CN114251786B - Intelligent control method and device, storage medium and air conditioner - Google Patents

Abstract

The invention discloses an intelligent control method, an intelligent control device, a storage medium and an air conditioner, wherein the current temperature change rate is obtained; and determining target operation parameters of the air conditioner according to the comparison between the current temperature change rate and the temperature change rate in the database. The method has the characteristics that whether a person or no person exists in the room is judged according to the indoor temperature change rate and the person or no person indoor temperature change rate established in the database, the air conditioner is controlled to adjust the target operation parameters according to the person or no person in the room, the T is increased and the air conditioner is operated for the first preset time or the air conditioner is controlled to be turned off after the temperature is reduced and the air conditioner is operated for the first preset time again when the person or no person in the room is judged, the air conditioner is controlled to be turned off when the time when the person or no person in the room is detected to reach the third preset time, energy waste is avoided, the comfort of people is guaranteed, and the like.

Description

Intelligent control method and device, storage medium and air conditioner

Technical Field

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

Background

In daily life, people often leave a room and forget to turn off an air conditioner, which inevitably causes waste of electric energy and aims at the problem that:

in the prior art, a monitoring control method of an energy-saving system of an air conditioner is disclosed, wherein a monitoring system host reads indoor and outdoor humiture through an indoor humiture detection module and an outdoor humiture detection module, the monitoring system host drives an energy-saving unit control module to start an energy-saving unit when a difference value of the indoor and outdoor humiture is greater than or equal to a preset starting value, and drives the energy-saving unit control module to close the energy-saving unit when the difference value of the indoor and outdoor humiture is less than or equal to a preset closing value; the technology does not really realize the humanized control of the air conditioner, but carries out mechanical control on the air conditioner according to the environmental state, so the technology is difficult to meet the real requirements of various users.

In the prior art, a microwave induction controller is used as a first control unit for starting the air conditioner, the air conditioner can be powered on only when a person is in a room, a power supply of the air conditioner can be disconnected after the person leaves, meanwhile, a room humidity control module is arranged, the indoor air humidity can be effectively adjusted, discomfort caused by air drying is reduced, the air conditioner also utilizes the inductor for control, but compared with the above patent proposal, the air conditioner is simpler and more practical, but has the defects that if the person in the room goes out for a short time and then the air conditioner is stopped when the person returns, the inconvenience is not convenient for the person just having the air conditioning requirement, and frequent starting and stopping are easily damaged for the service life of the air conditioner.

Disclosure of Invention

In order to overcome the above disadvantages of the prior art, it is an object of the present invention to provide an intelligent control method, apparatus, storage medium and air conditioner.

The invention solves the technical problems proposed in the prior art: the invention provides an intelligent control method, a device, a storage medium and an air conditioner, wherein the intelligent control method comprises the following steps of firstly, intelligently controlling the running state of the air conditioner according to the condition that a person leaves a room and forgets to turn off the air conditioner, so that the problem of electric energy waste exists, and meeting the requirement that the temperature in the room can be artificially controlled when the person leaves the room for a short time according to the running state of the air conditioner when the person leaves the room or is not in the room, so that more effective energy-saving control is realized; the adopted technical scheme is as follows: an intelligent control method, comprising:

s1: acquiring the change rate of the temperature in the front chamber;

s2: and determining target operation parameters of the air conditioner according to the comparison between the current indoor temperature change rate and the temperature change rate in the database.

Wherein the indoor temperature change rate is recorded and analyzed by a temperature control module;

as a further improvement of the invention: the database comprises at least: the indoor temperature change rate when nobody is present in the room in the cooling mode, and the indoor temperature change rate when nobody is present in the room in the heating mode.

