CN113819631A - Control method of air conditioner - Google Patents

Abstract

The invention provides a control method of an air conditioner, which is used for acquiring the content of air pollutants, determining the rotating speed or the rotating speed gear of a washing motor and the rotating speed or the rotating speed gear of a fan according to the content of the air pollutants, so that the rotating speed or the rotating speed gear of the washing motor is matched with the rotating speed or the rotating speed gear of the fan, and the problem of low air purification efficiency caused by reduction of the air speed circulation rate due to the fact that air cannot be discharged quickly due to too low rotating speed of the fan is solved. The invention can ensure the timely air outlet of the water module by adjusting the rotating speed of the fan, and improve the air purification efficiency.

Description

Control method of air conditioner

Technical Field

The invention belongs to the technical field of control of air conditioners, and particularly relates to a control method of an air conditioner.

Background

With the continuous improvement of living standard, the requirement of people on the comfort level of indoor environment is higher and higher. An air conditioner, which is an air conditioner, can be used for indoor heating and cooling, and can also improve indoor air, and the comfort level of an indoor environment can be improved by installing the air conditioner indoors.

The existing air conditioner with the water washing function purifies air through the water washing module, improves indoor air quality, generally controls the rotating speed of the water washing module according to the content of pollutants in the air, however, the rotating speed of an air conditioner fan still runs according to the set rotating speed, so that the rotating speed of the air conditioner fan is not adaptive to the rotating speed of a water washing motor, and the air purification effect is low. For example, when the pollutant content in the air is very high and needs to be purified rapidly, the water washing motor rotates rapidly, if the fan is in a low-speed rotation state at the moment, the low rotating speed of the fan cannot be used for rapidly discharging air, so that the air speed circulation rate is reduced, and the air purification effect is low.

The above information disclosed in this background section is only for enhancement of understanding of the background of the application and therefore it may comprise prior art that does not constitute known to a person of ordinary skill in the art.

Disclosure of Invention

The invention provides a control method of an air conditioner aiming at the problems in the prior art, and aims to solve the technical problem that the air purification effect is low due to the fact that the rotating speed of a fan of the air conditioner of the prior air conditioner is not matched with the rotating speed of a washing motor.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

a method of controlling an air conditioner including a blower and a wash module including a wash motor, the method comprising:

and acquiring the air pollutant content, and determining the rotating speed or the rotating speed gear of the washing motor and the rotating speed or the rotating speed gear of the fan according to the air pollutant content.

The control method of the air conditioner as described above, the method comprising:

acquiring air pollutant content, determining the rotating speed or the rotating speed gear of the fan according to the air pollutant content, and determining the rotating speed or the rotating speed gear of the washing motor according to the air pollutant content and the rotating speed or the rotating speed gear of the fan; or determining the rotating speed or the rotating speed gear of the washing motor according to the air pollutant content, and determining the rotating speed or the rotating speed gear of the fan according to the air pollutant content and the rotating speed or the rotating speed gear of the washing motor.

The control method of the air conditioner as described above, the method comprising:

acquiring air humidity, and determining the rotating speed or the rotating speed gear of the washing motor and the rotating speed or the rotating speed gear of the fan according to the air pollutant content and the air humidity;

and/or, obtain indoor ambient temperature, outdoor ambient temperature and set temperature, according to air contaminant content, indoor ambient temperature and outdoor ambient temperature confirm the rotational speed or the rotational speed gear of washing motor, according to air contaminant content, indoor ambient temperature and set temperature confirm the rotational speed or the rotational speed gear of fan.

