CN108534315B - Air conditioner control method and device, air conditioner system, storage medium and control equipment - Google Patents

Abstract

The invention discloses an air conditioner control method, an air conditioner control device, an air conditioner system, a storage medium and control equipment, wherein the air conditioner control method comprises the following steps: determining a temperature correction coefficient for correcting the outdoor environment temperature of a room to which the air conditioner belongs; acquiring the current outdoor environment temperature of a room; and determining the target temperature of the air conditioner according to the current outdoor environment temperature and the temperature correction coefficient. The scheme of the invention can overcome the defects that the target temperature of the air conditioner cannot be accurately controlled due to temperature delay and temperature attenuation caused by the space enclosing structure of the room in the prior art, and the accurate outdoor environment temperature cannot be obtained, thereby obtaining the accurate outdoor environment comprehensive temperature and realizing the accurate control of the target temperature of the air conditioner.

Description

Air conditioner control method and device, air conditioner system, storage medium and control equipment

Technical Field

The present invention relates to an air conditioner control method, an air conditioner control device, an air conditioner system, a storage medium, and a control device, and more particularly, to an air conditioner control method capable of obtaining an accurate target temperature, a computer-readable storage medium storing instructions of the method, a control device capable of executing instructions of the method, a device corresponding to the method, and an air conditioner system having the device.

Background

In the case of air conditioner cooling, the room cooling load is the amount of heat that needs to be removed from the room per unit time to maintain the heat and humidity parameter of the room air at a constant value. The room cooling load is related to the heat gain of the room at the moment, and the heat gain of the room is the sum of the heat entering the room from the indoor and outdoor heat sources at a certain moment. The total heat obtained by the indoor heat source basically depends on the heat productivity of the heat source and is irrelevant to indoor air parameters and indoor surface states; the total heat transferred from the outdoor to the room, i.e. the total heat transferred through the enclosure structure, is influenced by a plurality of conditions, and for the household air conditioner, the ratio of the heat transferred from the outdoor to the indoor through the enclosure structure and the solar radiation heat entering through the outer window to the total cold load (the total heat to be removed by the air conditioner) is larger.

Because the enclosure structure has thermal inertia, phase difference and amplitude difference exist between the heat transfer quantity passing through the enclosure structure and the outdoor environment temperature; and under the same outdoor environment, different types of building envelopes have different heat transfer coefficients and heat storage capacities, so that different phase differences and amplitude differences exist between the heat transfer quantity passing through the building envelopes and the outdoor environment temperature. The existing air conditioner only takes the outdoor environment temperature at a certain moment as a criterion for outputting the quantity of cold/heat, and does not consider the delay and attenuation of the temperature caused by maintaining the structural characteristics, so that the obtained outdoor environment temperature is inaccurate. Due to the fact that the outdoor environment temperature is inaccurate, accurate control of the target temperature of the air conditioner cannot be achieved finally.

Disclosure of Invention

The invention aims to provide an air conditioner control method, an air conditioner control device, an air conditioner system, a storage medium and control equipment to solve the problem that the target temperature of an air conditioner cannot be accurately controlled due to inaccurate outdoor environment temperature caused by temperature delay and temperature attenuation caused by an enclosure structure of a room in the prior art.

The invention provides an air conditioner control method, which comprises the following steps: determining a temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs; acquiring the current outdoor environment temperature of the room; and determining the target temperature of the air conditioner according to the current outdoor environment temperature and the temperature correction coefficient.

Optionally, determining a temperature correction coefficient for correcting an outdoor ambient temperature of a room to which the air conditioner belongs includes: acquiring room enclosure structure information of an enclosure structure of the room; determining the temperature correction coefficient according to the room enclosure structure information; and/or, determining the target temperature of the air conditioner according to the current outdoor environment temperature and the temperature correction coefficient, wherein the determining comprises the following steps: correcting the current outdoor environment temperature according to the temperature correction coefficient to obtain a temperature correction value of the current outdoor environment temperature; determining the comprehensive temperature of the outdoor environment according to the current outdoor environment temperature and the temperature correction value; and determining to obtain the target temperature according to the comprehensive temperature of the outdoor environment.

Optionally, the determining the integrated outdoor environment temperature according to the current outdoor environment temperature and the temperature correction value includes: and taking the sum of the current outdoor environment temperature and the temperature correction value as the comprehensive outdoor environment temperature.

Optionally, the room envelope information comprises at least one of: the number of layers of the building envelope contained in the current room; the current hierarchy of the building envelope; the material of the current building envelope; the current thickness of the envelope; the current height of the envelope; and the temperature correction coefficient corresponding to the envelope structure of the current level.

Optionally, determining the temperature correction coefficient according to the room envelope information includes: determining each temperature correction coefficient matched with each layer of the current building envelope according to the number of layers of the building envelope contained in the current room and at least one of the material, the thickness and the height of the level of each layer of the current building envelope; wherein, each temperature correction coefficient that matches with each layer of current envelope includes: if the current enclosure structure is in the first layer of enclosure structure, the temperature correction coefficient matched with the first layer of enclosure structure is a₁(ii) a If the current envelope structure is in a second layer of envelope structure, the temperature correction coefficient matched with the second layer of envelope structure is a₂(ii) a If the current enclosure structure is in the third layer of enclosure structure, the current enclosure structure is compared with the third layer of enclosure structureThe temperature correction coefficient matched with the third layer of building enclosure is a₃(ii) a If the current envelope structure is in the (n-1) th layer envelope structure, the temperature correction coefficient matched with the (n-1) th layer envelope structure is a_n-1(ii) a If the current envelope structure is in the nth envelope structure, the temperature correction coefficient matched with the nth envelope structure is a_n(ii) a Wherein n is a positive integer greater than or equal to 2; and/or, according to the temperature correction coefficient, correcting the current outdoor environment temperature to obtain a temperature correction value of the current outdoor environment temperature, including: when the number of layers of the building envelopes contained in the current room is more than 1, respectively correcting the current outdoor environment temperature according to each temperature correction coefficient matched with each current building envelope to obtain each layer of temperature correction value of the current outdoor environment temperature; and determining the temperature correction value of the current outdoor environment temperature according to the temperature correction values of all layers.

