CN111306711A - Air conditioner control method of linkage intelligent equipment and intelligent air conditioner - Google Patents

Abstract

The invention provides an air conditioner control method for linkage intelligent equipment and an intelligent air conditioner. Based on the scheme provided by the invention, when the air conditioner detects that the intelligent equipment enters the preset distance range, the air conditioner judges that the user possibly enters the preset distance range, so that the operating parameters of the air conditioner are regulated and controlled according to the position of the user and the indoor environment parameters, the intelligent equipment is linked to efficiently realize the intelligent regulation of the air conditioner, and the air conditioner control of turning on the air conditioner by people and turning off the air conditioner by no people is accurately realized.

Description

Air conditioner control method of linkage intelligent equipment and intelligent air conditioner

Technical Field

The invention relates to the technical field of intelligent air conditioners, in particular to an air conditioner control method of a linkage intelligent device and an intelligent air conditioner.

Background

At present, the air conditioner becomes an essential electric appliance in life and work of people. Along with the continuous improvement of people's standard of living, the high comfort of air conditioner has become the biggest demand of user, and how better satisfy the high comfort demand of user, improve user's experience and be the problem that urgently waits to be solved.

For traditional air conditioners, the external remote controller or an application program on a terminal is mostly adopted for adjusting the running parameters of the air conditioner to carry out manual adjustment, and the air conditioner needs to be adjusted at each time because the requirement of a user on the environment state may be changed frequently, so that the problems of complex use process, low user experience and the like are caused.

Disclosure of Invention

An object of the present invention is to provide an air conditioner control method of a linkage intelligent device.

A further object of the present invention is to enable an air conditioner to accurately implement air conditioner control with a person turning on and without a person turning off.

Another further object of the present invention is to provide an intelligent air conditioner with the above functions.

Particularly, the invention provides an air conditioner control method of a linkage intelligent device, which comprises the following steps:

detecting whether intelligent equipment for a user exists in a preset distance range of the air conditioner through a first wireless communication module arranged in the air conditioner;

if the intelligent equipment is detected to exist in the preset range of the air conditioner, acquiring a first position parameter of the intelligent equipment in a space where the air conditioner is deployed;

collecting indoor environmental parameters of a deployment space;

and regulating and controlling the operation parameters of the air conditioner based on the indoor environment parameters and the first position parameters.

Optionally, whether there is the smart machine who supplies the user to use in the preset distance range that detects the air conditioner through the inside first wireless communication module that sets up of air conditioner, include:

detecting whether a wireless connection signal transmitted by a second wireless communication module arranged in the intelligent equipment exists in a preset distance range through a first wireless communication module arranged in the air conditioner;

and if the wireless connection signal is detected to exist, controlling the first wireless communication module to establish wireless connection with the second wireless communication module based on the wireless connection signal, and judging whether the wireless connection is established successfully.

Optionally, if the wireless connection between the first wireless communication module and the second wireless communication module is successfully established, it indicates that the intelligent device exists in the preset range of the air conditioner;

if the wireless connection between the first wireless communication module and the second wireless communication module is not established successfully or the wireless connection signal transmitted by the second wireless communication module does not exist in the preset distance range, it indicates that no intelligent equipment exists in the preset range of the air conditioner.

Optionally, before obtaining the first location parameter of the smart device in the space where the air conditioner is deployed, the method further includes:

and establishing a three-dimensional space model of the deployment space.

Optionally, after obtaining the first location parameter of the smart device in the space where the air conditioner is deployed, the method further includes:

marking a first position point of the intelligent device in the three-dimensional space model based on a first position parameter of the intelligent device in a deployment space;

and acquiring a second position parameter of the air conditioner in the deployment space, and marking a second position point of the air conditioner in the three-dimensional space model based on the second position parameter.

Optionally, the adjusting and controlling the operation parameter of the air conditioner based on the indoor environment parameter and the first position parameter includes:

regulating and controlling an operation mode, a target temperature value and/or a target humidity value of the air conditioner based on the indoor environment parameters;

and regulating and controlling the air outlet direction of the air conditioner based on the relative position of the first position point and the second position point.

