CN108195042B - Air conditioner control method, device and computer readable storage medium - Google Patents

Abstract

The invention discloses an air conditioner control method, an air conditioner control device and a computer readable storage medium, wherein the air conditioner control method comprises the following steps: when the air conditioner is in a refrigeration mode and the cold and hot feeling function is started, acquiring a cold and hot feeling value, and controlling the air conditioner according to a control logic corresponding to the cold and hot feeling value; and when detecting that the newly acquired cold and hot sensing value is in a preset interval, starting the non-wind-sensing function, and controlling the air conditioner according to the control logic of the non-wind-sensing function. According to the invention, when the cold and hot feeling value is detected to be in the preset interval, the no-wind feeling function is started, and the air conditioner is controlled according to the control logic of the no-wind feeling function, so that the occurrence of the blowing feeling phenomenon is avoided, the actual requirements of users are met, and the user experience is better.

Description

Air conditioner control method, device and computer readable storage medium

Technical Field

The present invention relates to the field of air conditioners, and in particular, to a method and an apparatus for controlling an air conditioner, and a computer-readable storage medium.

Background

The air conditioner has the functions of refrigeration and heating, and can regulate and control the temperature in the use environment according to the user requirements, so that the user can obtain comfortable experience. Due to the above advantages, air conditioners have been popularized to thousands of households.

With the use of air conditioners by users, the requirements of users on air conditioners are increasing. When a user feels a cold condition in the process of using an air conditioner for refrigeration, the user may obviously feel that the air is blown on the body of the user, namely, the phenomenon of blowing feeling occurs for the air discharged from the air conditioner.

The existing no-wind-sensation function is to judge whether to enter/exit the no-wind-sensation function according to the temperature and the humidity in the current environment, when the temperature and the humidity in the current environment meet the no-wind-sensation condition, a user may still feel hot actually, and does not want to start the no-wind-sensation function, and at the moment, the no-wind-sensation function is started, so that the cooling effect is reduced, and the user experience is poor.

Disclosure of Invention

The invention mainly aims to provide an air conditioner control method, an air conditioner control device and a computer readable storage medium, and aims to solve the technical problem that the starting condition of a no-wind-sense function in the prior art does not meet the actual requirement of a user.

In order to achieve the above object, the present invention provides an air conditioner control method, including:

when the air conditioner is in a refrigeration mode and the cold and hot feeling function is started, acquiring a cold and hot feeling value, and controlling the air conditioner according to a control logic corresponding to the cold and hot feeling value;

and when detecting that the newly acquired cold and hot sensing value is in a preset interval, starting the non-wind-sensing function, and controlling the air conditioner according to the control logic of the non-wind-sensing function.

Optionally, when it is detected that the newly acquired cold and hot sensing value is in the preset interval, the starting of the non-wind sensing function includes:

when the newly acquired cold and heat feeling value is detected to be in a preset interval, acquiring the execution time of the control logic corresponding to the previous cold and heat feeling value, and acquiring the interval holding time corresponding to the previous cold and heat feeling value;

detecting whether the execution time is greater than or equal to the interval holding time;

if the execution time is greater than or equal to the interval holding time, starting a no-wind-sense function;

and if the execution time is less than the interval holding time, continuing to control the air conditioner according to the control logic corresponding to the previous cold and hot feeling value until the execution time is detected to be greater than or equal to the interval holding time, and starting the no-wind feeling function.

Optionally, when it is detected that the newly acquired cold and hot sensing value is in the preset interval, the starting of the no-wind-sensing function, and controlling the air conditioner according to the control logic of the no-wind-sensing function includes:

and when the condition of exiting the no-wind-sense function is detected to be met, exiting the no-wind-sense function.

Optionally, when it is detected that a condition for exiting the non-wind-sensing function is satisfied, exiting the non-wind-sensing function includes:

and when the subsequently acquired cold and hot feeling value is not in the preset interval, exiting from the no-wind-feeling function.

Optionally, when it is detected that the subsequently acquired cold and hot feeling value is not in the preset interval, the method, after exiting the no-wind-feeling function, includes:

and controlling the air conditioner according to the control logic corresponding to the subsequently acquired cold and hot feeling value.