Optionally, the determining of the temperature correction value of the current outdoor environment temperature according to the temperature correction values of the layers includes that the temperature correction value is △ t, and the current outdoor environment temperature is t₀The temperature correction coefficient matched with the first layer of building envelope is a₁The temperature correction coefficient matched with the second layer of building envelope is a₂And the temperature correction coefficient matched with the third layer of building envelope is a₃The temperature correction coefficient matched with the first layer of building envelope is a_n-1The temperature correction coefficient matched with the nth layer of building envelope is a_n，△t＝a₁t₀+a₂t₀+a₃t₀+……+a_n-1t₀+a_nt₀Wherein n is a positive integer greater than or equal to 2.

Optionally, after the determining the target temperature of the air conditioner, the method further comprises: controlling the air conditioner to output matched cold/heat according to the target temperature; and/or, before the determining the temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs, the method further comprises: judging whether the air conditioner operates for the first time; and/or judging whether the envelope structure of the current room is changed; if the air conditioner is operated for the first time, determining a temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs; if the air conditioner does not operate for the first time and the envelope structure of the current room is not changed, reading a temperature correction coefficient stored in a data storage of the air conditioner; and if the envelope structure of the current room is changed, re-determining the temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs.

Optionally, before the controlling the air conditioner to output the matched cooling/heating amount according to the target temperature, the method further comprises: acquiring air conditioning mode information selected by a user, wherein the air conditioning mode information comprises at least one of the following: a cooling mode, a heating mode; the step of controlling the air conditioner to output the matched cold quantity/heat quantity according to the target temperature specifically comprises the following steps: if the acquired air conditioner mode information shows a refrigeration mode, controlling an air conditioner to output matched cold quantity according to the target temperature; and if the acquired air conditioner mode information shows a heating mode, controlling the air conditioner to output the matched heat according to the target temperature.

In accordance with the above method, another aspect of the present invention provides an air conditioning control apparatus, comprising: an acquisition unit for acquiring a current outdoor ambient temperature of the room; a processing unit for determining a temperature correction coefficient for correcting an outdoor ambient temperature of a room to which the air conditioner belongs; and determining the target temperature of the air conditioner according to the current outdoor environment temperature acquired by the acquisition unit and the temperature correction coefficient.

Optionally, the obtaining unit is further configured to: acquiring room enclosure structure information of an enclosure structure of the room; the processing unit is further to: determining the temperature correction coefficient according to the room enclosure structure information acquired by the acquisition unit; and/or correcting the current outdoor environment temperature according to the temperature correction coefficient obtained by the processing unit to obtain a temperature correction value of the current outdoor environment temperature; determining the comprehensive temperature of the outdoor environment according to the current outdoor environment temperature and the temperature correction value; and determining to obtain the target temperature according to the comprehensive temperature of the outdoor environment.

Optionally, the processing unit is specifically configured to: and taking the sum of the current outdoor environment temperature and the temperature correction value as the comprehensive outdoor environment temperature.

Optionally, the room enclosure information acquired by the acquiring unit includes at least one of: the number of layers of the building envelope contained in the current room; the current hierarchy of the building envelope; the material of the current building envelope; the current thickness of the envelope; the current height of the envelope; and the temperature correction coefficient corresponding to the envelope structure of the current level.

Optionally, the processing unit is specifically configured to: determining each temperature correction coefficient matched with each layer of the current building envelope according to the number of layers of the building envelope contained in the current room and at least one of the material, the thickness and the height of the level of each layer of the current building envelope; wherein, each temperature correction coefficient that matches with each layer of current envelope includes: if the current enclosure structure is in the first layer of enclosure structure, the temperature correction coefficient matched with the first layer of enclosure structure is a₁(ii) a If the current envelope structure is in a second layer of envelope structure, the temperature correction coefficient matched with the second layer of envelope structure is a₂(ii) a If the current enclosure structure is positioned at a third layer of enclosure structure, the temperature correction coefficient matched with the third layer of enclosure structure is a₃(ii) a If the current envelope structure is in the (n-1) th layer envelope structure, the temperature correction coefficient matched with the (n-1) th layer envelope structure is a_n-1(ii) a If the current envelope structure is in the nth envelope structure, the temperature correction coefficient matched with the nth envelope structure is a_n(ii) a Wherein n is a positive integer greater than or equal to 2; and/or the processing unit is specifically further configured to: when the number of layers of the building envelopes included in the current room is more than 1, respectively correcting the current outdoor environment temperature according to each temperature correction coefficient matched with each current building envelope of each layer to obtain each current outdoor environment temperatureA layer temperature correction value; and determining the temperature correction value of the current outdoor environment temperature according to the temperature correction values of all layers.

Optionally, the processing unit is specifically configured to set the temperature correction value to △ t, and set the current outdoor environment temperature to t₀The temperature correction coefficient matched with the first layer of building envelope is a₁The temperature correction coefficient matched with the second layer of building envelope is a₂And the temperature correction coefficient matched with the third layer of building envelope is a₃The temperature correction coefficient matched with the first layer of building envelope is a_n-1The temperature correction coefficient matched with the nth layer of building envelope is a_n，△t＝a₁t₀+a₂t₀+a₃t₀+……+a_n-1t₀+a_nt₀Wherein n is a positive integer greater than or equal to 2.

Optionally, the apparatus further comprises a control unit; after the processing unit determines the target temperature of the air conditioner, the control unit is used for controlling the air conditioner to output the matched cold quantity/heat quantity according to the target temperature; and/or, before the processing unit determines a temperature correction coefficient for correcting an outdoor ambient temperature of the room to which the air conditioner belongs, the processing unit is further specifically configured to: judging whether the air conditioner operates for the first time; and/or judging whether the envelope structure of the current room is changed; if the air conditioner is operated for the first time, determining a temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs; if the air conditioner does not operate for the first time and the envelope structure of the current room is not changed, reading a temperature correction coefficient stored in a data storage of the air conditioner; and if the envelope structure of the current room is changed, re-determining the temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs.

