CN117267909A - Control method and device of air conditioner, readable storage medium and air conditioner - Google Patents

Abstract

The invention provides a control method and device of an air conditioner, a readable storage medium and the air conditioner. The control method comprises the following steps: acquiring indoor air quality data; inputting indoor air quality data into an air purification model, and running to generate first purification parameters; acquiring outdoor air quality data; inputting the outdoor air quality data into an air purification model, and running to generate second purification parameters; comparing the first purifying parameter with a plurality of preset thresholds to obtain a first purifying level; comparing the second purifying parameter with a plurality of preset thresholds to obtain a second purifying level; when the first purification level is lower than the second purification level, the indoor air is purified. The purification function of the air conditioner can be further optimized by the method, and living experience of users is improved.

Description

Control method and device of air conditioner, readable 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 of an air conditioner, a readable storage medium and the air conditioner.

Background

As the demand for air quality has been increasing, the need for air purification in living environments, particularly in the home environment, has increased. Many users choose to install air cleaners in the room to solve the problem of poor air quality, but the air cleaners often occupy a part of space, and especially for users who pursue extremely simple life, the air cleaners also affect the aesthetics of the indoor furnishings.

The present invention thus provides an air conditioner having an air purifying function, and provides a control method aimed at achieving monitoring and optimization of air quality of an indoor environment.

Disclosure of Invention

In order to solve at least one of the above problems, the present invention provides a control method of an air conditioner, comprising the steps of: s1: acquiring indoor air quality data; inputting indoor air quality data into an air purification model, and running to generate first purification parameters; s2: acquiring outdoor air quality data; inputting the outdoor air quality data into an air purification model, and running to generate second purification parameters; s3: comparing the first purifying parameter with a plurality of preset thresholds to obtain a first purifying level; s4: comparing the second purifying parameter with a plurality of preset thresholds to obtain a second purifying level; s5: when the first purification level is lower than the second purification level, the indoor air is purified.

The air conditioner provided by the technical scheme is provided with an air purifying module and a control method; when the user controls the air conditioner to enter the air purifying mode, the air purifying module operates and performs the control method. In a specific embodiment, the air purification module acquires indoor air quality in real time, and reflects indoor air parameters to the terminal equipment as a reference for a user to select whether to enter an air purification mode.

In the technical scheme, the indoor air and the outdoor air are compared according to related parameters, and a specific purification strategy is determined according to a comparison result. Firstly, acquiring indoor air quality data, and then inputting the air quality data into a preset air purification model; the air purification model is a virtual model, and optimal air purification parameters can be obtained through simulation calculation according to current air quality data. The air purification parameters include, for example, purification time, operation power of the air purification module, circulation wind speed of the air conditioner, and the like.

In a specific technical scheme, a first purification parameter is determined according to indoor air quality data, and a first purification level is further determined according to the first purification parameter. Generally, the first purification level may be determined by comparing the first purification parameter with a plurality of preset thresholds, and evaluating the purification level based on the comparison; specifically, the assignment may be performed according to a threshold interval in which the first purifying parameter is located, and the result of the assignment is converted into the first purifying level. In the technical scheme, the higher the purification level is, the lower the total air quality is; i.e. the cost of purifying the air is higher.

In the technical scheme, the outdoor air quality data is processed identically to the indoor air quality data, a second purification parameter is determined according to the outdoor air quality data, and a second purification grade is further evaluated; and will not be described in detail herein.

When the evaluation results in that the first purification level is lower than the second purification level, i.e. the cost for comparing the purification of indoor air with the cost for outdoor air, the cost for selecting the purification of indoor air is smaller, and thus the air purification device is controlled to purify the indoor air, thereby improving the indoor air condition.

Further, the indoor air quality data comprises at least one of temperature, humidity, formaldehyde, carbon monoxide, inhalable particulate matter, and total number of colonies; the outdoor air quality data includes at least one of temperature, humidity, fine particulate matter, respirable particulate matter, sulfur dioxide, nitrogen dioxide, ozone, carbon monoxide.

