CN111380161A - Air conditioner operation mode adjusting method and device and air conditioner - Google Patents

Abstract

The invention discloses an air conditioner operation mode adjusting method and device and an air conditioner. Wherein, the method comprises the following steps: acquiring current position information of a target object in an area where an air conditioner is located according to a first condition configured in advance, wherein the first condition is used for indicating a time requirement for acquiring the current position information of the target object, or the first condition is used for indicating that position change of the target object in the area meets a threshold value; acquiring a configured air supply mode of the air conditioner; and under the condition that the obtained current position of the target object changes and meets a second preset condition, generating a control signal according to the obtained current position information and the configured air supply mode, and adjusting the air supply of the air conditioner according to the control signal. The invention solves the technical problem of low user experience caused by unreasonable control mode of the air conditioner in the related technology.

Description

Air conditioner operation mode adjusting method and device and air conditioner

Technical Field

The invention relates to the technical field of intelligent household appliances, in particular to an air conditioner operation mode adjusting method and device and an air conditioner.

Background

With the continuous improvement of the living standard of people, people pursue higher comfortableness of the air conditioner, and the air conditioner has only the effects of refrigeration and heating and also has a good comfortable effect. However, the air conditioner in the related art still remains only in a relatively conventional state in terms of providing a good comfort effect to the user. For example. When a user is in a certain wind sweeping area, the air quantity of the area is correspondingly controlled to be reduced through the air guide structure, and the wind is prevented from directly blowing to people, so that an activity area which is not directly blown by the wind is provided for the user. In addition, the energy saving performance of the related art air conditioner is also a factor of great concern to users during use. However, in the related art, as long as the air conditioner is turned on to operate at a set temperature, the air conditioner starts to operate in a normal operation mode when a user leaves home, thereby wasting a large amount of electric power.

In addition, whether the air conditioner can intelligently realize energy conservation is a long-term topic, the existing air conditioner only needs to be started to operate according to the set temperature, and when a user leaves home, the air conditioner still operates according to the normal operation, so that the electric energy is wasted.

Aiming at the problem that the mode for controlling the air conditioner in the related technology is not reasonable enough, so that the user experience is low, an effective solution is not provided at present.

Disclosure of Invention

The embodiment of the invention provides an air conditioner operation mode adjusting method and device and an air conditioner, and aims to at least solve the technical problem of low user experience caused by unreasonable control mode of the air conditioner in the related art.

According to an aspect of an embodiment of the present invention, there is provided an adjusting method of an air conditioner operation mode, including: acquiring current position information of a target object in an area where an air conditioner is located according to a first condition configured in advance, wherein the first condition is used for indicating a time requirement for acquiring the current position information of the target object, or the first condition is used for indicating that position change of the target object in the area meets a threshold value; acquiring a configured air supply mode of the air conditioner, wherein the air supply mode is used for indicating the air outlet of the air conditioner to follow the target object or the air outlet of the air conditioner to avoid the target object; and under the condition that the obtained current position of the target object changes and meets a second preset condition, generating a control signal according to the obtained current position information and the configured air supply mode, and adjusting the air supply of the air conditioner according to the control signal.

Optionally, the obtaining of the current position information of the target object in the area where the air conditioner is located includes: acquiring current position information of the target object by using an acquisition device, wherein the acquisition device comprises at least one of the following devices: pyroelectric sensor, image acquisition equipment, video acquisition equipment.

Optionally, before obtaining the current location information of the target object in the area where the air conditioner is located, the method for adjusting the operation mode of the air conditioner further includes: dividing the area where the air conditioner is located into areas; wherein the area division of the area where the air conditioner is located includes: determining the number of air ducts of the air conditioner and the installation position of each air duct in the air ducts; and carrying out regional division on the region where the air conditioner is located according to the installation position of each air duct in the air ducts to obtain a plurality of wind sweeping regions. Therefore, the method for adjusting the operation mode of the air conditioner provided by the embodiment of the invention can realize that the areas where the air conditioner is located are respectively controlled according to the air supply mode selected by the target object and the current position of the target object, so that the experience of the target object is improved, and the overall comfort level of the areas where the air conditioner is located is not reduced.

Optionally, the plurality of wind sweeping regions comprises: the air conditioner comprises a left side air sweeping area, a right side air sweeping area and a middle air sweeping area, wherein the middle air sweeping area is an overlapped area of the left side air sweeping area and the middle air sweeping area, the left side air sweeping area is an area which is removed from the air sweeping area corresponding to the left air duct of the air conditioner in a limit state and is overlapped with the middle air sweeping area, and the right side air sweeping area is an area which is removed from the air sweeping area corresponding to the right air duct of the air conditioner in the limit state and is overlapped with the middle air sweeping area.

Optionally, in a case that the collecting device is the pyroelectric sensor, after obtaining current position information of the target object in an area where the air conditioner is located, the method for adjusting the operation mode of the air conditioner further includes: determining a target wind sweeping area corresponding to the current position information through a determination model, wherein the determination model is obtained by using multiple groups of training data through machine learning training, and each group of training data in the multiple groups of training data comprises: the current position signal and the wind sweeping area corresponding to the current position information.

Optionally, in a case that the air supply mode is for indicating that the outlet air of the air conditioner follows the target object and only one of the plurality of wind sweeping regions has the target object, if the current position information indicates that the target object is in the left wind sweeping region, the target wind sweeping region is the left wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area, the target wind sweeping area is the middle wind sweeping area; and if the current position information indicates that the target object is in the right side wind sweeping area, the target wind sweeping area is the right side wind sweeping area.

Optionally, in a case that the air supply mode is used for indicating that outlet air of the air conditioner follows the target object and target objects exist in at least two of the plurality of wind sweeping regions, if the current position information indicates that the target objects are in the left wind sweeping region and the middle wind sweeping region, the target wind sweeping regions are the left wind sweeping region and the middle wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area and the right wind sweeping area, the target wind sweeping area is the middle wind sweeping area and the right wind sweeping area; if the current position information indicates that the target object is in the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area, the target wind sweeping areas are the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area. Therefore, the method for adjusting the operation mode of the air conditioner provided by the embodiment of the invention can realize reasonable control of a plurality of wind sweeping areas even under the condition that the target objects exist in the plurality of wind sweeping areas, so that the experience of the target objects can be improved, and the overall comfort level of the area where the air conditioner is located can not be reduced.

Optionally, in a case that the air supply mode is that the outlet air for the air conditioner avoids the target object and only one of the plurality of wind sweeping regions has the target object, if the current position information indicates that the target object is in the left wind sweeping region, the target wind sweeping regions are the middle wind sweeping region and the right wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area, the target wind sweeping area is the left wind sweeping area and the right wind sweeping area; and if the current position information indicates that the target object is in the right wind sweeping area, the target wind sweeping area is the left wind sweeping area and the middle wind sweeping area.

Optionally, in a case that the air supply mode is that the outlet air for the air conditioner avoids the target object, and there are target objects in at least two of the plurality of wind sweeping regions, if the current position information indicates that the target object is in the left wind sweeping region and the middle wind sweeping region, the target wind sweeping region is the right wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area and the right wind sweeping area, the target wind sweeping area is the left wind sweeping area; if the current position information indicates that the target object is in the left side wind sweeping area and the right side wind sweeping area, the target wind sweeping area is the middle wind sweeping area; and if the current position information indicates that the target object is in the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area, the target wind sweeping area is absent.

Optionally, before determining, by the determination model, a wind sweeping area corresponding to the current position signal, the method for adjusting the operation mode of the air conditioner further includes: collecting a plurality of historical position information and a plurality of historical wind sweeping areas in a historical time period, wherein the plurality of historical wind sweeping areas are determined according to the plurality of historical position information; and training a plurality of groups of collected training data including the plurality of historical position information and the plurality of historical wind sweeping areas to obtain the determined model.

Optionally, when the second predetermined condition indicates that the blowing mode requested by the target object is a wind following mode and the target wind sweeping area is one, adjusting the air conditioner according to the control signal includes at least one of: under the condition that the target wind sweeping area is a left wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at any one of a second adjusting position to a fourth adjusting position, and controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at a third adjusting position; increasing a preset gear of the current windshield of the first air duct, and simultaneously reducing the current gear of the second air duct by the preset gear; under the condition that the target wind sweeping area is a right wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at the third adjusting position, and simultaneously controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at any position from the second adjusting position to the fourth adjusting position; lowering the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear; and controlling the air sweeping plates of the first air channel and the second air channel to be positioned at the first adjusting position under the condition that the target air sweeping area is the middle air sweeping area.

Optionally, when the second predetermined condition indicates that the blowing mode requested by the target object is a wind following mode and the target wind sweeping areas are at least two, adjusting the air conditioner according to the control signal includes at least one of: under the condition that the target wind sweeping area is a left wind sweeping area and a middle wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at any position from a first adjusting position to a fourth adjusting position, and controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at the first adjusting position; under the condition that the target wind sweeping areas are a left wind sweeping area and a right wind sweeping area, controlling the wind sweeping plates of the first air channel and the second air channel to be located at any position from a second adjusting position to a fourth adjusting position; under the condition that the target wind sweeping area is a middle wind sweeping area and a right wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at the first adjusting position, and controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at any one of the first adjusting position to the fourth adjusting position; and under the condition that the target wind sweeping areas are a left wind sweeping area, a middle wind sweeping area and a right wind sweeping area, controlling the wind sweeping plates of the first air channel and the second air channel to be located at any one of the first adjusting position to the fourth adjusting position.