Optionally, before the control unit controls the air conditioner to output the matched cooling capacity/heating capacity according to the target temperature, the obtaining unit is further configured to: acquiring air conditioning mode information selected by a user, wherein the air conditioning mode information comprises at least one of the following: a cooling mode, a heating mode; wherein the control unit is specifically configured to: if the air conditioner mode information acquired by the acquisition unit shows a refrigeration mode, controlling an air conditioner to output matched refrigeration capacity according to the target temperature; and if the air conditioner mode information acquired by the acquisition unit shows a heating mode, controlling the air conditioner to output the matched heat according to the target temperature.

In accordance with another aspect of the present invention, there is provided an air conditioning system including: the control device of the air conditioner described above.

In accordance with the above apparatus, a further aspect of the present invention provides a storage medium having a plurality of instructions stored therein; the plurality of instructions are used for loading and executing the control method of the air conditioner control device by the processor.

In accordance with the above apparatus, a further aspect of the present invention provides an air conditioning control apparatus, comprising: a processor for executing a plurality of instructions; a memory to store a plurality of instructions; the plurality of instructions are stored by the memory, and are loaded by the processor and execute the control method of the air conditioner control device.

According to the scheme, the temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs is determined; acquiring the current outdoor environment temperature of a room; determining the target temperature of the air conditioner according to the current outdoor environment temperature and the temperature correction coefficient; therefore, the temperature delay and temperature attenuation caused by the space enclosing structure of the room in the prior art are overcome, and the accurate target temperature is obtained.

Further, the scheme of the invention determines a temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs, and determines the target temperature of the air conditioner according to the current outdoor environment temperature and the temperature correction coefficient; due to the introduction of the temperature correction value, the current outdoor environment temperature value is corrected through the temperature correction value, and therefore the accurate target temperature is obtained.

Further, according to the scheme of the invention, the sum of the current outdoor environment temperature and the temperature correction value is used as the comprehensive outdoor environment temperature; and correcting the current outdoor environment temperature value through the temperature correction value, thereby obtaining the accurate outdoor environment comprehensive temperature.

Therefore, the scheme of the invention determines the temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs; acquiring the current outdoor environment temperature of a room; determining the target temperature of the air conditioner according to the current outdoor environment temperature and the temperature correction coefficient; therefore, the temperature delay and temperature attenuation caused by the space enclosing structure of the room in the prior art are overcome, and the accurate target temperature is obtained.

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

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

FIG. 1 is a flowchart illustrating an embodiment of an air conditioning control method according to the present invention;

fig. 2 is a schematic flow chart of a specific application scenario of the air conditioner control method according to the present invention;

fig. 3 is a schematic structural diagram of an embodiment of an air conditioning control device according to the present invention.

The reference numbers in the embodiments of the present invention are as follows, in combination with the accompanying drawings:

202-an obtaining unit; 204-processing unit.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. 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.

According to an embodiment of the present invention, an air conditioning control method is provided, as shown in fig. 1, a flowchart of an embodiment of the air conditioning control method of the present invention is shown. The method may include at least:

at step S110, a temperature correction coefficient that can be used to correct the outdoor ambient temperature of the room to which the air conditioner belongs is determined.

In an alternative example, determining a temperature correction coefficient that can be used to correct the outdoor ambient temperature of the room to which the air conditioner belongs may include:

room envelope information of an envelope of a room is obtained. Wherein the room enclosure information may include at least one of: the number of floors of the building envelope contained in the current room. The level of the current envelope. The material of the current building envelope. The thickness of the current envelope. The current height of the envelope. And the temperature correction coefficient corresponding to the envelope structure of the current level.

And determining a temperature correction coefficient according to the room envelope information.

In an alternative example, determining the temperature correction factor according to the room envelope information may include:

and determining each temperature correction coefficient matched with each layer of the current building envelope according to the number of layers of the building envelope contained in the current room and at least one of the material, the thickness and the height of the level of each layer of the current building envelope.

Wherein, each temperature correction coefficient matched with each layer of the current building envelope can include:

if the current enclosure structure is in the first layer of enclosure structure, the temperature correction coefficient matched with the first layer of enclosure structure is a₁。

If the current envelope structure is in the second layer of envelope structure, the temperature correction coefficient matched with the second layer of envelope structure is a₂。

If the current enclosure structure is in the third layer of enclosure structure, the temperature correction coefficient matched with the third layer of enclosure structure is a₃。

If the current enclosure isWhen the structure is positioned at the (n-1) th layer of building envelope, the temperature correction coefficient matched with the (n-1) th layer of building envelope is a_n-1。

If the current envelope structure is in the nth envelope structure, the temperature correction coefficient matched with the nth envelope structure is a_n. Wherein n is a positive integer greater than or equal to 2.

Because the building enclosure of the room has thermal inertia, the heat transfer coefficient and the heat storage capacity of the building enclosure of different types of rooms are different, so that different phase differences and amplitude differences exist between the heat transfer quantity of the building enclosure passing through the room and the outdoor environment temperature. The scheme provided by the invention avoids the problem that the air conditioner control method in the prior art only takes the outdoor environment temperature at a certain moment as the basis for judging the quantity of output cold/heat, considers the attenuation and delay of the temperature caused by the characteristics of the space enclosing structures of the rooms, introduces the temperature correction coefficient to correct the current outdoor environment temperature, ensures that the air conditioners installed in the rooms of different space enclosing structures can obtain the accurate comprehensive temperature of the outdoor environment according to the air conditioner control method, determines to obtain the corresponding target temperature according to the comprehensive temperature of the outdoor environment, realizes the accurate control of the target temperature of the air conditioner, improves the experience of users and improves the comfort of the rooms.

In order to save memory resources and simplify the air conditioner control processing flow, before determining a temperature correction coefficient that can be used for correcting the outdoor environment temperature of the room to which the air conditioner belongs, the method may further include:

judging whether the air conditioner is operated for the first time; and/or judging whether the enclosure structure of the current room is changed.

And if the air conditioner is operated for the first time, determining a temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs.

And if the air conditioner is not operated for the first time and the envelope structure of the current room is not changed, reading the temperature correction coefficient stored in the data memory of the air conditioner.

And if the envelope structure of the current room is changed, re-determining the temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs.

At step S120, the current outdoor ambient temperature of the room is acquired.

At step S130, a target temperature of the air conditioner is determined according to the current outdoor ambient temperature and the temperature correction coefficient.