In the technical scheme, the indoor environment and the outdoor environment are different, and the pollution sources are different, so that the acquisition of the air quality data is also different. For example, in indoor environments, formaldehyde may be generated due to decoration, inhalable particles may be generated due to ventilation of inside and outside air, or corresponding biological colonies may be generated due to activities of living bodies in the environment, such as human bodies and pets such as cats and dogs. For example, in an outdoor environment, given the large difference in facilities around different customer premises, the pollution that may be generated is not the same, and thus, most indicators of outdoor air quality assessment, such as fine particulate matter, inhalable particulate matter, sulfur dioxide, nitrogen dioxide, ozone, carbon monoxide, etc., are covered.

Further, the air purification model comprises a plurality of functional modules, and different functions are realized aiming at different pollutants, for example, the adsorption of the particles is realized by adopting a particle adsorption module, or the purification of biological bacterial colonies is realized by adopting a sterilization module, or the removal of harmful gases such as formaldehyde, carbon monoxide, sulfur dioxide, ozone, nitrogen dioxide and the like is realized by adopting a purification module.

Further, when the first purification level is lower than the second purification level, purifying the indoor air includes: comparing the first purifying parameter with the actual operating parameter of the air purifying module to obtain an offset value; when the deviation value is greater than or equal to the deviation threshold value, generating calibration information, and calibrating the operation parameters of the air purification module according to the calibration information; and when the deviation value is smaller than the deviation threshold value, controlling the air purification module to maintain the current operation parameters.

In the technical scheme, the operation parameters of the air purification module can be subjected to trial adjustment by comparing the difference between the first purification parameters and the actual operation parameters, so that the control precision is improved, and the optimization of the air purification control strategy is realized on the whole.

Further, when the first purification level is higher than the second purification level, indoor and outdoor ventilation processing is performed, and outdoor air is purified.

In the technical scheme, by evaluating the levels of the first purification level and the second purification level, a decision is made according to the evaluation result, and when the first purification level is higher, the indoor air is purified more than the outdoor air, so that ventilation treatment is adopted, and meanwhile, the outdoor air is purified, namely, the outdoor air is purified and then is sent into a room, and the indoor air is discharged outdoors. The control strategy can be optimized through the control method, and the air purification efficiency is improved.

Further, an alarm is issued when either of the first decontamination level and the second decontamination level crosses a decontamination level threshold.

In this technical scheme, the purifying capacity of air purification module is set for daily production life, therefore has its upper limit of purifying, namely purifying the grade threshold value. When the purification level exceeds the purification level threshold, it is indicated that the air purification module cannot perform purification treatment on the index in the air, so that an alarm needs to be sent to inform the user. Specifically, the temperature may be continuously increased due to the occurrence of a fire, or poisoning may be easily caused by an excessively high carbon monoxide concentration; the alarm therefore prompts the user to focus on the environmental conditions.

Further, the technical scheme also provides a control device of the air conditioner, which comprises: a first determination module configured to acquire indoor air quality data; inputting indoor air quality data into an air purification model, and running to generate first purification parameters; acquiring outdoor air quality data; inputting the outdoor air quality data into an air purification model, and running to generate second purification parameters; a second determining module configured to compare the first decontamination parameter with a plurality of preset thresholds to obtain a first decontamination level; comparing the second purifying parameter with a plurality of preset thresholds to obtain a second purifying level; and a first control module configured to perform a purification process on the indoor air when the first purification level is lower than the second purification level.

Further, the control device further includes: and a second control module configured to perform indoor and outdoor ventilation processing and to perform purification processing for outdoor air when the first purification level is higher than the second purification level.

Further, the control device further includes: a third control module configured to issue an alarm when both the first purge level and the second purge level exceed a purge level threshold.

In the technical scheme, the control device of the air conditioner comprises a first determining module, a first control module, a second determining module, a second control module and a third control module; respectively for executing different control strategies in the control method.