The control method of the air conditioner comprises the following steps:

acquiring air humidity, determining the rotating speed or the rotating speed gear of the fan according to the air pollutant content and the air humidity, and determining the rotating speed or the rotating speed gear of the washing motor according to the air humidity, the air pollutant content and the rotating speed or the rotating speed gear of the fan; or determining the rotating speed or the rotating speed gear of the washing motor according to the air pollutant content and the air humidity, and determining the rotating speed or the rotating speed gear of the fan according to the air humidity, the air pollutant content and the rotating speed or the rotating speed gear of the washing motor;

and/or acquiring indoor environment temperature, outdoor environment temperature and set temperature, determining the rotating speed or rotating speed gear of the fan according to the air pollutant content, the indoor environment temperature and the set temperature, and determining the rotating speed or rotating speed gear of the washing motor according to the air pollutant content, the indoor environment temperature, the outdoor environment temperature and the rotating speed or rotating speed gear of the fan; or, the rotating speed or the rotating speed gear of the washing motor is determined according to the air pollutant content, the indoor environment temperature and the outdoor environment temperature, and the rotating speed or the rotating speed gear of the fan is determined according to the air pollutant content, the indoor environment temperature, the set temperature and the rotating speed or the rotating speed gear of the washing motor.

According to the control method of the air conditioner, the rotating speed or the rotating speed gear of the washing motor and the rotating speed or the rotating speed gear of the fan are positively correlated with the air pollutant content.

The control method of the air conditioner obtains the air pollutant content x,

the rotating speed y1= a1x of the fan²The rotating speed y2= a2x of the water washing motor²Wherein a1 and a2 are coefficients determined in advance, and a1 is more than or equal to a 2;

or the rotating speed y1= a1x of the fan²+ c1, the speed of rotation of the water washing motor y2= a2x²+ c2, where a1 and a2 are predetermined coefficients, a1 is equal to or greater than a2, c1 and c2 are predetermined coefficients, or c2 is a predetermined coefficient, c1= y2 × k, 0 < k < 1, or c1 is a predetermined coefficient, c2= y1 × m, 0 < m < 1;

or the rotating speed y1= a1x of the fan²+ b1x, the speed of rotation of the water washing motor y2= a2x²+ b2x, where a1, a2, b1, b2 are coefficients determined in advance, a1 is greater than or equal to a 2;

or the rotating speed y1= a1x of the fan, and the rotating speed y2= a2x of the washing motor, wherein a1 and a2 are coefficients determined in advance, and a1 is more than or equal to a 2;

or the rotating speed y1= a1x of the fan²+ b1x + c1, the speed of the water-washing motor y2= a2x²+ b2x + c2, where a1, a2, b1, b2 are predetermined coefficients, a1 ≧ a2, c1, c2 are predetermined coefficients, or c2 is a predetermined coefficient, c1= y2 k, 0 < k < 1, or c1 is a predetermined coefficient, c2= y1 m, 0 < m < 1.

According to the control method of the air conditioner, the rotating speed or the rotating speed gear of the washing motor and the rotating speed or the rotating speed gear of the fan are positively correlated with the air pollutant content; the rotating speed or the rotating speed gear of the washing motor and the rotating speed or the rotating speed gear of the fan are inversely related to the air humidity.

According to the control method of the air conditioner, the air pollutant content x and the indoor humidity are obtained, and the coefficients a3 and a4 are determined according to the indoor humidity, wherein a3 is more than or equal to a 4;

the rotating speed y1= a3x of the fan²The rotating speed y2= a4x of the water washing motor²；

Or the rotating speed y1= a3x of the fan²+ c3, the speed of rotation of the water washing motor y2= a4x²+ c4, where c3, c4 are predetermined coefficients, or c4 is a predetermined coefficient, c3= y2 k, 0 < k < 1, or c3 is a predetermined coefficient, c4= y1 m, 0 < m < 1;

or the rotating speed y1= a3x of the fan²+ b3x, the speed of rotation of the water-washing motor y2= a4x²+ b4x, where b3, b4 are coefficients determined in advance;

or the rotating speed y1= a3x of the fan, and the rotating speed y2= a4x of the washing motor;

or the rotating speed y1= a3x of the fan²+ b3x + c3, the speed of the water-washing motor y2= a4x²+ b4x + c4, where b3, b4 are predetermined coefficients, c3, c4 are predetermined coefficients, or c4 is a predetermined coefficient, c3= y2 × k, 0 < k < 1, or c3 is a predetermined coefficient, c4= y1 × m, 0 < m < 1.

In the control method of the air conditioner, the rotation speed or the rotation speed gear of the washing motor is positively correlated with the absolute value of the difference between the outdoor environment temperature and the indoor environment temperature, and the rotation speed or the rotation speed gear of the fan is positively correlated with the absolute value of the difference between the indoor environment temperature and the set temperature.