Wherein, the database specifically includes:

when the target temperature is set differently in the air-conditioning refrigeration mode, the indoor temperature drop rate is the rate when no person is in the room; indoor temperature rise rate when no person is in the room when the target temperature is set different from that in the heating mode;

as a further improvement of the invention: the S2 comprises the following steps:

s21: in the cooling mode, judging whether the indoor temperature change rate is smaller than the indoor temperature change rate when no person is in the room in the cooling mode in the database; if yes, go to S211; if not, go to S212;

s211: determining target operation parameters of the air conditioner, namely keeping the set target temperature of the air conditioner, and turning to S1 after the air conditioner operates for a first preset time;

s212: and determining a target operation parameter of the air conditioner as a set target temperature rise T of the air conditioner, and operating for a first preset time.

As another improvement point of the invention: the step S211 is replaced by the following steps: determining that the target operation parameter of the air conditioner is that the frequency of the air conditioner is kept unchanged, and after the air conditioner is operated for a first preset time, turning to S21; .

As a further improvement of the invention: after the S212, the method further includes:

s213: judging whether the time for the person to leave the room is greater than a second preset time or not; if so, determining the target operation parameter of the air conditioner as the air conditioner closing; if not, go to S214;

as another improvement point of the invention: the step S213 is replaced by the following steps: judging whether the frequency of the air conditioner exceeds a preset value or not, if so, determining that the target operation parameter of the air conditioner is that the air conditioner is closed; if not, go to S214; .

S214: determining whether the indoor temperature change rate is less than the indoor temperature change rate when no person is present in the database during the cooling mode; if yes, determining that the target operation parameters of the air conditioner are the target temperature which is recovered and operating for the first preset time, and then executing the S1 again; if not, go to S212.

As a further improvement of the invention: the S2 further comprises:

s22: in the heating mode, judging whether the indoor temperature change rate is larger than the indoor temperature change rate when no person is in the room in the heating mode in the database; if yes, go to S221; if not, go to S222;

s221: determining target operation parameters of the air conditioner to be set target temperature of the air conditioner, and turning to S1 after a third preset time interval;

as another improvement point of the invention: the step S221 is replaced by: and determining the target operation parameter of the air conditioner as the frequency of the air conditioner is kept unchanged, and after the air conditioner is operated for a third preset time, turning to the step S1.

S222: and determining the target operation parameter of the air conditioner as the target temperature reduction T set by the air conditioner, and operating for a third preset time.

As a further improvement of the invention: the step S222 further includes:

s223: judging whether the time for the person to leave the room is greater than a second preset time or not; if so, determining the target operation parameter of the air conditioner as off; if not, go to S224;

as another improvement point of the invention: the step S223 is replaced by: judging whether the frequency of the air conditioner exceeds a preset value or not, if so, determining that the target operation parameter of the air conditioner is that the air conditioner is closed; if not, go to S224.

S224: determining whether the indoor temperature change rate is greater than the indoor temperature change rate when no person is present in the database when the heating mode is present in the database; if yes, determining that the target operation parameters of the air conditioner are the target temperature which is recovered and operating for a third preset time, and then executing the S1 again; if not, go to the step S223.

An intelligent control device comprising:

the acquisition module is used for establishing a database of indoor temperature change rates when no people are in the room and acquiring the indoor temperature change rates when the people are in the room in the refrigeration mode or the heating mode;

a judging module: the indoor temperature control system is used for judging whether the indoor temperature change rate in the refrigeration mode is smaller than the indoor temperature change rate when no person is in the room in the refrigeration mode in the database, judging whether the indoor temperature change rate in the heating mode is larger than the indoor temperature change rate when no person is in the room in the heating mode in the database, and judging whether the time for a person to leave the room is larger than a second preset time;

a control module: and the controller is used for controlling the air conditioner to operate at the corresponding target operation parameter when the air conditioner meets the corresponding judgment condition.

A computer-readable storage medium storing computer instructions for causing a computer to execute the above-described intelligent control method.

An air conditioner uses the intelligent control method.