Optionally, the indoor environmental parameter comprises an indoor humidity value and an indoor humidity value;

the operation mode, the target temperature value and/or the target humidity value of the air conditioner are regulated and controlled based on the indoor environment parameters, and the method further comprises the following steps:

collecting a body surface temperature value and/or a body surface humidity value of a user by using intelligent equipment;

regulating and controlling the operation mode and the target temperature value of the air conditioner based on the indoor temperature value and the body surface temperature value; and/or

And regulating and controlling the target humidity value of the air conditioner based on the indoor humidity value and the body surface humidity value.

Optionally, the adjusting and controlling the operation mode of the air conditioner and the target temperature value based on the indoor temperature value and the body surface temperature value includes:

comparing the indoor temperature value with a preset temperature threshold value, and regulating and controlling the operation mode of the air conditioner according to the comparison result;

and respectively determining first weight coefficients occupied by the indoor temperature value and the body surface temperature value, and carrying out weighted summation on the indoor temperature value and the body surface temperature value and the corresponding first weight coefficients to obtain a target temperature value.

Optionally, the adjusting the target humidity value of the air conditioner based on the indoor humidity value and the body surface humidity value includes:

and respectively determining second weight coefficients occupied by the indoor humidity value and the body surface humidity value, and carrying out weighted summation on the indoor humidity value, the body surface humidity value and the respective weight coefficients to obtain a target humidity value.

According to another aspect of the present invention, there is also provided an intelligent air conditioner including: the system comprises an indoor unit, a first wireless communication module, an environmental parameter detection module and a controller; wherein,

the first wireless communication module is configured to detect whether intelligent equipment for a user exists within a preset distance range of the air conditioner;

the controller is in communication connection with the first wireless communication module and the environmental parameter detection module and is configured to acquire a first position parameter of the intelligent equipment in a deployment space of the air conditioner and control the environmental parameter detection module to acquire an indoor environmental parameter of the deployment space when the first wireless communication module detects that the intelligent equipment exists in a preset range of the air conditioner; and regulating and controlling the operation parameters of the indoor unit based on the indoor environment parameters and the first position parameters.

The invention provides an air conditioner control method for linkage intelligent equipment and an intelligent air conditioner. Based on the scheme provided by the invention, because the intelligent equipment is used by the user, when the air conditioner detects that the intelligent equipment enters the preset distance range, the air conditioner can judge that the user possibly enters the preset distance range, so that after the position of the intelligent equipment is obtained to accurately determine the position of the user, the operating parameters of the air conditioner are regulated and controlled in combination with the indoor environment parameters, the intelligent equipment is linked to efficiently realize the intelligent regulation of the air conditioner, and the air conditioner control of 'turning on the air conditioner by someone and turning off the air conditioner by nobody' is accurately realized.

Further, in the specific parameter adjusting process of the air conditioner, the air conditioner can be adjusted according to indoor environment parameters and the temperature and humidity of the body surface of a human body, so that the air outlet direction and the air outlet temperature and humidity are more in line with the needs of a user, and the comfort level of the user is further improved.

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

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is a schematic flow chart of an air conditioner control method of a linkage intelligent device according to an embodiment of the invention;

fig. 2 is a schematic structural view of an air conditioner according to an embodiment of the present invention;

fig. 3 is a schematic structural view of an air conditioner according to another embodiment of the present invention.

Detailed Description

Fig. 1 is a schematic flow chart of an air conditioner control method of a linkage intelligent device according to an embodiment of the present invention, and as can be seen from fig. 1, the air conditioner control method of the linkage intelligent device according to the embodiment of the present invention may include:

step S102, detecting whether intelligent equipment for a user exists in a preset distance range of the air conditioner through a first wireless communication module arranged in the air conditioner;

step S104, if the intelligent equipment is detected to exist in the preset range of the air conditioner, acquiring a first position parameter of the intelligent equipment in a space where the air conditioner is deployed;

step S106, collecting indoor environment parameters of a deployment space;

and S108, regulating and controlling the operation parameters of the air conditioner based on the indoor environment parameters and the first position parameters.

