CN112762590A

CN112762590A - Air cleaning control method for air conditioner and air conditioner

Info

Publication number: CN112762590A
Application number: CN202110003960.3A
Authority: CN
Inventors: 郭嘉兴; 王宁; 商庆浩
Original assignee: Qingdao Haier Air Conditioner Gen Corp Ltd; Qingdao Haier Air Conditioning Electric Co Ltd; Haier Smart Home Co Ltd
Current assignee: Qingdao Haier Air Conditioner Gen Corp Ltd; Qingdao Haier Air Conditioning Electric Co Ltd; Haier Smart Home Co Ltd
Priority date: 2021-01-04
Filing date: 2021-01-04
Publication date: 2021-05-07
Anticipated expiration: 2041-01-04
Also published as: CN112762590B; WO2022144046A1

Abstract

The invention belongs to the field of air conditioners, and particularly provides an air cleaning control method for an air conditioner and the air conditioner. The invention aims to solve the problem that the prior air conditioner is easy to cause the indoor air quality to be poor when in operation. To this end, the control method of the present invention includes: opening an air inlet valve, closing an exhaust valve and then opening a blower; the control people number detection module detects the number of people in the room; and controlling the blower to select different rotating speeds according to the detected number of people indoors. By the control method, the air conditioner can select different rotating speeds of the air feeder according to the number of people indoors so as to achieve different foul air or foul substance adsorption efficiencies, and accordingly the comfort experience degree of users is improved according to practical application scenes.

Description

Air cleaning control method for air conditioner and air conditioner

Technical Field

The invention belongs to the technical field of air conditioners, and particularly provides an air cleaning control method for an air conditioner and the air conditioner.

Background

Along with the improvement of people's standard of living, more and more people use the air conditioner, and people also are more and more high to the air supply quality requirement of air conditioner, however in the room that uses the air conditioner, in order to reach best heat transfer effect, indoor door and window is closed, can cause the air not to circulate like this, and it is uncomfortable to have led to the human body to suppress for a long time, mainly because close the window for a long time and lead to indoor air quality variation, the air is comparatively dirty to lead to.

Currently, when an air conditioner is turned on, the way to clean the indoor air generally includes: select products such as installation new fan or use air conditioner that has the new trend function, reach the purpose of taking a breath through introducing outdoor air, thereby guarantee that the room air is "fresh", however, the air conditioner price that has the new trend function is higher usually, and adopt the mode of new trend introduction, can cause indoor local subcooling or overheated in winter or summer, influence user experience degree, in addition, still need often change consumptive materials such as purification filter core, heat exchange filter core, the maintenance cost in later stage is higher.

Accordingly, there is a need in the art for a new air cleaning control method for an air conditioner and an air conditioner to solve the problem that the existing air conditioner is likely to cause deterioration of indoor air quality during operation.

Disclosure of Invention

In order to solve the above problems in the prior art, that is, to solve the problem that the prior air conditioner is likely to cause indoor air quality deterioration during operation, the present invention provides an air cleaning control method for an air conditioner and an air conditioner, wherein the air conditioner comprises an indoor unit, the indoor unit comprises an airflow channel, an air inlet valve, an exhaust valve, a blower, a people number detection module and a foul air adsorption and release unit, and the airflow channel comprises an air inlet channel and an exhaust channel; the air inlet channel is communicated with the air outlet channel, two ends of the air inlet channel are arranged indoors, one end of the air outlet channel communicated with the air inlet channel is arranged indoors, the other end of the air outlet channel is arranged outdoors, the air inlet valve is arranged on the air inlet channel to realize independent opening and closing of the air inlet channel, and the exhaust valve is arranged on the air outlet channel to realize independent opening and closing of the air outlet channel; the blower and the foul air adsorption and release unit are arranged in the airflow channel and are arranged in such a way that when the blower is started, when the air inlet valve is opened and the exhaust valve is closed, indoor air enters the room again after being adsorbed and filtered by the foul air adsorption and release unit; when the blower is turned on, when the air inlet valve is closed and the air outlet valve is opened, indoor air flows through the turbidity adsorption and release unit and then the adsorbed turbidity or turbidity is discharged to the outside; wherein the foul gas adsorption and release unit is used for adsorbing or releasing foul gas or substances; the control method comprises the following steps: opening the air inlet valve, closing the exhaust valve and then opening the blower; controlling the number of people detection module to detect the number of people in the room; and controlling the air blower to select different rotating speeds to operate according to the detected number of indoor people.

In the above-described preferred embodiment of the air cleaning control method for an air conditioner, after the step of "controlling the blower to operate at a different rotation speed according to the number of detected indoor persons", the control method further includes: and opening the exhaust valve, closing the intake valve and controlling the foul gas adsorption and release unit to release foul gas or foul substances.

In a preferable embodiment of the above air cleaning control method for an air conditioner, a diameter of the exhaust pipe of the exhaust passage is 30mm or less.

