CN110243064B - Air outlet control method and device and air conditioner - Google Patents

Abstract

The invention provides an air outlet control method and device and an air conditioner, and relates to the technical field of air conditioners. The air conditioner comprises an upper air outlet arranged at the upper part of the air conditioner and a lower air outlet arranged at the lower part of the air conditioner. The air outlet control method comprises the following steps: receiving a mode instruction of an air conditioner; receiving real-time body temperature data of a user; and controlling the working states of the upper air outlet and the lower air outlet according to the mode instruction and the real-time body temperature data. The air outlet control method can control the working states of the upper air outlet and the lower air outlet according to the current working mode and the real-time body temperature data of the user in the working modes of refrigeration or heating and the like so as to meet the requirements of the user and improve the use comfort.

Description

Air outlet control method and device and air conditioner

Technical Field

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

Background

The quantity of the opened air outlets is constant, the quantity of the opened air outlets cannot be reasonably controlled according to the user requirements, and the resource allocation is unreasonable.

In order to meet the refrigerating and heating requirements of users, the conventional air conditioner is provided with a plurality of fans and a plurality of air outlets correspondingly, so that the air supply quantity is increased. The opening number of the air outlets is usually set according to the operation mode, the opening number is constant, the room temperature is controlled along with the extension of the starting time, and the air quantity required by a user is reduced along with the control, so that the requirements of the user are met, and the use comfort level is improved.

Disclosure of Invention

The invention solves the problem that the opening number of the air outlets is constant and cannot be reasonably adjusted according to the requirements of users.

In order to solve the above problems, an embodiment of the present invention provides an air outlet control method, where the air conditioner includes an upper air outlet disposed at an upper portion of the air conditioner and a lower air outlet disposed at a lower portion of the air conditioner; the air outlet control method comprises the following steps:

receiving a mode instruction of the air conditioner;

receiving real-time body temperature data of a user;

and controlling the working states of the upper air outlet and the lower air outlet according to the mode instruction and the real-time body temperature data.

The air outlet control method provided by the embodiment of the invention can control the working states of the upper air outlet and the lower air outlet according to the current working mode and the real-time body temperature data of the user in the working modes of refrigeration or heating and the like, namely, in any mode, when the air conditioner is started, the air conditioner responds to the opening and closing conditions of the upper air outlet and the lower air outlet defined by the mode, and along with the change of the real-time body temperature data of the user, the working states of the upper air outlet and the lower air outlet can be controlled, for example, in the refrigeration mode, the real-time body temperature data of the user is reduced to a certain degree, one or more of the upper air outlet and the lower air outlet can be controlled to be closed, so that the requirements of the user are met, and.

Further, the step of controlling the working states of the upper air outlet and the lower air outlet according to the mode instruction and the real-time body temperature data comprises:

when the mode instruction is a refrigeration mode and the real-time body temperature data is greater than or equal to a first preset value, controlling the upper air outlet and the lower air outlet to be opened;

and when the mode instruction is a refrigeration mode and the real-time body temperature data is greater than or equal to a second preset value and smaller than the first preset value, controlling the upper air outlet to be opened and controlling the lower air outlet to be closed.

Under the refrigeration mode, in order to reach the refrigeration effect of preferred, when real-time body temperature data is great (be greater than or equal to first default), go up the air outlet and keep opening with lower air outlet, the total air output of air conditioner is big, can cool down high-efficiently, when real-time body temperature data reduces to less (be greater than or equal to second default and be less than first default) relatively, the air outlet is closed under the control, it opens to go up the air outlet, can keep certain air output on the one hand, maintain relatively stable temperature, on the other hand, it opens to keep the air outlet, can make the cold air blow off from the top, can conveniently spread to whole space, guarantee the refrigeration effect of preferred.

Further, go up the air outlet and include first air outlet and second air outlet, according to mode instruction and real-time body temperature data control go up the air outlet with the step of the operating condition of air outlet still includes down:

and when the mode instruction is a refrigeration mode and the real-time body temperature data is smaller than the second preset value, controlling the first air outlet to be opened, and controlling the second air outlet and the lower air outlet to be closed.

The real-time body temperature data of the user are further reduced (smaller than a second preset value), the second air outlet is further closed, the air output can be reduced again, and better use experience is guaranteed.

