooling mode, only the upper air guide plate 51 is opened and the air is guided upward, as shown in FIG2 , and in the heating mode, only the lower air guide plate 52 is opened and the air is guided downward, as shown in FIG3 , so that the air volume is small and the cooling capacity/heating capacity is small.

If the human body is in a jogging state, a fitness state or a sprinting state, in the cooling mode and the heating mode, the upper air guide plate 51 is opened and directed forward or upward to guide the air, and the lower air guide plate 52 is opened and directed downward to guide the air, as shown in FIG4 , so that the two air flows flow forward from the upper side and the lower side of the user respectively, and then converge at the rear side of the user, forming an embracing air supply effect, so that the human body feels the wind more strongly.

Regarding the control direction of the swing blade assembly 60, step S608 may include:

If the human body is in a state of leisure, walking or jogging, the swing blade assembly 60 is turned on to swing the wind back and forth in a cycle, so that the wind sensation of the human body is weaker.

If the human body is in a fitness state or a fast running state, the swing blade assembly 60 is kept at an angle that maximizes the airflow rate. For example, the plane direction of each swing blade of the swing blade assembly 60 is parallel to the airflow direction to reduce the obstruction to the airflow, so that the human body feels the wind more strongly and the air volume is larger.

The control method of the swing blade assembly does not distinguish between cooling mode and heating mode.

Regarding the control direction of the fan speed, step S608 may include:

If the human body is in a leisure state or a walking state, the fan 30 is operated at a low wind speed;

If the human body is in a jogging state, the fan 30 is operated at a medium wind speed;

If the human body is in a fitness state, the fan 30 is operated at a high wind speed;

If the human body is in a fast running state, the fan 30 is operated at the highest wind speed.

This fan speed control method does not distinguish between cooling mode and heating mode. In short, the more intense the human body movement, the higher the wind speed, which meets the user's needs for cold air/hot air during fast-paced exercise.

Regarding the control direction of the fresh air volume, step S608 may include:

If the person is in a leisure state or a walking state, the fresh air volume is adjusted to a low level; if the person is in a jogging state, a fitness state or a fast running state, the fresh air volume is adjusted to a high level to speed up the speed of replacing fresh air and meet the person's need for fresh air during intense exercise. Specifically, the air conditioner may include a fresh air fan 70, and the fresh air volume is adjusted by adjusting the rotation speed of the fresh air fan 70.

Regarding the control direction of the target temperature, in step S608, as the exercise intensity increases, the target temperatures of the cooling mode and the heating mode are gradually reduced. This is because the greater the exercise intensity, the more heat the human body generates, and more cold air is needed in the cooling state, but not too much hot air is needed in the heating state.

For example, in cooling mode: in leisure mode, the target temperature is 26°C; in walking mode, the target temperature is 25°C; in jogging mode, the target temperature is 24°C; in fitness mode, the target temperature is The temperature is 23℃; in the sprint state, the target temperature is 22℃.

For example, in heating mode: in leisure state, the target temperature is 23°C; in walking state, the target temperature is 22°C; in jogging state, the target temperature is 21°C; in fitness state, the target temperature is 20°C; in sprint state, the target temperature is 19°C.

Furthermore, the control method further includes:

(1) Obtaining the user's gender input by the user or detected by the air conditioner. After the user issues a command to turn on the intelligent air supply mode through the control terminal, the control terminal can remind the user to enter the gender. If no gender is entered, the default gender can be male.

(2) The target temperature is adjusted according to the user's gender so that the target temperature for males is lower than that for females.

Specifically, the target temperature corresponding to men is 1° C. lower than that of women. This embodiment takes into account the subtle differences in the perception of heat and cold between men and women, making air supply control more accurate.

FIG. 7 is a flow chart of a method for controlling an air conditioner according to an embodiment of the present invention.

As shown in FIG. 7 , a method for controlling an air conditioner according to an embodiment of the present invention includes the following steps:

Step S702: Receive an instruction to start the intelligent air supply mode.

Step S704: obtain the operating mode of the air conditioner; and, for the first time, obtain the instantaneous heart rate of the human body indoors as the real-time heart rate x; thereafter, each preset time interval is set as a collection point, and the average value of each instantaneous heart rate obtained between each collection point and the previous collection point is used as the real-time heart rate x of the collection point.

Specifically, after receiving the start instruction of the intelligent air supply mode, the controller 800 immediately performs the initial (first) instantaneous heart rate collection, and uses it as the first real-time heart rate x, and calculates the human body's sense of movement state based on it. After the preset time length of the initial collection, there is a first collection point, and the average of all instantaneous heart rates obtained within the preset time length before the collection point is used as the real-time heart rate x of the first collection point. After the preset time length of the first collection point, there is a second collection point, and the average of all instantaneous heart rates obtained within the preset time length before the second collection point is used as the real-time heart rate x of the second collection point, and so on. Therefore, the real-time heart rate x is collected once every preset time length, the movement state is calculated once, and it is confirmed whether the air supply state needs to be adjusted once.

The terminal device 200 can acquire the instantaneous heart rate multiple times within each preset time. For example, the preset time can be 20 seconds, and the instantaneous heart rate is acquired every 5 seconds, that is, the real-time heart rate x at the first acquisition point and each subsequent acquisition point is the average value of the previous 4 instantaneous heart rates.