In a preferred embodiment of the above air cleaning control method for an air conditioner, the foul air adsorption and release unit specifically includes a solid amine adsorption module and a heating module, and the step of "controlling the foul air adsorption and release unit to release foul air or foul substances" specifically includes: controlling the heating module to heat the solid amine adsorption module to release CO adsorbed by the solid amine₂。

In a preferable embodiment of the above air cleaning control method for an air conditioner, the indoor unit further includes CO₂The detection module, according to the indoor number of people who detects, control the forced draught blower selects different rotational speeds to operate's step specifically includes: controlling the CO₂Detection module detects CO in environment₂Concentration; based on detected CO in the environment₂Controlling the air blower to select different rotating speeds according to the concentration and the detected number of indoor people; when C is less than or equal to C1, and when the detected number of people in the room is less than 3, the blower stops running; when the detected number of people in the room is 3, the air blower operates at a first rotating speed; when the detected number of people in the room is 4, the blower operates at a second rotating speed; when the detected number of people in the room is more than 4, the blower operates at a third rotating speed; and/or when C1 < C ≦ C2 and when the detected number of people in the room is 1 person, the blower stops operating; when the detected number of people in the room is 2, the air blower operates at a first rotating speed; when the detected number of people in the room is 3, the blower operates at a second rotating speed; when the detected number of people in the room is more than 3, the blower operates at a third rotating speed; and/or when C2 < C ≦ C3 and when the detected number of people in the room is 1 person, the blower operates at the first rotation speed; when the detected number of people in the room is 2, the blower operates at a second rotating speed; when the detected number of people in the room is more than 2, the blower rotates for the third timeRunning at a high speed; and/or when C > C3, and when the detected number of people in the room is 1 person, the blower is operated at a second speed; and when the detected number of people in the room is more than or equal to 1 person, the air feeder operates at a third rotating speed, wherein C is CO in the environment₂The concentrations of C1, C2 and C3 are preset CO₂Concentration, the first rotating speed is less than the second rotating speed and less than the third rotating speed.

In a preferable embodiment of the above air cleaning control method for an air conditioner, the indoor unit further includes CO₂A detection module, wherein the heating module is controlled to heat the solid amine adsorption module so as to release CO adsorbed by the solid amine₂The method specifically comprises the following steps: controlling the CO₂Detection module detects CO in environment₂Concentration; based on detected CO in the environment₂Controlling the blower to select different rotating speeds, and controlling the heating module to select different heating temperatures and desorption times so as to release CO adsorbed by the solid amine₂(ii) a When the C is less than or equal to C1, the blower operates at a first rotating speed, the heating temperature is T1, and the desorption time is T1; and/or when C is more than C1 and less than or equal to C2, the blower operates at the first rotating speed, the heating temperature is T2, and the desorption time is T2; and/or when C is more than C2 and less than or equal to C3, the air feeder operates at a third rotating speed, the heating temperature is T1, and the desorption time is T3; and/or when C is more than C3, the blower is operated at a third rotating speed, the heating temperature is T2, and the desorption time is T4; wherein C is CO in the environment₂The concentrations of C1, C2 and C3 are preset CO₂Concentration, T1 < T2, T1 > T2 > T3 > T4, the first rotational speed < the third rotational speed.

In a preferable embodiment of the above air cleaning control method for an air conditioner, the indoor unit further includes CO₂A detection module, wherein the heating module is controlled to heat the solid amine adsorption module so as to release CO adsorbed by the solid amine₂The method specifically comprises the following steps: controlling the CO₂Detection module detects CO in environment₂Concentration; when CO is detected₂When the concentration is not reduced any more in a set time period, controlling the heating module to heat the solutionHeating the solid amine adsorption block to release CO adsorbed by the solid amine₂。

In a preferred technical solution of the above air cleaning control method for an air conditioner, the number of people detection module is an infrared detector or a camera.

In a preferred embodiment of the above air cleaning control method for an air conditioner, the foul air adsorbing and releasing unit specifically includes a high-voltage electrostatic adsorption plate, and the control method further includes: opening the air inlet valve, closing the exhaust valve, then opening the air feeder, and starting the high-voltage electrostatic adsorption plate; opening discharge valve, closing the admission valve, and close high-pressure electrostatic adsorption board, control the forced draught blower is right high-pressure electrostatic adsorption board blows to release the dust that high-pressure electrostatic adsorption board was adsorbed.

The present invention also provides an air conditioner as set forth in any one of the above technical aspects, and including a controller configured to be able to execute the air cleaning control method for an air conditioner as set forth in any one of the above technical aspects.

The technical scheme of the invention includes that the air conditioner comprises an indoor unit, the indoor unit comprises an airflow channel, an air inlet valve, an exhaust valve, a blower, a people number detection module and a foul air adsorption and release unit, and the airflow channel comprises an air inlet channel and an exhaust channel; the air inlet channel is communicated with the air outlet channel, two ends of the air inlet channel are arranged indoors, one end of the air outlet channel communicated with the air inlet channel is arranged indoors, the other end of the air outlet channel is arranged outdoors, the air inlet valve is arranged on the air inlet channel to realize independent opening and closing of the air inlet channel, and the exhaust valve is arranged on the air outlet channel to realize independent opening and closing of the air outlet channel; the blower and the foul air adsorption and release unit are arranged in the airflow channel, and when the blower is started, and when the air inlet valve is opened and the exhaust valve is closed, indoor air enters the room again after being adsorbed and filtered by the foul air adsorption and release unit; when the air feeder is opened, when the air inlet valve is closed and the exhaust valve is opened, the indoor air flows through the foul air adsorption and release unit, and then the adsorbed foul air or foul matters are discharged to the outdoor; wherein the foul gas adsorption and release unit is used for adsorbing or releasing foul gas or substances; the control method comprises the following steps: opening an air inlet valve, closing an exhaust valve and then opening a blower; the control people number detection module detects the number of people in the room; controlling the air feeder to select different rotating speeds to operate according to the detected number of indoor people; it will be understood by those skilled in the art that the intake and exhaust valves may be of a split design or may be of an integrated design, such as a three-way valve.