The embodiment of the invention provides an air conditioner control method for linkage intelligent equipment. In the embodiment of the invention, the intelligent equipment is used by the user, so that when the air conditioner detects that the intelligent equipment enters the preset distance range, the air conditioner can judge that the user possibly enters the preset distance range, and the operation parameters of the air conditioner are regulated and controlled by combining the indoor environment parameters after the position of the intelligent equipment is obtained to accurately determine the position of the user, so that the intelligent equipment is linked to realize the intelligent regulation of the air conditioner.

In addition, assuming that no smart device exists in the preset range of the air conditioner after the step S102, the step S102 may be continuously executed to detect whether a smart device for the user exists in the preset distance range of the air conditioner.

In an optional embodiment of the present invention, the smart device may be provided with a second wireless communication module, and the second wireless communication module may transmit the wireless connection signal in real time or at a certain time interval. Therefore, when the air conditioner detects whether there is an intelligent device for the user in step S102, it may specifically detect whether there is a wireless connection signal transmitted by a second wireless communication module disposed in the intelligent device within a preset distance range through a first wireless communication module disposed inside the air conditioner. And if the wireless connection signal is detected to exist, controlling the first wireless communication module to establish wireless connection with the second wireless communication module based on the wireless connection signal, and judging whether the wireless connection is established successfully.

Furthermore, if the wireless connection between the first wireless communication module and the second wireless communication module is successfully established, it indicates that the intelligent equipment exists in the preset range of the air conditioner. On the other hand, if the wireless connection between the first wireless communication module and the second wireless communication module is not established successfully or the wireless connection signal transmitted by the second wireless communication module is detected to be absent in the preset distance range, it indicates that no intelligent equipment is present in the preset range of the air conditioner. In this embodiment, the first wireless communication module set up in the air conditioner and the second wireless communication module set up in the smart machine are preferably bluetooth communication module, and the air conditioner and the smart machine accessible bluetooth realize pairing connection promptly. In this embodiment, since the smart device is mainly used by the user, as long as the first wireless communication module detects that the wireless connection signal transmitted by the second wireless communication module exists and the connection with the second wireless communication module is successful, it indicates that a human body exists within the preset distance range. The preset distance range can be adjusted according to the signal receiving range of the first wireless communication module, which is not limited in the present invention.

Bluetooth is an open global specification for wireless data and voice communications, and is a special short-range wireless technology connection that establishes a communication environment for fixed and mobile devices based on a low-cost short-range wireless connection. Bluetooth is a small-range wireless connection technology, and can realize convenient, quick, flexible, safe, low-cost and low-power-consumption data communication and voice communication among devices.

In this embodiment, it is assumed that the first wireless communication module disposed in the air conditioner is a first bluetooth module, and the second wireless communication module disposed in the smart device is a second bluetooth module. In practical application, the second bluetooth module can be in real time or send the wireless connection signal at certain intervals, and when the second bluetooth module was far away from first bluetooth module, first bluetooth module can't detect the wireless connection signal of second bluetooth module transmission, and this moment, it does not have the smart machine to detect the air conditioner and predetermines the within range, promptly, the air conditioner can judge that it does not have the human existence in predetermineeing the distance range.

In addition, when the second bluetooth module gets into the preset distance scope of first bluetooth module, wireless connection signal that the second bluetooth module launched can be detected to first bluetooth module, at this moment, can establish with the second bluetooth module based on this wireless connection signal and be connected, if connect successfully, then explain that air conditioner and smart machine pair successfully, can adjust and control the air conditioner according to the position adaptation of smart machine this moment. If the connection fails, the first Bluetooth module can continuously detect whether the wireless connection signal exists in the preset distance range.