Optionally, when the second predetermined condition indicates that the blowing mode requested by the target object is a wind avoidance mode and the target wind sweeping area is two, adjusting the air conditioner according to the control signal includes at least one of: under the condition that the target wind sweeping area is a middle wind sweeping area and a right wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at a first adjusting position, and controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at a third adjusting position; lowering the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear; controlling the air sweeping plates of the first air channel and the second air channel to be located at the position of a fifth adjusting position under the condition that the target air sweeping area is a left air sweeping area and a right air sweeping area; and under the condition that the target wind sweeping area is the left wind sweeping area and the middle wind sweeping area, controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be positioned at the third adjusting position, and simultaneously controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be positioned at the first adjusting position.

Optionally, when the second predetermined condition indicates that the blowing mode requested by the target object is a wind avoidance mode and the target wind sweeping area is at most one, adjusting the air conditioner according to the control signal includes at least one of: under the condition that the target wind sweeping area is a right wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at a fifth adjusting position, and controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at a third adjusting position; lowering the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear; controlling the air sweeping plates of the first air channel and the second air channel to be located at the position of a first adjusting position under the condition that the target air sweeping area is a middle air sweeping area; under the condition that the target wind sweeping area is a left wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at the third adjusting position, and controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at the fifth adjusting position; increasing a preset gear of the current windshield of the first air duct, and simultaneously reducing the current gear of the second air duct by the preset gear; and controlling the first air duct and the second air duct of the left air sweeping area to be located at the fifth adjusting position under the condition that the target air sweeping area is absent. Therefore, the wind sweeping area is finely controlled in different states, and comfortable experience can be achieved under the condition that one or more target objects exist.

Optionally, before obtaining the current location information of the target object in the area where the air conditioner is located, or after adjusting the air conditioner according to the control signal, the method for adjusting the operation mode of the air conditioner further includes: detecting the area where the air conditioner is located to obtain a detection result; when the detection result indicates that the target object does not exist in the area where the air conditioner is located, counting a first time length for which the target object does not exist in the area where the air conditioner is located; and adjusting the running state of the air conditioner when the first time length exceeds a preset time length.

Optionally, when the current operation mode of the air conditioner is the cooling mode, adjusting the operation state of the air conditioner includes: detecting the current operating temperature of the air conditioner; under the condition that the current operation temperature is lower than a first temperature, increasing the current operation temperature to a second temperature at a first preset speed after increasing the current operation temperature to a first preset temperature; controlling the first temperature to increase to the second temperature at the first predetermined rate if the current operating temperature is between the first temperature and the second temperature.

Optionally, when the current operation mode of the air conditioner is a heating mode, adjusting the operation state of the air conditioner includes: detecting the current operating temperature of the air conditioner; when the current operating temperature is higher than a third temperature, reducing the current operating temperature to a second preset temperature and then reducing the current operating temperature to a fourth temperature at a second preset speed; controlling the third temperature to decrease to the fourth temperature at the second predetermined rate if the current operating temperature is between the third temperature and the fourth temperature. Therefore, the energy-saving effect is realized, and the user experience is improved.

According to another aspect of the embodiments of the present invention, there is also provided an apparatus for adjusting an operation mode of an air conditioner, including: the air conditioner comprises a first acquisition unit, a second acquisition unit and a control unit, wherein the first acquisition unit is used for acquiring current position information of a target object in an area where an air conditioner is located according to a first condition which is configured in advance, the first condition is used for indicating a time requirement for acquiring the current position information of the target object, or the first condition is used for indicating that position change of the target object in the area meets a threshold value; a second obtaining unit, configured to obtain a configured air supply mode of the air conditioner, where the air supply mode is used to instruct the outlet air of the air conditioner to follow the target object or the outlet air of the air conditioner to avoid the target object; and the adjusting unit is used for generating a control signal according to the acquired current position information and the configured air supply mode under the condition that the acquired current position of the target object changes and meets a second preset condition, and adjusting the air supply of the air conditioner according to the control signal.

Optionally, the first obtaining unit includes: an acquisition module configured to acquire current location information of the target object using an acquisition device, wherein the acquisition device includes at least one of: pyroelectric sensor, image acquisition equipment, video acquisition equipment.

Optionally, the apparatus for adjusting an operation mode of an air conditioner further includes: the air conditioner area dividing unit is used for dividing the area where the air conditioner is located before acquiring the current position information of a target object in the area where the air conditioner is located; wherein the dividing unit includes: the first determination module is used for determining the number of air ducts of the air conditioner and the installation position of each air duct in the air ducts; and the first acquisition module is used for carrying out regional division on the region where the air conditioner is located according to the installation position of each air duct in the air ducts to obtain a plurality of wind sweeping regions.

Optionally, the plurality of wind sweeping regions comprises: the air conditioner comprises a left side air sweeping area, a right side air sweeping area and a middle air sweeping area, wherein the middle air sweeping area is an overlapped area of the left side air sweeping area and the middle air sweeping area, the left side air sweeping area is an area which is removed from the air sweeping area corresponding to the left air duct of the air conditioner in a limit state and is overlapped with the middle air sweeping area, and the right side air sweeping area is an area which is removed from the air sweeping area corresponding to the right air duct of the air conditioner in the limit state and is overlapped with the middle air sweeping area.

Optionally, the apparatus for adjusting an operation mode of an air conditioner further includes: a first determining unit, configured to, when the acquisition device is the pyroelectric sensor, determine, by using a determination model after acquiring current location information of the target object in an area where the air conditioner is located, a target wind sweeping area corresponding to the current location information, where the determination model is obtained by using multiple sets of training data through machine learning training, and each set of training data in the multiple sets of training data includes: the current position signal and the wind sweeping area corresponding to the current position information.

Optionally, in a case that the air supply mode is for indicating that the outlet air of the air conditioner follows the target object and only one of the plurality of wind sweeping regions has the target object, if the current position information indicates that the target object is in the left wind sweeping region, the target wind sweeping region is the left wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area, the target wind sweeping area is the middle wind sweeping area; and if the current position information indicates that the target object is in the right side wind sweeping area, the target wind sweeping area is the right side wind sweeping area.

Optionally, in a case that the air supply mode is used for indicating that outlet air of the air conditioner follows the target object and target objects exist in at least two of the plurality of wind sweeping regions, if the current position information indicates that the target objects are in the left wind sweeping region and the middle wind sweeping region, the target wind sweeping regions are the left wind sweeping region and the middle wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area and the right wind sweeping area, the target wind sweeping area is the middle wind sweeping area and the right wind sweeping area; if the current position information indicates that the target object is in the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area, the target wind sweeping areas are the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area.

Optionally, in a case that the air supply mode is that the outlet air for the air conditioner avoids the target object and only one of the plurality of wind sweeping regions has the target object, if the current position information indicates that the target object is in the left wind sweeping region, the target wind sweeping regions are the middle wind sweeping region and the right wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area, the target wind sweeping area is the left wind sweeping area and the right wind sweeping area; and if the current position information indicates that the target object is in the right wind sweeping area, the target wind sweeping area is the left wind sweeping area and the middle wind sweeping area.

Optionally, in a case that the air supply mode is that the outlet air for the air conditioner avoids the target object, and there are target objects in at least two of the plurality of wind sweeping regions, if the current position information indicates that the target object is in the left wind sweeping region and the middle wind sweeping region, the target wind sweeping region is the right wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area and the right wind sweeping area, the target wind sweeping area is the left wind sweeping area; if the current position information indicates that the target object is in the left side wind sweeping area and the right side wind sweeping area, the target wind sweeping area is the middle wind sweeping area; and if the current position information indicates that the target object is in the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area, the target wind sweeping area is absent.

Optionally, the apparatus for adjusting an operation mode of an air conditioner further includes: the acquisition unit is used for acquiring a plurality of historical position information and a plurality of historical wind sweeping areas in a historical time period before determining the wind sweeping area corresponding to the current position signal through a determination model, wherein the plurality of historical wind sweeping areas are determined according to the plurality of historical position information; and the third acquisition unit is used for training a plurality of groups of acquired training data including the plurality of historical position information and the plurality of historical wind sweeping areas to obtain the determined model.

Optionally, the adjusting unit includes at least one of: the first control module is used for controlling the first air duct sweeping plate of the left air sweeping area to be located at any one of a second adjusting position to a fourth adjusting position and controlling the second air duct sweeping plate of the right air sweeping area to be located at a third adjusting position under the condition that the second preset condition indicates that the air supply mode requested by the target object is an air following mode and the target air sweeping area is one; increasing a preset gear of the current windshield of the first air duct, and simultaneously reducing the current gear of the second air duct by the preset gear; the second control module is used for controlling the wind sweeping plate of the first air duct of the left wind sweeping area to be located at the third adjusting position and controlling the wind sweeping plate of the second air duct of the right wind sweeping area to be located at any one of the second adjusting position to the fourth adjusting position under the condition that the target wind sweeping area is the right wind sweeping area; lowering the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear; and the third control module is used for controlling the air sweeping plates of the first air channel and the second air channel to be positioned at the first adjusting position under the condition that the target air sweeping area is the middle air sweeping area.