The control method of the air conditioner obtains the air pollutant content x, the indoor environment temperature Tin, the outdoor environment temperature Tout and the set temperature Ts;

the rotating speed y1= a5x of the fan²+ b5x, the speed of rotation of the water-washing motor y2= a6x²+ b6x, where a5 and a6 are coefficients determined in advance or determined according to air humidity, a5 ≧ a6, b5= | Tin-Ts |, and b6= | Tout-Tin |;

or the rotating speed y1 of the fan is = b5x, the rotating speed y2 of the washing motor is = b6x, wherein b5= | Tin-Ts |, b6= | Tout-Tin |;

or the rotating speed y1= a5x of the fan²+ b5x + c5, the speed of the water-washing motor y2= a6x²+ b6x + c6, where a5, a6 are coefficients determined in advance or determined according to the air humidity, a5 ≧ a6, b5= | Tin-Ts |, b6= | Tout-Tin |, c5, c6 are coefficients determined in advance, or c6 is a coefficient determined in advance, c5= y2 × k, 0 < k < 1, or c5 is a coefficient determined in advance, c6= y1 × m, 0 < m < 1.

Compared with the prior art, the invention has the advantages and positive effects that: the control method of the air conditioner comprises the steps of obtaining the air pollutant content, determining the rotating speed or the rotating speed gear of the washing motor and the rotating speed or the rotating speed gear of the fan according to the air pollutant content, enabling the rotating speed or the rotating speed gear of the washing motor to be matched with the rotating speed or the rotating speed gear of the fan, and avoiding the problem that the air purification efficiency is low due to the fact that the air speed circulation rate is reduced because the fan cannot rapidly exhaust air due to too low rotating speed. The invention can ensure the timely air outlet of the water module by adjusting the rotating speed of the fan, and improve the air purification efficiency.

Other features and advantages of the present invention will become more apparent from the following detailed description of the invention when taken in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1-5 are flow charts of an air conditioner according to an embodiment of the present invention.

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.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

The air conditioner of this embodiment is for having the air conditioner of washing function, and the air conditioner includes the casing, is located heat exchanger, fan, water collector etc. in the casing, and fan and heat exchanger all are located the air circulation route in the casing on, set up air intake and air outlet on the casing. Still set up washing module on the air circulation route, washing module can purify the air through the air conditioner, and washing module mainly gets rid of the pollutant in the air through the washing mode, including the washing motor.

The control method of the air conditioner comprises the following steps:

as shown in figure 1, the air pollutant content is obtained, the rotating speed or the rotating speed gear of the washing motor and the rotating speed or the rotating speed gear of the fan are determined according to the air pollutant content, and the air purification efficiency can be improved by adjusting the rotating speeds or the rotating speed gears of the washing motor and the fan.

The rotating speed or the rotating speed gear of the washing motor and the rotating speed or the rotating speed gear of the fan are positively correlated with the air pollutant content, so that the rotating speed or the rotating speed gear of the washing motor and the rotating speed or the rotating speed gear of the fan are increased when the air pollutant content is large, and the air purification efficiency is improved.

In some embodiments, in a control method of an air conditioner, a fan speed or a speed gear is associated with a washing motor speed or a speed gear, and the method includes:

as shown in fig. 2, the air pollutant content is obtained, the rotating speed or the rotating speed gear of the fan is determined according to the air pollutant content, and the rotating speed or the rotating speed gear of the washing motor is determined according to the air pollutant content and the rotating speed or the rotating speed gear of the fan.

Alternatively, in some further embodiments, the method comprises:

as shown in fig. 3, the air pollutant content is obtained, the rotating speed or the rotating speed gear of the water washing motor is determined according to the air pollutant content, and the rotating speed or the rotating speed gear of the fan is determined according to the air pollutant content and the rotating speed or the rotating speed gear of the water washing motor.

Further, the method of this embodiment further includes:

as shown in fig. 4, the air humidity is obtained, and the rotation speed or rotation speed gear of the water washing motor and the rotation speed or rotation speed gear of the fan are determined according to the air pollutant content and the air humidity.