Further, the lower air outlet includes a third air outlet and a fourth air outlet, and the step of controlling the upper air outlet to be opened and the lower air outlet to be closed includes, when the mode instruction is a refrigeration mode and the real-time body temperature data is greater than or equal to a second preset value and less than a first preset value:

when the real-time body temperature data is greater than or equal to a third preset value and smaller than a first preset value, controlling the third air outlet to be opened and controlling the fourth air outlet to be closed;

and controlling the third air outlet and the fourth air outlet to be closed under the condition that the real-time body temperature data is greater than or equal to a second preset value and smaller than a third preset value.

And the fourth air outlet and the third air outlet are closed in sequence according to the real-time body temperature data, so that the air quantity is smaller, a gradual change process is realized, the change of the body temperature of a user is adapted, and the discomfort of the user caused by sudden increase and sudden drop is avoided.

Further, the air outlet control method further comprises the following steps:

receiving a first control instruction for controlling the upper air outlet to be opened and controlling the lower air outlet to be closed;

receiving first body temperature data of a user when the first control instruction is sent;

and updating the first body temperature data to the third preset value.

In the use process of the air conditioner, the set program may not completely meet the requirements of each user, the first control instruction for controlling the upper air outlet to be opened and the lower air outlet to be closed by the user can be responded, and the first preset value is updated according to the first body temperature data of the user when the first control instruction is received, so that the memory function of the air conditioner is realized, and the requirements of different users are met as much as possible.

Further, the step of controlling the working states of the upper air outlet and the lower air outlet according to the mode instruction and the real-time body temperature data comprises:

when the mode instruction is a heating mode and the real-time body temperature data is smaller than a first adjusting value, controlling the upper air outlet and the lower air outlet to be opened;

and controlling the lower air outlet to be opened and controlling the upper air outlet to be closed when the mode instruction is a heating mode and the real-time body temperature data is greater than or equal to a first adjusting value and less than a second adjusting value.

Further, the lower air outlet includes a third air outlet and a fourth air outlet, and the step of controlling the working state of the upper air outlet and the working state of the lower air outlet according to the mode instruction and the real-time body temperature data further includes:

and when the mode instruction is a heating mode and the real-time body temperature data is greater than or equal to a second adjusting value, controlling the fourth air outlet to be opened and controlling the third air outlet and the upper air outlet to be closed.

Further, the upper air outlet includes a first air outlet and a second air outlet, and the step of controlling the lower air outlet to open and the upper air outlet to close includes, in a state where the mode command is a heating mode and the real-time body temperature data is greater than or equal to a second adjustment value and less than a first adjustment value:

when the real-time body temperature data is smaller than a third adjusting value and larger than or equal to a first adjusting value, controlling the first air outlet to be closed and controlling the second air outlet to be opened;

and controlling the first air outlet and the second air outlet to be closed under the condition that the real-time body temperature data is smaller than a second adjusting value and is larger than or equal to a third adjusting value.

Further, the air outlet control method further comprises the following steps:

receiving a second control instruction for controlling the upper air outlet to be closed and controlling the lower air outlet to be opened;

receiving second body temperature data of the user when the second control instruction is sent;

updating the second body temperature data to the third adjustment value.

Further, the air outlet control method further comprises the following steps:

receiving starting-up time length data of the air conditioner;

and controlling one air outlet of the upper air outlet and the lower air outlet to be opened and the other air outlets to be closed in the state that the starting-up time length data is greater than or equal to the preset time length.

The working states of the upper air outlet and the lower air outlet are further controlled according to the starting-up time length data of the air conditioner, so that the phenomenon that a plurality of air outlets of the air conditioner are opened for a long time to cause overlarge air volume and discomfort for a user can be prevented.

The air outlet control device provided by the embodiment of the invention is applied to an air conditioner, the air conditioner comprises an upper air outlet arranged at the upper part of the air conditioner and a lower air outlet arranged at the lower part of the air conditioner, and the air outlet control device comprises:

the first receiving module is used for receiving a mode instruction of the air conditioner;

the second receiving module is used for receiving real-time body temperature data of a user;

and the first execution module is used for controlling the working states of the upper air outlet and the lower air outlet according to the mode instruction and the real-time body temperature data.