Optionally, when the air conditioner is in the cooling mode and the cold and hot feeling function is turned on, obtaining the cold and hot feeling value includes:

when the air conditioner is in a refrigeration mode and the cold and hot feeling function is started, acquiring a radiation temperature value and a human body surface temperature value in the running environment of the air conditioner;

and determining a cold-heat sensing value according to the radiation temperature value and the human body surface temperature value.

Further, to achieve the above object, the present invention also provides an air conditioner control device including: the air conditioner control method comprises a memory, a processor and an air conditioner control program stored on the memory and capable of running on the processor, wherein the air conditioner control program realizes the steps of the air conditioner control method when being executed by the processor.

Further, to achieve the above object, the present invention also provides a computer-readable storage medium having stored thereon an air conditioner control program which, when executed by a processor, implements the steps of the air conditioner control method as described above.

According to the invention, when the air conditioner is in a refrigeration mode and the cold and hot feeling function is started, the cold and hot feeling value is acquired, the air conditioner is controlled according to the control logic corresponding to the cold and hot feeling value, and when the subsequently acquired cold and hot feeling value is in a preset interval, the non-wind feeling function is started, and the air conditioner is controlled according to the control logic of the non-wind feeling function. According to the invention, when the cold and heat sensing value is detected to be in the preset interval, the no-wind-sense function is started, and the air conditioner is controlled according to the control logic of the no-wind-sense function, namely when the cold and heat sensing value is detected to be in the preset interval, the no-wind-sense function is started, so that the occurrence of a blowing sense phenomenon is avoided, the actual requirements of a user are met, and the user experience is better.

Drawings

Fig. 1 is a schematic structural diagram of an air conditioner control device in a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart illustrating a control method of an air conditioner according to a first embodiment of the present invention;

fig. 3 is a schematic thermal image of an object scanned by an infrared array sensor in an embodiment of the air conditioner control method according to the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, fig. 1 is a schematic structural diagram of an air conditioner control device in a hardware operating environment according to an embodiment of the present invention.

As shown in fig. 1, the air conditioner control device may include: a processor 1001, such as a CPU, a network interface 1004, a user interface 1003, a memory 1005, a communication bus 1002. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the configuration of the air conditioner control device shown in fig. 1 does not constitute a limitation of the air conditioner control device and may include more or fewer components than shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, a memory 1005, which is a kind of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and an air conditioner control program.

In the terminal shown in fig. 1, the network interface 1004 is mainly used for connecting to a backend server and performing data communication with the backend server; the user interface 1003 is mainly used for connecting a client (user side) and performing data communication with the client; and the processor 1001 may be configured to call the air conditioner control program stored in the memory 1005 and perform the following operations:

when the air conditioner is in a refrigeration mode and the cold and hot feeling function is started, acquiring a cold and hot feeling value, and controlling the air conditioner according to a control logic corresponding to the cold and hot feeling value;

and when detecting that the newly acquired cold and hot sensing value is in a preset interval, starting the non-wind-sensing function, and controlling the air conditioner according to the control logic of the non-wind-sensing function.

Further, when detecting that the newly acquired cold and hot feeling value is in a preset interval, the starting of the no-wind feeling function includes:

when the newly acquired cold and heat feeling value is detected to be in a preset interval, acquiring the execution time of the control logic corresponding to the previous cold and heat feeling value, and acquiring the interval holding time corresponding to the previous cold and heat feeling value;

detecting whether the execution time is greater than or equal to the interval holding time;

if the execution time is greater than or equal to the interval holding time, starting a no-wind-sense function;

and if the execution time is less than the interval holding time, continuing to control the air conditioner according to the control logic corresponding to the previous cold and hot feeling value until the execution time is detected to be greater than or equal to the interval holding time, and starting the no-wind feeling function.

Further, when it is detected that the newly acquired cold and hot feeling value is in the preset interval, the starting of the no-wind feeling function and the controlling of the air conditioner according to the control logic of the no-wind feeling function include:

and when the condition of exiting the no-wind-sense function is detected to be met, exiting the no-wind-sense function.

Further, when it is detected that the condition for exiting the non-wind-sensing function is satisfied, exiting the non-wind-sensing function includes:

and when the subsequently acquired cold and hot feeling value is not in the preset interval, exiting from the no-wind-feeling function.

