WO2023040334A1 - Control method for air conditioner - Google Patents

Abstract

A control method for an air conditioner. The air conditioner comprises a fan and a water washing module, and the water washing module comprises a water washing motor. The control method comprises: obtaining the content of air pollutants, and determining the rotating speed or rotating speed gear of the water washing motor and the rotating speed or rotating speed gear of the fan according to the content of air pollutants. According to the control method for the air conditioner, the rotating speed of the fan may be adjusted to ensure prompt air output from a water module and increase the air purification efficiency.

Description

一种空调器的控制方法A method for controlling an air conditioner

本申请基于申请号为202111093820.6、申请日为2021年9月17日的中国专利申请提出，并要求该中国专利申请的优先权，该中国专利申请的全部内容在此引入本申请作为参考。This application is based on a Chinese patent application with application number 202111093820.6 and a filing date of September 17, 2021, and claims the priority of this Chinese patent application. The entire content of this Chinese patent application is hereby incorporated by reference into this application.

技术领域technical field

本发明属于空调器的控制技术领域，具体涉及一种空调器的控制方法。The invention belongs to the technical field of air conditioner control, and in particular relates to an air conditioner control method.

背景技术Background technique

随着生活水平的不断提高，人们对室内环境舒适度的要求也越来越高。空调即空气调节器，不仅可以用于室内制热、制冷，还可以改善室内空气，通过在室内安装空调，可以改善室内环境的舒适度。With the continuous improvement of living standards, people's requirements for indoor environment comfort are also getting higher and higher. Air conditioners are air conditioners, which can not only be used for indoor heating and cooling, but also can improve indoor air. By installing air conditioners indoors, the comfort of the indoor environment can be improved.

现有一种具有水洗功能的空调，通过水洗模块净化空气，改善室内空气质量，一般根据空气中污染物含量控制水洗模块的转速，然而，空调风机转速仍然按照设定转速运行，使得空调风机转速与水洗电机转速不适配，造成空气净化效果低下。例如，空气中污染物含量很高需要快速净化时，水洗电机快速转动，若此时风机处于低速转动状态，则风机的低转速不能快速出风，造成风速循环速率降低，造成空气净化效果低下。There is an air conditioner with water washing function, which purifies the air through the water washing module and improves the indoor air quality. Generally, the speed of the water washing module is controlled according to the pollutant content in the air. The speed of the washing motor is not suitable, resulting in low air purification effect. For example, when the pollutant content in the air is high and needs to be purified quickly, the water washing motor rotates rapidly. If the fan is in a low-speed rotation state at this time, the low speed of the fan will not be able to quickly blow out the air, resulting in a decrease in the wind speed circulation rate, resulting in low air purification effect.

本背景技术所公开的上述信息仅仅用于增加对本申请背景技术的理解，因此，其可能包括不构成本领域普通技术人员已知的现有技术。The above information disclosed in this background technology is only for enhancement of understanding of the background technology of this application, and therefore it may include information that does not constitute the prior art that is already known to a person of ordinary skill in the art.

发明内容Contents of the invention

本发明针对现有技术中存在的上述问题，提供一种空调器的控制方法，以解决现有空调器空调风机转速与水洗电机转速不适配，造成空气净化效果低下的技术问题。The present invention aims at the above-mentioned problems existing in the prior art, and provides a control method of an air conditioner to solve the technical problem that the rotation speed of the air-conditioning fan of the existing air conditioner does not match the rotation speed of the water washing motor, resulting in low air purification effect.

为达到上述技术目的，本发明采用以下技术方案实现：In order to achieve the above-mentioned technical purpose, the present invention adopts the following technical solutions to realize:

一种空调器的控制方法，所述空调器包括风机和水洗模块，所述水洗模块包括水洗电机，所述方法包括：A control method for an air conditioner, the air conditioner includes a blower fan and a water washing module, the water washing module includes a water washing motor, and the method includes:

获取空气污染物含量，根据所述空气污染物含量确定所述水洗电机的转速或者转速档位和所述风机的转速或者转速档位。The content of air pollutants is obtained, and the speed or speed gear of the washing motor and the speed or speed gear of the fan are determined according to the air pollutant content.