Optionally, the adjusting unit includes at least one of: a fourth control module, configured to, when the second predetermined condition indicates that the air supply mode requested by the target object is a wind following mode and the target wind sweeping regions are at least two, control the wind sweeping plate of the first air duct of the left wind sweeping region to be located at any one of the first adjustment position to the fourth adjustment position and control the wind sweeping plate of the second air duct of the right wind sweeping region to be located at the first adjustment position when the target wind sweeping regions are the left wind sweeping region and the middle wind sweeping region; the fifth control module is used for controlling the air sweeping plates of the first air channel and the second air channel to be located at any one of the second adjusting position to the fourth adjusting position under the condition that the target air sweeping area is a left air sweeping area and a right air sweeping area; the sixth control module is used for controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be located at the first adjusting position and controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be located at any one of the first adjusting position to the fourth adjusting position under the condition that the target wind sweeping area is the middle wind sweeping area and the right wind sweeping area; and the seventh control module is used for controlling the air sweeping plates of the first air channel and the second air channel to be positioned at any one of the first adjusting position to the fourth adjusting position under the condition that the target air sweeping area is a left air sweeping area, a middle air sweeping area and a right air sweeping area.

Optionally, the adjusting unit includes at least one of: an eighth control module, configured to, when the second predetermined condition indicates that the air supply mode requested by the target object is a wind avoidance mode and the target wind sweeping regions are two, control a wind sweeping plate of a first air duct of the left wind sweeping region to be located at a first adjustment position and control a wind sweeping plate of a second air duct of the right wind sweeping region to be located at a third adjustment position when the target wind sweeping regions are a middle wind sweeping region and a right wind sweeping region; lowering the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear; the ninth control module is used for controlling the air sweeping plates of the first air channel and the second air channel to be positioned at a fifth adjusting position under the condition that the target air sweeping area is a left air sweeping area and a right air sweeping area; and the tenth control module is used for controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be located at the third adjusting position and controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be located at the first adjusting position under the condition that the target wind sweeping area is the left wind sweeping area and the middle wind sweeping area.

Optionally, the adjusting unit includes at least one of: an eleventh control module, configured to, when the second predetermined condition indicates that the air supply mode requested by the target object is an air avoidance mode and the target wind sweeping area is at most one, control a wind sweeping plate of a first air duct of the left wind sweeping area to be located at a fifth adjustment position and control a wind sweeping plate of a second air duct of the right wind sweeping area to be located at a third adjustment position when the target wind sweeping area is a right wind sweeping area; lowering the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear; the twelfth control module is used for controlling the air sweeping plates of the first air channel and the second air channel to be located at the position of the first adjusting position under the condition that the target air sweeping area is the middle air sweeping area; under the condition that the target wind sweeping area is a left wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at the third adjusting position, and controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at the fifth adjusting position; increasing a preset gear of the current windshield of the first air duct, and simultaneously reducing the current gear of the second air duct by the preset gear; and the thirteenth control module is used for controlling the first air duct and the second air duct of the left air sweeping area to be located at the fifth adjusting position under the condition that the target air sweeping area is absent.

Optionally, the apparatus for adjusting an operation mode of an air conditioner further includes: the detection unit is used for detecting the area where the air conditioner is located before the current position information of the target object in the area where the air conditioner is located is obtained or after the air conditioner is adjusted according to the control signal, and a detection result is obtained; the counting unit is used for counting the first time length of the target object not stored in the area where the air conditioner is located when the detection result indicates that the target object is not stored in the area where the air conditioner is located; the adjusting unit is further configured to adjust the operation state of the air conditioner when the first time length exceeds a predetermined time length.

Optionally, the adjusting unit includes: the first detection module is used for detecting the current operating temperature of the air conditioner; the first increasing module is used for increasing the current operating temperature to a second temperature at a first preset speed after increasing the current operating temperature to a first preset temperature under the condition that the current operating temperature is lower than the first temperature; a second increasing module to control the first temperature to increase to the second temperature at the first predetermined rate if the current operating temperature is between the first temperature and the second temperature.

Optionally, the adjusting unit includes: the second detection module is used for detecting the current operation temperature of the air conditioner under the condition that the current operation mode of the air conditioner is a heating mode; the first reducing module is used for reducing the current operating temperature to a fourth temperature at a second preset speed after reducing the current operating temperature by a second preset temperature under the condition that the current operating temperature is higher than a third temperature; a second decreasing module to control the third temperature to decrease to the fourth temperature at the second predetermined rate if the current operating temperature is between the third temperature and the fourth temperature.

According to another aspect of the embodiment of the invention, an air conditioner is further provided, and the air conditioner uses the method for adjusting the operation mode of the air conditioner.

In the embodiment of the invention, the current position information of a target object in the area where the air conditioner is located is obtained according to a first condition configured in advance, wherein the first condition is used for indicating the time requirement for obtaining the current position information of the target object, or the first condition is used for indicating that the position change of the target object in the area meets a threshold value; simultaneously acquiring a configured air supply mode of the air conditioner, wherein the air supply mode is used for indicating the air outlet of the air conditioner to follow a target object or the air outlet of the air conditioner to avoid the target object; and generating a control signal according to the acquired current position information and the configured air supply mode under the condition that the acquired current position of the target object is changed and meets a second preset condition, and controlling the air conditioner according to the control signal to adjust the air supply mode of the air conditioner.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

fig. 1 is a flowchart of an adjusting method of an operation mode of an air conditioner according to an embodiment of the present invention;

fig. 2 is a schematic view of zone division of a zone where an air conditioner is located according to an embodiment of the present invention;

FIG. 3 is a schematic view of an air conditioner sweep angle according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a control apparatus of an air conditioner according to an embodiment of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

For convenience of description, some nouns or terms appearing in the embodiments of the present invention will be described in detail below.

A pyroelectric sensor: the principle is that the released charge is converted into voltage through an amplifier and then output.

Example 1

In accordance with an embodiment of the present invention, there is provided a method embodiment of adjusting an operation mode of an air conditioner, it should be noted that the steps shown in the flowchart of the drawings may be executed in a computer system such as a set of computer executable instructions, and although a logical order is shown in the flowchart, in some cases, the steps shown or described may be executed in an order different from that shown or described herein.

Fig. 1 is a flowchart of an adjusting method of an air conditioner operation mode according to an embodiment of the present invention, and as shown in fig. 1, the adjusting method of the air conditioner operation mode includes the steps of:

step S102, current position information of the target object in the area where the air conditioner is located is obtained according to a first condition configured in advance, wherein the first condition is used for indicating a time requirement for obtaining the current position information of the target object, or the first condition is used for indicating that position change of the target object in the area meets a threshold value.

The current position information is used for representing a wind sweeping area where a target object (namely a user) is located.

For example, the time requirement for indicating to acquire the current position information of the target object, that is, the acquisition period of the acquisition device, specifically, how long the acquisition device acquires information of the area where the air conditioner is located; the indication indicates whether the position change of the target object in the area where the air conditioner is located meets a threshold value, that is, whether the position change of the target object in the area where the air conditioner is located meets the requirement of the air supply mode set by the user, for example, whether the position change of the target object is in a wind sweeping area.

And step S104, acquiring a configured air supply mode of the air conditioner, wherein the air supply mode is used for indicating the air outlet of the air conditioner to follow the target object or the air outlet of the air conditioner to avoid the target object.

For example, the user may send request information to the air conditioner to experience an air supply mode that the user wants to experience, such as a mode that instructs the outlet air of the air conditioner to follow the target object (i.e., a wind following mode), and a mode that instructs the outlet air of the air conditioner to avoid the target object (i.e., a wind avoiding mode).

The wind avoiding mode indicates that the air supply mode of the air conditioner supplies air to other wind sweeping areas except the wind sweeping area where the target object is located; the wind following mode indicates that the air supply mode of the air conditioner is to supply air to the air supply area where the target object is located.

And step S106, generating a control signal according to the acquired current position information and the configured air supply mode under the condition that the acquired current position of the target object is changed and meets a second preset condition, and adjusting the air supply of the air conditioner according to the control signal.

For example, whether the current position or the position change of the target object meets the conditions set by the air conditioner in the air supply mode.

Through the steps, the current position information of the target object in the area where the air conditioner is located can be obtained according to a first condition configured in advance, wherein the first condition is used for indicating the time requirement for obtaining the current position information of the target object, or the first condition is used for indicating that the position change of the target object in the area meets a threshold value; acquiring a configured air supply mode of the air conditioner, wherein the air supply mode is used for indicating the air outlet of the air conditioner to follow a target object or the air outlet of the air conditioner to avoid the target object; and under the condition that the obtained current position of the target object changes and meets a second preset condition, generating a control signal according to the obtained current position information and the configured air supply mode, and adjusting the air supply of the air conditioner according to the control signal. Compared with the defects that the air conditioner cannot provide a comfortable air supply mode for a user according to the requirements of the user and cannot perform energy-saving control according to the state in a room in the related art, the method for adjusting the operation mode of the air conditioner provided by the embodiment of the invention can realize the purpose that the whole operation effect of the area where the air conditioner is located cannot be influenced no matter which air supply mode is selected by a target object by generating a control signal according to the acquired state information of the area where the air conditioner is located and the air supply mode sent by the user so as to control the air conditioner, achieve the technical effect of improving the user experience, and further solve the technical problem that the mode for controlling the air conditioner in the related art is not reasonable enough and the user experience is low.

In step S102, acquiring the current location information of the target object in the area where the air conditioner is located may include: acquiring current position information of the target object by using an acquisition device, wherein the acquisition device comprises at least one of the following devices: pyroelectric sensor, image acquisition equipment, video acquisition equipment.

For example, a photographing device may be arranged in a room where an air conditioner is installed in a home of a user (i.e., a target object), and is used to collect a picture of the user and analyze the picture to obtain current location information of the user; in addition, a video recording device can be arranged in a room where an air conditioner is installed in the home of the user, and is used for collecting image data of the user and analyzing the image data to obtain the current position information of the user. In addition, in the embodiment of the present invention, the photographing device and the recording device may be installed by a user according to a requirement of the user, or may be configured before the air conditioner leaves a factory and used in cooperation with the air conditioner.