In an optional embodiment of the invention, the intelligent device can be an intelligent slipper, and because the replacement of the slipper is a basic action of getting home and entering the door in life of people and has the same space with a human body when walking indoors, the intelligent slipper and the air conditioner can be linked to accurately position a user and efficiently meet the use requirement of the user on the air conditioner. Through set up the wireless communication module in intelligent slippers, it can pair with the wireless communication module that sets up in the air conditioner. Certainly, when the intelligent device is used for the first time, the intelligent device needs to be paired with the air conditioner firstly based on a control instruction of a user, and when the intelligent device is subsequently paired again, automatic pairing can be achieved as long as the distance between the intelligent device and the air conditioner is within a certain range, and the intelligent device does not need to be manually paired again by the user.

In practical application, the improper house slippers style of intelligence slippers outward appearance, its can embed intelligent device, and this intelligent device is the cube structure, including little PC board and button cell, imbeds wireless communication module on the PC board. The intelligent device can be arranged on the vamp of the instep of the intelligent slipper and can also be arranged in the sole.

In the embodiment of the invention, the intelligent device can be preferentially arranged on the sole, and in addition, the pressure sensor can be integrated on the PC board and can be in communication connection with the wireless communication module. The pressure sensor can detect whether the user wears the intelligent slippers, so that whether the intelligent slippers are in a use state or not is judged. That is to say, when the pressure sensor detects that the intelligent slippers are worn by the user, that is, the intelligent slippers are in the use state, at this time, the second wireless communication module can be notified to transmit the wireless connection signal. If the pressure sensor detects that the intelligent slippers are not worn by the user, the second wireless communication module does not transmit the wireless connection signal according to the use state of the intelligent slippers in the previous period and the attribute of the space where the air conditioner belongs. For example, when the user is doing static activities such as reading, watching television or sleeping in a space, the air conditioner is continuously powered on to run because the intelligent slippers are in the same space.

Furthermore, the approximate age range of the user can be judged according to the weight of the user detected by the pressure sensor, so that the use habits of the user on the air outlet angle, the air outlet volume and the temperature and humidity of the air conditioner are determined, and the operation parameters of the air conditioner are adjusted in a personalized mode according to the attributes of the user. Furthermore, after the weight of the user is detected through the pressure sensor, the weight change curve of the user can be derived, so that the user who pays attention to stature management can obtain weight information.

Referring to step S104, if it is detected that the smart device exists within the preset range of the air conditioner, the first location parameter of the smart device in the space where the air conditioner is deployed may be obtained. As mentioned above, the smart device may be a smart slipper, since it is an essential article for the user to move indoors, and thus the location parameter of the smart device may be the location parameter of the user. Specifically, when the first position parameter of the intelligent device is obtained, conversion calculation can be performed through the strength of the wireless connection signal transmitted by the second wireless communication module. Of course, a positioning module can be further arranged in the intelligent equipment, and the first position parameter of the intelligent equipment is obtained through the positioning module. The first position parameter mentioned in this embodiment may be a coordinate of the smart device in the three-dimensional space model.

In an optional embodiment of the present invention, a three-dimensional space model of a deployment space may be established in advance; marking a first position point of the intelligent device in the three-dimensional space model based on a first position parameter of the intelligent device in a deployment space; and obtaining a second position parameter of the air conditioner in the deployment space, and marking a second position point of the air conditioner in the three-dimensional space model based on the second position parameter, so that the relative position relationship between the intelligent equipment and the air conditioner is determined based on the first position point and the second position point, the relative position relationship between the user and the air conditioner is further determined, and the air outlet direction of the air conditioner is determined. The air supply direction can be adjusted according to the setting of the user after the relative position relation between the intelligent device and the air conditioner is obtained currently, so that comfortable experience of the user is provided.

In the above, when it is detected that the intelligent device exists in the preset range of the air conditioner, besides obtaining the first position parameter of the intelligent device, the indoor environment parameters of the deployment space of the air conditioner, such as the indoor temperature and the indoor humidity, may be collected, so as to regulate and control the target temperature value and the target humidity value of the air conditioner based on the indoor environment parameters.