The air outlet control device can meet the requirements of a user and improve the use comfort level by controlling the working state of the upper air outlet and the lower air outlet according to the use mode of the air conditioner and the change of real-time body temperature data of the user.

The air conditioner provided by the embodiment of the invention comprises a controller, wherein the controller is used for executing the air outlet control method. The air outlet control method comprises the following steps:

receiving a mode instruction of the air conditioner;

receiving real-time body temperature data of a user;

and controlling the working states of the upper air outlet and the lower air outlet according to the mode instruction and the real-time body temperature data.

The air conditioner provided by the embodiment of the invention can be matched with the requirements of users by controlling the working states of the upper air outlet and the lower air outlet according to the use mode of the air conditioner and the change of real-time body temperature data of the users, so that the use comfort level is high.

Drawings

Fig. 1 is a block diagram illustrating a structure of an air conditioner to which an air outlet control method and an air outlet control apparatus according to embodiments of the present invention are applied.

Fig. 2 is a flow chart of an air outlet control method according to an embodiment of the present invention.

Fig. 3 is a first flowchart of an air outlet control method in a cooling mode according to an embodiment of the present invention.

Fig. 4 is a second flow chart of the air outlet control method in the cooling mode according to the embodiment of the present invention.

Fig. 5 is a first flowchart of an air outlet control method in a heating mode according to an embodiment of the present invention.

Fig. 6 is a second flow chart of the air outlet control method in the heating mode according to the embodiment of the present invention.

Fig. 7 to 11 are block diagrams of the air outlet control device according to the embodiment of the invention.

Description of reference numerals:

100-an air conditioner; 110-upper air outlet; 112-a first air outlet; 113-a second air outlet; 120-lower air outlet; 121-a third air outlet; 122-a fourth outlet; 201-a first receiving module; 202-a second receiving module; 203-a first execution module; 204-a second execution module; 205-a third execution module; 206-a fourth execution module; 207-fifth execution module; 208-a third receiving module; 209-a fourth receiving module; 210-a first update module; 211-a sixth execution module; 212-a seventh execution module; 213-eighth execution module; 214-a ninth execution module; 215-a fifth receiving module; 216-a sixth receiving module; 217-a second update module; 218-a seventh receiving module; 219-tenth execution Module.

Detailed Description

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

Fig. 1 is a block diagram illustrating a structure of an air conditioner 100 to which an outlet control method and an outlet control apparatus (not shown) according to the present embodiment are applied. Referring to fig. 1, the present embodiment provides an air outlet control method and an air outlet control device, which are applied to an air conditioner 100 having a plurality of air outlets, and are used for controlling operating states of the plurality of air outlets of the air conditioner 100 according to user requirements.

Optionally, in this embodiment, the air conditioner 100 includes an upper outlet 110 disposed at an upper portion of the air conditioner 100 and a lower outlet 120 disposed at a lower portion of the air conditioner 100. It should be understood that the number of the upper air outlets 110 may be one, two or more, for example, the upper air outlet 110 may include a first air outlet 112 and a second air outlet 113 which are arranged above and below or side by side. Similarly, the number of the lower outlets 120 may also be one, two or more, for example, the lower outlet 120 may include a third outlet 121 and a fourth outlet 122 that are disposed above and below or side by side.

It is understood that the air conditioner 100 should further include a detecting device (not shown), which may be a temperature sensor or the like, and a controller (not shown) for detecting the real-time body temperature of the user and generating the real-time body temperature data. The controller is used for executing the air outlet control method during operation. Also, it should be understood that the controller may be provided separately or may be integrated directly into the control system of the air conditioner 100.

Fig. 2 is a flow chart of the air outlet control method according to this embodiment. Referring to fig. 2, in the present embodiment, the air outlet control method includes the following steps:

step S110: a mode command of the air conditioner 100 is received.

It is understood that the mode command of the air conditioner 100 may include a cooling mode, a heating mode, etc.

Step S120: real-time body temperature data of a user is received.

It should be noted that, when there are a plurality of users, the average value should be taken as the real-time body temperature data of the user.

Step S130: and controlling the working states of the upper air outlet 110 and the lower air outlet 120 according to the mode instruction and the real-time body temperature data.