如上所述的空调器的控制方法，所述方法包括：The method for controlling an air conditioner as described above, the method includes:

获取空气污染物含量，根据所述空气污染物含量确定所述风机的转速或者转速档位， 根据所述空气污染物含量和所述风机的转速或者转速档位确定所述水洗电机的转速或者转速档位；或者，根据所述空气污染物含量确定所述水洗电机的转速或者转速档位，根据所述空气污染物含量和所述水洗电机的转速或者转速档位确定所述风机的转速或者转速档位。Obtain the air pollutant content, determine the speed or speed gear of the fan according to the air pollutant content, determine the speed or speed gear of the washing motor according to the air pollutant content and the speed or speed gear of the fan Gear position; or, determine the speed or speed gear of the water washing motor according to the air pollutant content, and determine the speed or speed gear of the fan according to the air pollutant content and the speed or speed gear of the water washing motor stalls.

如上所述的空调器的控制方法，所述方法包括：The method for controlling an air conditioner as described above, the method includes:

获取空气湿度，根据所述空气污染物含量和所述空气湿度确定所述水洗电机的转速或者转速档位和所述风机的转速或者转速档位；Obtain air humidity, and determine the speed or speed gear of the water washing motor and the speed or speed gear of the fan according to the air pollutant content and the air humidity;

和/或，获取室内环境温度、室外环境温度和设定温度，根据所述空气污染物含量、室内环境温度和室外环境温度确定所述水洗电机的转速或者转速档位，根据所述空气污染物含量、室内环境温度和设定温度确定所述风机的转速或者转速档位。And/or, obtain the indoor ambient temperature, outdoor ambient temperature and set temperature, determine the speed or speed gear of the water washing motor according to the air pollutant content, indoor ambient temperature and outdoor ambient temperature, Content, indoor ambient temperature and set temperature determine the speed or speed gear of the fan.

如上所述的空调器的控制方法，所述方法为：The control method of the air conditioner as described above, the method is:

获取空气湿度，根据所述空气污染物含量和所述空气湿度确定所述风机的转速或者转速档位，根据所述空气湿度、所述空气污染物含量和所述风机的转速或者转速档位确定所述水洗电机的转速或者转速档位；或者，根据所述空气污染物含量和所述空气湿度确定所述水洗电机的转速或者转速档位，根据所述空气湿度、所述空气污染物含量和所述水洗电机的转速或者转速档位确定所述风机的转速或者转速档位；Obtain air humidity, determine the speed or speed gear of the fan according to the air pollutant content and the air humidity, and determine according to the air humidity, the air pollutant content and the speed or speed gear of the fan The speed or speed gear of the water washing motor; or, determine the speed or speed gear of the water washing motor according to the air pollutant content and the air humidity, and determine the speed or speed gear of the water washing motor according to the air humidity, the air pollutant content and the air humidity. The speed or speed gear of the washing motor determines the speed or speed gear of the fan;

和/或，获取室内环境温度、室外环境温度和设定温度，根据所述空气污染物含量、室内环境温度和设定温度确定所述风机的转速或者转速档位，根据所述空气污染物含量、室内环境温度、室外环境温度和所述风机的转速或者转速档位确定所述水洗电机的转速或者转速档位；或者，根据所述空气污染物含量、室内环境温度和室外环境温度确定所述水洗电机的转速或者转速档位，根据所述空气污染物含量、室内环境温度、设定温度和所述水洗电机的转速或者转速档位确定所述风机的转速或者转速档位。And/or, obtain the indoor ambient temperature, outdoor ambient temperature and set temperature, determine the speed or speed gear of the fan according to the air pollutant content, indoor ambient temperature and set temperature, and determine the fan speed or speed gear according to the air pollutant content , the indoor ambient temperature, the outdoor ambient temperature, and the fan speed or speed gear to determine the speed or speed gear of the water washing motor; or, determine the The speed or speed gear of the water washing motor is determined according to the air pollutant content, indoor ambient temperature, set temperature and the speed or speed gear of the water washing motor.

