CN110567126A - control method and device for adjusting set temperature, storage medium and air conditioner - Google Patents

Abstract

the invention provides a control method and a control device for adjusting set temperature, a storage medium and an air conditioner, wherein the control method for adjusting the set temperature comprises the following steps: acquiring the current moment, a first recording temperature and a second recording temperature; according to the current moment, a first target temperature is taken from the first recorded temperature, and a second target temperature is taken from the second recorded temperature; and adjusting the current running set temperature of the air conditioner according to the calling result and the running mode of the air conditioner. The control method for adjusting the set temperature enables the air conditioner to automatically adjust the set temperature of the current operation, intelligently judges whether the setting of a user meets the conventional requirements, achieves the purposes of intellectualization and self-adaptive evolution of the air conditioner, can improve the comfort of the user when in use, and can avoid the waste of electric energy resources; and the user does not need to manually adjust the set temperature every time, so the use is simpler.

Description

Control method and device for adjusting set temperature, storage medium and air conditioner

Technical Field

the invention relates to the technical field of air conditioners, in particular to a control method and device for adjusting set temperature, a storage medium and an air conditioner.

background

with the continuous improvement of the living standard of people, the air conditioner is widely applied.

at present, the operating parameters of the air conditioner are completely set by a user, namely the user needs to adjust the temperature through a regulator in use, but in the actual use process, the user often cannot adjust the set temperature of the air conditioner in time, so that the operating parameters of the air conditioner cannot be intelligently controlled according to the use habits of the user, the indoor temperature is too high or too low, and the comfort is poor.

disclosure of Invention

The invention solves the problems that the operating parameters of the existing air conditioner can not be intelligently controlled according to the use habits of users, so that the indoor temperature is too high or too low, and the comfort is poor.

in order to solve the above problems, the present invention provides a control method for adjusting a set temperature, comprising the following steps:

Acquiring the current moment, a first recording temperature and a second recording temperature; the first recorded temperature is a set temperature recorded according to a first recording process in the previous day operation process of the air conditioner, and the second recorded temperature is a set temperature corresponding to the stable operation of the air conditioner in the previous day operation process of the air conditioner according to a second recording process;

According to the current moment, a first target temperature is taken from the first recorded temperature, and a second target temperature is taken from the second recorded temperature; the first target temperature is the first recorded temperature corresponding to the current time at the recording time in the first recorded temperature; the second target temperature is the second recorded temperature corresponding to the current time at the recording time in the second recorded temperature;

And adjusting the current running set temperature of the air conditioner according to the calling result and the running mode of the air conditioner.

in the running process of the air conditioner, the current moment is detected in real time, the first target temperature is called from the first recorded temperature and the second target temperature is called from the second recorded temperature according to the current moment, and then the set temperature of the current running of the air conditioner is automatically adjusted according to the calling result and the current running mode of the air conditioner, so that the air conditioner has a self-learning function, whether the setting of a user meets the conventional requirement can be intelligently judged, the purposes of intellectualization and self-adaptive evolution of the air conditioner are realized, the comfort of the user in use can be improved, and the waste of electric energy resources can be avoided; the user does not need to manually adjust the set temperature each time, and the use is simpler; meanwhile, the control method for adjusting the set temperature is simple, and extra material cost is not required to be increased.

optionally, the first recording process is:

Recording corresponding set temperatures of the air conditioner at different moments in the operation process according to a recording period to serve as the first recorded temperature;

the second recording process is as follows:

acquiring the running time of the air conditioner;

When the running time of the air conditioner reaches a first preset time, acquiring indoor environment temperature and set temperature;

when the indoor environment temperature and the set temperature meet recording conditions, recording the set temperature at the moment as the second recording temperature;

Wherein the recording conditions are: the indoor environment temperature is greater than or equal to the difference between the set temperature and the first preset temperature amplitude, is less than or equal to the sum of the set temperature and the first preset temperature amplitude, and lasts for a second preset time.