It can be understood that, when the air conditioner 100 is just started, the air conditioner responds to the opening and closing conditions of the upper outlet 110 and the lower outlet 120 defined by the mode command, and along with the change of the real-time body temperature data of the user, one or more of the upper outlet 110 and the lower outlet 120 can be controlled to be closed by controlling the working states of the upper outlet 110 and the lower outlet 120, so as to meet the requirements of the user and improve the comfort level of use. Hereinafter, the method will be further described in two modes, i.e., a cooling mode and a heating mode.

It should be understood that, in this embodiment, the sequence numbers in step S110 and step S120 should be used only for distinguishing, and do not represent the sequence.

First, refrigeration mode

Fig. 3 is a first flow chart of the air outlet control method in the cooling mode according to this embodiment. It should be noted that, in the method, the upper air outlet 110 includes a first air outlet 112 and a second air outlet 113 which are arranged up and down, and the lower air outlet 120 includes a third air outlet 121 and a fourth air outlet 122 which are arranged up and down. Referring to fig. 3, the air outlet control method includes:

step S131: and controlling the first air outlet 112, the second air outlet 113, the third air outlet 121 and the fourth air outlet 122 to be opened in the state that the real-time body temperature data is greater than or equal to the first preset value.

Step S132: and controlling the first air outlet 112, the second air outlet 113 and the third air outlet 121 to be opened and the fourth air outlet 122 to be closed in the state that the real-time body temperature data is greater than or equal to the third preset value and less than the first preset value.

Step S133: and controlling the first air outlet 112 and the second air outlet 113 to be opened, and the third air outlet 121 and the fourth air outlet 122 to be closed in the state that the real-time body temperature data is greater than or equal to the second preset value and less than the third preset value.

Step S134: and under the condition that the real-time body temperature data is smaller than the second preset value, controlling the first air outlet 112 to be opened, and closing the second air outlet 113, the third air outlet 121 and the fourth air outlet 122.

It can be understood that, the first air outlet 112, the second air outlet 113, the third air outlet 121 and the fourth air outlet 122 are arranged from top to bottom in the position relationship, and along with the process that the real-time body temperature data gradually decreases from being greater than or equal to the first preset value to being less than the second preset value, the air outlets are closed in the sequence from bottom to top.

It should be understood that, in a state where the first outlet 112 and the second outlet 113 are arranged side by side, or the third outlet 121 and the fourth outlet 122 are arranged side by side, the closing sequence of the first outlet 112 and the second outlet 113, and the closing sequence of the third outlet 121 and the fourth outlet 122 should not be limited. Also, when the number of the upper outlet 110 and the lower outlet 120 is plural, the closing step may be performed according to the above-described manner.

Optionally, the air outlet control method may include:

controlling the upper air outlet 110 and the lower air outlet 120 to be opened in the state that the real-time body temperature data is greater than or equal to the first preset value;

and controlling the upper air outlet 110 to be opened and the lower air outlet 120 to be closed in the state that the real-time body temperature data is greater than or equal to the second preset value and smaller than the first preset value.

That is, for the closing of the upper outlet 110 and the lower outlet 120, the principle of closing the lower outlet 120 first as the real-time body temperature data decreases should be followed. Fig. 4 is a second flow chart of the air outlet control method in the cooling mode according to this embodiment. Referring to fig. 4, in order to implement the memory function of the air conditioner 100, the air outlet control method may further include the following steps:

step S140: receive a first control command for controlling the opening of the upper outlet 110 and the closing of the lower outlet 120.

It is understood that, during the use of the air conditioner 100, the set program may not completely meet the requirement of each user, for example, the set temperature is too low, and the user may generate a first control command by using a remote controller or pressing a key on the air conditioner 100, where the first control command is a command for controlling the upper outlet 110 to open and the lower outlet 120 to close. The air conditioner 100 receives the first control command to implement a memory function.

Step S150: and receiving first body temperature data of a user when the first control instruction is sent.

Step S160: and updating the first body temperature data to a third preset value.

It can be understood that the first preset value is updated according to the first body temperature data of the user when the first control instruction is received, so that the requirements of different users can be adapted as much as possible.