如上所述的空调器的控制方法，所述水洗电机的转速或者转速档位和所述风机的转速或者转速档位与所述空气污染物含量正相关。According to the control method of the air conditioner as described above, the rotation speed or rotation speed gear of the water washing motor and the rotation speed or rotation speed gear of the fan are positively correlated with the air pollutant content.

如上所述的空调器的控制方法，获取空气污染物含量x，According to the control method of the air conditioner mentioned above, the air pollutant content x is obtained,

所述风机的转速y1＝a1x ²，所述水洗电机的转速y2＝a2x ²，其中，a1、a2为事先确定的系数，a1≥a2； The speed of the fan y1=a1x ² , the speed of the washing motor y2=a2x ² , where a1 and a2 are predetermined coefficients, a1≥a2;

或者，所述风机的转速y1＝a1x ²+c1，所述水洗电机的转速y2＝a2x ²+c2，其中，a1、a2为事先确定的系数，a1≥a2，c1、c2为事先确定的系数，或者c2为事先确定的系数，c1＝y2*k，0＜k＜1，或者，c1为事先确定的系数，c2＝y1*m，0＜m＜1； Alternatively, the speed of the blower y1= ^a1x2 +c1, the speed of the washing motor y2= ^a2x2 +c2, where a1 and a2 are predetermined coefficients, a1≥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;

或者，所述风机的转速y1＝a1x ²+b1x，所述水洗电机的转速y2＝a2x ²+b2x，其中， a1、a2、b1、b2为事先确定的系数，a1≥a2； Or, the speed y1 of the fan= ^a1x2 +b1x, the speed of the washing motor y2= ^a2x2 +b2x, wherein a1, a2, b1, b2 are predetermined coefficients, a1≥a2;

或者，所述风机的转速y1＝a1x，所述水洗电机的转速y2＝a2x，其中，a1、a2为事先确定的系数，a1≥a2；Alternatively, the rotation speed of the fan is y1=a1x, and the rotation speed of the washing motor is y2=a2x, wherein a1 and a2 are coefficients determined in advance, and a1≥a2;

或者，所述风机的转速y1＝a1x ²+b1x+c1，所述水洗电机的转速y2＝a2x ²+b2x+c2，其中，a1、a2、b1、b2为事先确定的系数，a1≥a2，c1、c2为事先确定的系数，或者c2为事先确定的系数，c1＝y2*k，0＜k＜1，或者，c1为事先确定的系数，c2＝y1*m，0＜m＜1。 Or, the speed y1 of the fan= ^a1x2 +b1x+c1, the speed y2= ^a2x2 +b2x+c2 of the washing motor, wherein a1, a2, b1, b2 are predetermined coefficients, a1≥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.

如上所述的空调器的控制方法，所述水洗电机的转速或者转速档位和所述风机的转速或者转速档位与所述空气污染物含量正相关；所述水洗电机的转速或者转速档位和所述风机的转速或者转速档位与所述空气湿度负相关。In the control method of the air conditioner as described above, the speed or speed gear of the water washing motor and the speed or speed gear of the fan are positively correlated with the air pollutant content; the speed or speed gear of the water washing motor The rotation speed or rotation speed gear of the fan is negatively correlated with the air humidity.