In an optional embodiment of the invention, because the intelligent device is used by a user, such as an intelligent slipper, the intelligent device can be used for collecting the body surface temperature value and/or the body surface humidity value of the user in real time or at certain time intervals, and further regulating and controlling the operation mode and the target temperature value of the air conditioner based on the indoor temperature value and the body surface temperature value; and regulating and controlling a target humidity value of the air conditioner based on the indoor humidity value and the body surface humidity value. The operation mode may include a heating mode and a cooling mode. During specific adjustment, the indoor temperature value can be compared with a preset temperature threshold value, and the operation mode of the air conditioner can be adjusted and controlled according to the comparison result. That is to say, after the wireless connection between the air conditioner and the intelligent device is established successfully, the air conditioner enters the automatic temperature and humidity adjusting scene. If the preset temperature threshold is 20-28 ℃, on the premise that the wireless connection between the air conditioner and the intelligent equipment is successfully established, and the temperature detection is not within the range of 20-28 ℃, the corresponding refrigeration and heating mode is started.

The above-described embodiments mention that, in addition to determining the operation mode of the air conditioner, a target temperature value needs to be determined. In an optional embodiment of the present invention, first weight coefficients occupied by the indoor temperature value and the body surface temperature value may be respectively determined, and the target temperature value is obtained by performing weighted summation on the indoor temperature value and the body surface temperature value and the respective corresponding first weight coefficients. Assuming that a first weight coefficient corresponding to the indoor temperature value is a, a first weight coefficient corresponding to the body surface temperature value is b, the measured indoor temperature value is Ta, and the body surface temperature value is Tb, at this time, the target temperature value is a × Ta + b × Tb. The first weight coefficient in this embodiment may be obtained by performing deep learning in advance according to the usage habit of the user, and the present invention is not limited thereto.

In an alternative embodiment of the invention, the target humidity value needs to be determined in addition to the target temperature value. Optionally, the adjusting the target humidity value of the air conditioner based on the indoor humidity value and the body surface humidity value includes: and respectively determining second weight coefficients occupied by the indoor humidity value and the body surface humidity value, and carrying out weighted summation on the indoor humidity value, the body surface humidity value and the respective weight coefficients to obtain a target humidity value. Assuming that the second weight coefficient corresponding to the indoor humidity value is c, the second weight coefficient corresponding to the body surface humidity value is d, and the measured indoor humidity value is Hc and the body surface humidity value is Hd, at this time, the target humidity value is c × Hc + d × Hd. The second weight coefficient in this embodiment may be obtained by performing deep learning in advance according to the usage habit of the user, and the present invention is not limited thereto. Of course, in practical applications, the target temperature value and the target humidity value may be determined in other manners, which will not be described herein again.

In practical application, when the intelligent device acquires the body surface temperature value of a user, the body temperature of the user can be calculated by setting the body temperature patch type temperature sensor on the intelligent device, detecting the temperature and humidity of the foot of the user based on the temperature sensor and converting the temperature of the contact part into a resistance value.

With the intelligent slippers mentioned in the above embodiments, the user returns to home, and enters the living room or the bedroom after the intelligent slippers are replaced in the hallway, the second bluetooth module in the intelligent slippers can transmit a signal once per minute, and enters the signal range which can be detected by the first bluetooth module of the air conditioner in the living room or the bedroom, and then the second bluetooth module is successfully paired with the first bluetooth module of the air conditioner in the living room or the bedroom, that is, the air conditioner detects the slippers, judges and determines that someone is in the space, so that the temperature data comparison is started, and when the current ambient temperature exceeds the set temperature range, the air conditioner starts to perform cooling or heating operation (the target temperature can be calculated according to the manner introduced in the above embodiments, or set in advance, or set at the last time).

In addition, suppose that the second bluetooth module in the intelligence slippers all gets into the signal range that respective first bluetooth module can detect in the air conditioner in sitting room and the bedroom, and the homoenergetic pairs successfully, and the temperature that detects is not in presetting the threshold value within range, can start simultaneously this moment, avoids a plurality of users to omit occasionally. Of course, the start-up may alternatively be implemented in practical applications. When the air conditioner is started, the detected signal can be judged to be stronger, and the air conditioner with the stronger detected signal is started.