Wherein the rotating speed or the rotating speed gear of the washing motor and the rotating speed or the rotating speed gear of the fan are positively correlated with the air pollutant content; the rotational speed or the rotational speed gear of washing motor and the rotational speed or the rotational speed gear of fan are relevant with air humidity negatively, on the one hand air humidity is favorable to air contaminant's self-purification when big, can suitably reduce the rotational speed or the rotational speed gear of washing motor and fan, and on the other hand, when air humidity is big, the rotational speed or the rotational speed gear that suitably reduce the washing motor can also avoid too much increase indoor humidity, are favorable to improving the comfort level.

And/or as shown in fig. 5, acquiring an indoor environment temperature, an outdoor environment temperature and a set temperature, determining the rotating speed or the rotating speed gear of the washing motor according to the air pollutant content, the indoor environment temperature and the outdoor environment temperature, and determining the rotating speed or the rotating speed gear of the fan according to the air pollutant content, the indoor environment temperature and the set temperature.

The absolute value of the difference between the outdoor environment temperature and the indoor environment temperature is positively correlated with the rotating speed or the rotating speed gear of the washing motor, and correspondingly, the absolute value of the difference between the indoor environment temperature and the set temperature is positively correlated with the rotating speed or the rotating speed gear of the fan. When refrigerating, the larger the difference between the outdoor environment temperature and the indoor environment temperature is, the higher the refrigerating effect required by the air conditioner is, and the other refrigerating effect is dehumidification, namely, the dehumidification effect is good. At the moment, the rotating speed or the rotating speed gear of the washing motor can be properly compensated, so that the indoor humidity can be compensated, and the comfort is improved. In heating, the greater the difference between the indoor ambient temperature and the outdoor ambient temperature, the higher the heating effect required by the air conditioner, and similarly, the lower the indoor humidity level. At the moment, the rotating speed or the rotating speed gear of the washing motor can be properly compensated, so that the indoor humidity can be compensated, and the comfort is improved.

In some embodiments, in a control method of an air conditioner, a fan speed or a speed gear is associated with a washing motor speed or a speed gear, and the method includes:

acquiring air humidity, determining the rotating speed or the rotating speed gear of a fan according to the air pollutant content and the air humidity, and determining the rotating speed or the rotating speed gear of a washing motor according to the air humidity, the air pollutant content and the rotating speed or the rotating speed gear of the fan; or determining the rotating speed or the rotating speed gear of the washing motor according to the air pollutant content and the air humidity, and determining the rotating speed or the rotating speed gear of the fan according to the air humidity, the air pollutant content and the rotating speed or the rotating speed gear of the washing motor;

and/or acquiring indoor environment temperature, outdoor environment temperature and set temperature, determining the rotating speed or rotating speed gear of the fan according to the air pollutant content, the indoor environment temperature and the set temperature, and determining the rotating speed or rotating speed gear of the washing motor according to the air pollutant content, the indoor environment temperature, the outdoor environment temperature and the rotating speed or rotating speed gear of the fan; or the rotating speed gear of the washing motor is determined according to the air pollutant content, the indoor environment temperature and the outdoor environment temperature, and the rotating speed or the rotating speed gear of the fan is determined according to the air pollutant content, the indoor environment temperature, the set temperature and the rotating speed or the rotating speed gear of the washing motor.

The following is illustrated by several specific examples:

example one

Acquiring the air pollutant content x, and the rotating speed y1= a1x of the fan²The rotating speed y2= a2x of the washing motor²Wherein a1 and a2 are coefficients determined in advance, and a1 is more than or equal to a 2. The rotational speed of this embodiment fan and the rotational speed of washing motor all are positively correlated with air contaminant's content, can improve air contaminant's purification efficiency, and the timely air-out of water module can be guaranteed to the rotational speed of the rotational speed more than or equal to washing motor of fan, improves air purification efficiency.

Example two

Acquiring the air pollutant content x, the rotating speed y1= a1x of the fan, and the rotating speed y2= a2x of the washing motor, wherein a1 and a2 are coefficients determined in advance, and a1 is more than or equal to a 2.