For another example, in the embodiment of the present invention, the user activity in the area where the air conditioner is located may be detected in a partitioned manner by two or more sets of pyroelectric sensors, the position of the target object is determined according to the detection result, and intelligent air supply in the partitioned manner is performed by adjusting the air sweeping plate.

In the embodiment of the present invention, the acquisition device is a pyroelectric sensor. The pyroelectric sensor can also detect whether a person exists in the area where the air conditioner is located, and when the person does not exist, energy-saving control over the area where the air conditioner is located is achieved.

The following describes the division of the area where the air conditioner is located, with reference to the accompanying drawings. The pyroelectric sensor is used as a group, the number of the air ducts of the air conditioner is two, the two air ducts are respectively positioned on two sides of the air conditioner, namely, the two air ducts form an air supply device, and the air supply device is provided with two air ports, so that the air ports can be independently controlled, and a 'wind following mode', a 'wind avoiding mode' and an energy saving mode are realized.

Fig. 2 is a schematic diagram of area division of an area where an air conditioner is located according to an embodiment of the present invention, where the schematic diagram shows a horizontal detection range, and as shown in fig. 2, the area where the air conditioner is located may be detected by using a set of pyroelectric sensors (pyroelectric 1 and pyroelectric 2), where the area where the air conditioner is located may be divided into areas (left side wind sweeping area), area 2 (middle wind sweeping area), and area 3 (right side wind sweeping area). As shown in fig. 2, the region 3 is formed by the overlapping region between the region 1 and the region 3.

As an optional embodiment, before obtaining the current location information of the target object in the area where the air conditioner is located, the method for adjusting the operation mode of the air conditioner may further include: dividing the area where the air conditioner is located; the area division of the area where the air conditioner is located comprises the following steps: determining the number of air ducts of the air conditioner and the installation position of each air duct in the air ducts; and carrying out regional division on the region where the air conditioner is located according to the installation position of each air duct in the air ducts to obtain a plurality of wind sweeping regions.

Preferably, the plurality of wind sweeping regions may include: the air conditioner comprises a left side wind sweeping area, a right side wind sweeping area and a middle wind sweeping area, wherein the middle wind sweeping area is an overlapped area of the left side wind sweeping area and the middle wind sweeping area, the left side wind sweeping area is an area which is removed from the wind sweeping area corresponding to the air conditioner left side air duct in the limit state and is overlapped with the middle wind sweeping area, and the right side wind sweeping area is an area which is removed from the wind sweeping area corresponding to the air conditioner right side air duct in the limit state and is overlapped with the middle wind sweeping area. As shown in particular in fig. 2.

As an optional embodiment, in the case that the collecting device is a pyroelectric sensor, after obtaining the current position information of the target object in the area where the air conditioner is located, the method for adjusting the operation mode of the air conditioner may further include: determining a target wind sweeping area corresponding to the current position information through a determination model, wherein the determination model is obtained by using multiple groups of training data through machine learning training, and each group of training data in the multiple groups of training data comprises: the current position information and the wind sweeping area corresponding to the current position information.

Because the pyroelectric sensor needs to detect information when the target object moves, the target object frequent activity area needs to be learned and memorized, and the specific implementation mode is as follows: when the user activity in the area 1 is detected, counting for 1 time; when detecting that the user moves in the area 2, counting for 1 time; when the user is continuously detected in both the area 1 and the area 2, the area 1 and the area 2 are counted 1 time by default, and the air supply can be memorized according to the following table 1. And if the user activity is repeated in each area, continuing to perform memory learning air supply.

In the embodiment of the present invention, the air supply modes are divided into the wind following mode and the wind avoiding mode, and the target wind sweeping area may be one or more than one. Therefore, it is necessary to perform air blowing in different cases.

On the other hand, when the air supply mode is the wind following mode, the following cases can be classified:

for example, if the air supply mode is the wind following mode and only one of the plurality of wind sweeping areas has the target object, the target wind sweeping area is the left wind sweeping area if the current position information indicates that the target object is in the left wind sweeping area; if the current position information indicates that the target object is in the middle wind sweeping area, the target wind sweeping area is the middle wind sweeping area; and if the current position information indicates that the target object is in the right side wind sweeping area, the target wind sweeping area is the right side wind sweeping area, wherein the wind following mode indicates that the air supply mode of the air conditioner is to supply air to the air supply area where the target object is located.

For another example, if the air blowing mode is the wind following mode and the target object exists in at least two of the plurality of wind sweeping regions, the target wind sweeping regions are the left wind sweeping region and the middle wind sweeping region if the current position information indicates that the target object exists in the left wind sweeping region and the middle wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area and the right wind sweeping area, the target wind sweeping areas are the middle wind sweeping area and the right wind sweeping area; and if the current position information indicates that the target object is in the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area, the target wind sweeping areas are the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area.

On the other hand, when the air blowing mode is the wind avoiding mode, the following cases can be classified:

firstly, under the condition that the air supply mode is a wind avoiding mode and only one of a plurality of wind sweeping areas has a target object, if the current position information shows that the target object is in a left wind sweeping area, the target wind sweeping areas are a middle wind sweeping area and a right wind sweeping area; if the current position information indicates that the target object is in the middle wind sweeping area, the target wind sweeping area is a left wind sweeping area and a right wind sweeping area; and if the current position information indicates that the target object is in the right wind sweeping area, the target wind sweeping areas are a left wind sweeping area and a middle wind sweeping area, wherein the wind avoiding mode indicates that the air supply mode of the air conditioner supplies air to other wind sweeping areas except the wind sweeping area where the target object is located.

Secondly, under the condition that the air supply mode is a wind avoiding mode and target objects exist in at least two wind sweeping areas in the plurality of wind sweeping areas, if the current position information shows that the target objects are in a left wind sweeping area and a middle wind sweeping area, the target wind sweeping area is a right wind sweeping area; if the current position information indicates that the target object is in the middle wind sweeping area and the right wind sweeping area, the target wind sweeping area is the left wind sweeping area; if the current position information indicates that the target object is in the left wind sweeping area and the right wind sweeping area, the target wind sweeping area is a middle wind sweeping area; and if the current position information indicates that the target object is in the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area, the target wind sweeping area is absent.

As an optional embodiment, before determining, by the determination model, a swept area corresponding to the current location information, the method for adjusting the operation mode of the air conditioner may further include: collecting a plurality of historical position information and a plurality of historical wind sweeping areas in a historical time period, wherein the plurality of historical wind sweeping areas are determined according to the plurality of historical position information; and training a plurality of groups of collected training data including a plurality of historical position information and a plurality of historical wind sweeping areas to obtain a determined model.

Next, how to control the air conditioner will be described based on different air blowing modes and different conditions of the target air blowing region.

When the second predetermined condition indicates that the air supply mode requested by the target object is the wind following mode and the target wind sweeping area is one, the adjusting the air conditioner according to the control signal comprises at least one of the following steps: under the condition that the target wind sweeping area is the left wind sweeping area, controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be located at any one of the second adjusting position to the fourth adjusting position, and controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be located at the third adjusting position; increasing a preset gear of a current windshield of the first air duct, and simultaneously reducing the current gear of the second air duct by the preset gear; under the condition that the target wind sweeping area is the right wind sweeping area, controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be located at the third adjusting position, and simultaneously controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be located at any position from the second adjusting position to the fourth adjusting position; reducing the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear; and under the condition that the target wind sweeping area is the middle wind sweeping area, controlling the wind sweeping plates of the first air channel and the second air channel to be positioned at the first adjusting position.

Fig. 3 is a schematic diagram of a wind sweeping angle of an air conditioner according to an embodiment of the present invention, as shown in fig. 3, the wind sweeping angle is divided into a left wind sweeping area and a right wind sweeping area, where the left wind sweeping area and the right wind sweeping area are equally divided into six positions, where a reset position is a position of a wind sweeping plate in an off state of the air conditioner, ① indicates a default position of the wind sweeping plate (i.e., 1 st position where wind blows forward), ② indicates a 2 nd position of the wind sweeping plate, ③ indicates a 3 rd position of the wind sweeping plate, ④ indicates a 4 th position of the wind sweeping plate, ⑤ indicates a 5 th position of the wind sweeping plate (where a wind sweeping area corresponding to the wind sweeping plate is the largest).

It should be noted that the 1 st to 5 th lattices respectively represent a plurality of adjustment positions of the air conditioner, the plurality of adjustment positions are positions to which the air sweeping plates of the air conditioner can be adjusted, and when the air sweeping plates are located at different adjustment positions, the air sweeping areas of the air conditioner are also different, for example, a first adjustment position, a second adjustment position, a third adjustment position, a fourth adjustment position, and a fifth adjustment position in the context. When the target object needs different air supply modes, the air baffle of the air conditioner can be adjusted adaptively according to the current position of the target object, for example, the air baffle is adjusted from a first adjusting position to a second adjusting position, namely, the air baffle is adjusted from a first grid to a second grid, so that the air supply requirement of the target object can be met in the air sweeping mode of the air conditioner, and the overall environment of the area where the air conditioner is located cannot be influenced.