Compared with the prior art, the invention has the beneficial effects that:

the indoor temperature change rate detected in real time is compared with a database of indoor temperature change rates of the air conditioner when the air conditioner is set to be at different set target temperatures when the air conditioner is not occupied, whether the air conditioner is occupied or not is judged, and the air conditioner is controlled to adjust target operation parameters to operate according to the indoor occupied or unmanned conditions; if the indoor is judged to be occupied for the first time, controlling the air conditioner to keep the target temperature for judging again; if the indoor nobody is judged for the first time, the temperature T of the air conditioner is controlled to be increased during heating or reduced during cooling, the air conditioner is operated for the first preset time, and then judgment is carried out again until the result that the indoor nobody is judged reaches the preset times, and the air conditioner is controlled to be turned off. The intelligent control method avoids the waste of energy sources and ensures the comfort of personnel.

Drawings

Fig. 1 is a schematic flow chart of intelligent control of air conditioning in a cooling mode.

Fig. 2 is a schematic flow chart of intelligent control of air-conditioning in heating mode.

Detailed Description

The invention will now be further described with reference to the following description and examples in conjunction with the accompanying drawings:

example 1: in order to solve the problem of electric energy waste caused by the fact that a person leaves a room and forgets to turn off an air conditioner in the prior art, and meet the requirement that the person can artificially control the indoor temperature when the person leaves the room temporarily according to the running state of the air conditioner when the person is in the room or when the person is not in the room, so as to realize more effective energy-saving control, as shown in fig. 1, the invention discloses an intelligent control method, which comprises the following steps:

s1: acquiring a current temperature change rate;

s2: and determining target operation parameters of the air conditioner according to the comparison between the current temperature change rate and the temperature change rate in the database.

Wherein the indoor temperature change rate is recorded and analyzed through a temperature control module;

according to the invention, the target operation parameters of the air conditioner under different conditions are determined through the judgment result, so that the problem of energy waste caused by forgetting to turn off the air conditioner when a person leaves a room is solved, and meanwhile, the problem that the indoor temperature cannot meet the requirement of human comfort when the air conditioner leaves the room for a short time and returns to the room is solved.

Specifically, a corresponding database is established by detecting and recording the temperature drop rate of a person in a room and the temperature drop rate of a person in the room during the working period of the air conditioner during refrigeration, during the operation period of a subsequent air conditioner, whether the person leaves the room is judged by detecting the temperature drop rate in the room through a temperature control module, if the person does not leave the room, the target temperature in the room is kept unchanged, if the person leaves the room, the target temperature is increased by T ℃, the room temperature drop is detected again after the first preset time, the step is repeated, and when the time of the person leaving the room exceeds the second preset time, the air conditioner is shut down, so that the waste of energy is avoided, and the comfort of the person is ensured.

The database comprises at least: indoor temperature change rate when no person is in the room in the cooling mode;

the database specifically comprises indoor temperature drop rates of nobody in a room when different set target temperatures are adopted in an air-conditioning refrigeration mode;

the method comprises the steps of controlling a unit to start a refrigeration mode in an experimental environment, setting different set target temperatures based on different geographic positions, outdoor environment information, indoor space sizes, system parameters and the like, obtaining temperature change rates of nobody in different preset time periods, establishing indoor temperature change rate data of nobody and storing the indoor temperature change rate data in a database, and setting a corresponding relation with the subsequently obtained temperature change rates according to the indoor temperature change rate data of nobody and corresponding target operation parameters and storing the target operation parameters in the database.

Specifically, the S2 includes:

s21: in the cooling mode, judging whether the indoor temperature change rate is smaller than the indoor temperature change rate when no person is in the room in the cooling mode in the database; if yes, go to S211; if not, go to S212;

s211: determining target operation parameters of the air conditioner, namely keeping the set target temperature of the air conditioner, and turning to S1 after the air conditioner operates for a first preset time;

s212: and determining a target operation parameter of the air conditioner as a set target temperature rise T of the air conditioner, and operating for a first preset time.