When a user leaves a living room and enters a bedroom, in order to prevent the user from leaving the living room for a short time, after the intelligent slippers are not detected, the air conditioner in the living room maintains the current state for a period of time, the intelligent slippers are shut down if the intelligent slippers are not detected after the period of time, if the intelligent slippers are detected in the middle, the time returns to zero, and when the intelligent slippers are not detected again, the timing is started. In addition, when the air conditioner in the living room cannot detect the second Bluetooth module of the intelligent slippers, the air conditioner can be closed after continuously running for 3 minutes (preventing the user from returning in a short time), and the air conditioner in the bedroom starts to run when detecting that the intelligent slippers enter the preset range and are successfully paired.

When a plurality of users are indoors, as long as the second wireless communication module of the intelligent slippers detected by the air conditioner is not 0, the first wireless communication module of the air conditioner is continuously in an open state as long as the second wireless communication module (no matter 1 or N) matched with the first wireless communication module is provided.

In addition to the above-described automatic operation parameter adjustment and control of the air conditioner, the air conditioner may also receive a control command of a user through a remote controller or a terminal device application program, and at this time, the detection of the intelligent device may be shielded, and the operation parameter of the air conditioner may be preferentially adjusted according to the control command of the user.

The embodiment of the invention provides an air conditioner control method for linkage intelligent equipment. In the embodiment of the invention, the intelligent equipment is used by the user, so that the air conditioner control of 'turning on the air conditioner by someone and turning off the air conditioner by no one' can be accurately realized. And the air conditioner control of 'wind moves along with people or wind avoids people blowing' can be accurately implemented by acquiring the user position based on the intelligent equipment. And in the specific parameter adjustment process of the air conditioner, the air conditioner can be adjusted according to indoor environment parameters and the temperature and humidity of the body surface of a human body, so that the air outlet direction and the air outlet temperature are more in line with the requirements of a user, and the comfort level of the user is further improved.

Based on the same inventive concept, an embodiment of the present invention further provides an intelligent air conditioner 200, as shown in fig. 2, the air conditioner may include: an indoor unit 210, a first wireless communication module 220, an environmental parameter detection module 230, and a controller 240; wherein,

a first wireless communication module 220 configured to detect whether there is an intelligent device for a user within a preset distance range of the air conditioner 200;

the controller 240 is in communication connection with the first wireless communication module 220 and the environmental parameter detection module 230, and is configured to, when the first wireless communication module 220 detects that the intelligent device exists within a preset range of the air conditioner 200, obtain a first location parameter of the intelligent device in a deployment space of the air conditioner 200, and control the environmental parameter detection module 230 to collect an indoor environmental parameter of the deployment space; and regulating and controlling the operation parameters of the indoor unit based on the indoor environment parameters and the first position parameters.

Optionally, the controller 240 may further include a memory 241 and a processor 242, where the memory 241 stores a computer program, and the computer program is executed by the processor 242 to implement the air conditioner control method of the interlocking smart device according to any of the embodiments.

In the embodiment of the present invention, the air conditioner 200 may further include a refrigeration system, and the refrigeration system may be implemented by using a compression refrigeration cycle, where the compression refrigeration cycle uses a compression phase change cycle of a refrigerant in a compressor, a condenser, an evaporator, and a throttling device to implement heat transfer. In the air conditioner, the refrigerating system can also be provided with a reversing valve to change the flow direction of the refrigerant, so that the heat exchanger of the indoor unit can be alternately used as an evaporator or a condenser to realize the refrigerating or heating function. Since the compression refrigeration cycle in the air conditioner is well known to those skilled in the art, the operation principle and structure thereof will not be described again.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.

Claims (10)

1. An air conditioner control method of a linkage intelligent device comprises the following steps:

detecting whether intelligent equipment for a user exists in a preset distance range of the air conditioner through a first wireless communication module arranged in the air conditioner;

if the intelligent equipment is detected to exist in the preset range of the air conditioner, acquiring a first position parameter of the intelligent equipment in a space where the air conditioner is deployed;

collecting indoor environmental parameters of the deployment space;

and regulating and controlling the operation parameters of the air conditioner based on the indoor environment parameters and the first position parameters.