如上所述的空调器的控制方法，获取空气污染物含量x和室内湿度，根据所述室内湿度确定系数a3、a4，a3≥a4；In the control method of the air conditioner as described above, the air pollutant content x and the indoor humidity are obtained, and the coefficients a3 and a4 are determined according to the indoor humidity, where a3≥a4;

所述风机的转速y1＝a3x ²，所述水洗电机的转速y2＝a4x ²； The speed of the fan y1=a3x ² , the speed of the washing motor y2=a4x ² ;

或者，所述风机的转速y1＝a3x ²+c3，所述水洗电机的转速y2＝a4x ²+c4，其中，c3、c4为事先确定的系数，或者c4为事先确定的系数，c3＝y2*k，0＜k＜1，或者，c3为事先确定的系数，c4＝y1*m，0＜m＜1； Alternatively, the speed of the fan y1= ^a3x2 +c3, the speed of the washing motor y2= ^a4x2 +c4, where c3 and 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;

或者，所述风机的转速y1＝a3x ²+b3x，所述水洗电机的转速y2＝a4x ²+b4x，其中，b3、b4为事先确定的系数； Or, the speed y1 of the fan= ^a3x2 +b3x, the speed of the washing motor y2= ^a4x2 +b4x, where b3 and b4 are predetermined coefficients;

或者，所述风机的转速y1＝a3x，所述水洗电机的转速y2＝a4x；Or, the speed of the fan y1=a3x, the speed of the washing motor y2=a4x;

或者，所述风机的转速y1＝a3x ²+b3x+c3，所述水洗电机的转速y2＝a4x ²+b4x+c4，其中，b3、b4为事先确定的系数，c3、c4为事先确定的系数，或者c4为事先确定的系数，c3＝y2*k，0＜k＜1，，或者，c3为事先确定的系数，c4＝y1*m，0＜m＜1。 Or, the speed y1 of the blower fan= ^a3x2 +b3x+c3, the speed y2= ^a4x2 +b4x+c4 of the washing motor, wherein b3 and b4 are predetermined coefficients, and c3 and 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.

如上所述的空调器的控制方法，所述水洗电机的转速或者转速档位与所述室外环境温度和室内环境温度的差的绝对值正相关，所述风机的转速或者转速档位与所述室内环境温度和设定温度的差的绝对值正相关。In the above-mentioned control method of the air conditioner, the rotation speed or rotation speed gear of the water 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 gear of the fan is directly related to the The absolute value of the difference between the indoor ambient temperature and the set temperature is positively correlated.

如上所述的空调器的控制方法，获取空气污染物含量x、室内环境温度Tin、室外环境温度Tout、设定温度Ts；According to the control method of the air conditioner as described above, the air pollutant content x, the indoor ambient temperature Tin, the outdoor ambient temperature Tout, and the set temperature Ts are obtained;

所述风机的转速y1＝a5x ²+b5x，所述水洗电机的转速y2＝a6x ²+b6x，其中，a5、a6为事先确定的系数或者根据空气湿度确定的系数，a5≥a6，b5＝|Tin-Ts|，b6＝|Tout-Tin|； The speed y1 of the blower fan= ^a5x2 +b5x, the speed y2= ^a6x2 +b6x of the washing motor, wherein a5 and a6 are coefficients determined in advance or determined according to air humidity, a5≥a6, b5=| Tin-Ts|, b6=|Tout-Tin|;

或者，所述风机的转速y1＝b5x，所述水洗电机的转速y2＝b6x，其中，b5＝|Tin-Ts|，b6＝|Tout-Tin|；Alternatively, the speed of the fan y1=b5x, the speed of the washing motor y2=b6x, where b5=|Tin-Ts|, b6=|Tout-Tin|;