The rotational speed of this embodiment fan and the rotational speed of washing motor all are positively correlated with air contaminant's content, can improve air contaminant's purification efficiency, and the timely air-out of water module can be guaranteed to the rotational speed of the rotational speed more than or equal to washing motor of fan, improves air purification efficiency.

EXAMPLE III

Acquiring the air pollutant content x, and the rotating speed y1= a1x of the fan²+ c1, the rotation speed of the water washing motor y2= a2x²+ c2, where a1 and a2 are predetermined coefficients, a1 is equal to or greater than a2, and c1 and c2 are predetermined coefficients.

The rotational speed of this embodiment fan and the rotational speed of washing motor all are positively correlated with air contaminant's content, can improve air contaminant's purification efficiency, and the timely air-out of water module can be guaranteed to the rotational speed of the rotational speed more than or equal to washing motor of fan, improves air purification efficiency.

Example four

Acquiring the air pollutant content x, and the rotating speed y1= a1x of the fan²+ c1, the rotation speed of the water washing motor y2= a2x²+ c2, where a1, a2 are predetermined coefficients, a1 ≧ a2, c2 is predetermined coefficients, c1= y2 × k, 0 < k < 1, or c1 is predetermined coefficients, c2= y1 × m, 0 < m < 1.

The rotational speed of this embodiment fan and the rotational speed of washing motor all are positively correlated with air contaminant's content, can improve air contaminant's purification efficiency, and the timely air-out of water module can be guaranteed to the rotational speed of the rotational speed more than or equal to washing motor of fan, improves air purification efficiency. The rotating speed of the fan and the rotating speed of the water washing motor are directly related through coefficients c1 and c2, and the purification efficiency is further improved.

EXAMPLE five

Acquiring the air pollutant content x, and the rotating speed y1= a1x of the fan²+ b1x, rotation speed of water washing motor y2= a2x²+ b2x, where a1, a2, b1, b2 are predetermined coefficients, a1 ≧ a 2.

Compared with the first embodiment, the smoothness of the rotation speed adjustment can be further improved, and severe influence of sudden change of the rotation speed on user experience is avoided.

EXAMPLE six

Acquiring the air pollutant content x, and the rotating speed y1= a1x of the fan²+ b1x + c1, the speed of the washing motor y2= a2x²+ b2x + c2, wherein a1, a2, b1 and b2 are predetermined coefficients, a1 is not less than a2, and c1 and c2 are predetermined coefficients.

Compared with the embodiment, the smoothness of the rotation speed adjustment can be further improved, and severe influence of sudden change of the rotation speed on user experience is avoided.

EXAMPLE seven

Acquiring the air pollutant content x, and the rotating speed y1= a1x of the fan²+ b1x + c1, the speed of the washing motor y2= a2x²+ b2x + c2, wherein a1, a2, b1 and b2 are predetermined coefficients, a1 is more than or equal to a2, c2 is predetermined coefficients, c1= y2 k, 0 < k < 1, or c1 is predetermined coefficients, c2= y1 m, 0 < m < 1.

The rotational speed of this embodiment fan and the rotational speed of washing motor all are positively correlated with air contaminant's content, can improve air contaminant's purification efficiency, and the timely air-out of water module can be guaranteed to the rotational speed of the rotational speed more than or equal to washing motor of fan, improves air purification efficiency. The rotating speed of the fan and the rotating speed of the water washing motor are directly related through coefficients c1 and c2, and the purification efficiency is further improved.

Example eight

Acquiring air pollutant content x and indoor humidity, and determining coefficients a3 and a4 according to the indoor humidity, wherein a3 is more than or equal to a 4; the indoor humidity is inversely related to the coefficient.

The rotating speed y1= a3x of the fan²The rotating speed y2= a4x of the washing motor²。

Example nine

Acquiring air pollutant content x and indoor humidity, and determining coefficients a3 and a4 according to the indoor humidity, wherein a3 is more than or equal to a 4; the indoor humidity is inversely related to the coefficient.

The rotating speed y1= a3x of the fan²+ c3, the rotation speed of the water washing motor y2= a4x²+ c4, where c3, c4 are coefficients determined in advance.