Specifically, the S211 is replaced with: determining that the target operation parameter of the air conditioner is that the frequency of the air conditioner is kept unchanged, and after the air conditioner is operated for a first preset time, turning to S1;

specifically, the step S212 further includes:

s213: judging whether the time for the person to leave the room is greater than a second preset time or not; if so, determining the target operation parameter of the air conditioner as the air conditioner closing; if not, go to S214;

the second preset time is the time when the air conditioner starts to enter the intelligent control method until the judgment condition is reached (whether the time when the person leaves the room is judged to be greater than the second preset time or not).

Specifically, the S213 is replaced with: judging whether the frequency of the air conditioner exceeds a preset value or not, if so, determining that the target operation parameter of the air conditioner is that the air conditioner is closed; if not, go to S214.

S214: determining whether the indoor temperature change rate is less than the indoor temperature change rate when no person is present in the room in the cooling mode in the database; if yes, determining that the target operation parameters of the air conditioner are the target temperature which is recovered, and executing the S1 again after the operation time is first preset time; if not, go to S212.

More specifically, the examples of the intelligent control in the cooling mode are as follows:

in the refrigeration mode, the air conditioner is started, the unit is operated according to a set target temperature, the temperature control module records the temperature reduction rate of people and nobody in a room during operation, and then a relevant database is established; or the database is preset in the air conditioner.

During the subsequent use period of the air conditioner, the temperature control module detects the indoor air temperature drop rate, meanwhile, the detected real-time temperature drop rate is compared with the indoor temperature drop rate when no person is in the database, if the real-time temperature drop rate is smaller than the indoor temperature drop rate when no person is in the database, the person is considered not to leave the room, the set keeps running at the set target temperature, the indoor temperature drop rate is detected again after 30 minutes, and the detected data are judged again; if the detected temperature reduction rate is larger than or equal to the temperature reduction rate when no person exists in the room, the person leaves the room, the target temperature is set to be increased by 1 ℃, the temperature reduction rate of the air in the room is detected again after the person leaves the room for 30 minutes, then whether the time for the person leaving the room is larger than 2 hours is judged, if yes, the air conditioner is closed, if not, whether the detected temperature reduction rate is smaller than the temperature reduction rate when no person exists is judged, if yes, the target temperature is restored to the initial target temperature, the detected temperature reduction rate is judged again after the person leaves the room for 30 minutes, and if not, the target temperature is set to be increased by 1 ℃.

Example 2: as shown in fig. 2, an intelligent control method includes:

s1: acquiring the current indoor temperature change rate;

s2: and determining target operation parameters of the air conditioner according to the comparison between the current indoor temperature change rate and the temperature change rate in the database.

Wherein the indoor temperature change rate is recorded and analyzed through a temperature control module;

as a further improvement of the invention: the database includes: the indoor temperature change rate when no person is present in the room in the heating mode.

The database specifically comprises: indoor temperature rise rate when no person is indoors when the target temperature is set differently in the air-conditioning heating mode;

the method comprises the steps that a control unit starts a heating mode in an experimental environment, different set target temperatures are set based on different geographic positions, outdoor environment information, indoor space sizes, system parameters and the like, the temperature change rate of nobody in different preset time is obtained, data of the indoor temperature change rate of nobody in the nobody time are built and stored in a database, and meanwhile, the corresponding relation between the indoor temperature change rate data of nobody and the temperature change rate obtained subsequently is set according to the indoor temperature change rate data of nobody, corresponding target operation parameters are stored in the database.

Specifically, during the working period of the air conditioner during heating, the temperature rise rate when people exist in a room and the temperature rise rate when no people exist are detected and recorded for refrigeration, a corresponding database is established, during the operation period of a subsequent air conditioner, the temperature rise rate in the room is detected through a temperature control module to judge whether a person leaves the room, if the person does not leave the room, the target temperature in the room is kept unchanged, if the person leaves the room, the target temperature is set to be reduced by T ℃, the temperature rise in the room is detected again after the third preset time, the step is repeated, and when the time for the person leaving the room exceeds the second preset time, the air conditioner is shut down, so that energy waste is avoided, and the comfort of the person is guaranteed.