或者，所述风机的转速y1＝a5x ²+b5x+c5，所述水洗电机的转速y2＝a6x ²+b6x+c6，其中，a5、a6为事先确定的系数或者根据空气湿度确定的系数，a5≥a6，b5＝|Tin-Ts|，b6＝|Tout-Tin|，c5、c6为事先确定的系数，或者c6为事先确定的系数，c5＝y2*k，0＜k＜1，或者，c5为事先确定的系数，c6＝y1*m，0＜m＜1。 Alternatively, the rotational speed y1 of the blower fan= ^a5x2 +b5x+c5, the rotational speed y2= ^a6x2 +b6x+c6 of the washing motor, wherein a5 and a6 are coefficients determined in advance or determined according to the air humidity, and a5 ≥a6, b5=|Tin-Ts|, b6=|Tout-Tin|, c5, c6 are predetermined coefficients, or c6 is a predetermined coefficient, c5=y2*k, 0<k<1, or, c5 is a predetermined coefficient, c6=y1*m, 0<m<1.

与现有技术相比，本发明的优点和积极效果是：本发明空调器的控制方法为获取空气污染物含量，根据空气污染物含量确定水洗电机的转速或者转速档位和风机的转速或者转速档位，以使水洗电机的转速或者转速档位和风机的转速或者转速档位相适配，以避免风机转速过低不能快速出风造成风速循环速率降低，导致空气净化效率低的问题。本发明对风机转速的调节能够保证水模块的及时出风，提高空气净化效率。Compared with the prior art, the advantages and positive effects of the present invention are: the control method of the air conditioner of the present invention is to obtain the air pollutant content, and determine the speed or speed gear of the washing motor and the speed or speed of the fan according to the air pollutant content Gears, so that the speed or speed gear of the water washing motor matches the speed or speed gear of the fan, so as to avoid the problem that the fan speed is too low and the wind can not be released quickly, resulting in a decrease in the wind speed circulation rate, resulting in low air purification efficiency. The adjustment of the rotating speed of the fan in the invention can ensure the timely air discharge of the water module and improve the air purification efficiency.

结合附图阅读本发明的具体实施方式后，本发明的其他特点和优点将变得更加清楚。Other characteristics and advantages of the present invention will become clearer after reading the detailed description of the present invention in conjunction with the accompanying drawings.

附图说明Description of drawings

为了更清楚地说明本发明实施例中的技术方案，下面将对实施例中所需要使用的附图作一简单地介绍，显而易见地，下面描述中的附图是本发明的一些实施例，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the following will briefly introduce the accompanying drawings that need to be used in the embodiments. Obviously, the accompanying drawings in the following description are some embodiments of the present invention. For Those of ordinary skill in the art can also obtain other drawings based on these drawings without making creative efforts.

图1-5为本发明具体实施例空调器的流程图。1-5 are flowcharts of an air conditioner according to a specific embodiment of the present invention.

具体实施方式Detailed ways

下面参照附图来描述本发明的优选实施方式。本领域技术人员应当理解的是，这些实施方式仅仅用于解释本发明的技术原理，并非旨在限制本发明的保护范围。Preferred embodiments of the present invention are described below with reference to the accompanying drawings. Those skilled in the art should understand that these embodiments are only used to explain the technical principles of the present invention, and are not intended to limit the protection scope of the present invention.

需要说明的是，在本发明的描述中，术语“中心”、“上”、“下”、“左”、“右”、“竖直”、“水平”、“内”、“外”等指示的方向或位置关系的术语是基于附图所示的方向或位置关系，这仅仅是为了便于描述，而不是指示或暗示所述装置或元件必须具有特定的方位、以特定的方位构造和操作，因此不能理解为对本发明的限制。此外，术语“第一”、“第二”、“第三”仅用于描述目的，而不能理解为指示或暗示相对重要性。It should be noted that, in the description of the present invention, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer" etc. The terms of the indicated direction or positional relationship are based on the direction or positional relationship shown in the drawings, which are only for the 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 therefore cannot be construed as a limitation of the present invention. In addition, the terms "first", "second", and "third" are used for descriptive purposes only, and should not be construed as indicating or implying relative importance.