Further, when it is detected that the subsequently acquired cold and hot feeling value is not in the preset interval, the method, after exiting the no-wind-feeling function, includes:

and controlling the air conditioner according to the control logic corresponding to the subsequently acquired cold and hot feeling value.

Further, when the air conditioner is in the cooling mode and the thermal sensation function is turned on, acquiring the thermal sensation value includes:

when the air conditioner is in a refrigeration mode and the cold and hot feeling function is started, acquiring a radiation temperature value and a human body surface temperature value in the running environment of the air conditioner;

and determining a cold-heat sensing value according to the radiation temperature value and the human body surface temperature value.

Referring to fig. 2, fig. 2 is a flowchart illustrating a control method of an air conditioner according to a first embodiment of the present invention.

In one embodiment, an air conditioner control method includes:

step S10, when the air conditioner is in a refrigeration mode and the cold and hot feeling function is started, obtaining a cold and hot feeling value, and controlling the air conditioner according to the control logic corresponding to the cold and hot feeling value;

in this embodiment, the method for the air conditioner to enter the thermal sensation mode includes: a. when a starting signal of a cold and hot feeling mode is detected in the refrigeration mode, keeping the current refrigeration mode unchanged, and entering the cold and hot feeling mode; b. and when the starting signal of the cold and heat feeling mode is detected in the heating mode, keeping the current heating mode unchanged, and entering the cold and heat feeling mode. In this embodiment, the start signal of the thermal sensation mode may be triggered by a preset key of the remote controller, such as a thermal sensation key, when receiving a touch operation. When entering the cold and hot feeling mode, the air conditioner obtains a cold and hot feeling value corresponding to the current set temperature, in this embodiment, the obtaining manner of the cold and hot feeling value includes:

step 1, acquiring a radiation temperature value in a room and a temperature value of a human body surface;

the temperature of the human body surface is the temperature value of the human body surface, and the radiation temperature is the temperature of the radiation effect of the surface around the environment on the human body. Taking a person in a room as an example, the radiation temperature is a temperature value of the surrounding environment in the room, such as surrounding walls, windows and the like, which have a radiation effect on the human body, and the two temperature values can be obtained by measuring and reading the temperature values by a sensor having a function of measuring a thermal image, for example, the array type infrared sensor module, and the thermal image can be obtained when the infrared sensor scans the human body or the surrounding environment. Referring to fig. 3, fig. 3 is a schematic thermal image of an object scanned by an infrared array sensor according to an embodiment of the air conditioner control method of the present invention. As shown in fig. 3, the thermal image may obtain the temperature value of each small area, i.e. one of the pixels, by arranging the thermal image in an array, and the color shade of each pixel as shown in fig. 3 represents the difference of the temperature values, and may read the specific temperature value of each pixel. When the thermal infrared sensor scans a human body, a thermal image of a certain area can be obtained, because the temperatures of all the parts on the surface of the human body are different, the corresponding thermal images are also different, and therefore the temperature of the surface of the human body can be measured by measuring the temperature points of all the pixels of the thermal image corresponding to the human body and obtaining the average value, namely the average temperature value of the surface of the human body represents the surface temperature value of the human body. The radiation temperature in the room is measured by scanning a thermal image formed by surrounding areas such as walls, ceilings and windows in the room through an infrared sensor, removing a part of the thermal image where a human body is located, reading temperature values of all pixels of the remaining part of the thermal image, and then averaging to obtain a radiation temperature value in the room, namely, the average radiation temperature value in the room represents the radiation temperature value in the room.

Step 2, obtaining the heat dissipation capacity of the human body according to the difference value of the surface temperature value of the human body and the radiation temperature value in the room;