It can also be understood that, when a plurality of air outlets are provided, second body temperature data of the user when the second control instruction is sent can also be received. The second control instruction is an instruction for executing step S132, and may update the second body temperature data to the first preset value. Third body temperature data of the user when the third control instruction is issued may also be received. The third control instruction is an instruction for executing step S134, and may update the third body temperature data to the second preset value.

That is to say, according to the body temperature data that the fan demand corresponds is closed to the user, can update corresponding preset value in real time in order to adapt to user's demand.

Heating mode

Fig. 5 is a first flow chart of the air outlet control method in the heating mode according to this embodiment. It should be noted that, in the method, the upper air outlet 110 includes a first air outlet 112 and a second air outlet 113 which are arranged up and down, and the lower air outlet 120 includes a third air outlet 121 and a fourth air outlet 122 which are arranged up and down. Referring to fig. 5, the air outlet control method includes:

step S231: and controlling the first air outlet 112, the second air outlet 113, the third air outlet 121 and the fourth air outlet 122 to be opened under the condition that the real-time body temperature data is smaller than the first adjusting value.

Step S232: and under the condition that the real-time body temperature data is smaller than the third adjusting value and larger than or equal to the first adjusting value, the first air outlet 112 is controlled to be closed, the second air outlet 113 and the third air outlet 121 are controlled to be opened, and the fourth air outlet 122 is controlled to be opened.

Step S233: and under the condition that the real-time body temperature data is smaller than the second adjusting value and larger than or equal to the third adjusting value, the first air outlet 112 and the second air outlet 113 are controlled to be closed, and the third air outlet 121 and the fourth air outlet 122 are controlled to be opened.

Step S234: and under the condition that the real-time body temperature data is greater than or equal to the second adjusting value, the first air outlet 112, the second air outlet 113 and the third air outlet 121 are controlled to be closed, and the fourth air outlet 122 is controlled to be opened.

It can also be understood that, in the above-mentioned manner, the first air outlet 112, the second air outlet 113, the third air outlet 121, and the fourth air outlet 122 are arranged from top to bottom in the positional relationship, and as the real-time body temperature data gradually increases from a temperature lower than the first preset value to a temperature greater than or equal to the second preset value, the plurality of air outlets are closed in an order from top to bottom.

It should be understood that, in a state where the first outlet 112 and the second outlet 113 are arranged side by side, or the third outlet 121 and the fourth outlet 122 are arranged side by side, the closing sequence of the first outlet 112 and the second outlet 113, and the closing sequence of the third outlet 121 and the fourth outlet 122 should not be limited. Also, when the number of the upper outlet 110 and the lower outlet 120 is plural, the closing step may be performed according to the above-described manner.

Optionally, the air outlet control method may include:

controlling the upper air outlet 110 and the lower air outlet 120 to be opened in the state that the real-time body temperature data is smaller than the first adjusting value;

and controlling the lower air outlet 120 to be opened and controlling the upper air outlet 110 to be closed in the state that the real-time body temperature data is greater than or equal to the first adjusting value and less than the second adjusting value.

That is, for the closing of the upper outlet 110 and the lower outlet 120, the principle of closing the upper outlet 110 first with the rise of the real-time body temperature data should be followed.

Fig. 6 is a second flow chart of the air outlet control method in the heating mode according to the embodiment. Referring to fig. 6, similarly, in order to implement the memory function of the air conditioner 100, the air outlet control method may further include the following steps:

step S240: receiving a second control instruction for controlling the upper air outlet 110 to be closed and controlling the lower air outlet 120 to be opened;

step S250: receiving second body temperature data of the user when a second control instruction is sent;

step S260: the second body temperature data is updated to a third adjustment value.

The operation principle of the memory function in the heating mode is the same as that in the cooling mode, and when the set temperature is too high, the user may generate a second control instruction by using a remote controller or pressing a key on the air conditioner 100, where the second control instruction is an instruction for controlling the lower air outlet 120 to be opened and controlling the upper air outlet 110 to be closed.

With reference to fig. 2, it should be noted that, in order to improve the comfort of use, the air outlet control method may further include the following steps:

step S170: the on-time period data of the air conditioner 100 is received.

Step S180: and controlling one of the upper air outlet 110 and the lower air outlet 120 to be opened and the other air outlets to be closed in the state that the startup duration data is greater than or equal to the preset duration.