In an alternative example, determining the target temperature of the air conditioner according to the current outdoor ambient temperature and the temperature correction coefficient may include:

and correcting the current outdoor environment temperature according to the temperature correction coefficient to obtain a temperature correction value of the current outdoor environment temperature.

Due to the introduction of the temperature correction coefficient, the current outdoor environment temperature is corrected according to the temperature correction coefficient so as to achieve the technical effects of obtaining the accurate target temperature of the air conditioner and realizing the accurate control of the target temperature of the air conditioner. In an optional example, the correcting the current outdoor environment temperature according to the temperature correction coefficient to obtain the temperature correction value of the current outdoor environment temperature may include:

and when the number of layers of the building envelopes contained in the current room is more than 1, respectively correcting the current outdoor environment temperature according to each temperature correction coefficient matched with each current building envelope to obtain each layer of temperature correction value of the current outdoor environment temperature.

And determining to obtain the temperature correction value of the current outdoor environment temperature according to the temperature correction value of each layer.

Therefore, when the number of layers of the building envelopes included in the current room is larger than 1, according to the temperature correction coefficients matched with the current building envelopes of each layer and the current outdoor environment temperature, the temperature correction value of the current outdoor environment temperature is determined to be obtained, so that the temperature correction value for correcting the current outdoor environment temperature is obtained, and the accurate outdoor environment comprehensive temperature is obtained. In an alternative example, determining the temperature correction value of the current outdoor environment temperature according to the temperature correction values of the layers may include:

the temperature correction value is △ t, and the current outdoor environment temperature is t₀Matched with first-layer building envelopeThe temperature correction coefficient is a₁The temperature correction coefficient matched with the second layer of building envelope is a₂The temperature correction coefficient matched with the third layer of the enclosure structure is a₃The temperature correction coefficient matched with the first layer of building envelope is a_n-1The temperature correction coefficient matched with the nth layer of building envelope is a_n，

△t＝a₁t₀+a₂t₀+a₃t₀+……+a_n-1t₀+a_nt₀Wherein n is a positive integer greater than or equal to 2.

And determining the comprehensive temperature of the outdoor environment according to the current outdoor environment temperature and the temperature correction value. And taking the sum of the current outdoor environment temperature and the temperature correction value as the comprehensive outdoor environment temperature.

Therefore, the temperature correction value of the current outdoor environment temperature is obtained according to the temperature correction value of each layer, and the sum of the current outdoor environment temperature and the temperature correction value is used as the outdoor environment comprehensive temperature, so that the accurate outdoor environment comprehensive temperature is obtained.

And determining to obtain the target temperature according to the comprehensive temperature of the outdoor environment.

Therefore, the target temperature is determined according to the comprehensive temperature of the outdoor environment, so that the accurate target temperature is obtained, the accurate control of the target temperature of the air conditioner is realized, and the comfort level of a room is improved.

In order to match the output cold/heat quantity with the actual load and improve the comfort of the room, after the target temperature of the air conditioner is determined, the method can further comprise the following steps: and controlling the air conditioner to output the matched cold quantity/heat quantity according to the target temperature.

In order to achieve precise control of the air conditioner, before controlling the air conditioner to output the matched cooling/heating amount according to the target temperature, the method may further include:

acquiring air-conditioning mode information selected by a user, wherein the air-conditioning mode information may include at least one of the following: a cooling mode and a heating mode.

In an alternative example, the controlling the air conditioner to output the matched cooling/heating amount according to the target temperature specifically includes:

and if the acquired air conditioner mode information shows that the air conditioner mode information is a refrigeration mode, controlling the air conditioner to output the matched refrigeration capacity according to the target temperature.

And if the acquired air conditioner mode information shows a heating mode, controlling the air conditioner to output the matched heat according to the target temperature.

Therefore, the matched cold/heat quantity is output according to the target temperature, and the matching of the output cold/heat quantity and the actual load is realized, so that the comfort of a room is improved.

Fig. 2 is a schematic flow chart illustrating a specific application scenario of the air conditioner control method according to the present invention.

When the air conditioner is started for the first time, the detection function of the detection device (such as an infrared device) is started, and the corresponding temperature correction coefficient a is acquired according to the information of the enclosure structure detected by the detection device₁、a₂、a₃……、a_n-1、a_n. Wherein n is a positive integer greater than or equal to 2, and the corresponding temperature correction coefficient a to be obtained₁、a₂、a₃……、a_n-1、a_nAnd (6) outputting.

Wherein the room enclosure information may include at least one of:

the number of floors of the building envelope contained in the current room.

The level of the current envelope.

The material of the current building envelope.

The thickness of the current envelope.

The current height of the envelope. And

and the temperature correction coefficient corresponding to the envelope structure of the current level.

Therefore, the attenuation and delay of the temperature caused by the characteristics of the space enclosing structures of the rooms are considered, the temperature correction coefficient is introduced to correct the current outdoor environment temperature, so that the air conditioners installed in the rooms of different space enclosing structures can obtain the accurate outdoor environment comprehensive temperature according to the air conditioner control method, and the corresponding target temperature is determined according to the outdoor environment comprehensive temperature, so that the accurate control of the target temperature of the air conditioner is realized, the user experience is improved, and the room comfort is improved.

By the above temperature correction coefficient a₁、a₂、a₃……、a_n-1、a_nAnd the current outdoor ambient temperature t₀Obtaining a corresponding temperature correction value to correct the temperature correction value to the current outdoor environment temperature t₀Corrected by △ t, and the corrected outdoor environment comprehensive temperature is t₁By comparing the current outdoor ambient temperature t₀The correction is carried out, the output cold/quantity of the air conditioner is controlled to correspond to the room cold/load, and the accuracy of the temperature control of the air conditioner is improved. When the air conditioner is not started for the first time and the room enclosing structure is not changed, the infrared detection function is not started, the memory function of the air conditioner is started, the parameter information stored in the data memory of the air conditioner is directly read, and the temperature correction coefficient a when the air conditioner is started last time is read₁、a₂、a₃……、a_n-1、a_n. When the air conditioner is not started for the first time and the enclosure structure is changed, starting the detection function of a detection device (such as an infrared device), acquiring and outputting a temperature correction coefficient b matched with new detection according to the algorithm during the first time of starting and the algorithm during the first time of starting₁、b₂、b₃……、b_n-1、b_n. The temperature correction coefficient b₁、b₂、b₃……、b_n-1、b_nCorresponding to each floor of the room enclosure.