Example ten

Acquiring air pollutant content x and indoor humidity, and determining coefficients a3 and a4 according to the indoor humidity, wherein a3 is more than or equal to a 4; the indoor humidity is inversely related to the coefficient.

The rotating speed y1= a3x of the fan²+ c3, the rotation speed of the water washing motor y2= a4x²+ c4, where c4 is a predetermined coefficient, c3= y2 × k, 0 < k < 1, or c3 is a predetermined coefficient, c4= y1 × m, 0 < m < 1.

The rotating speed of the fan and the rotating speed of the water washing motor are directly related through coefficients c1 and c2, and the purification efficiency is further improved.

EXAMPLE eleven

Acquiring air pollutant content x and indoor humidity, and determining coefficients a3 and a4 according to the indoor humidity, wherein a3 is more than or equal to a 4; the indoor humidity is inversely related to the coefficient.

The rotating speed y1= a3x of the fan²+ b3x, rotation speed of water washing motor y2= a4x²+ b4x, where b3, b4 are coefficients determined in advance.

Example twelve

Acquiring air pollutant content x and indoor humidity, and determining coefficients a3 and a4 according to the indoor humidity, wherein a3 is more than or equal to a 4; the indoor humidity is inversely related to the coefficient.

The rotating speed y1= a3x of the fan, and the rotating speed y2= a4x of the washing motor.

EXAMPLE thirteen

Acquiring air pollutant content x and indoor humidity, and determining coefficients a3 and a4 according to the indoor humidity, wherein a3 is more than or equal to a 4; the indoor humidity is inversely related to the coefficient.

The rotating speed y1= a3x of the fan²+ b3x + c3, the speed of the washing motor y2= a4x²+ b4x + c4, where b3, b4 are predetermined coefficients and c3, c4 are predetermined coefficients.

Example fourteen

Acquiring air pollutant content x and indoor humidity, and determining coefficients a3 and a4 according to the indoor humidity, wherein a3 is more than or equal to a 4; the indoor humidity is inversely related to the coefficient.

The rotating speed y1= a3x of the fan²+ b3x + c3, the speed of the washing motor y2= a4x²+ b4x + c4, where b3, b4 are predetermined coefficients, c4 is a predetermined coefficient, c3= y2 × k, 0 < k < 1, or c3 is a predetermined coefficient, c4= y1 × m, 0 < m < 1.

Example fifteen

Acquiring the air pollutant content x, the indoor environment temperature Tin, the outdoor environment temperature Tout and the set temperature Ts.

The rotating speed y1= a5x of the fan²+ b5x, rotation speed of water washing motor y2= a6x²+ b6x, where a5 and a6 are coefficients determined in advance or determined according to air humidity, a5 ≧ a6, b5= | Tin-Ts |, and b6= | Tout-Tin |.

Example sixteen

Acquiring the air pollutant content x, the indoor environment temperature Tin, the outdoor environment temperature Tout and the set temperature Ts.

The rotating speed y1= b5x of the fan and the rotating speed y2= b6x of the washing motor, wherein b5= | Tin-Ts |, and b6= | Tout-Tin |.

Example seventeen

Acquiring the air pollutant content x, the indoor environment temperature Tin, the outdoor environment temperature Tout and the set temperature Ts.

The rotating speed y1= a5x of the fan²+ b5x + c5, the speed of the washing motor y2= a6x²+ b6x + c6, where a5 and a6 are coefficients determined in advance or coefficients determined according to air humidity, a5 is not less than a6, b5= | Tin-Ts |, b6= | Tout-Tin |, and c5 and c6 are coefficients determined in advance.

EXAMPLE eighteen

Acquiring the air pollutant content x, the indoor environment temperature Tin, the outdoor environment temperature Tout and the set temperature Ts.

The rotating speed y1= a5x of the fan²+ b5x + c5, the speed of the washing motor y2= a6x²+ b6x + c6, where a5, a6 are coefficients determined in advance or determined according to the air humidity, a5 ≧ a6, b5= | Tin-Ts |, b6= | Tout-Tin |, c6 is a coefficient determined in advance, c5= y2 ×, 0 < k < 1, or c5 is a coefficient determined in advance, c6= y1 ×, 0 < m < 1.