It should be noted that, in the cooling mode, one outlet of the upper outlet 110 is controlled to be opened, and the other outlets and the lower outlet 120 are all closed, and in the heating mode, one outlet of the lower outlet 120 is controlled to be opened, and the other outlets and the upper outlet 110 are all closed. This way, the air conditioner 100 can enter a mode of lower air output after running for a long enough time, for example, one hour, and the comfort of use is improved.

Fig. 7 to 11 are block diagrams illustrating the structure of the outlet control device according to this embodiment. Referring to fig. 1 to 11, the air outlet control device provided in this embodiment includes the following structure:

the first receiving module 201 is configured to receive a mode command of the air conditioner 100, and in this embodiment, the step S110 is executed by the first receiving module 201.

The second receiving module 202 is configured to receive real-time body temperature data of the user, in this embodiment, the step S120 is executed by the second receiving module 202.

The first executing module 203 is configured to control working states of the upper outlet 110 and the lower outlet 120 according to the mode instruction and the real-time body temperature data, in this embodiment, step S130 is executed by the first executing module 203.

The second executing module 204 is configured to control the first air outlet 112, the second air outlet 113, the third air outlet 121, and the fourth air outlet 122 to open in a state that the real-time body temperature data is greater than or equal to the first preset value, in this embodiment, the step S131 is executed by the second executing module 204.

The third executing module 205 is configured to control the first air outlet 112, the second air outlet 113, and the third air outlet 121 to open and the fourth air outlet 122 to close in a state that the real-time body temperature data is greater than or equal to a third preset value and smaller than the first preset value, in this embodiment, the step S132 is executed by the third executing module 205.

The fourth executing module 206 is configured to control the first air outlet 112 and the second air outlet 113 to open, and the third air outlet 121 and the fourth air outlet 122 to close, when the real-time body temperature data is greater than or equal to the second preset value and less than the third preset value, in this embodiment, the step S133 is executed by the fourth executing module 206.

The fifth executing module 207 is configured to control the first air outlet 112 to open, and the second air outlet 113, the third air outlet 121, and the fourth air outlet 122 to close in a state that the real-time body temperature data is smaller than the second preset value, in this embodiment, the step S134 is executed by the fifth executing module 207.

The third receiving module 208 is configured to receive a first control instruction for controlling the upper outlet 110 to open and the lower outlet 120 to close, in this embodiment, the step S140 is executed by the third receiving module 208.

A fourth receiving module 209, configured to receive the first body temperature data of the user when the first control instruction is sent, in this embodiment, step S150 is executed by the fourth receiving module 209.

The first updating module 210 is configured to update the first body temperature data to a third preset value, in this embodiment, the step S160 is executed by the first updating module 210.

The sixth executing module 211 is configured to control the first air outlet 112, the second air outlet 113, the third air outlet 121, and the fourth air outlet 122 to open in a state that the real-time body temperature data is smaller than the first preset value, in this embodiment, the step S231 is executed by the sixth executing module 211.

The seventh executing module 212 is configured to control the first air outlet 112 to be closed, the second air outlet 113 and the third air outlet 121 to be opened, and the fourth air outlet 122 to be opened, when the real-time body temperature data is less than the third preset value and greater than or equal to the first preset value, in this embodiment, the step S232 is executed by the seventh executing module 212.

The eighth executing module 213 is configured to control the first air outlet 112 and the second air outlet 113 to close and the third air outlet 121 and the fourth air outlet 122 to open in a state that the real-time body temperature data is less than the second preset value and greater than or equal to the third preset value, in this embodiment, step S233 is executed by the eighth executing module 213.

The ninth executing module 214 is configured to control the first outlet 112, the second outlet 113, and the third outlet 121 to close and the fourth outlet 122 to open in a state that the real-time body temperature data is greater than or equal to the second preset value, in this embodiment, the step S234 is executed by the ninth executing module 214.

The fifth receiving module 215 is configured to receive a second control instruction for controlling the upper outlet 110 to close and controlling the lower outlet 120 to open. In this embodiment, step S240 is executed by the fifth receiving module 215.

A sixth receiving module 216, configured to receive second body temperature data of the user when the second control instruction is issued. In this embodiment, step S250 is executed by the sixth receiving module 216.