according to the first law of thermodynamics, the heat dissipation generated by the human body is basically equal to the heat consumed by the human body, so that the heat dissipation of the human body can be obtained by measuring the heat consumed by the human body, and the heat consumed by the human body can be calculated by the following formula: h ═ Φ (Tcl-Ta), where H is the heat dissipation capacity of the human body, Tcl is the temperature value of the human body surface, Ta is the radiation temperature value, Φ is the additional calculation coefficient, these calculation coefficients are some common calculation coefficients in the field of human body thermal comfort research, for example, considering the effective radiation area coefficient f _ eff of the surrounding environment, the human body area coefficient f _ cl of the wearing garment, Φ ═ f _ eff _ cl, at this time H ═ f _ eff _ cl (Tcl-Ta), the heat dissipation capacity H of the human body is obtained by calculating the difference between the temperature value Tcl of the human body surface and the radiation temperature Ta and combining the calculation coefficient Φ. Of course, the values of the temperature value Tcl and the temperature value Ta may also be taken in advance according to the mapping relationship between the temperature value Tcl and the radiation temperature value Ta on the surface of the human body and the heat dissipation capacity of the human body, and the heat dissipation capacity of the human body corresponding to the temperature value Tcl and the temperature value Ta is set to form a mapping table. When the temperature value Tcl and the radiation temperature value Ta of the human body surface are obtained, the corresponding human body heat dissipation capacity can be obtained by looking up the table.

And 3, obtaining the cold and hot feeling value of the human body according to the heat dissipation capacity of the human body.

Because the value of the human body's cold and heat feeling is related to the heat consumed by the human body, and the heat consumed by the human body is equal to the heat dissipated by the human body, the state of the human body's cold and heat feeling is reflected by the magnitude of the heat dissipated by the human body, the experience test is performed on the cold and heat feelings of different users in the earlier-stage air conditioner development process, and the relational expression between the value of the human body's cold and heat feeling and the value of the heat dissipated by the different users can be obtained by the fitting formula, for example, the relational expression between the value of the cold and heat feeling state M and the value: m ═ a0+ a1H + a2H2+ a3H3+ …. + anHn, where a0, a1, a2, a3, an are different calculated coefficient values obtained from experiments, N is a positive value, and the value of N is determined according to a fitting formula formed between specific H and M data sets, and if N can be 4. Through the relational expression between the human body cold and heat feeling value M and the heat dissipation capacity H in the formula, after the heat dissipation capacity H of the human body is obtained through calculation, the human body cold and heat feeling value M is obtained by substituting the formula. It should be noted that the fitting formula is only used to illustrate that a certain relationship exists between the human body cold and heat feeling value and the heat dissipating capacity, and the scope of the present invention is not limited, and other fitting formulas can be obtained by fitting the H and M data sets according to other fitting methods in the early experimental process. According to the formula, the cold and heat feeling value of the human body can be calculated.

In this embodiment, a plurality of thermal zones are established in advance, and each thermal zone corresponds to a thermal value, wherein the corresponding relationship between the thermal zone and the thermal value includes two types: 1. one cold and heat feeling interval corresponds to one cold and heat feeling value; 2. one cold-heat feeling interval corresponds to one cold-heat feeling range value. In this embodiment, it is preferable that one cooling area corresponds to one cooling range value, and the number of the cooling areas is not limited, and the number of the cooling areas can be set according to specific situations.

In this embodiment, in order to better understand the whole scheme, 8 thermal sensation intervals are taken as an example for detailed description. The correspondence between the thermal sensation interval and the thermal sensation range value can be referred to table 1:

TABLE 1 corresponding relationship between the cooling and heating intervals and the cooling and heating range values

Cold and heat feeling	Interval of cold and heat feeling	Thermal comfort	Interval holding time X(s)
				-3≤M＜-2	Interval 1	Cold	60
-2＜M≤-1	Interval 2	Is somewhat cooled	90
				-1＜M≤-0.5	Interval 3	Cool down	180
-0.5＜M＜0	Interval 4	Comfort (cool)	180
				0≤M≤0.5	Interval 5	Comfort (somewhat warm)	180
0.5＜M≤1	Interval 6	Heating device	180
				1＜M≤2	Interval 7	Is a little bit hot	90
2＜M≤3	Interval 8	Heat generation	30

In this embodiment, the reason why the user turns on the cooling mode and the thermal sensation function of the air conditioner is that the user feels hot and needs to lower the temperature, and thus the first obtained thermal sensation value is in the interval 5 to 8. For example, if the first acquired cooling/heating sensation value is 1.2, the section corresponding to the cooling/heating sensation value is a section 7, and the control logic corresponding to the acquired section 7 controls the air conditioner.