Thus, when the second recording temperature is recorded, the indoor environment temperature and the set temperature are detected by controlling the air conditioner to operate for the first preset time, and when the indoor environment temperature and the set temperature meet the recording conditions, the corresponding set temperature at the moment is recorded as the second recording temperature; therefore, the air conditioner can independently learn the habits of the user and follow the habits of the user during operation, the user can feel more comfortable experience, the correctness of the obtained second recorded temperature is ensured, the set temperature set during misoperation of the user is prevented from being recorded, and the accuracy of the current operation set temperature of the air conditioner is improved.

optionally, the retrieving a first target temperature from the first recorded temperature and retrieving a second target temperature from the second recorded temperature according to the current time specifically includes:

Acquiring the time corresponding to each first recording temperature and the time corresponding to each second recording temperature;

recording the obtained current time as ti, recording the time corresponding to each first recording temperature as t1, t2, … and tm according to the recorded sequence, and recording the time corresponding to each second recording temperature as t1 ', t2 ', … and tm ' according to the recorded sequence; wherein i is a positive integer, and m is a positive integer greater than i;

when tn is not less than ti and is less than t (n +1), calling the first recorded temperature corresponding to the time tn as the first target temperature; wherein tn and t (n +1) are two adjacent moments from t1 to tm, and n is a positive integer smaller than m;

When ti is greater than tn ', the second recorded temperature corresponding to the time tn' is taken as the second target temperature; where tn ' is a time from t1 ' to tm ', and n is a positive integer less than m.

optionally, the adjusting the set temperature of the current operation of the air conditioner according to the calling result and the operation mode of the air conditioner specifically includes:

When the first target temperature and the second target temperature are obtained, controlling the air conditioner to execute a first temperature adjusting process;

When the first target temperature is obtained and the second target temperature is not obtained, controlling the air conditioner to execute a second temperature adjusting process;

when the second target temperature is obtained and the first target temperature is not obtained, controlling the air conditioner to execute a third temperature adjusting process;

and controlling the air conditioner to execute a fourth temperature adjusting process when the first target temperature is not adjusted and the second target temperature is not adjusted.

therefore, the air conditioner is controlled to respectively execute the first temperature adjusting process, the second temperature adjusting process, the third temperature adjusting process and the fourth temperature adjusting process according to four different results, and the air conditioner is controlled to execute different temperature adjusting processes according to different adjusting results in a targeted manner, so that the adjustment of the set temperature of the current operation of the air conditioner is more reasonable.

optionally, the first temperature adjustment process comprises:

Acquiring a second preset temperature amplitude;

Determining a third target temperature and a fourth target temperature according to the second target temperature and the second preset temperature amplitude; the third target temperature is the difference between the second target temperature and the second preset temperature amplitude, and the fourth target temperature is the sum of the second target temperature and the second preset temperature amplitude;

When the operation mode of the air conditioner is a refrigeration mode, judging whether the first target temperature is greater than or equal to the third target temperature;

if so, controlling the air conditioner to adjust the current operating set temperature according to the first target temperature; if not, controlling the air conditioner to adjust the current running set temperature according to the third target temperature;

When the operation mode of the air conditioner is a heating mode, judging whether the first target temperature is less than or equal to the fourth target temperature;

if so, controlling the air conditioner to adjust the current operating set temperature according to the first target temperature; and if not, controlling the air conditioner to adjust the current running set temperature according to the fourth target temperature.

because the proper temperatures sensed by the user are different in different operation modes, the air conditioner can be ensured to operate according to more comfortable set temperatures in different operation modes by separately judging in different operation modes, and the comfort of the user during use is improved.

optionally, the second temperature adjustment process comprises:

and controlling the air conditioner to adjust the current running set temperature according to the first target temperature.

optionally, the third temperature adjustment process includes:

and controlling the air conditioner to adjust the current running set temperature according to the second target temperature.

optionally, the fourth temperature adjustment process includes:

Acquiring a set temperature of an upper running state of the air conditioner as a running target temperature;

and controlling the air conditioner to adjust the current running set temperature according to the running target temperature.