Specifically, the S2 includes:

s22: in the heating mode, judging whether the indoor temperature change rate is larger than the indoor temperature change rate when no person is in the room in the heating mode in the database; if yes, go to the S221; if not, go to S222;

s221: determining target operation parameters of the air conditioner to be set target temperature of the air conditioner, and after the air conditioner operates for a third preset time, turning to S1;

specifically, the S221 is replaced by: determining that the target operation parameter of the air conditioner is that the frequency of the air conditioner is kept unchanged, and after the air conditioner is operated for a third preset time, turning to S1;

s222: determining a target operation parameter of the air conditioner as a target temperature reduction T set by the air conditioner, and operating for a third preset time;

specifically, the step S222 further includes:

s223: judging whether the time for the person to leave the room is greater than a second preset time or not; if so, determining the target operation parameter of the air conditioner as off; if not, go to S224;

the second preset time is the time when the air conditioner starts to enter the intelligent control method until the judgment condition is reached (whether the time when the person leaves the room is judged to be greater than the second preset time or not).

Specifically, the S223 is replaced with: judging whether the frequency of the air conditioner exceeds a preset value or not, if so, determining that the target operation parameter of the air conditioner is that the air conditioner is closed; if not, go to S224.

S224: determining whether the indoor temperature change rate is greater than the indoor temperature change rate when no person is present in the database when the heating mode is present in the database; if yes, determining that the target operation parameters of the air conditioner are the target temperature which is recovered, and executing the S1 again after operating for a third preset time; if not, go to the step S223.

More specifically, the specific examples of the intelligent control method in the heating mode are as follows:

in the heating mode, the air conditioner is started, the unit is operated according to a set target temperature, the temperature control module records the temperature rise rate of people and nobody in a room during operation, and then a relevant database is established; or the database is preset in the air conditioner.

During the subsequent use period of the air conditioner, the temperature control module detects the indoor air temperature rise rate, meanwhile, the detected real-time temperature rise rate is compared with the room temperature rise rate when no person exists, if the detected real-time temperature rise rate is larger than the room temperature rise rate when no person exists, a person is considered not to leave the room, the set keeps the set target temperature to operate, the indoor temperature rise rate is detected again after 30 minutes, and the detected data are judged again; if the detected temperature reduction rate is smaller than or equal to the temperature reduction rate when no person exists in the room, the person leaves the room, the target temperature is reduced by 1 ℃, the indoor air temperature rise rate is detected again after the person leaves the room for 30 minutes, then whether the time for the person leaving the room is larger than 2 hours is judged, if yes, the air conditioner is closed, if not, whether the detected temperature rise rate is larger than the temperature reduction rate when no person exists is judged, if yes, the target temperature is restored to the initial target temperature, the detected temperature rise rate is judged again after the person leaves the room for 30 minutes, and if not, the target temperature is reduced by 1 ℃.

Example 3: an intelligent control device comprising:

the acquisition module is used for establishing a database of indoor temperature change rates when no people are in the room and acquiring the indoor temperature change rates when the people are in the room in the refrigeration mode or the heating mode;

a judgment module: the indoor temperature control system is used for judging whether the indoor temperature change rate in the refrigeration mode is smaller than the indoor temperature change rate when no person is in the room in the refrigeration mode in the database, judging whether the indoor temperature change rate in the heating mode is larger than the indoor temperature change rate when no person is in the room in the heating mode in the database, and judging whether the time for a person to leave the room is larger than a second preset time;

a control module: and the controller is used for controlling the air conditioner to operate at the corresponding target operation parameter when the air conditioner meets the corresponding judgment condition.