And step S20, when detecting that the newly acquired cold and hot sensing value is in a preset interval, starting a no-wind sensing function, and controlling the air conditioner according to the control logic of the no-wind sensing function.

In this embodiment, it may be set that the cold and hot feeling value is obtained once every preset time (for example, set to 10 minutes, specifically set according to actual needs), and when the cold and hot feeling value is obtained for the first time, that is, when the cooling mode and the cold and hot feeling function of the air conditioner are turned on by the user, for example, the time for obtaining the cold and hot feeling value for the first time is 10:00, the time for obtaining the cold and hot feeling value for the second time is 10:10, the time for obtaining the cold and hot feeling value for the third time is 10:20, the time for obtaining the cold and hot feeling value for the fourth time is 10. In this embodiment, since the user body surface temperature value needs to be acquired to acquire the cold and hot feeling value, if the user body surface temperature value is not acquired when the acquisition time is, for example, 10:10, the subsequently acquired cold and hot feeling value is used as the cold and hot feeling value acquired for the second time.

In this embodiment, the preset interval is an interval 1 to an interval 4, that is, the value range of the preset interval is-3 or more and M is less than 0. Because the cold and hot feeling value obtained for the first time is in the interval 5-8, when the cold and hot feeling value obtained for the second time is still in the interval 5-8, the corresponding control logic is obtained according to the interval corresponding to the cold and hot feeling value obtained for the second time, when the cold and hot feeling value obtained for the third time is in the interval 1-4, the hot feeling of the user is changed from one feeling of comfort (warm with some), warm with some heat or hot to one feeling of cold, cold with some or comfortable (cold with some), at this moment, the no-wind feeling function needs to be started, and the air conditioner is controlled according to the control logic of the no-wind feeling function.

In this embodiment, the control logic of the no-wind-sense function includes: no wind sense control logic 1, no wind sense control logic 2 and no wind sense control logic 3. The switching conditions for the no-wind logic are explained as follows:

A:Hucr≥NOFAN_HUM_1；

b, descending curve: hucr is less than or equal to NOFAN _ HUM _ 2; rising curve: hucr is more than or equal to NOFAN _ HUM _ 2;

C:Hucr≤NOFAN_HUM_3；

D:T1-TS`>NOFAN_TEMP1；

e, descending curve: T1-TS' NOFAN _ TEMP 2; rising curve: T1-TS' > NOFAN _ TEMP2+1 ℃;

F:T1-TS`≤NOFAN_TEMP3；

remarking: TS': when Ts is more than 24 ℃, TS ═ Ts; when Ts is less than or equal to 24 ℃, TS' is 24; (Ts: temperature set by remote controller, Ts': temperature set by control logic corresponding to cold and hot induction value, Hucr: current ambient humidity, T1: current ambient temperature)

When the no-wind-sensation function is started, the no-wind-sensation control logic 1 is entered by default, and when the condition (B | | C) & (E | | | F) is met, the no-wind control logic 1 is switched into the no-wind-sensation control logic 2; when the condition C & F is met, switching from the windless button control logic 2 to the windless button control logic 3; when the condition A | | B | | D | | E is met, switching from the windless control logic 3 to the windless control logic 2; when the condition A | | D is met, the windless control logic 2 is switched into the windless control logic 1.

Remarking: when Ts is more than or equal to 28, the no-wind-sense control logic 1 is not switched to the no-wind-sense control logic 2, and when the conditions C and F are met, the no-wind-sense control logic 3 is directly switched to, and when the no-wind-sense control logic 3 exits, the no-wind-sense control logic 2 can be switched to.

The no-wind-sense control logic 1 performs the functions of: the air conditioner runs by a GA algorithm, and the panel is angled upwards by a set angle (set according to actual needs) so as to ensure rapid cooling and rapidly reach the temperature condition set by a user. The air conditioner is switched to a no-wind-sense control logic 1 from any stage and state, and the upper and lower small wind guide strips automatically reset to a normal refrigeration angle.

The non-wind-sensing control logic 2 performs the functions of: the panel is angled upwards by a preset angle (set according to actual needs), and the upper small air guide strip moves to the preset angle (set according to actual needs); the wind speed is defaulted to automatic wind, and when the user adjusts the wind speed, the user quits from no wind feeling;

the no-wind-sense control logic 3 performs the functions of: the panel is angled upwards by a preset angle (set according to actual needs), the upper small air guide strip is moved to the preset angle (set according to actual needs), and the lower small air guide strip is moved to the preset angle (set according to actual needs); the wind speed is default to 20%; when the user adjusts the wind speed, the user quits without wind feeling; the frequency control operates at a non-wind-sensing frequency limiting frequency.