The readable storage medium provided in the technical scheme of the present invention stores a program or an instruction, and when the program or the instruction is executed by a processor, the steps of the control method of any one of the above claims are implemented. The readable storage medium is, for example, a nonvolatile memory, which is, for example: magnetic media (e.g., hard disk, floppy disk, and magnetic strips), optical media (e.g., CDROM disks and DVDs), magneto-optical media (e.g., optical disks), and hardware devices that are specially constructed for storing and performing computer-executable instructions (e.g., read-only memory (ROM), random Access Memory (RAM), flash memory, etc.). The readable storage medium has stored thereon computer executable instructions. The readable storage medium may be executable by one or more processors or processing means to execute computer-executable instructions to cause an air conditioner in which the readable storage medium is located to implement the air conditioner control method as in the first aspect.

The invention also provides an air conditioner, the inside of the air conditioner is provided with a fragrance-expanding device, and the air conditioner comprises any one of the control devices; or the air conditioner may implement the control method of any one of the above.

Drawings

The foregoing and/or additional aspects and advantages of the invention will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

fig. 1 is a schematic flow chart provided in an embodiment of the present invention.

Fig. 2 is a schematic block diagram of an air conditioner control device according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a readable storage medium according to an embodiment of the present invention.

Reference numerals illustrate: a first determination module 311; a first control module 312; a second determination module 321; a second control module 322; a third control module 331; a readable storage medium 400; computer-executable instructions 410.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will become more apparent, a more particular description of embodiments of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The embodiment provides a control method of an air conditioner, which comprises the following steps: s1: acquiring indoor air quality data; inputting indoor air quality data into an air purification model, and running to generate first purification parameters; s2: acquiring outdoor air quality data; inputting the outdoor air quality data into an air purification model, and running to generate second purification parameters; s3: comparing the first purifying parameter with a plurality of preset thresholds to obtain a first purifying level; s4: comparing the second purifying parameter with a plurality of preset thresholds to obtain a second purifying level; s5: when the first purification level is lower than the second purification level, the indoor air is purified.

The air conditioner provided by the embodiment is provided with an air purifying module and a control method; when the user controls the air conditioner to enter the air purifying mode, the air purifying module operates and performs the control method. In a specific embodiment, the air purification module acquires indoor air quality in real time, and reflects indoor air parameters to the terminal equipment as a reference for a user to select whether to enter an air purification mode.

In this embodiment, the comparison is made according to the relevant parameters of the indoor and outdoor air, and the specific purification strategy is decided according to the comparison result. Firstly, acquiring indoor air quality data, and then inputting the air quality data into a preset air purification model; the air purification model is a virtual model, and optimal air purification parameters can be obtained through simulation calculation according to current air quality data. The air purification parameters include, for example, purification time, operation power of the air purification module, circulation wind speed of the air conditioner, and the like.

In a specific embodiment, a first decontamination parameter is determined based on the indoor air quality data, and a first decontamination level is further determined based on the first decontamination parameter. Generally, the first purification level may be determined by comparing the first purification parameter with a plurality of preset thresholds, and evaluating the purification level based on the comparison; specifically, the assignment may be performed according to a threshold interval in which the first purifying parameter is located, and the result of the assignment is converted into the first purifying level. In this embodiment, the higher the purge level, the lower the total mass of air is accounted for; i.e. the cost of purifying the air is higher.

In this embodiment, the processing of the outdoor air quality data is the same as the indoor air quality data, a second purification parameter is determined according to the outdoor air quality data, and a second purification level is further evaluated; and will not be described in detail herein.

When the evaluation results in that the first purification level is lower than the second purification level, i.e. the cost for comparing the purification of indoor air with the cost for outdoor air, the cost for selecting the purification of indoor air is smaller, and thus the air purification device is controlled to purify the indoor air, thereby improving the indoor air condition.

Further, the indoor air quality data comprises at least one of temperature, humidity, formaldehyde, carbon monoxide, inhalable particulate matter, and total number of colonies; the outdoor air quality data includes at least one of temperature, humidity, fine particulate matter, respirable particulate matter, sulfur dioxide, nitrogen dioxide, ozone, carbon monoxide.