Specifically, as shown in table 1, table 1 shows the corresponding relationship among room personnel (i.e., the target object) in the room where the air conditioner is located (i.e., the area where the air conditioner is located), the detection area (i.e., the area where the current position signal indicates the target object is located), the air supply area (i.e., the target air supply area), the left/right wind sweeping (i.e., where the wind sweeping plate is located), and the left/right motor (i.e., the motor that controls the air duct of the left wind sweeping area, and the right motor that controls the air duct of the right wind sweeping area).

TABLE 1

It should be noted that the wind following mode and the wind avoiding mode do not affect the overall comfort of the room where the air conditioner is located.

As shown in Table 1, the room personnel can be divided into individual zone persons and multi-zone persons, wherein in the case of individual zone persons, i.e. the target sweep zone is a single one, when it is detected that the left sweep zone (i.e. "1" in Table 1) has user activity, the supply zone is a left sweep zone, the left sweep is in the range of ② - ④ in FIG. 3, the left motor is increased by 1 gear on the basis of the current gear, the right sweep is in the range of ③ in FIG. 3, the right motor is at a lower gear, i.e. reduced by a predetermined number of gears on the basis of the current gear, when it is detected that the middle sweep zone (i.e. "2" in Table 1) has user activity, the supply zone is a middle sweep zone, the left sweep is in the range of ① in FIG. 3, the left motor is maintained at the current gear, the right sweep is in the range of ① in FIG. 3, the right motor is also maintained at the current gear, when it is detected that the right sweep zone (i.e. "3" user activity ", the supply zone is in the range of the left sweep, the left motor is increased by a predetermined number of ②, the left sweep is increased on the range of ③, i.e. the range of ④, the current gear on the range of ③, and the range of the current gear is increased by a predetermined number of the range.

In addition, when it is detected that there is user activity in the left and middle wind sweeping regions (i.e., "1 & 2" in table 1), the wind feeding regions are left and middle wind sweeping regions, the left wind sweeping regions are located at ① - ④ in fig. 3, the left motor is maintained at the current windshield, the right wind sweeping regions are ④ in fig. 3, the right motor is maintained at the current windshield, when it is detected that there is user activity in the left and right wind sweeping regions (i.e., "1 & 3" in table 1), the wind feeding regions are left and right wind sweeping regions, the left wind sweeping regions are ② - ④ in fig. 3, the left motor is maintained at the current windshield, the right wind sweeping regions are ② - ④ in fig. 3, the right motor is maintained at the current windshield, when it is detected that there is user activity in the middle wind sweeping regions and right wind sweeping regions (i.e., "2 & 3" in table 1 "), the wind feeding regions are middle wind sweeping regions and right wind sweeping regions, the left wind sweeping regions are maintained at the current windshield regions, the left wind sweeping regions are 363, the left wind sweeping regions are maintained at the middle wind sweeping regions, the right wind sweeping regions are 363, the left wind sweeping regions are maintained at the current windshield, the right wind sweeping regions are 362-right wind sweeping regions, the current windshield, the left wind sweeping regions are maintained at the current windshield 9-6853, the left wind sweeping regions, the right windshield, the left wind sweeping regions are maintained at the right windshield 3, the right windshield 9-windshield, the right windshield regions are maintained at the right windshield regions, the right windshield 9-upright windshield.

In another alternative embodiment, when the second predetermined condition indicates that the blowing mode requested by the target object is a wind following mode and the target wind sweeping areas are at least two, the adjusting the air conditioner according to the control signal includes at least one of: under the condition that the target wind sweeping area is a left wind sweeping area and a middle wind sweeping area, controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be located at any position from the first adjusting position to the fourth adjusting position, and controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be located at the first adjusting position; under the condition that the target wind sweeping areas are a left wind sweeping area and a right wind sweeping area, controlling the wind sweeping plates of the first air channel and the second air channel to be located at any one of a second adjusting position and a fourth adjusting position; under the condition that the target wind sweeping area is the middle wind sweeping area and the right wind sweeping area, controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be located at the first adjusting position, and controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be located at any one of the first adjusting position to the fourth adjusting position; and under the condition that the target wind sweeping areas are a left wind sweeping area, a middle wind sweeping area and a right wind sweeping area, controlling the wind sweeping plates of the first air channel and the second air channel to be located at any one of the first adjusting position to the fourth adjusting position.

In a case where the blowing mode is the wind avoidance mode, an alternative embodiment, where the second predetermined condition indicates that the blowing mode requested by the target object is the wind avoidance mode and the target wind sweeping area is two, adjusting the air conditioner according to the control signal includes at least one of: under the condition that the target wind sweeping area is the middle wind sweeping area and the right wind sweeping area, controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be located at the first adjusting position, and controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be located at the third adjusting position; reducing the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear; controlling the air sweeping plates of the first air channel and the second air channel to be located at the fifth adjusting position under the condition that the target air sweeping area is a left air sweeping area and a right air sweeping area; and under the condition that the target wind sweeping areas are the left wind sweeping area and the middle wind sweeping area, controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be positioned at the third adjusting position, and simultaneously controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be positioned at the first adjusting position.

In another alternative embodiment, when the second predetermined condition indicates that the blowing mode requested by the target object is a wind avoidance mode and the target wind sweeping area is at most one, the adjusting the air conditioner according to the control signal includes at least one of: under the condition that the target wind sweeping area is the right wind sweeping area, controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be located at the fifth adjusting position, and controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be located at the third adjusting position; reducing the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear; under the condition that the target wind sweeping area is the middle wind sweeping area, controlling the wind sweeping plates of the first air channel and the second air channel to be located at the first adjusting position; under the condition that the target wind sweeping area is the left wind sweeping area, controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be located at the third adjusting position, and controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be located at the fifth adjusting position; increasing a preset gear of a current windshield of the first air duct, and simultaneously reducing the current gear of the second air duct by the preset gear; and controlling the first air duct and the second air duct of the left air sweeping area to be located at the fifth adjusting position under the condition that the target air sweeping area is absent.

Specifically, as shown in table 1, table 1 shows a corresponding relationship among room personnel (i.e., a target object) in a room where an air conditioner is located (i.e., an area where the air conditioner is located), a detection area (i.e., an area where current position information indicates that the target object is located), an air supply area (i.e., the target air supply area), left/right air sweeping (i.e., where a air sweeping plate is located), and a left/right motor (i.e., a motor that controls an air duct of the left air sweeping area is used as the left motor, and a motor that controls an air duct of the right air sweeping area is used as the right motor).

TABLE 2

As shown in Table 2, the room personnel can be divided into individual zone presence and multi-zone presence, wherein in the case of individual zone presence, when a left side sweep zone (i.e., "1" in Table 1) is detected with user activity, the supply zones are a middle sweep zone and a right side sweep zone, the left sweep is at ① in FIG. 3, the right motor of the left motor is at a low gear, i.e., a predetermined number of gears are reduced based on the current gear, the right sweep is at ③ in FIG. 3, the right motor is at 1 gear increased based on the current gear, when a middle sweep zone (i.e., "2" in Table 1) is detected with user activity, the supply zones are at a left side sweep zone and a right side sweep zone, the left sweep is at ⑤ in FIG. 3, the left motor is maintained at the current gear, the right sweep is at ⑤ in FIG. 3, the right motor is also maintained at the current gear, when a right side sweep zone (i.e., "3" in Table 1) is detected with user activity, the supply zones are at a left side sweep zone, and the left side sweep is at a predetermined number of gears is increased based on the current gear, i.e., at ③, the current gear is increased, and the left side sweep is at ②, and the current gear is increased from the current gear, and the current gear is increased from 463.

In addition, when it is detected that there is user activity in the left and middle windward regions ("1 & 2" in Table 1), the supply region is the right side windward region, the left windward is at ⑤ in FIG. 3, the left motor is at a low gear, i.e., a predetermined number of gears are reduced based on the current gear, the right windward is at ③ in FIG. 3, the right motor is at 1 gear increased based on the current gear, when it is detected that there is user activity in the left and right windward regions ("1 & 3" in Table 1), the supply region is the middle windward region, the left windward is at ① in FIG. 3, the left motor is maintained at the current gear, the right windward is at ① in FIG. 3, the right motor is maintained at the current gear, when it is detected that there is user activity in the middle and right windward regions ("2 & 3" in Table 1), the supply region is the left side windward region, the left windward is at ③ in FIG. 3, the left side windward region is at 381, the base is at the right motor is at 3893, the current gear, the left side windward region is maintained at a predetermined number of gears, the left and right motor is at 3873, when there is detected that there is not detected there is no user activity in the left windward region ("3"), the left and right motor is at 393 ").

As an optional embodiment, before obtaining the current location information of the target object in the area where the air conditioner is located, or after controlling the air conditioner according to the control signal, the method for adjusting the operation mode of the air conditioner may further include: detecting the area where the air conditioner is located to obtain a detection result; when the detection result is that the target object does not exist in the area where the air conditioner is located, counting a first time length that the target object does not exist in the area where the air conditioner is located; and adjusting the running state of the air conditioner under the condition that the first time length exceeds a preset time length.

For example, in the case that the current operation mode of the air conditioner is the cooling mode, the adjusting of the operation state of the air conditioner may include: detecting the current operating temperature of the air conditioner; under the condition that the current operating temperature is lower than the first temperature, increasing the current operating temperature to a first preset temperature, and then increasing the current operating temperature to a second temperature at a first preset speed; in the case where the current operating temperature is between the first temperature and the second temperature, the first temperature is controlled to increase to the second temperature at a first predetermined rate. That is, whether a target object exists in the area where the air conditioner is located may be determined by detecting the area where the air conditioner is located, and the operation mode of the air conditioner may be adjusted so that the air conditioner may operate in an energy saving mode in a case where the target object does not exist in the area where the air conditioner is located.