In this embodiment, when the air conditioner is in the cooling mode and the cooling and heating function is turned on, the cooling and heating value is obtained, the air conditioner is controlled according to the control logic corresponding to the cooling and heating value, and when the subsequently obtained cooling and heating value is within the preset interval, the non-cooling function is turned on, and the air conditioner is controlled according to the control logic of the non-cooling function. Through this embodiment, when detecting that the cold and hot feeling value is in presetting the interval, when user's hot comfort is become for cold by certain impression in comfortable (warm a bit), warm, some heat or heat, some cold, cool or comfortable (some cool), open no wind sense function, and control logic control air conditioner according to no wind sense function, avoid the emergence of the sense of feeling phenomenon of blowing, whether open no wind sense function with user's actual impression decision, more accord with user's actual demand, make user use experience better.

Further, in an embodiment of the air conditioner control method according to the present invention, when it is detected that the newly acquired cold and hot sensing value is in the preset interval, the turning on the no-wind-sensing function includes:

when the newly acquired cold and heat feeling value is detected to be in a preset interval, acquiring the execution time of the control logic corresponding to the previous cold and heat feeling value, and acquiring the interval holding time corresponding to the previous cold and heat feeling value;

detecting whether the execution time is greater than or equal to the interval holding time;

if the execution time is greater than or equal to the interval holding time, starting a no-wind-sense function;

and if the execution time is less than the interval holding time, continuing to control the air conditioner according to the control logic corresponding to the previous cold and hot feeling value until the execution time is detected to be greater than or equal to the interval holding time, and starting the no-wind feeling function.

In this embodiment, if the interval time is 120s, the cold and hot sensing values are continuously acquired, when it is detected that the newly acquired cold and hot sensing value is in the preset interval, for example, the newly acquired cold and hot sensing value is-1, the execution time of the control logic corresponding to the previous cold and hot sensing value is 120s, and if the previous cold and hot sensing value is 0.8, the interval holding time corresponding to the previous cold and hot sensing value is 180s (see table 1), so the air conditioner continues to be controlled according to the control logic corresponding to the previous cold and hot sensing value until the execution time is detected to be greater than or equal to 180s, and the no-wind sensing function is turned on.

Further, in an embodiment of the air conditioner control method according to the present invention, after the step of starting the no-wind-sense function when detecting that the newly acquired cold-heat-sense value is in the preset interval and controlling the air conditioner according to the control logic of the no-wind-sense function includes:

and when the condition of exiting the no-wind-sense function is detected to be met, exiting the no-wind-sense function.

In this embodiment, the no-wind exit condition includes:

(1) the user exits the no-wind-sense mode through the remote controller;

(2) the air conditioner is switched to an air supply mode, a dehumidification mode, a heating mode and an automatic mode for operation;

(3) the user adjusts the wind speed by using a remote controller and exits from the no-wind-sense mode;

(4) the user adjusts the state of the air deflector and responds to the control of the remote controller;

(5) opening strong, Rui wind, natural wind, PMV, sleep 1, sleep 2;

(6) starting up and down swinging and left and right swinging;

(7) starting a forced key;

(8) when entering the intervals 5, 6, 7 and 8 from the intervals 1, 2, 3 and 4, operating according to the temperature control logic of the cold and heat feeling mode;

when any one of the conditions is met, the no-wind-sense function is closed.

In this embodiment, when the no wind sense function was opened, the refrigeration effect can reduce, can withdraw from no wind sense according to user's operation, or when user's hot comfort was changed from certain of cold, some cold, cool or comfortable (some cold) to certain of comfortable (some warm), warm, some hot or hot, withdrawed from no wind sense automatically, more conformed to user's demand.

Further, in an embodiment of the air conditioner control method according to the present invention, when it is detected that a condition for exiting the no-wind-sensation function is satisfied, exiting the no-wind-sensation function includes:

and when the subsequently acquired cold and hot feeling value is not in the preset interval, exiting from the no-wind-feeling function.