Through the arrangement mode, the air conditioner has the function of purifying indoor air, namely the dirty air can be purified through the dirty air adsorption and release unit, so that the freshness of the indoor air is ensured, in addition, the dirty air adsorption and release unit can be permanently used, namely when the adsorption work cannot be effectively carried out, the dirty objects or the dirty air in the dirty air adsorption and release unit can be discharged to the outside, such as CO₂Compared with the prior art, the fresh air machine filters fresh air through the filter element or exchanges fresh air heat through the heat exchange filter element, the air conditioner does not need to use consumables when performing a purification function, and only needs to recycle the foul air adsorption and release unit, so that the use cost can be reduced; in addition, the air conditioner can select different rotating speeds of the air feeder according to the number of people indoors so as to achieve different foul air or foul substance adsorption efficiencies, and therefore the comfort experience degree of users is improved according to practical application scenes.

Drawings

An air cleaning control method for an air conditioner and an air conditioner according to the present invention will be described with reference to the accompanying drawings. In the drawings:

fig. 1 is a schematic structural view of an air cleaning part in an indoor unit of an air conditioner according to the present invention;

FIG. 2 is a schematic structural diagram of an indoor unit of an air conditioner according to the present invention;

fig. 3 is a schematic view showing a structure of an air cleaning part in an indoor unit of an air conditioner according to the present invention;

fig. 4 is a flowchart of an air cleaning control method for an air conditioner according to the present invention;

FIG. 5 is a pair of COs of an air cleaning control method for an air conditioner according to the present invention₂A flow chart of the subdivision step of carrying out the adsorption;

FIG. 6 is a pair of COs of an air cleaning control method for an air conditioner according to the present invention₂Flow chart of the subdivision steps for carrying out the desorption.

List of reference numerals:

1-an indoor unit; 11-an air flow channel; 111-an intake passage; 1111-inlet channel inlet; 1112-inlet channel outlet; 112-an exhaust channel; 1121-exhaust outlet; 1122-exhaust channel outlet; 12-an intake valve; 13-an exhaust valve; 14-a blower; 15-a foul gas adsorption and release unit.

Detailed Description

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention. And can be adjusted as needed by those skilled in the art to suit particular applications.

As shown in fig. 1, 2 and 3, in order to solve the problem that the air quality in the room is easily deteriorated when the conventional air conditioner operates, the air conditioner of the present invention includes an indoor unit 1, the indoor unit 1 includes an air flow channel 11, an air inlet valve 12, an air outlet valve 13, a blower 14, a people number detection module and a foul air adsorption and release unit 15, the air flow channel 11 includes an air inlet channel 111 and an air outlet channel 112; the air inlet channel 111 is communicated with the air outlet channel 112, two ends of the air inlet channel 111 are arranged indoors, one end of the air outlet channel 112 communicated with the air inlet channel 111 is arranged indoors, the other end of the air outlet channel is arranged outdoors, the air inlet valve 12 is arranged on the air inlet channel 111 to realize independent opening and closing of the air inlet channel 111, and the air outlet valve 13 is arranged on the air outlet channel 112 to realize independent opening and closing of the air outlet channel 112; the blower 14 and the foul air adsorption and release unit 15 are both arranged in the airflow channel 11 and are arranged such that when the blower 14 is opened, and when the air inlet valve 12 is opened and the air outlet valve 13 is closed, the indoor air is filtered by the foul air adsorption and release unit 15 and then re-enters the room; when the air blower 14 is turned on, the indoor air passes through the foul air adsorption and release unit 15 while the air intake valve 12 is closed and the air exhaust valve 13 is opened, and then the adsorbed foul air or foul is discharged to the outside; wherein the foul air adsorbing and releasing unit 15 is used for adsorbing or releasing foul air or foul substances, and it is understood by those skilled in the art that the air inlet channel 111 is a channel through which the air flow passes from the air inlet channel inlet 1111 to the air inlet channel outlet 1112; the exhaust passage 112 is a passage through which an air flow passes from the intake passage inlet 1111 to the exhaust passage outlet 1122.