2. The method of claim 1, wherein the detecting whether the smart device for the user exists within the preset distance range of the air conditioner through a first wireless communication module set inside the air conditioner comprises:

detecting whether a wireless connection signal transmitted by a second wireless communication module arranged in the intelligent equipment exists in the preset distance range through a first wireless communication module arranged in the air conditioner;

and if the wireless connection signal is detected to exist, controlling the first wireless communication module to establish wireless connection with the second wireless communication module based on the wireless connection signal, and judging whether the wireless connection is established successfully.

3. The method of claim 2, wherein,

if the wireless connection between the first wireless communication module and the second wireless communication module is successfully established, the intelligent equipment exists in the preset range of the air conditioner;

if the wireless connection between the first wireless communication module and the second wireless communication module is not established successfully or the wireless connection signal transmitted by the second wireless communication module is detected to be absent in the preset distance range, it is indicated that the intelligent equipment is absent in the preset range of the air conditioner.

4. The method of claim 1, wherein the obtaining the first location parameter of the smart device within the space in which the air conditioner is deployed further comprises:

and establishing a three-dimensional space model of the deployment space.

5. The method of claim 4, wherein the obtaining of the first location parameter of the smart device within the space where the air conditioner is deployed further comprises:

marking a first location point of a smart device in the three-dimensional space model based on a first location parameter of the smart device in the deployment space;

and acquiring a second position parameter of the air conditioner in the deployment space, and marking a second position point of the air conditioner in the three-dimensional space model based on the second position parameter.

6. The method of claim 5, wherein said regulating an operating parameter of the air conditioner based on the indoor environmental parameter and the first location parameter comprises:

regulating and controlling an operation mode, a target temperature value and/or a target humidity value of the air conditioner based on the indoor environment parameter;

and regulating and controlling the air outlet direction of the air conditioner based on the relative position of the first position point and the second position point.

7. The method of claim 6, wherein the indoor environmental parameter comprises an indoor humidity value and an indoor humidity value;

regulating and controlling the operation mode, the target temperature value and/or the target humidity value of the air conditioner based on the indoor environment parameters, and further comprising:

acquiring a body surface temperature value and/or a body surface humidity value of the user by using the intelligent equipment;

regulating and controlling the operation mode and the target temperature value of the air conditioner based on the indoor temperature value and the body surface temperature value; and/or

And regulating and controlling the target humidity value of the air conditioner based on the indoor humidity value and the body surface humidity value.

8. The method of claim 7, wherein regulating the operating mode of the air conditioner and the target temperature value based on the indoor temperature value and the body surface temperature value comprises:

comparing the indoor temperature value with a preset temperature threshold value, and regulating and controlling the operation mode of the air conditioner according to the comparison result;

respectively determining first weight coefficients occupied by the indoor temperature value and the body surface temperature value, and carrying out weighted summation on the indoor temperature value, the body surface temperature value and the corresponding first weight coefficients to obtain the target temperature value.

9. The method of claim 7, wherein the regulating a target humidity value of the air conditioner based on the indoor humidity value and the body surface humidity value comprises:

and respectively determining second weight coefficients occupied by the indoor humidity value and the body surface humidity value, and carrying out weighted summation on the indoor humidity value, the body surface humidity value and the respective weight coefficients to obtain the target humidity value.

10. An intelligent air conditioner comprising: the system comprises an indoor unit, a first wireless communication module, an environmental parameter detection module and a controller; wherein,

the first wireless communication module is configured to detect whether intelligent equipment for a user exists within a preset distance range of the air conditioner;

the controller is in communication connection with the first wireless communication module and the environmental parameter detection module and is configured to acquire a first position parameter of the intelligent equipment in a deployment space of the air conditioner and control the environmental parameter detection module to acquire an indoor environmental parameter of the deployment space when the first wireless communication module detects that the intelligent equipment exists within a preset range of the air conditioner; and regulating and controlling the operation parameters of the indoor unit based on the indoor environment parameters and the first position parameters.

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