In this embodiment, since the cold and hot feeling value at this time is in the preset interval, and the interval is 1 to 4, see table 1, it is described that the hot and cold feeling of the user at this time is a certain feeling of cold, somewhat cold, cool, or comfortable (somewhat cool), so that the non-wind feeling function is turned on to reduce the feeling of blowing of the user, and the refrigeration effect is also reduced, when the subsequently obtained cold and hot feeling value is not in the preset interval, that is, the subsequently obtained cold and hot feeling value is in the interval 5 to 8, it is described that the hot feeling of the user is changed from a certain feeling of cold, somewhat cold, cool, or comfortable (somewhat cool) to a certain feeling of comfortable (somewhat warm), warm, somewhat hot, or hot, at this time, the refrigeration effect needs to be enhanced, the non-wind feeling is automatically exited, and the user needs are met more.

Further, in an embodiment of the air conditioner control method according to the present invention, when it is detected that the subsequently obtained cold and hot feeling value is not in the preset interval, the exiting of the no-wind feeling function includes:

and controlling the air conditioner according to the control logic corresponding to the subsequently acquired cold and hot feeling value.

In this embodiment, when the subsequently obtained cold and hot feeling value is not in the preset interval, that is, the subsequently obtained cold and hot feeling value is in the interval 5 to 8, which indicates that the hot feeling of the user is changed from one of cold, somewhat cold, cool, or comfortable (somewhat cold) to one of comfortable (somewhat warm), warm, somewhat hot, or hot, at this time, the cooling effect needs to be enhanced, the no-wind feeling is automatically exited, and the air conditioner is controlled to operate according to the control logic corresponding to the obtained cold and hot feeling value.

In this embodiment, the air conditioner is controlled to operate according to the control logic corresponding to the cold and hot induction values, which may be controlling the operating temperature, the wind speed, the operating state of the wind guide strip, and the like of the air conditioner, and is specifically performed according to actual conditions. For example, after the thermal sensation zone in which the thermal sensation value is located is determined, the set temperature of the air conditioner may be adjusted according to the determined thermal sensation zone. After the section range to which the cold and heat feeling section belongs is determined, the adjusting strategy corresponding to the determined section range is obtained according to the corresponding relation between the preset section range and the adjusting strategy. Specifically, the method comprises the following steps: when the interval range is the first interval range, the corresponding adjustment strategy is as follows: when the difference value between the current set temperature and a first preset constant is lower than a first preset temperature value, taking the first preset temperature value as the set temperature; when the difference value between the current set temperature and the first preset constant is higher than a first preset temperature value, taking the difference value between the current set temperature and the first preset constant as the set temperature; taking 8 thermal zones in table 1 as an example, zone 6, zone 7, and zone 8 are preferably divided into a first zone range. Since the thermal sensation values are different for each thermal sensation zone, the first predetermined constant and the first predetermined temperature value are preferably different for each thermal sensation zone.

In the embodiment, the cold and hot feeling value is determined by the radiation temperature in the room and the temperature value on the surface of the human body, so that the air conditioner is adjusted by combining the radiation temperature in the room and the temperature value on the surface of the human body, and the adjustment accuracy is improved.

Further, in an embodiment of the air conditioner control method according to the present invention, when the air conditioner is in the cooling mode and the thermal sensation function is turned on, the obtaining the thermal sensation value includes:

when the air conditioner is in a refrigeration mode and the cold and hot feeling function is started, acquiring a radiation temperature value and a human body surface temperature value in the running environment of the air conditioner;

and determining a cold-heat sensing value according to the radiation temperature value and the human body surface temperature value.

In this embodiment, the specific embodiment of determining the cold and hot feeling values according to the radiation temperature value in the operating environment of the air conditioner and the surface temperature value of the human body is described above, and is not described herein again.

In the embodiment, the cold and heat feeling and the non-wind feeling control logic are combined, and the non-wind feeling logic is called when the human body heat and comfort feeling is in the interval 1-4, so that the problem of blowing is effectively solved.

Furthermore, an embodiment of the present invention further provides a computer-readable storage medium, on which an air conditioner control program is stored, and the air conditioner control program, when executed by a processor, implements the steps of the air conditioner control method as described above.