The setting mode has the advantages that: with the above arrangement, the air conditioner of the present invention has a function of purifying indoor air, when air cleaning is required, the air inlet valve 12 is opened, the air outlet valve 13 is closed, and indoor air is fed from the air inlet channel inlet 1111 by the blower 14 and passes through the air inlet channel inlet 1111 to adsorb the air or the air, such as CO, through the air adsorbing and releasing unit 15₂At this time, the indoor air has been purified, and the purified air is returned to the indoor through the intake passage outlet 1112, so that the indoor air is cleaned; in order to achieve better adsorption effect, or when the foul air adsorbing and releasing unit 15 cannot perform normal adsorption, at this time, the air inlet valve 12 is closed, the air outlet valve 13 is opened, and under the action of the air blower 14, the foul air or the foul air adsorbed on the foul air adsorbing and releasing unit 15 can be discharged to the outside through the air outlet channel 1122, wherein, as shown in fig. 1 and 2, the air outlet 1121 is shown, and the foul air or the foul air can be led to the outside through the connection with the exhaust pipe, in this case, the air outlet channel 1122 is arranged at the outdoor end of the exhaust pipe, the air conditioner of the present invention can adsorb and release the foul air or the foul air through the foul air adsorbing and releasing unit 15, compared with the prior art that a filter element of a fresh air fan is used for fresh air purification operation, the air conditioner of the present invention does not need to use consumables, and the foul air adsorbing and releasing unit 15 can be reused, in addition, compared with the prior art that the fresh air mode is introduced, the air conditioner provided by the invention does not need heat exchange for purifying indoor air, can avoid frequent start of the heat exchange module, thereby reducing the service life of the air conditioner and avoiding the use of heat exchangeAnd consumable materials such as filter elements are replaced, the maintenance and use cost is reduced, and in addition, the phenomenon of indoor local supercooling or overheating can be avoided.

In one possible embodiment, the diameter of the exhaust pipe of the exhaust passage 112 is 30mm or less.

The setting mode has the advantages that: in the prior art, the diameter of an air conditioner with a fresh air function and a fresh air pipe communicated with the outdoor is larger, generally between 100mm and 200mm, so that when the fresh air pipe is communicated with the outdoor, because a large amount of air flows to realize air exchange, a large hole needs to be drilled on a wall body independently, and the wall body is damaged.

Further, when the foul air adsorption and release unit specifically includes the solid amine adsorption module and the heating module, the solid amine has a property of being capable of adsorbing CO at normal temperature₂Releasing CO after heating₂As shown in fig. 4 with continued reference to fig. 3, the present invention further provides an air cleaning control method for an air conditioner, which specifically includes the following steps:

step S1: the intake valve 12 is opened, the exhaust valve 13 is closed, and then the blower 14 is opened.

When indoor air cleaning is required, the air inlet valve 12 is opened, the air outlet valve 13 is closed, namely the air inlet channel 111 is unblocked, indoor dirty air is introduced into the dirty air adsorption and release unit 15 under the action of the blower 14, and CO is subjected to air cleaning₂After the adsorption, the fresh air is discharged into the room under the action of the blower 14, so that the indoor air quality is ensured.

As a preferred embodiment, the condition for performing step S1 includes: when receiving CO removal sent by user₂When the information is instructed, step S1 is executedIn the method, a user can send out an information instruction through a remote controller, an air conditioner panel or an intelligent terminal and the like; of course, it is also possible to detect automatically by the air conditioner, i.e. when a CO is detected₂When the concentration is equal to or greater than the preset concentration value, for example, reaches level3 and level4 in table 1, step S1 is performed.

Furthermore, in general, the user is not aware of the indoor CO₂Concentration, CO detected by display of the invention₂Concentration information to the user so that the user knows the indoor CO₂Concentration, wherein the display mode includes various forms, for example, through the forms of air conditioner panel, remote controller display screen, intelligent terminal or voice, of course, can carry out CO according to preset frequency₂The concentration information can be displayed, and the CO can be updated and displayed in real time₂The concentration information is given to the user for better perception by the user.

Wherein, the air conditioner indoor unit 1 of the invention is integrated with CO at the same time₂A detection module capable of detecting CO in an environment₂Concentration, as a preferred embodiment, of CO₂The detection module is arranged at an indoor air inlet (an air inlet for enabling air to exchange heat in the air conditioner) of the air conditioner, indoor air enters the air conditioner through the air inlet and passes through CO₂The detection module detects the indoor air quality and transmits the detection result to the air conditioner in an electric signal.

Step S2: the control people number detection module detects the number of people in the room.

The indoor unit 1 of the air conditioner of the present invention integrates a people number detection module, which can detect the number of people in the room, and as a preferred embodiment, the people number detection module can be an infrared detector or a camera, etc.

In step S3, the blower 14 is controlled to operate at different speeds according to the detected number of people in the room.

The air conditioner of the invention controls the blower 14 to select different rotating speeds to operate according to the detected number of indoor people so as to achieve different CO₂For example, when the number of persons in a room is large, CO is produced in the room₂Will be higher, so that the speed of the blower 14 can now be increased to increase the CO₂The adsorption efficiency of the air conditioner ensures the indoor air quality, so that the air conditioner is more intelligent, and good user experience is achieved.

Step S4: the exhaust valve 13 is opened, the intake valve 12 is closed, and the foul air adsorption and release unit 15 is controlled to release foul air or foul substances.

When CO is required₂By opening the exhaust valve 13, the closing of the intake valve 12, i.e. the opening of the exhaust passage 112, is effected, and CO is carried out by the blower 14₂So as to ensure the repeated cyclic utilization of the foul gas adsorption and release unit 15.