In this embodiment, the air quality data is collected differently due to different indoor and outdoor environments and different pollution sources. For example, in indoor environments, formaldehyde may be generated due to decoration, inhalable particles may be generated due to ventilation of inside and outside air, or corresponding biological colonies may be generated due to activities of living bodies in the environment, such as human bodies and pets such as cats and dogs. For example, in an outdoor environment, given the large difference in facilities around different customer premises, the pollution that may be generated is not the same, and thus, most indicators of outdoor air quality assessment, such as fine particulate matter, inhalable particulate matter, sulfur dioxide, nitrogen dioxide, ozone, carbon monoxide, etc., are covered.

Further, the air purification model comprises a plurality of functional modules, and different functions are realized aiming at different pollutants, for example, the adsorption of the particles is realized by adopting a particle adsorption module, or the purification of biological bacterial colonies is realized by adopting a sterilization module, or the removal of harmful gases such as formaldehyde, carbon monoxide, sulfur dioxide, ozone, nitrogen dioxide and the like is realized by adopting a purification module.

Further, when the first purification level is lower than the second purification level, purifying the indoor air includes: comparing the first purifying parameter with the actual operating parameter of the air purifying module to obtain an offset value; when the deviation value is greater than or equal to the deviation threshold value, generating calibration information, and calibrating the operation parameters of the air purification module according to the calibration information; and when the deviation value is smaller than the deviation threshold value, controlling the air purification module to maintain the current operation parameters.

In this embodiment, by comparing the difference between the first purifying parameter and the actual operating parameter, trial adjustment may be performed on the operating parameter of the air purifying module, so as to improve the control accuracy, and realize optimization of the air purifying control strategy as a whole.

Further, when the first purification level is higher than the second purification level, indoor and outdoor ventilation processing is performed, and outdoor air is purified.

In the present embodiment, by evaluating the levels of the first purification level and the second purification level, a decision is made based on the evaluation result, and when the first purification level is higher, it is explained that the indoor air is purified higher than the outdoor air, and therefore the ventilation treatment is adopted, while the outdoor air is purified, that is, the outdoor air is purified and then sent into the room, and the indoor air is discharged to the outside. The control strategy can be optimized through the control method, and the air purification efficiency is improved.

Further, an alarm is issued when either of the first decontamination level and the second decontamination level crosses a decontamination level threshold.

In this embodiment, the purifying capacity of the air purifying module is set for daily production and life, and thus there is an upper limit of its purification, that is, a purification level threshold. When the purification level exceeds the purification level threshold, it is indicated that the air purification module cannot perform purification treatment on the index in the air, so that an alarm needs to be sent to inform the user. Specifically, the temperature may be continuously increased due to the occurrence of a fire, or poisoning may be easily caused by an excessively high carbon monoxide concentration; the alarm therefore prompts the user to focus on the environmental conditions.

Further, referring to fig. 2, the present embodiment further provides a control device 300 of an air conditioner, including: a first determination module 311 configured to acquire indoor air quality data; inputting indoor air quality data into an air purification model, and running to generate first purification parameters; acquiring outdoor air quality data; inputting the outdoor air quality data into an air purification model, and running to generate second purification parameters; a second determining module 321 configured to compare the first decontamination parameter with a plurality of preset thresholds to obtain a first decontamination level; comparing the second purifying parameter with a plurality of preset thresholds to obtain a second purifying level; the first control module 312 is configured to perform a purification process on the indoor air when the first purification level is lower than the second purification level.

Further, the control device further includes: and a second control module 322 configured to perform indoor and outdoor ventilation processing and to perform purification processing for outdoor air when the first purification level is higher than the second purification level.

Further, the control device further includes: a third control module 331 configured to issue an alarm when both the first purge level and the second purge level exceed a purge level threshold.

In this embodiment, a control device of an air conditioner is provided, which specifically includes a first determining module 311, a first control module 312, a second determining module 321, a second control module 322, and a third control module 331; respectively for executing different control strategies in the control method.