Therefore, the attenuation and delay of the temperature caused by the characteristics of the space enclosing structures of the rooms are considered, the temperature correction coefficient is introduced to correct the current outdoor environment temperature, so that the air conditioners installed in the rooms of different space enclosing structures can obtain the accurate outdoor environment comprehensive temperature according to the air conditioner control method, and the corresponding target temperature is determined according to the outdoor environment comprehensive temperature, so that the accurate control of the target temperature of the air conditioner is realized, the user experience is improved, and the room comfort is improved.

The following gives specific examples of precisely controlling the output cold/heat of the air conditioner by using the air conditioner control method provided by the invention, and the specific description is as follows:

taking a certain room in a certain northern area as an example, the room enclosure structure consists of three layers of materials. The room envelope is usually made up of one or more layers of material, and the thickness of each layer of material is often different.

(1) Run refrigeration mode

Taking a certain room in a certain northern area as an example, the room enclosure structure consists of three layers of materials. The room envelope is usually made up of one or more layers of material, and the thickness of each layer of material is often different.

When the air conditioner is controlled to be started for the first time, starting a detection function of a detection device (such as an infrared device), firstly detecting the enclosure structure of a room where the air conditioner is located, and when the first-layer enclosure structure is detected, acquiring and outputting a corresponding temperature correction coefficient a according to structural/size information of the first-layer enclosure structure, such as material, thickness, height and the like₁. When the second layer of envelope structure is detected, similarly, according to the structure/size information of the second layer of envelope structure, such as material, thickness and height, the corresponding temperature correction coefficient a is obtained and output₂. When the third layer of the enclosure structure is detected, similarly, according to the structure/size information of the third layer of the enclosure structure, such as the material, the thickness, the height and the like, the corresponding temperature correction coefficient a is obtained and output₃。

When the air conditioner is not started for the first time and the enclosure structure of the room is not changed, the detection device (e.g., the infrared detection device) does not start the detection function because the temperature correction coefficient corresponding to the enclosure structure of the room is kept unchanged. The air conditioner starts a memory function, directly reads parameter information stored in a data memory of the air conditioner, and reads a temperature correction coefficient a when the air conditioner is started last time₁、a₂、a₃。

Controlling the air conditioner to adjust the outdoor environment temperature t at a certain moment according to the obtained temperature correction coefficient₀Corrected to obtain a temperature correction value △ t, which is calculated to be △ t ═ a₁t₀+a₂t₀+a₃t₀Finally, the comprehensive temperature t of the outdoor environment at the moment is obtained₁The calculation formula is t₁＝t₀+△t。

At the moment of obtaining the comprehensive temperature t of the outdoor environment₁Then, according to the obtained comprehensive temperature t of the outdoor environment₁Determining to obtain a corresponding target temperature; and controlling the air conditioner to output the matched cold quantity/heat quantity according to the target temperature.

In an optional example, if the acquired air conditioner mode information shows a cooling mode, the air conditioner is controlled to output the matched cooling capacity according to the target temperature.

In another optional example, if the acquired air conditioner mode information shows a heating mode, the air conditioner is controlled to output a matched heat amount according to the target temperature.

When the air conditioner is judged not to be started for the first time and the enclosure structure of the room is changed, the air conditioner starts a zero clearing memory function and starts a detection function of a detection device (for example, an infrared detection device) because the temperature correction coefficient corresponding to the enclosure structure of the room is changed. According to the algorithm of the first starting up, the temperature correction coefficient b matched with the new detection is obtained and output₁、b₂、b₃. The temperature correction coefficient b₁、b₂、b₃Corresponding to each floor of the room enclosure.

Controlling the air conditioner to adjust the outdoor environment temperature t at a certain moment according to the obtained temperature correction coefficient₀Corrected to obtain a temperature correction value △ t', the calculation formula is △ t ═ b₁t₀+b₂t₀+b₃t₀Finally, the comprehensive temperature t of the outdoor environment at the moment is obtained₁', the calculation formula is t₁′＝t₀+△t′。

At the moment of obtaining the comprehensive temperature t of the outdoor environment₁' thereafter, the integrated temperature t of the outdoor environment is obtained₁' determining to obtain a corresponding target temperature; and controlling the air conditioner to output the matched cold quantity/heat quantity according to the target temperature.

In an optional example, if the acquired air conditioner mode information shows a cooling mode, the air conditioner is controlled to output the matched cooling capacity according to the target temperature.

In another optional example, if the acquired air conditioner mode information shows a heating mode, the air conditioner is controlled to output a matched heat amount according to the target temperature.

It should be noted that fig. 2 only shows the case when it is determined that the air conditioner is not turned on for the first time and the enclosure of the room is not changed. The situation when it is determined that the air conditioner is not turned on for the first time and the enclosure of the room is changed is not shown in fig. 2, and please refer to the corresponding text description.

(2) Operating heating mode

The algorithm for operating the heating mode is similar to that for operating the cooling mode, and therefore, the detailed description thereof is omitted, and please refer to the related description of the cooling mode.

Through a large number of tests, the technical scheme of the invention is adopted to determine the temperature correction coefficient which can be used for correcting the outdoor environment temperature of the room to which the air conditioner belongs; acquiring the current outdoor environment temperature of a room; determining the target temperature of the air conditioner according to the current outdoor environment temperature and the temperature correction coefficient; therefore, the temperature delay and temperature attenuation caused by the space enclosing structure of the room in the prior art are overcome, and the accurate target temperature is obtained.

According to an embodiment of the present invention, there is also provided an air conditioning control apparatus corresponding to the air conditioning control method, and referring to fig. 3, a schematic structural diagram of an embodiment of the air conditioning control apparatus according to the present invention is shown. The control device of the air conditioner may include: an acquisition unit 202 and a processing unit 204.

In an alternative example, the obtaining unit 202 may be configured to obtain a current outdoor ambient temperature of the room.