In order to solve the above problems, the present invention further provides a control device for adjusting a set temperature, comprising:

The acquisition unit is used for acquiring the current moment, the first recording temperature and the second recording temperature; the first recorded temperature is the set temperature recorded according to the first recording process in the previous day operation process of the air conditioner, and the second recorded temperature is the set temperature recorded according to the second recording process when the air conditioner keeps stable operation in the previous day operation process;

The calling unit is used for calling a first target temperature from the first recorded temperature and calling a second target temperature from the second recorded temperature according to the current moment; the first target temperature is the first recorded temperature corresponding to the current time at the recording time in the first recorded temperature; the second target temperature is the second recorded temperature corresponding to the current time at the recording time in the second recorded temperature;

And the control unit is used for adjusting the current running set temperature of the air conditioner according to the calling result and the running mode of the air conditioner.

a computer-readable storage medium storing a computer program which, when read and executed by a processor, implements the control method for adjusting a set temperature according to any one of the above.

in order to solve the above problem, the present invention further provides an air conditioner, including a computer readable storage medium storing a computer program and a processor, wherein the computer program is read and executed by the processor to implement any one of the control methods for adjusting a set temperature.

The control device for adjusting the set temperature, the computer readable storage medium and the air conditioner have the same advantages as the control method for adjusting the set temperature in the prior art, and are not repeated herein.

drawings

FIG. 1 is a flow chart of a control method for adjusting a set temperature according to an embodiment of the present invention;

FIG. 2 is a flow chart of a first temperature adjustment process in an embodiment of the present invention;

fig. 3 is a block diagram of a control device for adjusting a set temperature according to an embodiment of the present invention.

description of reference numerals:

10-acquisition unit, 20-retrieval unit and 30-control unit.

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.

in the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", "high", "low", and the like are based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, cannot be construed as limiting the present invention.

Referring to fig. 1, an embodiment of the present invention provides a control method for adjusting a set temperature, including the following steps:

s100, acquiring the current moment, a first recording temperature and a second recording temperature; the first recorded temperature is the set temperature recorded according to the first recording process in the previous day operation process of the air conditioner, and the second recorded temperature is the corresponding set temperature when the air conditioner keeps stably operating according to the second recording process in the previous day operation process of the air conditioner;

s200, calling a first target temperature from the first recorded temperature and a second target temperature from the second recorded temperature according to the current moment; the first target temperature is a first recording temperature corresponding to the recording time and the current time in the first recording temperature; the second target temperature is a second recording temperature corresponding to the current time at the recording time in the second recording temperature;

And step S300, adjusting the current running set temperature of the air conditioner according to the calling result and the running mode of the air conditioner.

Because most air conditioner products have realized network control now, have the WIFI module, obtain the present moment from the WIFI module. When the air conditioner runs, a user presses an intelligent key on the remote controller to enable the air conditioner to enter an intelligent mode, and the automatic adjustment and set temperature control is started. Specifically, the database of the air conditioner stores a first recorded temperature and a second recorded temperature, the first recorded temperature is a set temperature recorded in the previous day operation process of the air conditioner and is also a set of set temperatures corresponding to different moments in the previous day operation process of the air conditioner, the second recorded temperature is a set temperature corresponding to the stable operation of the air conditioner recorded in the previous day operation process of the air conditioner and is also a set of set temperatures for the stable operation of the air conditioner in the previous day operation process, wherein the previous day refers to the previous 24 hours of the 0 point in the same day.

in the running process of the air conditioner, the current moment is detected in real time, the first target temperature is called from the first recorded temperature and the second target temperature is called from the second recorded temperature according to the current moment, and then the set temperature of the current running of the air conditioner is automatically adjusted according to the calling result and the current running mode of the air conditioner, so that the air conditioner has a self-learning function, whether the setting of a user meets the conventional requirement can be intelligently judged, the purposes of intellectualization and self-adaptive evolution of the air conditioner are realized, the comfort of the user in use can be improved, and the waste of electric energy resources can be avoided; the user does not need to manually adjust the set temperature each time, and the use is simpler; meanwhile, the control method for adjusting the set temperature in the embodiment is simple, and extra material cost is not required to be increased.

optionally, the first recording process is:

Recording corresponding set temperatures of the air conditioner at different moments in the operation process according to a recording period to serve as first recorded temperatures;

the second recording process is:

acquiring the running time of the air conditioner;

when the running time of the air conditioner reaches a first preset time, acquiring the indoor environment temperature and the set temperature;

when the indoor environment temperature and the set temperature meet the recording conditions, recording the set temperature at the moment as a second recording temperature;