For another example, when the current operation mode of the air conditioner is the heating mode, the adjusting the operation state of the air conditioner may include: detecting the current operating temperature of the air conditioner; when the current operating temperature is higher than the third temperature, the current operating temperature is reduced to a second preset temperature and then reduced to a fourth temperature at a second preset speed; and controlling the third temperature to be reduced to the fourth temperature at a second preset speed under the condition that the current operation temperature is between the third temperature and the fourth temperature.

For example, when no person is detected in the room for 30min continuously, the following modes are operated in the cooling mode:

1) when the current operating temperature of the air conditioner is 24 ℃ or below, the current operating temperature is increased by 2 ℃ and then gradually increased to 27 ℃;

2) the current operating temperature of the air conditioner is 24 to 27 c, and the set temperature is gradually increased to 27 c.

3) The current operating temperature of the air conditioner is 27 ℃ or above, and no treatment is carried out.

The heating mode is operated according to the following modes:

1) when the current operation temperature of the air conditioner is 26 ℃ or above, the current operation temperature is reduced by 4 ℃ for 30min, and then is gradually reduced to 22 ℃.

2) The current operating temperature of the air conditioner is between 22 ℃ and 26 ℃, and then gradually decreases to 22 ℃.

3) The current operating temperature of the air conditioner is below 22 ℃, and the air conditioner is not processed.

According to another aspect of the embodiment of the invention, an air conditioner is further provided, and the air conditioner uses the method for adjusting the operation mode of the air conditioner.

The air conditioner uses the method for adjusting the operation mode of the air conditioner in any one of the above items to achieve the purpose of optimizing the air supply mode of the air conditioner, so that a consumer feels comfortable as a whole, and meanwhile, the energy-saving control can be performed on the air conditioner under the condition that no user exists in the area where the air conditioner is located is detected. Specifically, the current position information of the target object in the area where the air conditioner is located is obtained, the air supply mode configured by the target object is received, the control signal is generated according to the current position signal and the air supply mode, the air conditioner is controlled according to the control signal, the control signal is generated according to the obtained state information of the area where the air conditioner is located and the air supply mode sent by the user, the purpose of controlling the air conditioner is achieved, the technical effect of improving user experience is achieved, and the technical problem that in the related art, the mode for controlling the air conditioner is not reasonable enough, and the user experience is low is solved.

Example 2

The embodiment of the present invention further provides an adjusting device for an air conditioner operation mode, and it should be noted that the control device for an air conditioner according to the embodiment of the present invention may be used to execute the adjusting method for an air conditioner operation mode provided by the embodiment of the present invention. The following describes an adjustment device for an operation mode of an air conditioner according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of an adjusting apparatus of an operation mode of an air conditioner according to an embodiment of the present invention, and as shown in fig. 4, the controlling apparatus of the air conditioner includes: a first acquisition unit 41, a second acquisition unit 43, an adjustment unit 45. The following describes the control device of the air conditioner in detail.

A first obtaining unit 41, configured to obtain current location information of the target object in an area where the air conditioner is located according to a first condition configured in advance, where the first condition is used to indicate a time requirement for obtaining the current location information of the target object, or the first condition is used to indicate that a change in location of the target object in the area meets a threshold.

A second obtaining unit 43, configured to obtain a configured air supply mode of the air conditioner, where the air supply mode is used to instruct the outlet air of the air conditioner to follow the target object or the outlet air of the air conditioner to avoid the target object.

And an adjusting unit 45, configured to generate a control signal according to the acquired current position information and the configured air supply mode when the acquired current position of the target object changes and meets a second predetermined condition, and adjust air supply of the air conditioner according to the control signal.

In this embodiment, the first obtaining unit may be used to obtain the current location information of the target object in the area where the air conditioner is located according to a first condition configured in advance, where the first condition is used to indicate a time requirement for obtaining the current location information of the target object, or the first condition is used to indicate that a change in location of the target object in the area meets a threshold value; then, a second acquisition unit is used for acquiring a configured air supply mode of the air conditioner, wherein the air supply mode is used for indicating the air outlet of the air conditioner to follow a target object or the air outlet of the air conditioner to avoid the target object; and generating a control signal according to the acquired current position information and the configured air supply mode under the condition that the acquired current position of the target object is changed and meets a second preset condition by using an adjusting unit, and adjusting the air supply of the air conditioner according to the control signal. Compared with the defects that the air conditioner cannot provide a comfortable air supply mode for a user according to the requirements of the user and cannot perform energy-saving control according to the state in a room in the related art, the method for adjusting the operation mode of the air conditioner provided by the embodiment of the invention can realize the purpose that the whole operation effect of the area where the air conditioner is located cannot be influenced no matter which air supply mode is selected by a target object by generating a control signal according to the acquired state information of the area where the air conditioner is located and the air supply mode sent by the user so as to control the air conditioner, achieve the technical effect of improving the user experience, and further solve the technical problem that the mode for controlling the air conditioner in the related art is not reasonable enough and the user experience is low.

As an alternative embodiment, the first obtaining unit may include: an acquisition module, configured to acquire current position information of the target object by using an acquisition device, where the acquisition device includes at least one of: pyroelectric sensor, image acquisition equipment, video acquisition equipment.

As an alternative embodiment, the device for adjusting the operation mode of the air conditioner further comprises: the dividing unit is used for performing area division on the area where the air conditioner is located before acquiring the current position information of the target object in the area where the air conditioner is located; wherein, the dividing unit includes: the first determining module is used for determining the number of air ducts of the air conditioner and the installation position of each air duct in the air ducts; the first acquisition module is used for carrying out regional division on the region where the air conditioner is located according to the installation position of each air duct in the air ducts to obtain a plurality of wind sweeping regions.

As an alternative embodiment, the plurality of windswept areas comprises: the air conditioner comprises a left side wind sweeping area, a right side wind sweeping area and a middle wind sweeping area, wherein the middle wind sweeping area is an overlapped area of the left side wind sweeping area and the middle wind sweeping area, the left side wind sweeping area is an area which is removed from the wind sweeping area corresponding to the air conditioner left side air duct in the limit state and is overlapped with the middle wind sweeping area, and the right side wind sweeping area is an area which is removed from the wind sweeping area corresponding to the air conditioner right side air duct in the limit state and is overlapped with the middle wind sweeping area.

As an alternative embodiment, the device for adjusting the operation mode of the air conditioner further comprises: the first determining unit is used for determining a target wind sweeping area corresponding to current position information through a determining model after the current position information of a target object in an area where an air conditioner is located is acquired under the condition that the acquisition equipment is a pyroelectric sensor, wherein the determining model is obtained through machine learning training by using multiple groups of training data, and each group of training data in the multiple groups of training data comprises: the current position signal and the wind sweeping area corresponding to the current position information.

As an optional embodiment, when the air supply mode is for indicating that the outlet air of the air conditioner follows the target object and only one of the plurality of wind sweeping areas has the target object, if the current position information indicates that the target object is in the left wind sweeping area, the target wind sweeping area is the left wind sweeping area; if the current position information indicates that the target object is in the middle wind sweeping area, the target wind sweeping area is the middle wind sweeping area; and if the current position information indicates that the target object is in the right wind sweeping area, the target wind sweeping area is the right wind sweeping area.

As an optional embodiment, when the air supply mode is for indicating that the outlet air of the air conditioner follows the target object and at least two of the plurality of wind sweeping regions have the target object, if the current position information indicates that the target object is in the left wind sweeping region and the middle wind sweeping region, the target wind sweeping regions are the left wind sweeping region and the middle wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area and the right wind sweeping area, the target wind sweeping areas are the middle wind sweeping area and the right wind sweeping area; and if the current position information indicates that the target object is in the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area, the target wind sweeping areas are the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area.

As an optional embodiment, when the air supply mode is that the outlet air for the air conditioner avoids the target object and only one of the plurality of wind sweeping regions has the target object, if the current position information indicates that the target object is in the left wind sweeping region, the target wind sweeping regions are the middle wind sweeping region and the right wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area, the target wind sweeping area is a left wind sweeping area and a right wind sweeping area; and if the current position information indicates that the target object is in the right wind sweeping area, the target wind sweeping areas are the left wind sweeping area and the middle wind sweeping area.

As an optional embodiment, when the air supply mode is that the outlet air for the air conditioner avoids the target object, and at least two of the plurality of wind sweeping regions have the target object, if the current position information indicates that the target object is in the left wind sweeping region and the middle wind sweeping region, the target wind sweeping region is the right wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area and the right wind sweeping area, the target wind sweeping area is the left wind sweeping area; if the current position information indicates that the target object is in the left wind sweeping area and the right wind sweeping area, the target wind sweeping area is a middle wind sweeping area; and if the current position information indicates that the target object is in the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area, the target wind sweeping area is absent.

As an alternative embodiment, the device for adjusting the operation mode of the air conditioner further comprises: the acquisition unit is used for acquiring a plurality of historical position information and a plurality of historical wind sweeping areas in a historical time period before determining the wind sweeping area corresponding to the current position signal through the determination model, wherein the plurality of historical wind sweeping areas are determined according to the plurality of historical position information; and the third acquisition unit is used for training a plurality of groups of acquired training data including a plurality of historical position information and a plurality of historical wind sweeping areas to obtain a determined model.