A processing unit 204, which may be configured to determine a temperature correction coefficient that may be used to correct an outdoor ambient temperature of a room to which the air conditioner belongs; and determining the target temperature of the air conditioner according to the current outdoor environment temperature and the temperature correction coefficient acquired by the acquisition unit 202.

In an optional example, the obtaining unit 202 may further be configured to:

room envelope information of an envelope of a room is obtained. Wherein the room enclosure information acquired by the acquiring unit 202 may include at least one of:

the number of floors of the building envelope contained in the current room.

The level of the current envelope.

The material of the current building envelope.

The thickness of the current envelope.

The current height of the envelope. And

and the temperature correction coefficient corresponding to the envelope structure of the current level.

The processing unit 204 may also be configured to: and determining the temperature correction coefficient according to the room enclosure structure information acquired by the acquisition unit 202.

The processing unit 204 may be further configured to: and correcting the current outdoor environment temperature according to the temperature correction coefficient obtained by the processing unit 204 to obtain a temperature correction value of the current outdoor environment temperature.

Due to the introduction of the temperature correction coefficient, the current outdoor environment temperature is corrected according to the temperature correction coefficient so as to achieve the technical effects of obtaining the accurate target temperature of the air conditioner and realizing the accurate control of the target temperature of the air conditioner.

The processing unit 204 may be further configured to: and determining the comprehensive temperature of the outdoor environment according to the current outdoor environment temperature and the temperature correction value.

The processing unit 204 may be further configured to: and determining to obtain the target temperature according to the comprehensive temperature of the outdoor environment.

In an optional example, the processing unit 204 may specifically be configured to:

and taking the sum of the current outdoor environment temperature and the temperature correction value as the comprehensive outdoor environment temperature.

In an optional example, the processing unit 204 may specifically be configured to: and determining each temperature correction coefficient matched with each layer of the current building envelope according to the number of layers of the building envelope contained in the current room and at least one of the material, the thickness and the height of the level of each layer of the current building envelope.

Wherein, each temperature correction coefficient matched with each layer of the current building envelope can include:

if the current enclosure structure is in the first layer of enclosure structure, the temperature correction coefficient matched with the first layer of enclosure structure is a₁。

If the current envelope structure is in the second layer of envelope structure, the temperature correction coefficient matched with the second layer of envelope structure is a₂。

If the current enclosure structure is in the third layer of enclosure structure, the temperature correction coefficient matched with the third layer of enclosure structure is a₃。

If the current envelope structure is in the (n-1) th layer envelope structure, the temperature correction coefficient matched with the (n-1) th layer envelope structure is a_n-1。

If the current envelope structure is in the nth envelope structure, the temperature correction coefficient matched with the nth envelope structure is a_n. Wherein n is a positive integer greater than or equal to 2.

And/or the presence of a gas in the gas,

the processing unit 204 may be further specifically configured to:

and when the number of layers of the building envelopes contained in the current room is more than 1, respectively correcting the current outdoor environment temperature according to each temperature correction coefficient matched with each current building envelope to obtain each layer of temperature correction value of the current outdoor environment temperature.

And determining to obtain the temperature correction value of the current outdoor environment temperature according to the temperature correction value of each layer.

Therefore, when the number of layers of the building envelopes included in the current room is larger than 1, according to the temperature correction coefficients matched with the current building envelopes of each layer and the current outdoor environment temperature, the temperature correction value of the current outdoor environment temperature is determined to be obtained, so that the temperature correction value for correcting the current outdoor environment temperature is obtained, and the accurate outdoor environment comprehensive temperature is obtained.

In an alternative example, the processing unit 204 may be specifically configured to provide the temperature correction value of △ t, and the current outdoor environment temperature of t₀The temperature correction coefficient matched with the first layer of building envelope is a₁The temperature correction coefficient matched with the second layer of building envelope is a₂The temperature correction coefficient matched with the third layer of the enclosure structure is a₃The temperature correction coefficient matched with the first layer of building envelope is a_n-1The temperature correction coefficient matched with the nth layer of building envelope is a_n，

△t＝a₁t₀+a₂t₀+a₃t₀+……+a_n-1t₀+a_nt₀Wherein n is a positive integer greater than or equal to 2.

In an alternative example, the processing unit 204 determines the integrated outdoor environment temperature based on the current outdoor environment temperature and the temperature correction value. And taking the sum of the current outdoor environment temperature and the temperature correction value as the comprehensive outdoor environment temperature.

Therefore, the temperature correction value of the current outdoor environment temperature is obtained according to the temperature correction value of each layer, and the sum of the current outdoor environment temperature and the temperature correction value is used as the outdoor environment comprehensive temperature, so that the accurate outdoor environment comprehensive temperature is obtained.

In an alternative example, the processing unit 204 determines the target temperature based on the integrated outdoor environment temperature.

Therefore, the target temperature is determined according to the comprehensive temperature of the outdoor environment, so that the accurate target temperature is obtained, the accurate control of the target temperature of the air conditioner is realized, and the comfort level of a room is improved.

In order to achieve a matching of the output cold/heat with the actual load and to increase the comfort for the user, the device may also comprise a control unit.

After the processing unit 204 determines the target temperature of the air conditioner, the control unit may be configured to control the air conditioner to output the matched cooling/heating amount according to the target temperature.

In an optional example, before the processing unit 204 determines the temperature correction coefficient that can be used to correct the outdoor ambient temperature of the room to which the air conditioner belongs, the processing unit 204 may be further specifically configured to:

judging whether the air conditioner is operated for the first time; and/or judging whether the enclosure structure of the current room is changed.

And if the air conditioner is operated for the first time, determining a temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs.

And if the air conditioner is not operated for the first time and the envelope structure of the current room is not changed, reading the temperature correction coefficient stored in the data memory of the air conditioner.

And if the envelope structure of the current room is changed, re-determining the temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs.

Before the control unit controls the air conditioner to output the matched cooling capacity/heating capacity according to the target temperature, the obtaining unit 202 may further be configured to: acquiring air-conditioning mode information selected by a user, wherein the air-conditioning mode information may include at least one of the following: a cooling mode and a heating mode.

Wherein, the control unit may be specifically configured to:

if the air conditioner mode information acquired by the acquisition unit 202 shows a cooling mode, the air conditioner is controlled to output the matched cooling capacity according to the target temperature.