The conditions for executing step S4 include: detected CO₂When the concentration is no longer reduced for a set period of time, e.g. CO₂The value detected by the detection module is within a certain fixed range and does not decrease, and the preset time, for example, 10min, indicates that the foul air adsorption and release unit 15 has reached the saturation state, at this time, the air conditioner automatically performs the desorption operation, and certainly, the desorption operation can also be performed on the CO at this time₂The information such as the value and the duration detected by the module is displayed or broadcasted, for example, fed back to the user through an air conditioner display panel, a user terminal, and the like, and at this time, if an instruction for executing the desorption operation sent by the user is received, step S4 is started to be executed.

As shown in fig. 5, step S3 of the air cleaning control method for an air conditioner of the present invention further includes the following steps:

step S31: control of CO₂Detection module detects CO in environment₂And (4) concentration.

Step S32: based on detected CO in the environment₂The concentration, and the number of detected indoor people, control the blower to select different rotating speeds.

When C is less than or equal to C1, and when the detected number of people in the room is less than 3, the blower 14 stops running; when the detected number of people in the room is 3, the blower 14 operates at the first rotating speed; when the detected number of people in the room is 4, the blower 14 operates at the second rotating speed; when the number of detected occupants is > 4, the blower 14 is operated at the third rotational speed.

When C1 < C ≦ C2, and when the detected number of persons in the room is 1 person, the blower 14 stops operating; when the detected number of people in the room is 2, the blower 14 operates at the first rotating speed; when the detected number of people in the room is 3, the blower 14 operates at the second rotating speed; when the number of detected occupants is > 3, the blower 14 is operated at the third rotational speed.

When C2 < C ≦ C3, and when the detected number of persons in the room is 1 person, the blower 14 operates at the first rotation speed; when the detected number of people in the room is 2, the blower 14 operates at the second rotating speed; when the number of detected occupants is > 2, the blower 14 is operated at the third rotational speed.

When C > C3, and when the detected number of people in the room is 1 person, blower 14 is operated at the second speed; and when the detected number of people in the room is more than or equal to 1 person, the air blower 14 operates at the third rotating speed.

Wherein C is CO in the environment₂The concentrations of C1, C2 and C3 are preset CO₂Concentration, first rotating speed < second rotating speed < third rotating speed.

The invention converts CO into₂The detection results of the detection module are divided into 4 grades, and are described as level 1(C ≦ C1), level 2(C1 < C ≦ C2), level3(C2 < C ≦ C3), and level4(C > C3), where C1 ═ 450, C2 ═ 1000, and C3 ═ 2000 are preferred embodiments, that is, as shown in table 1.

TABLE 1

When the detection result is leave 1, the indoor air quality is excellent, and therefore, if the number of people is less than 3, the blower 14 is turned off and the CO removal is not performed₂Working to save electric energy and avoid noise, if the number of people is 3, the indoor CO is generated along with the time₂Will slightly increase but will not quickly degrade the indoor air quality, so that the blower 14 is operated at a first speed, i.e. at a low gear, to achieve CO absorption₂Can be matched with CO₂The effect of the rate of concentration increase, and further continuously keeping the indoor environment quality to be excellent; similarly, when the number of people in the room is 4, the blower 14 operates at the second rotation speed, that is, at the middle gear, and when the number of people in the room is more than 4, the blower 14 operates at the third rotation speed, that is, at the high gear; in a word, the higher the fan rotating speed is, the more CO is adsorbed₂The higher the speed of the fan, the higher the number of people in the room, the higher the rotating speed of the fan 14, and the better the indoor air quality, and the power saving and noise reduction as much as possible.

When the detection result is leave 2, the indoor air quality is good, so if the number of people is 1, the blower 14 is turned off and the CO removal is not performed₂Working to save electric power and to avoid noise generation, if the number of the indoor people is 2, the indoor air quality is slightly deteriorated with time, and thus the blower 14 is operated at the first rotation speed, that is, at the low gear to absorb CO₂Can be matched with CO₂The effect of the rate of concentration increase, thereby maintaining the excellent state of indoor environmental quality; similarly, when the number of people in the room is 3 people, the blower 14 operates at the second rotation speed, that is, at the middle gear, and when the number of people in the room is more than 3 people, the blower 14 operates at the third rotation speed, that is, at the high gear; by increasing the number of people in the room, the rotating speed of the blower 14 is correspondingly increased, so that the indoor air quality can be kept in a good or good state, and meanwhile, the electric energy is saved and the noise is reduced as much as possible.

When the detection result is leave 3, the indoor air quality is poor, and therefore, if the number of people in the room is 1 person, the number of people is small, and therefore, the number of CO is low₂The concentration increases slowly, so that the CO removal can be achieved by operating the blower 14 at the first speed, i.e. in the low range₂At a rate exceeding that of CO production₂So as to enable the quality of indoor air to reach a good state; if the number of persons in the room is 2, the blower 14 operates at the second rotation speed, namely, at the middle gear, and if the number of persons in the room is more than 2, the blower 14 operates at the third rotation speed, namely, at the high gearIn short, the number of people in the room is increased to correspondingly increase the rotation speed of the blower 14, so as to remove CO₂At a rate exceeding that of CO production₂And then to change the indoor air quality to a poor state, and to raise it to a good state.