Step S706: confirming the human body's motion state according to the real-time heart rate x.

Step S708: Adjust the air supply state of the air conditioner according to the operation mode and motion state.

At this point, those skilled in the art should recognize that, although multiple exemplary embodiments of the present invention have been shown and described in detail herein, many other variations or modifications that conform to the principles of the present invention can still be directly determined or derived based on the content disclosed in the present invention without departing from the spirit and scope of the present invention. Therefore, the scope of the present invention should be understood and identified as covering all such other variations or modifications.

Claims (12)

1. A method for controlling an air conditioner, comprising:

   Receive the intelligent air supply mode start command;

   Get the real-time heart rate x of the indoor human body and the operating mode of the air conditioner;

   confirming the motion state of the human body according to the real-time heart rate x;

   The air supply state of the air conditioner is adjusted according to the operation mode and the motion state.
2. According to the control method of claim 1, the step of "obtaining the real-time heart rate x of the human body indoors" comprises:

   Initially obtaining the instantaneous heart rate of the human body in the room and using it as the real-time heart rate x;

   Thereafter, each interval of a preset time length is set as a collection point, and the average value of each instantaneous heart rate obtained between each collection point and the previous collection point is used as the real-time heart rate x of the collection point.
3. The control method according to claim 1 or 2, wherein

   The movement state of the human body includes one or more of a leisure state with gradually increasing intensity, a walking state, a jogging state, a fitness state, and a sprint state.
4. The control method according to claim 3, wherein the step of "confirming the motion state of the human body according to the real-time heart rate x" comprises:

   If x≤a+0.3b, it is determined that the human body is in the leisure state;

   If a+0.3b＜x≤a+0.5b, it is determined that the human body is in the walking state;

   If a+0.5b＜x≤a+0.7b, it is determined that the human body is in the jogging state;

   If a+0.7b＜x≤a+0.8b, it is determined that the human body is in the fitness state;

   If x＞a+0.8b, it is determined that the human body is in the fast running state;

   a is the pre-stored resting heart rate, b=220-human age-a.
5. The control method according to claim 3, wherein

   The air conditioner comprises a housing with an air outlet, a fan arranged in the housing, a plurality of air guide plates arranged at the air outlet for guiding air upward and downward, and a swing blade assembly for swinging air leftward and rightward;

   The air supply status includes one or more of the opening number and air guide angle of the air guide plate, the swinging state of the swing blade assembly, the rotation speed of the fan, the fresh air volume and the target temperature.
6. The control method according to claim 5, wherein the plurality of air guide plates include an upper air guide plate and a lower air guide plate arranged vertically;

   The step of “determining the air supply state of the air conditioner according to the operation mode and the motion state” includes:

   If the human body is in the leisure state or the walking state, in the cooling mode, only the upper air guide plate is opened to guide the air upward, and in the heating mode, only the lower air guide plate is opened to guide the air downward;

   If the human body is in the jogging state, the fitness state or the sprint state, in the cooling mode and the heating mode, the upper air guide plate is opened to guide the air forward or upward, and the lower air guide plate is opened to guide the air downward.
7. According to the control method of claim 5, the step of "determining the air supply state of the air conditioner according to the operation mode and the motion state" comprises:

   If the human body is in the leisure state, the walking state or the jogging state, the swing blade assembly is turned on to swing the wind in a circular reciprocating manner;

   If the human body is in the fitness state or the fast running state, the swing blade assembly is kept at an angle that maximizes the air flow rate.
8. According to the control method of claim 5, the step of "determining the air supply state of the air conditioner according to the operation mode and the motion state" comprises:

   If the human body is in the leisure state or the walking state, the fan is operated at a low wind speed;

   If the human body is in the jogging state, the fan is operated at a medium wind speed;

   If the human body is in the fitness state, the fan is operated at a high wind speed;

   If the human body is in the fast running state, the fan is operated at the highest wind speed.
9. According to the control method of claim 5, the step of "determining the air supply state of the air conditioner according to the operation mode and the motion state" comprises:

   If the human body is in the leisure state or the walking state, the fresh air volume is adjusted to a low level;

   If the human body is in the jogging state, the fitness state or the sprint state, the fresh air volume is adjusted to a high level.
10. The control method according to any one of claims 1-2 and 4-9, wherein

    In the step of "determining the air supply state of the air conditioner according to the operation mode and the exercise state", as the exercise intensity increases, the target temperatures of the cooling mode and the heating mode gradually decrease.
11. The control method according to claim 10, further comprising:

    Get the user's gender input by the user or detected by the air conditioner;

    The target temperature is adjusted according to the gender of the user so that the target temperature corresponding to males is lower than that corresponding to females.
12. An air conditioner, comprising:

    A housing having an air outlet;

    a fan, disposed in the housing, for blowing the conditioned airflow in the housing out of the air outlet;

    A plurality of air guide plates are rotatably mounted at the air outlet for guiding air upward and downward;

    A swing blade assembly, installed at the air outlet, for swinging air left and right; and

    A controller comprises a processor and a memory, wherein the memory stores a computer program, and when the computer program is executed by the processor, the computer program is used to implement the control method according to any one of claims 1 to 11.