If the air conditioner mode information acquired by the acquisition unit 202 indicates a heating mode, the air conditioner is controlled to output a matched heat amount according to the target temperature.

Therefore, the matched cold/heat quantity is output according to the target temperature, and the matching of the output cold/heat quantity and the actual load is realized, so that the comfort of a room is improved.

Since the processes and functions implemented by the apparatus of this embodiment substantially correspond to the embodiments, principles, and examples of the method shown in fig. 1, reference may be made to the related descriptions in the foregoing embodiments for details which are not described in the description of this embodiment, and further description is not given here.

Through a large number of tests, the technical scheme of the invention is adopted, and the current outdoor environment temperature of the room is obtained through the obtaining unit; the temperature correction coefficient is determined by the processing unit and used for correcting the outdoor environment temperature of the room to which the air conditioner belongs; determining the target temperature of the air conditioner according to the current outdoor environment temperature and the temperature correction coefficient acquired by the acquisition unit; therefore, the temperature delay and temperature attenuation caused by the space enclosing structure of the room in the prior art are overcome, and the accurate target temperature is obtained.

According to the embodiment of the invention, an air conditioning system corresponding to the air conditioning control device is also provided. This air conditioning system includes: the air conditioning control device described above.

According to the embodiment of the invention, a storage medium corresponding to the air conditioner control device is also provided. The storage medium having stored therein a plurality of instructions; and a plurality of instructions for loading and executing the control method of the air conditioner control device by the processor.

According to an embodiment of the present invention, there is also provided an air conditioning control apparatus corresponding to an air conditioning control device, the apparatus including: a processor for executing a plurality of instructions; a memory to store a plurality of instructions; the control method of the air conditioner control device comprises the steps of storing a plurality of instructions by a memory, and loading and executing the control method of the air conditioner control device by a processor.

In summary, it is readily understood by those skilled in the art that the advantageous modes described above can be freely combined and superimposed without conflict.

The above description is only an example of the present invention, and is not intended to limit the present invention, and it is obvious to those skilled in the art that various modifications and variations can be made in the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (17)

1. An air conditioner control method, comprising:

determining a temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs;

acquiring room enclosure structure information of an enclosure structure of the room;

determining the temperature correction coefficient according to the room enclosure structure information;

when the number of layers of the building envelopes contained in the current room is more than 1, respectively correcting the current outdoor environment temperature according to each temperature correction coefficient matched with the current building envelope information of each layer to obtain each layer temperature correction value of the current outdoor environment temperature; determining the temperature correction value of the current outdoor environment temperature according to the temperature correction values of all layers;

acquiring the current outdoor environment temperature of the room;

determining a target temperature of the air conditioner according to the current outdoor environment temperature and the temperature correction value of the current outdoor environment temperature;

each temperature correction coefficient matched with each layer of the current building envelope comprises:

if the current enclosure structure is in the first layer of enclosure structure, the temperature correction coefficient matched with the first layer of enclosure structure is a₁；

If the current envelope structure is in a second layer of envelope structure, the temperature correction coefficient matched with the second layer of envelope structure is a₂；

If the current enclosure structure is positioned at a third layer of enclosure structure, the temperature correction coefficient matched with the third layer of enclosure structure is a₃；

If the current envelope structure is in the (n-1) th layer envelope structure, the temperature correction coefficient matched with the (n-1) th layer envelope structure is a_n-1；

If the current envelope structure is in the nth envelope structure, the temperature correction coefficient matched with the nth envelope structure is a_n(ii) a Wherein n is a positive integer greater than or equal to 2;

the temperature correction value is △ t, and the current outdoor environment temperature is t₀The temperature correction coefficient matched with the first layer of building envelope is a₁The temperature correction coefficient matched with the second layer of building envelope is a₂Temperature matched to said third layer of building envelopeCorrection coefficient of a₃The temperature correction coefficient matched with the (n-1) th layer of building envelope is a_n-1The temperature correction coefficient matched with the nth layer of building envelope is a_n，

△t＝a₁t₀+a₂t₀+a₃t₀+……+a_n-1t₀+a_nt₀Wherein n is a positive integer greater than or equal to 2.

2. The air conditioning control method according to claim 1, wherein,

determining a temperature correction coefficient for correcting an outdoor environment temperature of a room to which the air conditioner belongs, including:

determining the target temperature of the air conditioner according to the current outdoor environment temperature and the temperature correction coefficient, wherein the step of determining the target temperature of the air conditioner comprises the following steps:

correcting the current outdoor environment temperature according to the temperature correction coefficient to obtain a temperature correction value of the current outdoor environment temperature;

determining the comprehensive temperature of the outdoor environment according to the current outdoor environment temperature and the temperature correction value;

and determining to obtain the target temperature according to the comprehensive temperature of the outdoor environment.

3. The method of claim 2, wherein determining the integrated outdoor environment temperature based on the current outdoor environment temperature and the temperature correction value comprises:

and taking the sum of the current outdoor environment temperature and the temperature correction value as the comprehensive outdoor environment temperature.

4. The air conditioning control method according to claim 2,

the room enclosure information includes at least one of:

the number of layers of the building envelope contained in the current room;

the current hierarchy of the building envelope;

the material of the current building envelope;

the current thickness of the envelope;

the current height of the envelope; and

and the temperature correction coefficient corresponding to the envelope structure of the current level.

5. The air conditioning control method according to claim 4, wherein,

determining the temperature correction coefficient according to the room envelope information, including:

and determining each temperature correction coefficient matched with each layer of the current building envelope according to the number of layers of the building envelope contained in the current room and at least one of the material, the thickness and the height of the level of each layer of the current building envelope.

6. The air conditioning control method according to one of claims 1 to 5, wherein,

after the determining the target temperature of the air conditioner, the method further includes:

controlling the air conditioner to output matched cold or heat according to the target temperature;

before the determining a temperature correction coefficient for correcting an outdoor ambient temperature of a room to which the air conditioner belongs, the method further includes:

judging whether the air conditioner operates for the first time; judging whether the envelope structure of the current room is changed or not;

if the air conditioner is operated for the first time, determining a temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs;

if the air conditioner does not operate for the first time and the envelope structure of the current room is not changed, reading a temperature correction coefficient stored in a data storage of the air conditioner;

and if the envelope structure of the current room is changed, re-determining the temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs.