When the detection result is lee 4, the indoor air quality is very poor, therefore, if the number of people is 1 person at this time, the blower 14 operates according to the second rotating speed, namely, according to the middle gear, and when the number of people is more than or equal to 1 person, the blower 14 operates according to the third rotating speed, namely, according to the high gear, because the indoor air quality is very poor at this time, the rotating speed of the blower 14 should be increased to achieve faster CO removal₂And, removing CO₂At a rate well in excess of the production of CO₂And then the indoor air quality is changed to be in a poor state as soon as possible, and the indoor air quality is improved to be in a good state.

In a word, the air cleaning control method of the air conditioner can match the optimal fan rotating speed according to the number of indoor people, so that the excellent indoor air quality is kept, meanwhile, the electric energy can be saved to the maximum extent, and the noise is reduced.

The preferred technical scheme of the step S4 of the invention is as follows: since the foul gas adsorption and release unit 15 specifically includes the solid amine adsorption block and the heating module, the solid amine adsorption block is heated by controlling the heating module to release CO adsorbed by the solid amine₂。

Adsorption material solid amine adsorption block for adsorbing CO₂The amount of the solid amine adsorption block is related to the volume of the material, the solid amine adsorption block can reach a saturated state after reaching a certain degree, and the heating module is controlled to heat after the solid amine adsorption block reaches the saturated state so as to realize CO₂The desorption temperature is between 50 and 80 ℃ in the normal condition, the desorption rate is faster when the temperature is higher in the range, therefore, the CO can be controlled by controlling the temperature of the heating module₂The purpose of the desorption rate of.

As shown in fig. 6, specifically, the above preferred technical solution of step S4 of the present invention further specifically includes the following steps:

step S41, control CO₂Detection module detects CO in environment₂And (4) concentration.

Step S42: based on detected CO in the environment₂The blower 14 is controlled to select different rotation speeds, and the heating module is controlled to select different heating temperatures and desorption times.

Step S421: when C is less than or equal to C1, the blower 14 operates at the first rotation speed, the heating temperature is T1, and the desorption time is T1.

Step S422: when C is more than C1 and less than or equal to C2, the blower 14 operates at the first rotation speed, the heating temperature is T2, and the desorption time is T2.

Step S423: when C is more than C2 and less than or equal to C3, the blower 14 operates at the third rotating speed, the heating temperature is T1, and the desorption time is T3.

Step S424: when C is more than C3, the blower 14 is operated at the third rotation speed, the heating temperature is T2, and the desorption time is T4.

Wherein C is CO in the environment₂The concentrations of C1, C2 and C3 are preset CO₂Concentration, T1 < T2, T1 > T2 > T3 > T4, and the first rotating speed < the third rotating speed.

The invention converts CO into₂The detection results of the detection module are divided into 4 grades, and are described as level 1(C ≦ C1), level 2(C1 < C ≦ C2), level3(C2 < C ≦ C3), and level4(C > C3), where as a preferred embodiment, C1 ═ 450, C2 ═ 1000, and C3 ═ 2000 are shown in table 1:

when the detection result is leave 1, the corresponding control mode selects mode one; when the detection result is leave 2, the corresponding control mode selects mode two; when the detection result is leave 3, the corresponding control mode selects mode three; when the detection result is leave 4, the corresponding control mode selects mode four; as a preferred embodiment, T1 ═ 50 ℃, T2 ═ 80 ℃, T1 ═ 20min, T2 ═ 17.5min, T3 ═ 15min, T4 ═ 10min, i.e. as shown in table 2:

TABLE 2

When the environment is indoors, it can be seen from the combination of tables 1 and 2CO in₂At very low concentrations, such as leve1, mode one is selected, i.e., the blower 14 is turned down (first speed), the heating temperature is turned down (T1), and the desorption time is longest (T1) due to CO₂The concentration is lower, therefore, the control method of the invention is to CO₂Slow desorption, i.e. prolonging CO₂The desorption time mainly aims to achieve the effects of low energy consumption and low noise, so as to save electric energy and improve the user experience, and simultaneously, the indoor air environment can be further optimized; when CO is present in indoor environment₂When the concentration is lower, such as leee 2, at this time, the mode two is selected, i.e. the rotating speed of the blower 14 is reduced (the first rotating speed), the heating temperature is increased (T2), and the desorption time is longer (T2), at this time, the effects of lower energy consumption and low noise can be achieved, and in addition, the desorption efficiency is improved compared with the mode one; when CO is present in indoor environment₂When the concentration is higher, such as leee 3, at this moment, mode three is selected, i.e. the rotational speed of the blower 14 is increased (third rotational speed), the heating temperature is decreased (T1), the desorption time is shorter (T3), at this moment, the effect of higher desorption efficiency can be achieved, so that the CO can be removed more quickly₂Working, and the energy consumption does not reach the highest value at the moment; when CO is present in indoor environment₂When the concentration is very high, such as leee 4, the mode four is selected, the rotating speed of the blower 14 is adjusted to be high (the third rotating speed), the heating temperature is adjusted to be high (T2), the desorption time is shortest (T4), and therefore the highest desorption efficiency is achieved, and CO can be rapidly desorbed₂Adsorption of (1), in summary, the air conditioner of the present invention depends on the CO in the current environment₂And the concentration is selected, and the optimal combined mode of desorption efficiency, energy consumption and noise is selected, so that the optimal comprehensive use effect can be achieved on the premise of ensuring the indoor environment quality.