A second updating module 217 for updating the second body temperature data to a third adjustment value. In this embodiment, step S260 is executed by the second updating module 217.

The seventh receiving module 218 is configured to receive the startup duration data of the air conditioner 100. In this embodiment, step S170 is executed by the seventh receiving module 218.

The tenth executing module 219 is configured to control one of the upper air outlet 110 and the lower air outlet 120 to be opened and the other air outlets to be closed when the startup duration data is greater than or equal to the preset duration. In this embodiment, step S180 is executed by the tenth receiving module.

It can be understood that, in the working modes of cooling or heating, the air outlet control method provided in this embodiment may control the working states of the upper air outlet 110 and the lower air outlet 120 according to the current working mode and the real-time body temperature data of the user, that is, in any mode, when the air conditioner 100 is just started, the air conditioner 100 responds to the opening and closing conditions of the upper air outlet 110 and the lower air outlet 120 defined by the mode, and along with the change of the real-time body temperature data of the user, the working states of the upper air outlet 110 and the lower air outlet 120 may be controlled, for example, in the cooling mode, the real-time body temperature data of the user has been reduced to a certain degree, and one or more of the upper air outlet 110 and the lower air outlet 120 may be controlled to be closed, so as to meet the needs of.

The air outlet control device provided in this embodiment can meet the requirements of the user by controlling the operating states of the upper air outlet 110 and the lower air outlet 120 according to the usage mode of the air conditioner 100 and the change of the real-time body temperature data of the user, thereby improving the comfort level of use.

The air conditioner 100 provided in this embodiment can meet the requirements of the user by controlling the operating states of the upper outlet 110 and the lower outlet 120 according to the usage mode of the air conditioner 100 and the change of the real-time body temperature data of the user, so that the use comfort level is high.

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

Claims (8)

1. An air outlet control method is applied to an air conditioner (100), and is characterized in that the air conditioner (100) comprises an upper air outlet (110) arranged at the upper part of the air conditioner (100) and a lower air outlet (120) arranged at the lower part of the air conditioner (100), and the lower air outlet (120) comprises a third air outlet (121) and a fourth air outlet (122); the air outlet control method comprises the following steps:

receiving a mode command of the air conditioner (100);

receiving real-time body temperature data of a user;

controlling the working states of the upper air outlet (110) and the lower air outlet (120) according to the mode instruction and the real-time body temperature data, and the method comprises the following steps: when the mode instruction is a refrigeration mode and the real-time body temperature data is greater than or equal to a first preset value, controlling the upper air outlet (110) and the lower air outlet (120) to be opened; when the mode instruction is a refrigeration mode and the real-time body temperature data is greater than or equal to a second preset value and smaller than the first preset value, controlling the upper air outlet (110) to be opened and controlling the lower air outlet (120) to be closed;

wherein, the step of controlling the upper air outlet (110) to be opened and the lower air outlet (120) to be closed in the state that the mode instruction is a refrigeration mode and the real-time body temperature data is greater than or equal to a second preset value and less than the first preset value comprises the following steps: when the real-time body temperature data is larger than or equal to a third preset value and smaller than a first preset value, controlling the third air outlet (121) to be opened, and controlling the fourth air outlet (122) to be closed; controlling the third air outlet (121) and the fourth air outlet (122) to be closed under the condition that the real-time body temperature data is greater than or equal to a second preset value and smaller than a third preset value; further comprising: receiving a first control instruction for controlling the upper air outlet (110) to be opened and controlling the lower air outlet (120) to be closed; receiving first body temperature data of a user when the first control instruction is sent; updating the first body temperature data to the third preset value;

receiving start-up time length data of the air conditioner (100);

and controlling one of the upper air outlet (110) and the lower air outlet (120) to be opened and the other air outlets to be closed in the state that the starting-up time length data is greater than or equal to the preset time length.

2. The outlet control method according to claim 1, wherein the upper outlet (110) includes a first outlet (112) and a second outlet (113), and the step of controlling the operating states of the upper outlet (110) and the lower outlet (120) according to the mode command and the real-time body temperature data further includes:

and when the mode instruction is a refrigeration mode and the real-time body temperature data is smaller than the second preset value, controlling the first air outlet (112) to be opened, and controlling the second air outlet (113) and the lower air outlet (120) to be closed.