Wherein, the recording conditions are as follows: the indoor environment temperature is greater than or equal to the difference between the set temperature and the first preset temperature amplitude value, is less than or equal to the sum of the set temperature and the first preset temperature amplitude value, and lasts for a second preset time.

specifically, the recording period, the first preset time period, the second preset time period, and the first preset temperature amplitude are all program setting values, and can be set according to the actual condition of the air conditioner. For example, the recording period may be set to 30min or 40 minutes, that is, the set temperature (i.e., the first recording temperature) corresponding to the current time is recorded every 30min or 40min during the operation of the air conditioner, and the recording period is not limited in detail in this embodiment. The first preset time period is usually not less than a time period required when the rotating speed of the compressor reaches a stable state after the air conditioner is started, for example, the first preset time period may be set to 20min, or may also be set to 30min, and the like, which is not limited in detail in this embodiment; the second preset duration is usually set to 10min, the first preset temperature amplitude is usually set to 3 ℃, and the implementation is not limited in detail, that is, the recording conditions are as follows: TS-3 ℃ and TA are more than or equal to TS +3 ℃ and are continued for 10min, wherein TA is the indoor environment temperature, and TS is the set temperature; that is to say, the indoor environment temperature detected in real time within the second preset duration is always kept within the range of being greater than or equal to the difference between the set temperature and the first preset temperature amplitude and being less than or equal to the sum of the set temperature and the first preset temperature amplitude, which indicates that the air conditioner is in a stable operation state at the moment, and the corresponding set temperature at the moment can be recorded as the second recorded temperature, so as to prevent the set temperature set when the user performs a wrong operation (for example, the set temperature is higher or lower due to the fact that a few keys are pressed when the set temperature is adjusted). Since the internal unit and the external unit are still in an unstable state when the air conditioner is just started up, if the second recorded temperature is detected and recorded in this state, the recorded second recorded temperature is easily inaccurate, and the adjustment of the set temperature of the current operation of the air conditioner in the subsequent step S300 is affected.

in the embodiment, when the second recording temperature is recorded, the indoor environment temperature and the set temperature are detected by controlling the air conditioner to operate for the first preset time, and when the indoor environment temperature and the set temperature meet the recording conditions, the corresponding set temperature at the moment is recorded as the second recording temperature; therefore, the air conditioner can independently learn the habits of the user and follow the habits of the user during operation, the user can feel more comfortable experience, the correctness of the obtained second recorded temperature is ensured, the set temperature set during misoperation of the user is prevented from being recorded, and the accuracy of the current operation set temperature of the air conditioner is improved.

It should be noted that, when the air conditioner is first started up and operated, the corresponding set temperatures at different times in the operation process of the day are set and adjusted by the user, that is, in the day of the first operation, the set temperature of the current operation of the air conditioner is set and adjusted by the user, meanwhile, the air conditioner records the first recorded temperature and the second recorded temperature according to the first recording process and the second recording process respectively according to the use habit of the user, and in the operation process of each day thereafter, the air conditioner automatically adjusts the set temperature of the current operation of the air conditioner according to the first recorded temperature and the second recorded temperature recorded in the previous day and records the first recorded temperature and the second recorded temperature respectively according to the first recording process and the second recording process, so that the air conditioner autonomously learns the user habit and follows the user habit in operation, the user can feel more comfortable experience, and therefore intelligentization and self-adaptive evolution of the air conditioner are achieved.

in addition, since the temperature difference between day and night and the illuminance and the amount of movement of a person are different, the temperature set by the user during the day and night may be generally different, and based on this, the second recorded temperature may be separately recorded according to two time periods of day and night, which may be divided according to actual needs, for example, the time period of day may be set to 07:00-20:00 and the time period of night may be set to 20:00-07: 00. When the air conditioner operates in the daytime, the moment corresponding to the second recorded temperature recorded in the process is located in the daytime, and correspondingly, when the air conditioner operates in the night time, the moment corresponding to the second recorded temperature recorded in the process is located in the night time. In this way, in the subsequent step S200, when the second target temperature is called from the second recorded temperature according to the current time, it may be determined whether the current time is in the daytime or in the nighttime, and then the second recorded temperature in the corresponding time period is called according to the determination result, so that the current time is only compared with the time corresponding to the second recorded temperature in one time period one by one, thereby reducing the number of times corresponding to the second recorded temperature that need to be compared with the current time, and shortening the time for calling the second target temperature, thereby improving the efficiency of adjusting the set temperature, and further ensuring that the air conditioner can operate at a more comfortable temperature.