Example nineteen

In this embodiment, the gear of the fan speed and the gear of the washing motor are positively correlated with the air pollutant content x, as shown in the following table:

	x≤x1	x1<x≤x2	x2<x≤x3	x3<x≤x4
					washing motor speed	Stop	Rotational speed 1	Rotational speed 2	Rotational speed 3
Rotating speed of fan	Set wind speed	Set rotational speed	First wind speed	Second wind speed

Wherein x1< x2< x3< x4, rotation speed 1< rotation speed 2< rotation speed 3, first wind speed < second wind speed.

Of course, the air conditioner of this embodiment can also be linked with other air devices, for example, a fresh air system and an air purifier.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. A control method of an air conditioner, the air conditioner comprises a fan and a water washing module, the water washing module comprises a water washing motor, and the method is characterized by comprising the following steps:

and acquiring the air pollutant content, and determining the rotating speed or the rotating speed gear of the washing motor and the rotating speed or the rotating speed gear of the fan according to the air pollutant content.

2. The control method of an air conditioner according to claim 1, wherein the method comprises:

acquiring air pollutant content, determining the rotating speed or the rotating speed gear of the fan according to the air pollutant content, and determining the rotating speed or the rotating speed gear of the washing motor according to the air pollutant content and the rotating speed or the rotating speed gear of the fan; or determining the rotating speed or the rotating speed gear of the washing motor according to the air pollutant content, and determining the rotating speed or the rotating speed gear of the fan according to the air pollutant content and the rotating speed or the rotating speed gear of the washing motor.

3. The control method of an air conditioner according to claim 1, wherein the method comprises:

acquiring air humidity, and determining the rotating speed or the rotating speed gear of the washing motor and the rotating speed or the rotating speed gear of the fan according to the air pollutant content and the air humidity;

and/or, obtain indoor ambient temperature, outdoor ambient temperature and set temperature, according to air contaminant content, indoor ambient temperature and outdoor ambient temperature confirm the rotational speed or the rotational speed gear of washing motor, according to air contaminant content, indoor ambient temperature and set temperature confirm the rotational speed or the rotational speed gear of fan.

4. The control method of an air conditioner according to claim 3, characterized in that the method is:

acquiring air humidity, determining the rotating speed or the rotating speed gear of the fan according to the air pollutant content and the air humidity, and determining the rotating speed or the rotating speed gear of the washing motor according to the air humidity, the air pollutant content and the rotating speed or the rotating speed gear of the fan; or determining the rotating speed or the rotating speed gear of the washing motor according to the air pollutant content and the air humidity, and determining the rotating speed or the rotating speed gear of the fan according to the air humidity, the air pollutant content and the rotating speed or the rotating speed gear of the washing motor;

and/or acquiring indoor environment temperature, outdoor environment temperature and set temperature, determining the rotating speed or rotating speed gear of the fan according to the air pollutant content, the indoor environment temperature and the set temperature, and determining the rotating speed or rotating speed gear of the washing motor according to the air pollutant content, the indoor environment temperature, the outdoor environment temperature and the rotating speed or rotating speed gear of the fan; or, the rotating speed or the rotating speed gear of the washing motor is determined according to the air pollutant content, the indoor environment temperature and the outdoor environment temperature, and the rotating speed or the rotating speed gear of the fan is determined according to the air pollutant content, the indoor environment temperature, the set temperature and the rotating speed or the rotating speed gear of the washing motor.

5. The control method of an air conditioner according to any one of claims 1 to 4, wherein the rotation speed or rotation speed step of the washing motor and the rotation speed or rotation speed step of the fan are positively correlated with the air contaminant content.