As an alternative embodiment, the adjusting unit comprises at least one of: the first control module is used for controlling the first air duct sweeping plate of the left air sweeping area to be located at any position from the second adjusting position to the fourth adjusting position and controlling the second air duct sweeping plate of the right air sweeping area to be located at the third adjusting position under the condition that the second preset condition indicates that the air supply mode requested by the target object is the air following mode and the target air sweeping area is one and the target air sweeping area is the left air sweeping area; increasing a preset gear of a current windshield of the first air duct, and simultaneously reducing the current gear of the second air duct by the preset gear; the second control module is used for controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be located at the third adjusting position and controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be located at any one of the second adjusting position to the fourth adjusting position under the condition that the target wind sweeping area is the right wind sweeping area; reducing the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear; and the third control module is used for controlling the air sweeping plates of the first air channel and the second air channel to be positioned at the first adjusting position under the condition that the target air sweeping area is the middle air sweeping area.

As an alternative embodiment, the adjusting unit comprises at least one of: the fourth control module is used for controlling the first air duct sweeping plate of the left air sweeping area to be located at any position from the first adjusting position to the fourth adjusting position and controlling the second air duct sweeping plate of the right air sweeping area to be located at the first adjusting position under the condition that the second preset condition indicates that the air supply mode requested by the target object is the air following mode and the target air sweeping areas are at least two and the target air sweeping areas are the left air sweeping area and the middle air sweeping area; the fifth control module is used for controlling the air sweeping plates of the first air channel and the second air channel to be located at any one of the second adjusting position to the fourth adjusting position under the condition that the target air sweeping area is the left air sweeping area and the right air sweeping area; the sixth control module is used for controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be located at the first adjusting position and controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be located at any one of the first adjusting position to the fourth adjusting position under the condition that the target wind sweeping area is the middle wind sweeping area and the right wind sweeping area; and the seventh control module is used for controlling the air sweeping plates of the first air channel and the second air channel to be positioned at any one of the first adjusting position to the fourth adjusting position under the condition that the target air sweeping area is a left air sweeping area, a middle air sweeping area and a right air sweeping area.

As an alternative embodiment, the adjusting unit comprises at least one of: the eighth control module is used for controlling the first air duct sweeping plate of the left air sweeping area to be located at the position of the first adjusting position and controlling the second air duct sweeping plate of the right air sweeping area to be located at the position of the third adjusting position under the condition that the second preset condition indicates that the air supply mode requested by the target object is the air avoiding mode and the target air sweeping areas are two and under the condition that the target air sweeping areas are the middle air sweeping area and the right air sweeping area; reducing the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear; the ninth control module is used for controlling the air sweeping plates of the first air channel and the second air channel to be positioned at the fifth adjusting position under the condition that the target air sweeping area is a left air sweeping area and a right air sweeping area; and the tenth control module is used for controlling the wind sweeping plate of the first air duct of the left wind sweeping area to be positioned at the third adjusting position and controlling the wind sweeping plate of the second air duct of the right wind sweeping area to be positioned at the first adjusting position under the condition that the target wind sweeping area is the left wind sweeping area and the middle wind sweeping area.

As an alternative embodiment, the adjusting unit comprises at least one of: the eleventh control module is used for controlling the first air duct sweeping plate of the left air sweeping area to be located at the position of the fifth adjusting position and controlling the second air duct sweeping plate of the right air sweeping area to be located at the position of the third adjusting position under the condition that the second preset condition indicates that the air supply mode requested by the target object is the air avoiding mode and the target air sweeping area is at most one and under the condition that the target air sweeping area is the right air sweeping area; reducing the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear; the twelfth control module is used for controlling the air sweeping plates of the first air channel and the second air channel to be located at the first adjusting position under the condition that the target air sweeping area is the middle air sweeping area; under the condition that the target wind sweeping area is the left wind sweeping area, controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be located at the third adjusting position, and controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be located at the fifth adjusting position; increasing a preset gear of a current windshield of the first air duct, and simultaneously reducing the current gear of the second air duct by the preset gear; and the thirteenth control module is used for controlling the first air duct and the second air duct of the left air sweeping area to be located at the fifth adjusting position under the condition that the target air sweeping area is absent.

As an alternative embodiment, the device for adjusting the operation mode of the air conditioner further comprises: the detection unit is used for detecting the area where the air conditioner is located before the current position information of the target object in the area where the air conditioner is located is obtained or after the air conditioner is adjusted according to the control signal, and a detection result is obtained; the statistical unit is used for counting the first duration of the target object not stored in the area where the air conditioner is located when the detection result indicates that the target object is not stored in the area where the air conditioner is located; and the adjusting unit is also used for adjusting the running state of the air conditioner under the condition that the first time length exceeds the preset time length.

As an alternative embodiment, the adjusting unit comprises: the first detection module is used for detecting the current operating temperature of the air conditioner; the first increasing module is used for increasing the current operating temperature to a second temperature at a first preset speed after increasing the current operating temperature to a first preset temperature under the condition that the current operating temperature is lower than the first temperature; and the second increasing module is used for controlling the first temperature to increase to the second temperature at a first preset speed under the condition that the current operating temperature is between the first temperature and the second temperature.

As an alternative embodiment, the adjusting unit comprises: the second detection module is used for detecting the current operation temperature of the air conditioner under the condition that the current operation mode of the air conditioner is a heating mode; the first reducing module is used for reducing the current operating temperature to a fourth temperature at a second preset speed after reducing the current operating temperature by a second preset temperature under the condition that the current operating temperature is higher than the third temperature; and the second reducing module is used for controlling the third temperature to be reduced to the fourth temperature at a second preset speed under the condition that the current operating temperature is between the third temperature and the fourth temperature.

The adjusting device of the air conditioner operation mode comprises a processor and a memory, wherein the first acquiring unit 41, the second acquiring unit 43, the adjusting unit 45 and the like are stored in the memory as program units, and the processor executes the program units stored in the memory to realize corresponding functions.

The processor comprises a kernel, and the kernel calls a corresponding program unit from the memory. The kernel can be set to be one or more, a control signal is generated according to the obtained current position information and the configured air supply mode under the condition that the obtained current position of the target object is changed to meet a second preset condition by adjusting kernel parameters, and air supply of the air conditioner is adjusted according to the control signal.

The memory may include volatile memory in a computer readable medium, Random Access Memory (RAM) and/or nonvolatile memory such as Read Only Memory (ROM) or flash memory (flash RAM), and the memory includes at least one memory chip.

The embodiment of the present invention further provides an apparatus, which includes a processor, a memory, and a program stored in the memory and executable on the processor, and when the processor executes the program, the following steps are implemented: acquiring current position information of a target object in an area where an air conditioner is located according to a first condition configured in advance, wherein the first condition is used for indicating a time requirement for acquiring the current position information of the target object, or the first condition is used for indicating that position change of the target object in the area meets a threshold value; acquiring a configured air supply mode of the air conditioner, wherein the air supply mode is used for indicating the air outlet of the air conditioner to follow a target object or the air outlet of the air conditioner to avoid the target object; and under the condition that the obtained current position of the target object changes and meets a second preset condition, generating a control signal according to the obtained current position information and the configured air supply mode, and adjusting the air supply of the air conditioner according to the control signal.

There is also provided in an embodiment of the invention a computer program product adapted to perform a program for initializing the following method steps when executed on a data processing device: acquiring current position information of a target object in an area where an air conditioner is located according to a first condition configured in advance, wherein the first condition is used for indicating a time requirement for acquiring the current position information of the target object, or the first condition is used for indicating that position change of the target object in the area meets a threshold value; acquiring a configured air supply mode of the air conditioner, wherein the air supply mode is used for indicating the air outlet of the air conditioner to follow a target object or the air outlet of the air conditioner to avoid the target object; and under the condition that the obtained current position of the target object changes and meets a second preset condition, generating a control signal according to the obtained current position information and the configured air supply mode, and adjusting the air supply of the air conditioner according to the control signal.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

In the above embodiments of the present invention, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units may be a logical division, and in actual implementation, there may be another division, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (19)

1. A method for adjusting an operation mode of an air conditioner is characterized by comprising the following steps:

acquiring current position information of a target object in an area where an air conditioner is located according to a first condition configured in advance, wherein the first condition is used for indicating a time requirement for acquiring the current position information of the target object, or the first condition is used for indicating that position change of the target object in the area meets a threshold value;

acquiring a configured air supply mode of the air conditioner, wherein the air supply mode is used for indicating the air outlet of the air conditioner to follow the target object or the air outlet of the air conditioner to avoid the target object;

and under the condition that the obtained current position of the target object changes and meets a second preset condition, generating a control signal according to the obtained current position information and the configured air supply mode, and adjusting the air supply of the air conditioner according to the control signal.

2. The method of claim 1, wherein obtaining current location information of the target object within the area of the air conditioner comprises: acquiring current position information of the target object by using an acquisition device, wherein the acquisition device comprises at least one of the following devices: pyroelectric sensor, image acquisition equipment, video acquisition equipment.

3. The method of claim 2, further comprising, before obtaining the current location information of the target object in the area where the air conditioner is located: dividing the area where the air conditioner is located into areas;

wherein the area division of the area where the air conditioner is located includes:

determining the number of air ducts of the air conditioner and the installation position of each air duct in the air ducts;

and carrying out regional division on the region where the air conditioner is located according to the installation position of each air duct in the air ducts to obtain a plurality of wind sweeping regions.