Optionally, step S200 specifically includes:

Step S210, acquiring the time corresponding to each first recording temperature and the time corresponding to each second recording temperature;

Step S220, recording the obtained current time as ti, recording the time corresponding to each first recording temperature as t1, t2, … and tm according to the recorded sequence, and recording the time corresponding to each second recording temperature as t1 ', t2 ', … and tm ' according to the recorded sequence; wherein i is a positive integer, and m is a positive integer greater than i;

step S230, when the tn is more than or equal to ti and less than t (n +1), calling a first recorded temperature corresponding to the time tn as a first target temperature; wherein tn and t (n +1) are two adjacent moments from t1 to tm, and n is a positive integer smaller than m;

step S240, when ti is equal to tn ', adjusting a second recorded temperature corresponding to the time tn' as a second target temperature; where tn ' is a time from t1 ' to tm ', and n is a positive integer less than m.

Step S230 and step S240 are parallel, and the sequence is not sequential. Specifically, each first recording temperature and each second recording temperature correspond to a recording time, after the current time ti is obtained, the time ti is compared with the time corresponding to each first recording temperature one by one, when the current time is detected to be equal to one of the times corresponding to the first recording temperatures, the first recording temperature corresponding to the time is taken as a first target temperature, when the current time is detected to be located between two adjacent times in the first recording temperatures, the first recording temperature corresponding to the previous time in the two times is taken as the first target temperature, and when the current time is detected not to meet the two conditions, the first target temperature is failed to be taken; and meanwhile, the time corresponding to the ti and each second recording temperature is compared one by one, when the current time is detected to be equal to one of the times corresponding to the second recording temperatures, the second recording temperature corresponding to the time is taken as a second target temperature, and when the current time is detected to be not in accordance with the condition, the second target temperature is failed to be taken, so that the first target temperature is taken from the first recording temperature and the second target temperature is taken from the second recording temperature according to the current time.

Optionally, step S300 specifically includes:

when the first target temperature and the second target temperature are obtained, controlling the air conditioner to execute a first temperature adjusting process;

when the first target temperature is obtained and the second target temperature is not obtained, controlling the air conditioner to execute a second temperature adjusting process;

When the second target temperature is obtained and the first target temperature is not obtained, controlling the air conditioner to execute a third temperature adjusting process;

and controlling the air conditioner to execute a fourth temperature adjusting process when the first target temperature is not adjusted and the second target temperature is not adjusted.

In step S200, four different results of the first target temperature and the second target temperature are obtained, that is, the first target temperature and the second target temperature are obtained, the first target temperature is obtained without obtaining the second target temperature, the second target temperature is obtained without obtaining the first target temperature, the first target temperature is obtained without obtaining the first target temperature, and the second target temperature is not obtained without obtaining the first target temperature, the air conditioner is controlled to respectively execute the first temperature adjusting process, the second temperature adjusting process, the third temperature adjusting process, and the fourth temperature adjusting process according to the four different results, the air conditioner is controlled to execute different temperature adjusting processes according to different obtaining results in a targeted manner, so that the adjustment of the set temperature of the current operation of the air conditioner is more reasonable.

optionally, as shown in fig. 2, the first temperature adjustment process includes:

Step S510, obtaining a second preset temperature amplitude;

Step S520, determining a third target temperature and a fourth target temperature according to the second target temperature and a second preset temperature amplitude; the third target temperature is the difference between the second target temperature and a second preset temperature amplitude, and the fourth target temperature is the sum of the second target temperature and the second preset temperature amplitude;

step S530, when the operation mode of the air conditioner is a refrigeration mode, judging whether the first target temperature is greater than or equal to a third target temperature;

Step 540, if yes, executing step 570; if not, controlling the air conditioner to adjust the current running set temperature according to the third target temperature;

Step S550, when the operation mode of the air conditioner is the heating mode, judging whether the first target temperature is less than or equal to a fourth target temperature;

step 560, if yes, execute step 570; if not, controlling the air conditioner to adjust the current running set temperature according to the fourth target temperature;

and step S570, controlling the air conditioner to adjust the set temperature of the current operation according to the first target temperature.