Example 4: a computer-readable storage medium storing computer instructions for causing a computer to execute an intelligent control method of embodiment 1 and/or embodiment 2.

Example 5: an air conditioner using an intelligent control method of embodiment 1 and/or embodiment 2.

In summary, after reading the present disclosure, those skilled in the art can make various other corresponding changes without creative mental labor according to the technical solutions and concepts of the present disclosure, and all of them are within the protection scope of the present disclosure.

Claims (7)

1. An intelligent control method, comprising:

s1: acquiring the change rate of the temperature in the front chamber;

s2: determining target operation parameters of the air conditioner according to the comparison between the current indoor temperature change rate and the temperature change rate in the database;

the S2 comprises the following steps:

s21: in the refrigeration mode, judging whether the indoor temperature change rate is smaller than the indoor temperature change rate when no person is in the refrigeration mode in the database; if yes, go to S211; if not, go to S212;

s211: determining target operation parameters of the air conditioner, namely keeping the set target temperature of the air conditioner, and turning to S1 after the air conditioner operates for a first preset time;

s212: determining a target operation parameter of the air conditioner as a set target temperature rise T of the air conditioner, and operating for a first preset time;

and/or, the S2 further comprises:

s22: in the heating mode, judging whether the indoor temperature change rate is larger than the indoor temperature change rate when no person is in the room in the heating mode in the database; if yes, go to S221; if not, go to S222;

s221: determining target operation parameters of the air conditioner, namely keeping the set target temperature of the air conditioner, and turning to S1 after the air conditioner operates for a third preset time;

s222: and determining the target operation parameter of the air conditioner as the target temperature reduction T set by the air conditioner, and operating for a third preset time.

2. An intelligent control method according to claim 1, wherein the database comprises: the indoor temperature change rate when no person is present in the cooling mode indoor unit, and the indoor temperature change rate when no person is present in the heating mode indoor unit.

3. The intelligent control method according to claim 1, further comprising, after S212:

s213: judging whether the time for the person to leave the room is greater than a second preset time or not; if so, determining the target operation parameter of the air conditioner as the air conditioner closing; if not, go to S214;

s214: determining whether the indoor temperature change rate is less than the indoor temperature change rate when no person is present in the database during the cooling mode; if yes, determining that the target operation parameters of the air conditioner are the target temperature which is recovered, and executing the S1 again after the air conditioner is operated for a first preset time; if not, go to S212.

4. The intelligent control method according to claim 1, further comprising, after the S222:

s223: judging whether the time for the person to leave the room is greater than a second preset time or not; if so, determining the target operation parameter of the air conditioner as the air conditioner closing; if not, go to S224;

s224: determining whether the indoor temperature change rate is greater than the indoor temperature change rate when no person is present in the database when the heating mode is present in the database; if yes, determining that the target operation parameters of the air conditioner are the target temperature which is recovered, and executing the S1 again after operating for a third preset time; if not, go to the step S223.

5. An intelligent control device, comprising:

an acquisition module: the system is used for establishing a database of indoor temperature change rates when no people are in the room and acquiring the indoor temperature change rates when the people are in the room in a refrigeration mode or a heating mode;

a judging module: the indoor temperature control system is used for judging whether the indoor temperature change rate in the refrigeration mode is smaller than the indoor temperature change rate when no person is in the room in the refrigeration mode in the database, judging whether the indoor temperature change rate in the heating mode is larger than the indoor temperature change rate when no person is in the room in the heating mode in the database, and judging whether the time for a person to leave the room is larger than a second preset time;

a control module: and the controller is used for controlling the air conditioner to operate at the corresponding target operation parameter when the air conditioner meets the corresponding judgment condition.

6. A computer-readable storage medium storing computer instructions for causing a computer to perform an intelligent control method according to any one of claims 1-4.

7. An air conditioner characterized by using an intelligent control method according to any one of claims 1 to 4.

Images