It should be noted that CO is suggested to those skilled in the art₂In relation to desorption time, the conventional control method is CO₂The lower the concentration, the shorter the cleaning time, however, the invention is just the opposite, from the point of view of noise and energy saving, the CO₂The lower the concentration, the longer the cleaning time, and the more comfortable the solution for the user is sought in the reverse thinking process.

When CO is not required₂When the adsorption is working, e.g. when CO is detected₂At concentrations < preset concentration values, e.g. when good grades of leve1 and leve2 are reached, or when CO is present₂When the adsorption operation is performed for a predetermined time, the blower 14 is automatically turned off and CO in the environment is discharged₂Detecting the concentration of CO₂The concentration information is converted into environment grade information to be displayed to a user, or CO is displayed to the user at the same time₂Concentration information and CO₂And displaying the information of the operation time of the adsorption work to a user.

As another preferred embodiment of the foul air adsorption and release unit 15, the foul air adsorption and release unit 15 specifically includes a high voltage electrostatic adsorption plate, and the air cleaning control method for an air conditioner of the present invention includes:

the air inlet valve 12 is opened, the exhaust valve 13 is closed, then the blower 14 is opened, and the high voltage electrostatic adsorption plate is started. And opening the exhaust valve 13, closing the intake valve 12, and closing the high-voltage electrostatic adsorption plate, and controlling the blower 14 to blow air to the high-voltage electrostatic adsorption plate so as to release the dust adsorbed by the high-voltage electrostatic adsorption plate.

When needing to remove dust indoor, open admission valve 12, close discharge valve 13, and under the effect of forced draught blower 14, introduce indoor dirty air in inlet channel 111, at this moment, under the effect of high-pressure electrostatic adsorption board, can adsorb indoor dust, when dust on high-pressure electrostatic adsorption board reaches the saturation, or when reaching better dust adsorption efficiency, close high-pressure electrostatic adsorption board, blow to outdoor by exhaust passage 112 through the dust of forced draught blower 14 on with high-pressure electrostatic adsorption board, with the adsorbed dust of release high-pressure electrostatic adsorption board.

Furthermore, the present invention also provides an air conditioner that is the air conditioner of any one of the above-described technical aspects, and that includes a controller configured to be able to execute the air cleaning control method for an air conditioner described in any one of the above-described technical aspects.

In conclusion, the air conditioner of the present invention can purify the dirty air by the dirty air adsorption and release unit 15,the solid amine adsorption block is heated by the heating module to release the foul gas, wherein the desorption efficiency of the foul gas is increased along with the increase of the heating temperature₂When the concentration is lower, the desorption time is longer on the contrary, the effects of reducing noise and energy consumption can be achieved, in addition, the number of people in a room is detected through the number detection module, and the corresponding rotating speed of the air feeder 14 is selected according to the number of people in the room and the indoor concentration so as to keep the indoor air quality in a good state all the time.

It should be noted that the above-mentioned embodiments are only used for illustrating the principle of the present invention, and are not intended to limit the protection scope of the present invention, and those skilled in the art can modify the above-mentioned structure so that the present invention can be applied to more specific application scenarios without departing from the principle of the present invention.

Those skilled in the art will appreciate that the air conditioner described above may also include other well-known structures such as processors, controllers, memories, etc., wherein the memories include, but are not limited to, ram, flash, rom, prom, volatile, nvm, serial, parallel, registers, etc., and the processors include, but are not limited to, CPLD/FPGC, DSP, CRM, MIPS, etc. Such well-known structures are not shown in the drawings in order to not unnecessarily obscure embodiments of the present disclosure.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

Claims

1. The air cleaning control method for the air conditioner is characterized in that the air conditioner comprises an indoor unit, the indoor unit comprises an airflow channel, an air inlet valve, an exhaust valve, a blower, a people number detection module and a foul air adsorption and release unit, and the airflow channel comprises an air inlet channel and an exhaust channel;

the air inlet channel is communicated with the air outlet channel, two ends of the air inlet channel are arranged indoors, one end of the air outlet channel communicated with the air inlet channel is arranged indoors, the other end of the air outlet channel is arranged outdoors, the air inlet valve is arranged on the air inlet channel to realize independent opening and closing of the air inlet channel, and the exhaust valve is arranged on the air outlet channel to realize independent opening and closing of the air outlet channel;

the blower and the foul air adsorption and release unit are arranged in the airflow channel and are arranged in such a way that when the blower is started, when the air inlet valve is opened and the exhaust valve is closed, indoor air enters the room again after being adsorbed and filtered by the foul air adsorption and release unit; when the blower is turned on, when the air inlet valve is closed and the air outlet valve is opened, indoor air flows through the turbidity adsorption and release unit and then the adsorbed turbidity or turbidity is discharged to the outside;

wherein the foul gas adsorption and release unit is used for adsorbing or releasing foul gas or substances;

the control method comprises the following steps:

opening the air inlet valve, closing the exhaust valve and then opening the blower;

controlling the number of people detection module to detect the number of people in the room;

and controlling the air blower to select different rotating speeds to operate according to the detected number of indoor people.