3. The outlet control method according to claim 1, wherein the step of controlling the working states of the upper outlet (110) and the lower outlet (120) according to the mode command and the real-time body temperature data comprises:

when the mode instruction is a heating mode and the real-time body temperature data is smaller than a first adjusting value, the upper air outlet (110) and the lower air outlet (120) are controlled to be opened;

and controlling the lower air outlet (120) to be opened and controlling the upper air outlet (110) to be closed when the mode instruction is a heating mode and the real-time body temperature data is greater than or equal to a first adjusting value and less than a second adjusting value.

4. The outlet control method according to claim 3, wherein the lower outlet (120) includes a third outlet (121) and a fourth outlet (122), and the step of controlling the working states of the upper outlet (110) and the lower outlet (120) according to the mode command and the real-time body temperature data further includes:

and when the mode instruction is a heating mode and the real-time body temperature data is greater than or equal to a second adjusting value, controlling the fourth air outlet (122) to be opened, and controlling the third air outlet (121) and the upper air outlet (110) to be closed.

5. The air outlet control method according to claim 3, wherein the upper air outlet (110) includes a first air outlet (112) and a second air outlet (113), and the step of controlling the lower air outlet (120) to open and the step of controlling the upper air outlet (110) to close in a state that the mode command is a heating mode and the real-time body temperature data is greater than or equal to a second adjustment value and less than a first adjustment value includes:

when the real-time body temperature data is smaller than a third adjusting value and larger than or equal to a first adjusting value, controlling the first air outlet (112) to be closed, and controlling the second air outlet (113) to be opened;

and controlling the first air outlet (112) and the second air outlet (113) to be closed under the condition that the real-time body temperature data is smaller than a second adjusting value and is larger than or equal to a third adjusting value.

6. The air outlet control method according to claim 5, further comprising:

receiving a second control instruction for controlling the upper air outlet (110) to be closed and controlling the lower air outlet (120) to be opened;

receiving second body temperature data of the user when the second control instruction is sent;

updating the second body temperature data to the third adjustment value.

7. An air outlet control device is applied to an air conditioner (100), the air conditioner (100) comprises an upper air outlet (110) arranged at the upper part of the air conditioner (100) and a lower air outlet (120) arranged at the lower part of the air conditioner (100), the lower air outlet (120) comprises a third air outlet (121) and a fourth air outlet (122), and the air outlet control device (200) is characterized by comprising:

a first receiving module (201) for receiving a mode command of the air conditioner (100);

a second receiving module (202) for receiving real-time body temperature data of a user;

the first execution module (203) is used for controlling the working states of the upper air outlet (110) and the lower air outlet (120) according to the mode instruction and the real-time body temperature data;

the second execution module (204) is configured to control the upper air outlet (110), the third air outlet (121) and the fourth air outlet (122) to be opened when the mode instruction is a refrigeration mode and the real-time body temperature data is greater than or equal to a first preset value;

a third execution module (205) configured to control the upper air outlet (110) and the third air outlet (121) to be opened, and the fourth air outlet (122) to be closed, when the mode instruction is a cooling mode and the real-time body temperature data is greater than or equal to a third preset value and smaller than the first preset value;

a fourth execution module (206) configured to control the upper air outlet (110) to be opened, and the third air outlet (121) and the fourth air outlet (122) to be closed, when the mode instruction is a cooling mode and the real-time body temperature data is greater than or equal to a second preset value and smaller than a third preset value;

the third receiving module (208) is used for receiving a first control instruction for controlling the upper air outlet (110) to be opened and controlling the lower air outlet (120) to be closed when the mode instruction is in a refrigeration mode;

a fourth receiving module (209) for receiving first body temperature data of a user when the first control instruction is sent out in a state that the mode instruction is in a cooling mode;

the first updating module (210) is used for updating the first body temperature data to the third preset value when the mode instruction is in a refrigeration mode;

a seventh receiving module (218) for receiving the startup duration data of the air conditioner (100);

and the tenth execution module (219) is configured to control one of the upper air outlet (110) and the lower air outlet (120) to be opened and the other air outlets to be closed when the startup duration data is greater than or equal to a preset duration.

8. An air conditioner, characterized by comprising a controller for executing the outlet control method according to any one of claims 1 to 6.

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