Referring to fig. 3, a schematic structural diagram of a readable storage medium according to an embodiment of the present invention is provided, where a program or an instruction is stored on the readable storage medium, and when the program or the instruction is executed by a processor, the steps of the control method according to any one of the above are implemented. The readable storage medium 400 is, for example, a nonvolatile memory, which is, for example: magnetic media (e.g., hard disk, floppy disk, and magnetic strips), optical media (e.g., CDROM disks and DVDs), magneto-optical media (e.g., optical disks), and hardware devices that are specially constructed for storing and performing computer-executable instructions (e.g., read-only memory (ROM), random Access Memory (RAM), flash memory, etc.). Computer-executable instructions 410 are stored on the readable storage medium 400. The readable storage medium 400 may be provided with computer executable instructions 410 executed by one or more processors or processing devices to cause an air conditioner in which the readable storage medium 400 is located to implement the air conditioner control method as in the first embodiment.

The invention also provides an air conditioner, the inside of the air conditioner is provided with a fragrance-expanding device, and the air conditioner comprises any one of the control devices; or the air conditioner may implement the control method of any one of the above.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A control method of an air conditioner, comprising the steps of:

acquiring indoor air quality data; inputting the indoor air quality data into an air purification model, and running to generate a first purification parameter;

acquiring outdoor air quality data; inputting the outdoor air quality data into an air purification model, and running to generate a second purification parameter;

comparing the first purifying parameter with a plurality of preset thresholds to obtain a first purifying level;

comparing the second purifying parameter with a plurality of preset thresholds to obtain a second purifying level;

and when the first purifying level is lower than the second purifying level, purifying the indoor air.

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

the indoor air quality data comprises at least one of temperature, humidity, formaldehyde, carbon monoxide, inhalable particles and total colony count;

the outdoor air quality data includes at least one of temperature, humidity, fine particulate matter, inhalable particulate matter, sulfur dioxide, nitrogen dioxide, ozone, carbon monoxide.

3. The control method according to claim 1, wherein,

when the first purification level is lower than the second purification level, purifying the indoor air includes:

comparing the first purifying parameter with the actual operating parameter of the air purifying module to obtain an offset value;

when the deviation value is greater than or equal to a deviation threshold value, generating calibration information, and calibrating the operation parameters of the air purification module according to the calibration information;

and when the deviation value is smaller than a deviation threshold value, controlling the air purification module to maintain the current operation parameters.

4. The control method according to claim 1, wherein,

when the first purification level is higher than the second purification level, indoor and outdoor ventilation treatment is performed, and outdoor air is purified.

5. The control method according to claim 1, characterized by further comprising the step of:

an alarm is issued when either of the first decontamination level and the second decontamination level exceeds a decontamination level threshold.

6. A control device of an air conditioner, comprising:

a first determination module configured to acquire indoor air quality data; inputting the indoor air quality data into an air purification model, and running to generate a first purification parameter; acquiring outdoor air quality data; inputting the outdoor air quality data into an air purification model, and running to generate a second purification parameter;

a second determining module configured to compare the first decontamination parameter with a plurality of preset thresholds to obtain a first decontamination level; comparing the second purifying parameter with a plurality of preset thresholds to obtain a second purifying level;

a first control module configured to perform a purification process on indoor air when the first purification level is lower than the second purification level.

7. The control device according to claim 6, characterized by further comprising:

and a second control module configured to perform indoor and outdoor ventilation processing and to perform purification processing for outdoor air when the first purification level is higher than the second purification level.

8. The control device according to claim 6, characterized by further comprising:

a third control module configured to issue an alarm when both the first purge level and the second purge level exceed a purge level threshold.

9. A readable storage medium, characterized in that it stores thereon a program or instructions that, when executed by a processor, implement the steps of the control method according to any one of claims 1 to 5.

10. An air conditioner is characterized in that,

the air conditioner includes the control device according to any one of claims 6 to 8; or (b)

The air conditioner can implement the control method of any one of claims 1 to 5.