2. The air cleaning control method for an air conditioner according to claim 1, wherein after the step of controlling the blower to select a different rotation speed operation according to the number of detected indoor persons, the control method further comprises:

and opening the exhaust valve, closing the intake valve and controlling the foul gas adsorption and release unit to release foul gas or foul substances.

3. The air cleaning control method for an air conditioner according to claim 1, wherein a diameter of the exhaust pipe of the exhaust passage is 30mm or less.

4. The air cleaning control method for an air conditioner according to claim 2, wherein the turbidity adsorbing and releasing unit specifically includes a solid amine adsorbing module and a heating module, and the step of controlling the turbidity adsorbing and releasing unit to release the turbidity or the turbidity specifically includes:

controlling the heating module to heat the solid amine adsorption module to release CO adsorbed by the solid amine₂。

5. The air cleaning control method for an air conditioner according to claim 1, wherein the indoor unit further includes CO₂The detection module, according to the indoor number of people who detects, control the forced draught blower selects different rotational speeds to operate's step specifically includes:

controlling the CO₂Detection module detects CO in environment₂Concentration;

based on detected CO in the environment₂Controlling the air blower to select different rotating speeds according to the concentration and the detected number of indoor people;

when C is less than or equal to C1, and when the detected number of people in the room is less than 3, the blower stops running; when the detected number of people in the room is 3, the air blower operates at a first rotating speed; when the detected number of people in the room is 4, the blower operates at a second rotating speed; when the detected number of people in the room is more than 4, the blower operates at a third rotating speed; and/or the like and/or,

when C1 < C ≦ C2 and when the detected number of people in the room is 1 person, the blower stops operating; when the detected number of people in the room is 2, the air blower operates at a first rotating speed; when the detected number of people in the room is 3, the blower operates at a second rotating speed; when the detected number of people in the room is more than 3, the blower operates at a third rotating speed; and/or the like and/or,

when C2 < C ≦ C3 and when the detected number of people in the room is 1 person, the blower operates at a first rotation speed; when the detected number of people in the room is 2, the blower operates at a second rotating speed; when the detected number of people in the room is more than 2, the blower operates at a third rotating speed; and/or the like and/or,

when C is greater than C3, and when the detected number of people in the room is 1 person, the blower operates at a second rotating speed; when the detected number of people in the room is more than or equal to 1 person, the air feeder operates at a third rotating speed;

wherein C is CO in the environment₂The concentrations of C1, C2 and C3 are preset CO₂Concentration, the first rotating speed is less than the second rotating speed and less than the third rotating speed.

6. The air cleaning control method for an air conditioner according to claim 4, wherein the indoor unit further includes CO₂A detection module, wherein the heating module is controlled to heat the solid amine adsorption module so as to release CO adsorbed by the solid amine₂The method specifically comprises the following steps:

based on detected CO in the environment₂Controlling the blower to select different rotating speeds, and controlling the heating module to select different heating temperatures and desorption times so as to release CO adsorbed by the solid amine₂；

When the C is less than or equal to C1, the blower operates at a first rotating speed, the heating temperature is T1, and the desorption time is T1; and/or the like and/or,

when C is more than C1 and less than or equal to C2, the blower operates at the first rotating speed, the heating temperature is T2, and the desorption time is T2; and/or the like and/or,

when C is more than C2 and less than or equal to C3, the blower operates at a third rotating speed, the heating temperature is T1, and the desorption time is T3; and/or the like and/or,

when C is more than C3, the blower operates at a third rotating speed, the heating temperature is T2, and the desorption time is T4;

wherein C is CO in the environment₂The concentrations of C1, C2 and C3 are preset CO₂Concentration, T1 < T2, T1 > T2 > T3 > T4, the first rotational speed < the third rotational speed.

7. The air cleaning control method for an air conditioner according to claim 4, wherein the indoor unit further includes CO₂A detection module, wherein the heating module is controlled to heat the solid amine adsorption module so as to release CO adsorbed by the solid amine₂The method specifically comprises the following steps:

when CO is detected₂When the concentration is not reduced any more in a set time period, controlling the heating module to heat the solid amine adsorption module so as to release CO adsorbed by the solid amine₂。

8. The air cleaning control method for an air conditioner according to claim 1, wherein the number of people detecting module is an infrared detector or a camera.

9. The air cleaning control method for an air conditioner according to claim 2, wherein the foul air adsorption and release unit specifically includes a high voltage electrostatic adsorption plate, the control method further comprising:

opening the air inlet valve, closing the exhaust valve, then opening the air feeder, and starting the high-voltage electrostatic adsorption plate;

opening discharge valve, closing the admission valve, and close high-pressure electrostatic adsorption board, control the forced draught blower is right high-pressure electrostatic adsorption board blows to release the dust that high-pressure electrostatic adsorption board was adsorbed.

10. An air conditioner characterized in that the air conditioner is the air conditioner recited in any one of claims 1 to 9, and includes a controller configured to be able to execute the air cleaning control method for an air conditioner recited in any one of claims 1 to 9.