the second preset temperature amplitude is a program set value, and may be set according to the actual condition of the air conditioner, for example, 2 ℃, and this embodiment is not limited in detail. After the first target temperature and the second target temperature are obtained, a second preset temperature amplitude set by a program is obtained, and a third target temperature and a fourth target temperature are calculated according to the second target temperature and the second preset temperature amplitude; judging whether the current operation mode of the air conditioner is a cooling mode or a heating mode; when the air conditioner is in a refrigeration mode, judging whether the first target temperature is greater than or equal to a third target temperature, if so, controlling the air conditioner to adjust the current operating set temperature according to the first target temperature, and if not, controlling the air conditioner to adjust the current operating set temperature according to the third target temperature; and when the air conditioner is in a heating mode, judging whether the first target temperature is less than or equal to a fourth target temperature, if so, controlling the air conditioner to adjust the current operating set temperature according to the first target temperature, and if not, controlling the air conditioner to adjust the current operating set temperature according to the fourth target temperature. Because the proper temperatures sensed by the user are different in different operation modes, the air conditioner can be ensured to operate according to more comfortable set temperatures in different operation modes by separately judging in different operation modes, and the comfort of the user during use is improved.

Optionally, the second temperature adjustment process comprises:

And controlling the air conditioner to adjust the current running set temperature according to the first target temperature.

in this embodiment, when the first target temperature is obtained and the second target temperature is not obtained, the air conditioner is controlled to adjust the current operating set temperature according to the first target temperature by using the first target temperature as the target temperature.

Optionally, the third temperature adjustment process comprises:

And controlling the air conditioner to adjust the current running set temperature according to the second target temperature.

in this embodiment, when the second target temperature is obtained and the first target temperature is not obtained, the second target temperature is used as the target temperature, and the air conditioner is controlled to adjust the set temperature of the current operation according to the second target temperature.

optionally, the fourth temperature adjustment process comprises:

acquiring a set temperature of an upper running state of the air conditioner as a running target temperature;

And controlling the air conditioner to adjust the current running set temperature according to the running target temperature.

the set temperature adjusting process is a process of continuously detecting the current time and adjusting the current set temperature according to a detection period (for example, once every second or once every minute), so that the last operating state of the air conditioner refers to a state when the last detection period detects the current time and adjusts the set temperature according to the current time in the operating process of the air conditioner, and the set temperature of the last operating state of the air conditioner is the corresponding set temperature when the adjustment is completed after the set temperature is judged and analyzed according to the current time detected in the last detection period. For example, an air conditioner is described in 20: and 00, detecting the current time, and according to the ratio of 20: the time value 00 is judged and analyzed, and finally, the ratio of 20:00 the set temperature of the air conditioner is adjusted to 26 c, and after a detection period, such as one minute, the current time is detected again at 20:01, at which time the air conditioner is operated at 20: the operation state at 00 is that the air conditioner is in a state that 20: the last operating state at time 01, and the air conditioner is in the operating state of 20: the set temperature of 26 ℃ at 00 is the set temperature of the last running state of the air conditioner. In this embodiment, when neither the first target temperature nor the second target temperature is obtained, the air conditioner is controlled to adjust the currently operating set temperature according to the operating target temperature by obtaining the set temperature of the last operating state of the air conditioner and taking the set temperature as the operating target temperature.

in yet another embodiment of the present invention, a computer-readable storage medium is provided, which stores instructions that when loaded and executed by a processor implement the control method for adjusting a set temperature as described in any one of the above.

The technical solution of the embodiment of the present invention substantially or partly contributes to the prior art, or all or part of the technical solution may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) or a processor (processor) to execute all or part of the steps of the method according to the embodiment of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a U disk, a removable hard disk, a ROM, a RAM, a magnetic disk, or an optical disk.

the control method for adjusting the set temperature is implemented by detecting the current moment in real time, calling the first target temperature from the first recorded temperature and the second target temperature from the second recorded temperature according to the current moment, and then automatically adjusting the set temperature of the current operation of the air conditioner according to the calling result and the current operation mode of the air conditioner, so that the air conditioner has a self-learning function, the purposes of intelligently judging whether the setting of a user meets the conventional requirement or not can be achieved, the purposes of intellectualization and self-adaptive evolution of the air conditioner can be achieved, the comfort of the user in use can be improved, and the waste of electric energy resources can be avoided; the user does not need to manually adjust the set temperature each time, and the use is simpler; meanwhile, the control method for adjusting the set temperature in the embodiment is simple, and extra material cost is not required to be increased.