The embodiment of the computer-readable storage medium of the present invention is substantially the same as the embodiments of the air conditioner control method described above, and is not limited thereto.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

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

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. An air conditioner control method, characterized by comprising:

when the air conditioner is in a refrigeration mode and the cold and hot feeling function is started, acquiring a cold and hot feeling value, and controlling the air conditioner according to a control logic corresponding to the cold and hot feeling value;

when detecting that the newly acquired cold and hot sensing value is in a preset interval, starting a non-wind-sensing function, and controlling the air conditioner according to the control logic of the non-wind-sensing function;

wherein, when detecting that the cold and hot feeling value of newly acquireing is in presetting the interval, open no wind sense function and include:

when the newly acquired cold and heat feeling value is detected to be in a preset interval, acquiring the execution time of the control logic corresponding to the previous cold and heat feeling value, and acquiring the interval holding time corresponding to the previous cold and heat feeling value;

detecting whether the execution time is greater than or equal to the interval holding time;

if the execution time is greater than or equal to the interval holding time, starting a no-wind-sense function;

and if the execution time is less than the interval holding time, continuing to control the air conditioner according to the control logic corresponding to the previous cold and hot feeling value until the execution time is detected to be greater than or equal to the interval holding time, and starting the no-wind feeling function.

2. The method as claimed in claim 1, wherein the turning on the no-wind-sense function when detecting that the newly acquired cold-heat-sense value is in the preset interval, and the controlling the air conditioner according to the control logic of the no-wind-sense function comprises:

and when the condition of exiting the no-wind-sense function is detected to be met, exiting the no-wind-sense function.

3. The air conditioner controlling method as claimed in claim 2, wherein said exiting the no-wind function when it is detected that the condition for exiting the no-wind function is satisfied includes:

and when the subsequently acquired cold and hot feeling value is not in the preset interval, exiting from the no-wind-feeling function.

4. The air conditioner control method as claimed in claim 3, wherein the exiting the no-wind-feeling function upon detecting that the subsequently acquired cold and hot feeling value is not in the preset interval comprises:

and controlling the air conditioner according to the control logic corresponding to the subsequently acquired cold and hot feeling value.

5. The method as claimed in claim 1, wherein the obtaining the cooling and heating value when the air conditioner is in the cooling mode and the cooling and heating function is turned on comprises:

when the air conditioner is in a refrigeration mode and the cold and hot feeling function is started, acquiring a radiation temperature value and a human body surface temperature value in the running environment of the air conditioner;

and determining a cold-heat sensing value according to the radiation temperature value and the human body surface temperature value.

6. An air conditioner control device characterized by comprising: a memory, a processor, and an air conditioner control program stored on the memory and executable on the processor, the air conditioner control program when executed by the processor implementing the steps of:

when the air conditioner is in a refrigeration mode and the cold and hot feeling function is started, acquiring a cold and hot feeling value, and controlling the air conditioner according to a control logic corresponding to the cold and hot feeling value;

when detecting that the newly acquired cold and hot sensing value is in a preset interval, starting a non-wind-sensing function, and controlling the air conditioner according to the control logic of the non-wind-sensing function;

wherein, when detecting that the cold and hot feeling value of newly acquireing is in presetting the interval, open no wind sense function and include:

when the newly acquired cold and heat feeling value is detected to be in a preset interval, acquiring the execution time of the control logic corresponding to the previous cold and heat feeling value, and acquiring the interval holding time corresponding to the previous cold and heat feeling value;

detecting whether the execution time is greater than or equal to the interval holding time;

if the execution time is greater than or equal to the interval holding time, starting a no-wind-sense function;

and if the execution time is less than the interval holding time, continuing to control the air conditioner according to the control logic corresponding to the previous cold and hot feeling value until the execution time is detected to be greater than or equal to the interval holding time, and starting the no-wind feeling function.

7. The air conditioner control apparatus according to claim 6, wherein the air conditioner control program, when executed by the processor, further implements the steps of the air conditioner control method according to any one of claims 3 to 5.

8. A computer-readable storage medium, characterized in that an air conditioner control program is stored thereon, which when executed by a processor implements the steps of the air conditioner control method according to any one of claims 1 to 5.

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