7. The air conditioner controlling method according to claim 6, wherein before the controlling the air conditioner to output the matched cooling capacity or heating capacity according to the target temperature, the method further comprises:

acquiring air conditioning mode information selected by a user, wherein the air conditioning mode information comprises at least one of the following: a cooling mode, a heating mode;

wherein,

the step of controlling the air conditioner to output the matched cold quantity/heat quantity according to the target temperature specifically comprises the following steps:

if the acquired air conditioner mode information shows a refrigeration mode, controlling an air conditioner to output matched cold quantity according to the target temperature;

and if the acquired air conditioner mode information shows a heating mode, controlling the air conditioner to output the matched heat according to the target temperature.

8. An air conditioning control device, characterized by comprising:

the acquiring unit is used for acquiring the current outdoor environment temperature of the room to which the air conditioner belongs; acquiring room enclosure structure information of an enclosure structure of the room;

the processing unit is used for determining a temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs; when the number of layers of the building envelopes contained in the current room is more than 1, respectively correcting the current outdoor environment temperature according to each temperature correction coefficient matched with each current building envelope to obtain each layer of temperature correction value of the current outdoor environment temperature; determining the temperature correction value of the current outdoor environment temperature according to the temperature correction values of all layers;

and

determining the target temperature of the air conditioner according to the current outdoor environment temperature and the temperature correction coefficient acquired by the acquisition unit;

each temperature correction coefficient matched with each layer of the current building envelope comprises:

if the current enclosure structure is in the first layer of enclosure structure, the temperature correction coefficient matched with the first layer of enclosure structure is a₁；

If the current envelope structure is in a second layer of envelope structure, the temperature correction coefficient matched with the second layer of envelope structure is a₂；

If the current enclosure structure is positioned at a third layer of enclosure structure, the temperature correction coefficient matched with the third layer of enclosure structure is a₃；

If the current envelope structure is in the (n-1) th layer envelope structure, the temperature correction coefficient matched with the (n-1) th layer envelope structure is a_n-1；

If the current envelope structure is in the nth envelope structure, the temperature correction coefficient matched with the nth envelope structure is a_n(ii) a Wherein n is a positive integer greater than or equal to 2;

the processing unit is specifically configured to:

the temperature correction value is △ t, and the current outdoor environment temperature is t₀The temperature correction coefficient matched with the first layer of building envelope is a₁The temperature correction coefficient matched with the second layer of building envelope is a₂And the temperature correction coefficient matched with the third layer of building envelope is a₃The temperature correction coefficient matched with the (n-1) th layer of building envelope is a_n-1The temperature correction coefficient matched with the nth layer of building envelope is a_n，

△t＝a₁t₀+a₂t₀+a₃t₀+……+a_n-1t₀+a_nt₀Wherein n is a positive integer greater than or equal to 2.

9. The apparatus of claim 8, wherein,

the processing unit is further to:

determining the temperature correction coefficient according to the room enclosure structure information acquired by the acquisition unit;

and/or the presence of a gas in the gas,

correcting the current outdoor environment temperature according to the temperature correction coefficient obtained by the processing unit to obtain a temperature correction value of the current outdoor environment temperature;

determining the comprehensive temperature of the outdoor environment according to the current outdoor environment temperature and the temperature correction value;

and determining to obtain the target temperature according to the comprehensive temperature of the outdoor environment.

10. The apparatus according to claim 9, wherein the processing unit is specifically configured to:

and taking the sum of the current outdoor environment temperature and the temperature correction value as the comprehensive outdoor environment temperature.

11. The apparatus of claim 9,

the room enclosure information acquired by the acquisition unit includes at least one of:

the number of layers of the building envelope contained in the current room;

the current hierarchy of the building envelope;

the material of the current building envelope;

the current thickness of the envelope;

the current height of the envelope; and

and the temperature correction coefficient corresponding to the envelope structure of the current level.

12. The apparatus of claim 11, wherein,

the processing unit is specifically configured to:

and determining each temperature correction coefficient matched with each layer of the current building envelope according to the number of layers of the building envelope contained in the current room and at least one of the material, the thickness and the height of the level of each layer of the current building envelope.

13. The device according to one of claims 8 to 12, characterized in that the device further comprises a control unit;

after the processing unit determines the target temperature of the air conditioner, the control unit is used for controlling the air conditioner to output the matched cold quantity or heat quantity according to the target temperature;

before the processing unit determines a temperature correction coefficient for correcting an outdoor ambient temperature of a room to which the air conditioner belongs, the processing unit is further specifically configured to:

judging whether the air conditioner operates for the first time; judging whether the envelope structure of the current room is changed or not;

if the air conditioner is operated for the first time, determining a temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs;

if the air conditioner does not operate for the first time and the envelope structure of the current room is not changed, reading a temperature correction coefficient stored in a data storage of the air conditioner;

and if the envelope structure of the current room is changed, re-determining the temperature correction coefficient for correcting the outdoor environment temperature of the room to which the air conditioner belongs.

14. The apparatus of claim 13, wherein before the control unit controls the air conditioner to output the matched cooling or heating amount according to the target temperature, the obtaining unit is further configured to:

acquiring air conditioning mode information selected by a user, wherein the air conditioning mode information comprises at least one of the following: a cooling mode, a heating mode;

wherein,

the control unit is specifically configured to:

if the air conditioner mode information acquired by the acquisition unit shows a refrigeration mode, controlling an air conditioner to output matched refrigeration capacity according to the target temperature;

and if the air conditioner mode information acquired by the acquisition unit shows a heating mode, controlling the air conditioner to output the matched heat according to the target temperature.

15. An air conditioning system, comprising: the air conditioning control apparatus according to any one of claims 8 to 14.

16. A storage medium having a plurality of instructions stored therein; the plurality of instructions for loading and executing the air conditioner control method according to any one of claims 1 to 6 by a processor.

17. An air conditioning control apparatus, characterized by comprising:

a processor for executing a plurality of instructions;

a memory to store a plurality of instructions;

wherein the plurality of instructions are for being stored by the memory and loaded and executed by the processor to perform the air conditioning control method of any of claims 1-7.

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