referring to fig. 3, in another embodiment of the present invention, a control device for adjusting a set temperature includes:

An obtaining unit 10, configured to obtain a current time, a first recording temperature, and a second recording temperature; the first recorded temperature is the set temperature recorded according to the first recording process in the previous day operation process of the air conditioner, and the second recorded temperature is the set temperature recorded according to the second recording process in the previous day operation process of the air conditioner when the air conditioner keeps stably operating;

The adjusting unit 20 is configured to adjust a first target temperature from the first recorded temperature and adjust a second target temperature from the second recorded temperature according to the current time; the first target temperature is a first recording temperature corresponding to the current temperature at the recording moment in the first recording temperature; the second target temperature is a second recorded temperature corresponding to the current temperature at the recording time in the second recorded temperature;

And the control unit 30 is used for adjusting the set temperature of the current operation of the air conditioner according to the calling result and the operation mode of the air conditioner.

thus, the current time is obtained in real time through the obtaining unit 10, the calling unit 20 calls the first target temperature from the first recorded temperature and the second target temperature from the second recorded temperature according to the current time, and the control unit 30 automatically adjusts the set temperature of the current operation of the air conditioner according to the calling result and the current operation mode of the air conditioner, so that the air conditioner has a self-learning function, whether the setting of a user meets the conventional requirement can be intelligently judged, the purposes of intellectualization and self-adaptive evolution of the air conditioner are realized, the comfort of the user in use can be improved, and the waste of electric energy resources can be avoided; the user does not need to manually adjust the set temperature each time, and the use is simpler; meanwhile, the control method for adjusting the set temperature in the embodiment is simple, and extra material cost is not required to be increased.

In another embodiment of the present invention, a control device for adjusting a set temperature includes a memory and a processor:

A memory for storing a computer program;

A processor for implementing the control method for adjusting a set temperature as described in any one of the above when executing the computer program.

the control device for adjusting the set temperature in the present embodiment is a computer device such as a microcomputer.

In another embodiment of the present invention, an air conditioner is provided, which includes a computer readable storage medium storing a computer program and a processor, wherein the computer program is read by the processor and executed to implement any one of the control methods for adjusting a set temperature.

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 (11)

1. A control method for adjusting a set temperature is characterized by comprising the following steps:

Acquiring the current moment, a first recording temperature and a second recording temperature; the first recorded temperature is a set temperature recorded according to a first recording process in the previous day operation process of the air conditioner, and the second recorded temperature is a set temperature corresponding to the stable operation of the air conditioner in the previous day operation process of the air conditioner according to a second recording process;

According to the current moment, a first target temperature is taken from the first recorded temperature, and a second target temperature is taken from the second recorded temperature; the first target temperature is the first recorded temperature corresponding to the current time at the recording time in the first recorded temperature; the second target temperature is the second recorded temperature corresponding to the current time at the recording time in the second recorded temperature;

and adjusting the current running set temperature of the air conditioner according to the calling result and the running mode of the air conditioner.

2. the control method for adjusting a set temperature according to claim 1,

The first recording process is as follows:

Recording corresponding set temperatures of the air conditioner at different moments in the operation process according to a recording period to serve as the first recorded temperature;

The second recording process is as follows:

acquiring the running time of the air conditioner;

When the running time of the air conditioner reaches a first preset time, acquiring indoor environment temperature and set temperature;

when the indoor environment temperature and the set temperature meet recording conditions, recording the set temperature at the moment as the second recording temperature;

wherein the recording conditions are: the indoor environment temperature is greater than or equal to the difference between the set temperature and the first preset temperature amplitude, is less than or equal to the sum of the set temperature and the first preset temperature amplitude, and lasts for a second preset time.