4. The method of claim 3, wherein the plurality of wind-sweeping regions comprises: the air conditioner comprises a left side air sweeping area, a right side air sweeping area and a middle air sweeping area, wherein the middle air sweeping area is an overlapped area of the left side air sweeping area and the middle air sweeping area, the left side air sweeping area is an area which is removed from the air sweeping area corresponding to the left air duct of the air conditioner in a limit state and is overlapped with the middle air sweeping area, and the right side air sweeping area is an area which is removed from the air sweeping area corresponding to the right air duct of the air conditioner in the limit state and is overlapped with the middle air sweeping area.

5. The method according to claim 4, wherein in the case that the acquisition device is the pyroelectric sensor, after acquiring the current position information of the target object in the area where the air conditioner is located, the method further comprises:

determining a target wind sweeping area corresponding to the current position information through a determination model, wherein the determination model is obtained by using multiple groups of training data through machine learning training, and each group of training data in the multiple groups of training data comprises: the current position signal and the wind sweeping area corresponding to the current position information.

6. The method according to claim 5, wherein in a case where the blowing mode is for indicating that the outlet air of the air conditioner follows the target object and there is a target object in only one of the plurality of wind sweeping regions, if the current position information indicates that the target object is in the left wind sweeping region, the target wind sweeping region is the left wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area, the target wind sweeping area is the middle wind sweeping area; and if the current position information indicates that the target object is in the right side wind sweeping area, the target wind sweeping area is the right side wind sweeping area.

7. The method according to claim 6, wherein in a case where the blowing mode is for indicating that the outlet air of the air conditioner follows the target object and there are target objects in at least two of the plurality of wind sweeping regions, if the current position information indicates that the target objects are in the left wind sweeping region and the middle wind sweeping region, the target wind sweeping regions are the left wind sweeping region and the middle wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area and the right wind sweeping area, the target wind sweeping area is the middle wind sweeping area and the right wind sweeping area; if the current position information indicates that the target object is in the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area, the target wind sweeping areas are the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area.

8. The method according to claim 5, wherein in a case where the blowing mode is such that the target object is avoided by the outlet air for the air conditioner and a target object exists in only one of the plurality of wind sweeping regions, if the current position information indicates that the target object is in the left wind sweeping region, the target wind sweeping regions are the middle wind sweeping region and the right wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area, the target wind sweeping area is the left wind sweeping area and the right wind sweeping area; and if the current position information indicates that the target object is in the right wind sweeping area, the target wind sweeping area is the left wind sweeping area and the middle wind sweeping area.

9. The method according to claim 8, wherein in a case where the blowing mode is such that the target object is avoided by the outlet air for the air conditioner and there are target objects in at least two of the plurality of wind sweeping regions, if the current position information indicates that the target object is in the left wind sweeping region and the middle wind sweeping region, the target wind sweeping region is the right wind sweeping region; if the current position information indicates that the target object is in the middle wind sweeping area and the right wind sweeping area, the target wind sweeping area is the left wind sweeping area; if the current position information indicates that the target object is in the left side wind sweeping area and the right side wind sweeping area, the target wind sweeping area is the middle wind sweeping area; and if the current position information indicates that the target object is in the left wind sweeping area, the middle wind sweeping area and the right wind sweeping area, the target wind sweeping area is absent.

10. The method of claim 5, before determining the wind sweeping region corresponding to the current position signal by determining a model, further comprising:

collecting a plurality of historical position information and a plurality of historical wind sweeping areas in a historical time period, wherein the plurality of historical wind sweeping areas are determined according to the plurality of historical position information;

and training a plurality of groups of collected training data including the plurality of historical position information and the plurality of historical wind sweeping areas to obtain the determined model.

11. The method according to claim 5, wherein in a case where the second predetermined condition indicates that the blowing mode requested by the target object is a wind-following mode and the target wind sweeping area is one, adjusting the air conditioner according to the control signal includes at least one of:

under the condition that the target wind sweeping area is a left wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at any one of a second adjusting position to a fourth adjusting position, and controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at a third adjusting position; increasing a preset gear of the current windshield of the first air duct, and simultaneously reducing the current gear of the second air duct by the preset gear;

under the condition that the target wind sweeping area is a right wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at the third adjusting position, and simultaneously controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at any position from the second adjusting position to the fourth adjusting position; lowering the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear;

and controlling the air sweeping plates of the first air channel and the second air channel to be positioned at the first adjusting position under the condition that the target air sweeping area is the middle air sweeping area.

12. The method according to claim 5, wherein in the case where the second predetermined condition indicates that the target object requests the blowing mode to be a wind-following mode and the target wind sweeping area is at least two, adjusting the air conditioner according to the control signal includes at least one of:

under the condition that the target wind sweeping area is a left wind sweeping area and a middle wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at any position from a first adjusting position to a fourth adjusting position, and controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at the first adjusting position;

under the condition that the target wind sweeping areas are a left wind sweeping area and a right wind sweeping area, controlling the wind sweeping plates of the first air channel and the second air channel to be located at any position from a second adjusting position to a fourth adjusting position;

under the condition that the target wind sweeping area is a middle wind sweeping area and a right wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at the first adjusting position, and controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at any one of the first adjusting position to the fourth adjusting position;

and under the condition that the target wind sweeping areas are a left wind sweeping area, a middle wind sweeping area and a right wind sweeping area, controlling the wind sweeping plates of the first air channel and the second air channel to be located at any one of the first adjusting position to the fourth adjusting position.

13. The method according to claim 5, wherein in the case that the second predetermined condition indicates that the blowing mode requested by the target object is a wind avoidance mode and the target wind sweeping area is two, adjusting the air conditioner according to the control signal comprises at least one of:

under the condition that the target wind sweeping area is a middle wind sweeping area and a right wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at a first adjusting position, and controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at a third adjusting position; lowering the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear;

controlling the air sweeping plates of the first air channel and the second air channel to be located at the position of a fifth adjusting position under the condition that the target air sweeping area is a left air sweeping area and a right air sweeping area;

and under the condition that the target wind sweeping area is the left wind sweeping area and the middle wind sweeping area, controlling the wind sweeping plate of the first wind channel of the left wind sweeping area to be positioned at the third adjusting position, and simultaneously controlling the wind sweeping plate of the second wind channel of the right wind sweeping area to be positioned at the first adjusting position.

14. The method of claim 5, wherein in the case that the second predetermined condition indicates that the target object requests the blowing mode to be a wind avoidance mode and the target wind sweeping area is at most one, adjusting the air conditioner according to the control signal comprises at least one of:

under the condition that the target wind sweeping area is a right wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at a fifth adjusting position, and controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at a third adjusting position; lowering the current windshield of the first air duct by a preset gear, and increasing the current windshield of the second air duct by a preset gear;

controlling the air sweeping plates of the first air channel and the second air channel to be located at the position of a first adjusting position under the condition that the target air sweeping area is a middle air sweeping area;

under the condition that the target wind sweeping area is a left wind sweeping area, controlling a wind sweeping plate of a first wind channel of the left wind sweeping area to be located at the third adjusting position, and controlling a wind sweeping plate of a second wind channel of the right wind sweeping area to be located at the fifth adjusting position; increasing a preset gear of the current windshield of the first air duct, and simultaneously reducing the current gear of the second air duct by the preset gear;

and controlling the first air duct and the second air duct of the left air sweeping area to be located at the fifth adjusting position under the condition that the target air sweeping area is absent.

15. The method of claim 1, further comprising, before obtaining current location information of a target object in an area where an air conditioner is located, or after adjusting the air conditioner according to the control signal:

detecting the area where the air conditioner is located to obtain a detection result;

when the detection result indicates that the target object does not exist in the area where the air conditioner is located, counting a first time length for which the target object does not exist in the area where the air conditioner is located;

and adjusting the running state of the air conditioner when the first time length exceeds a preset time length.

16. The method of claim 11, wherein in the case that the current operation mode of the air conditioner is a cooling mode, the adjusting of the operation state of the air conditioner comprises:

detecting the current operating temperature of the air conditioner;

under the condition that the current operation temperature is lower than a first temperature, increasing the current operation temperature to a second temperature at a first preset speed after increasing the current operation temperature to a first preset temperature;

controlling the first temperature to increase to the second temperature at the first predetermined rate if the current operating temperature is between the first temperature and the second temperature.

17. The method of claim 11, wherein in the case that the current operation mode of the air conditioner is a heating mode, the adjusting of the operation state of the air conditioner comprises:

detecting the current operating temperature of the air conditioner;

when the current operating temperature is higher than a third temperature, reducing the current operating temperature to a second preset temperature and then reducing the current operating temperature to a fourth temperature at a second preset speed;

controlling the third temperature to decrease to the fourth temperature at the second predetermined rate if the current operating temperature is between the third temperature and the fourth temperature.

18. An apparatus for adjusting an operation mode of an air conditioner, comprising:

the air conditioner comprises a first acquisition unit, a second acquisition unit and a control unit, wherein the first acquisition unit is used for acquiring current position information of a target object in an area where an air conditioner is located according to a first condition which is configured in advance, the first condition is used for indicating a time requirement for acquiring the current position information of the target object, or the first condition is used for indicating that position change of the target object in the area meets a threshold value;

a second obtaining unit, configured to obtain a configured air supply mode of the air conditioner, where the air supply mode is used to instruct the outlet air of the air conditioner to follow the target object or the outlet air of the air conditioner to avoid the target object;

and the adjusting unit is used for generating a control signal according to the acquired current position information and the configured air supply mode under the condition that the acquired current position of the target object changes and meets a second preset condition, and adjusting the air supply of the air conditioner according to the control signal.

19. An air conditioner, characterized in that the air conditioner uses the method for adjusting the operation mode of the air conditioner according to any one of claims 1 to 17.

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