6. The control method of an air conditioner according to claim 5, wherein the air contaminant content x is acquired,

the rotating speed y1= a1x of the fan²The rotating speed y2= a2x of the water washing motor²Wherein a1 and a2 are coefficients determined in advance, and a1 is more than or equal to a 2;

or the rotating speed y1= a1x of the fan²+ c1, the speed of rotation of the water washing motor y2= a2x²+ c2, where a1 and a2 are predetermined coefficients, a1 is equal to or greater than a2, c1 and c2 are predetermined coefficients, or c2 is a predetermined coefficient, c1= y2 × k, 0 < k < 1, or c1 is a predetermined coefficient, c2= y1 × m, 0 < m < 1;

or the rotating speed y1= a1x of the fan²+ b1x, the speed of rotation of the water washing motor y2= a2x²+ b2x, wherein a1, a2,b1 and b2 are coefficients determined in advance, and a1 is more than or equal to a 2;

or the rotating speed y1= a1x of the fan, and the rotating speed y2= a2x of the washing motor, wherein a1 and a2 are coefficients determined in advance, and a1 is more than or equal to a 2;

or the rotating speed y1= a1x of the fan²+ b1x + c1, the speed of the water-washing motor y2= a2x²+ b2x + c2, where a1, a2, b1, b2 are predetermined coefficients, a1 ≧ a2, c1, c2 are predetermined coefficients, or c2 is a predetermined coefficient, c1= y2 k, 0 < k < 1, or c1 is a predetermined coefficient, c2= y1 m, 0 < m < 1.

7. The control method of an air conditioner according to claim 3 or 4, wherein the rotation speed or rotation speed gear of the washing motor and the rotation speed or rotation speed gear of the fan are positively correlated with the air pollutant content; the rotating speed or the rotating speed gear of the washing motor and the rotating speed or the rotating speed gear of the fan are inversely related to the air humidity.

8. The control method of the air conditioner according to claim 7, wherein the air contaminant content x and the indoor humidity are obtained, and the coefficients a3, a4, a3 ≧ a4 are determined according to the indoor humidity;

the rotating speed y1= a3x of the fan²The rotating speed y2= a4x of the water washing motor²；

Or the rotating speed y1= a3x of the fan²+ c3, the speed of rotation of the water washing motor y2= a4x²+ c4, where c3, c4 are predetermined coefficients, or c4 is a predetermined coefficient, c3= y2 k, 0 < k < 1, or c3 is a predetermined coefficient, c4= y1 m, 0 < m < 1;

or the rotating speed y1= a3x of the fan²+ b3x, the speed of rotation of the water-washing motor y2= a4x²+ b4x, where b3, b4 are coefficients determined in advance;

or the rotating speed y1= a3x of the fan, and the rotating speed y2= a4x of the washing motor;

or the rotating speed y1= a3x of the fan²+ b3x + c3, the speed of the water-washing motor y2= a4x²+ b4x + c4, where b3, b4 are predetermined coefficients, c3, c4 are predetermined coefficients, or c4 is a predetermined coefficient, c3= y2 × k, 0 < k < 1, or c3 is a predetermined coefficient, c4= y1 × m, 0 < m < 1.

9. The control method of an air conditioner according to claim 3 or 4, wherein the rotation speed or rotation speed step of the washing motor is positively correlated with the absolute value of the difference between the outdoor ambient temperature and the indoor ambient temperature, and the rotation speed or rotation speed step of the fan is positively correlated with the absolute value of the difference between the indoor ambient temperature and the set temperature.

10. The control method of an air conditioner according to claim 9, wherein the air contaminant content x, the indoor ambient temperature Tin, the outdoor ambient temperature Tout, the set temperature Ts;

the rotating speed y1= a5x of the fan²+ b5x, the speed of rotation of the water-washing motor y2= a6x²+ b6x, where a5 and a6 are coefficients determined in advance or determined according to air humidity, a5 ≧ a6, b5= | Tin-Ts |, and b6= | Tout-Tin |;

or the rotating speed y1 of the fan is = b5x, the rotating speed y2 of the washing motor is = b6x, wherein b5= | Tin-Ts |, b6= | Tout-Tin |;

or the rotating speed y1= a5x of the fan²+ b5x + c5, the speed of the water-washing motor y2= a6x²+ b6x + c6, where a5, a6 are coefficients determined in advance or determined according to the air humidity, a5 ≧ a6, b5= | Tin-Ts |, b6= | Tout-Tin |, c5, c6 are coefficients determined in advance, or c6 is a coefficient determined in advance, c5= y2 × k, 0 < k < 1, or c5 is a coefficient determined in advance, c6= y1 × m, 0 < m < 1.

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