3. the control method for adjusting the set temperature according to claim 1, wherein the step of adjusting the first target temperature from the first recorded temperature and the step of adjusting the second target temperature from the second recorded temperature according to the current time specifically comprises:

acquiring the time corresponding to each first recording temperature and the time corresponding to each second recording temperature;

recording the obtained current time as ti, recording the time corresponding to each first recording temperature as t1, t2, … and tm according to the recorded sequence, and recording the time corresponding to each second recording temperature as t1 ', t2 ', … and tm ' according to the recorded sequence; wherein i is a positive integer, and m is a positive integer greater than i;

when tn is not less than ti and is less than t (n +1), calling the first recorded temperature corresponding to the time tn as the first target temperature; wherein tn and t (n +1) are two adjacent moments from t1 to tm, and n is a positive integer smaller than m;

when ti is greater than tn ', the second recorded temperature corresponding to the time tn' is taken as the second target temperature; where tn ' is a time from t1 ' to tm ', and n is a positive integer less than m.

4. the control method according to claim 1, wherein the adjusting the set temperature of the current operation of the air conditioner according to the retrieved result and the operation mode of the air conditioner specifically comprises:

When the first target temperature and the second target temperature are obtained, controlling the air conditioner to execute a first temperature adjusting process;

when the first target temperature is obtained and the second target temperature is not obtained, controlling the air conditioner to execute a second temperature adjusting process;

when the second target temperature is obtained and the first target temperature is not obtained, controlling the air conditioner to execute a third temperature adjusting process;

and controlling the air conditioner to execute a fourth temperature adjusting process when the first target temperature is not adjusted and the second target temperature is not adjusted.

5. The control method of adjusting the set temperature according to claim 4, wherein the first temperature adjustment process includes:

Acquiring a second preset temperature amplitude;

determining a third target temperature and a fourth target temperature according to the second target temperature and the second preset temperature amplitude; the third target temperature is the difference between the second target temperature and the second preset temperature amplitude, and the fourth target temperature is the sum of the second target temperature and the second preset temperature amplitude;

when the operation mode of the air conditioner is a refrigeration mode, judging whether the first target temperature is greater than or equal to the third target temperature;

If so, controlling the air conditioner to adjust the current operating set temperature according to the first target temperature; if not, controlling the air conditioner to adjust the current running set temperature according to the third target temperature;

when the operation mode of the air conditioner is a heating mode, judging whether the first target temperature is less than or equal to the fourth target temperature;

If so, controlling the air conditioner to adjust the current operating set temperature according to the first target temperature; and if not, controlling the air conditioner to adjust the current running set temperature according to the fourth target temperature.

6. the control method of adjusting the set temperature according to claim 4, wherein the second temperature adjustment process includes:

And controlling the air conditioner to adjust the current running set temperature according to the first target temperature.

7. The control method of adjusting the set temperature according to claim 4, wherein the third temperature adjustment process includes:

and controlling the air conditioner to adjust the current running set temperature according to the second target temperature.

8. The control method of adjusting a set temperature according to claim 4, wherein the fourth temperature adjustment process includes:

acquiring a set temperature of an upper running state of the air conditioner as a running target temperature;

and controlling the air conditioner to adjust the current running set temperature according to the running target temperature.

9. a control device for adjusting a set temperature, comprising:

an acquisition unit (10) for acquiring a current time, a first recording temperature and a second recording temperature; the first recorded temperature is the set temperature recorded according to the first recording process in the previous day operation process of the air conditioner, and the second recorded temperature is the set temperature recorded according to the second recording process when the air conditioner keeps stable operation in the previous day operation process;

The calling unit (20) is used for calling a first target temperature from the first recorded temperature and calling a second target temperature from the second recorded temperature according to the current moment; the first target temperature is the first recorded temperature corresponding to the current time at the recording time in the first recorded temperature; the second target temperature is the second recorded temperature corresponding to the current time at the recording time in the second recorded temperature;

And the control unit (30) is used for adjusting the current running set temperature of the air conditioner according to the calling result and the running mode of the air conditioner.

10. a computer-readable storage medium, characterized in that it stores a computer program which, when read and executed by a processor, implements the control method of adjusting a set temperature according to any one of claims 1 to 8.

11. An air conditioner comprising a computer-readable storage medium storing a computer program and a processor, wherein the computer program is read by the processor and executed to implement the control method for adjusting the set temperature according to any one of claims 1 to 8.