为使本发明实施例的目的、技术方案和优点更加清楚，下面将结合本发明实施例中的附图，对本发明实施例中的技术方案进行清楚、完整地描述。In order to make the purpose, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the drawings in the embodiments of the present invention.

本实施例的空调器为具有水洗功能的空调器，空调器包括壳体、位于壳体内的换热器、风机、接水盘等，风机和换热器均位于壳体内的空气流通路径上，在壳体上开设进风口和出风口。在空气流通路径上还设置水洗模块，水洗模块能够对经过空调器的空气进行净化，水洗模块主要通过水洗方式去除空气中的污染物，包括水洗电机。The air conditioner in this embodiment is an air conditioner with water washing function. The air conditioner includes a housing, a heat exchanger located in the housing, a fan, a water tray, etc., and the fan and the heat exchanger are located on the air circulation path in the housing. An air inlet and an air outlet are provided on the housing. A water washing module is also provided on the air circulation path. The water washing module can purify the air passing through the air conditioner. The water washing module mainly removes pollutants in the air by water washing, including washing the motor.

本实施例空调器的控制方法包括：The control method of the air conditioner in this embodiment includes:

如图1所示，获取空气污染物含量，根据空气污染物含量确定水洗电机的转速或者转速档位和风机的转速或者转速档位，能够通过调节水洗电机和风机转速或者转速档位提高空气净化效率。As shown in Figure 1, the air pollutant content is obtained, and the speed or speed gear of the washing motor and the speed or speed gear of the fan are determined according to the air pollutant content, and the air purification can be improved by adjusting the speed or speed gear of the washing motor and fan efficiency.

其中，水洗电机的转速或者转速档位和风机的转速或者转速档位与空气污染物含量正相关，以在空气污染物含量大时提高水洗电机的转速或者转速档位和风机的转速或者转速档位，提高空气净化效率。Among them, the speed or speed gear of the washing motor and the speed or speed gear of the fan are positively correlated with the air pollutant content, so as to increase the speed or speed gear of the washing motor and the speed or speed gear of the fan when the air pollutant content is large position, improve air purification efficiency.

在一些实施例中，空调器的控制方法中，将风机转速或者转速档位与水洗电机转速或者转速档位进行关联，方法包括：In some embodiments, in the control method of the air conditioner, associating the fan speed or speed gear with the water washing motor speed or speed gear, the method includes:

如图2所示，获取空气污染物含量，根据空气污染物含量确定风机的转速或者转速档位，根据空气污染物含量和风机的转速或者转速档位确定水洗电机的转速或者转速档位。As shown in Figure 2, the air pollutant content is obtained, the speed or speed gear of the fan is determined according to the air pollutant content, and the speed or speed gear of the washing motor is determined according to the air pollutant content and the speed or speed gear of the fan.

或者，在另外一些实施例中，方法包括：Or, in other embodiments, the method includes:

如图3所示，获取空气污染物含量，根据空气污染物含量确定水洗电机的转速或者转速档位，根据空气污染物含量和水洗电机的转速或者转速档位确定风机的转速或者转速档位。As shown in Figure 3, the air pollutant content is obtained, the speed or speed gear of the washing motor is determined according to the air pollutant content, and the speed or speed gear of the fan is determined according to the air pollutant content and the speed or speed gear of the washing motor.

进一步的，本实施例的方法还包括：Further, the method of this embodiment also includes:

如图4所示，获取空气湿度，根据空气污染物含量和空气湿度确定水洗电机的转速或者转速档位和风机的转速或者转速档位。As shown in Figure 4, the air humidity is obtained, and the speed or speed gear of the washing motor and the speed or speed gear of the fan are determined according to the air pollutant content and air humidity.

其中，水洗电机的转速或者转速档位和风机的转速或者转速档位与空气污染物含量正相关；水洗电机的转速或者转速档位和风机的转速或者转速档位与空气湿度负相关，一方面空气湿度大时有利于空气污染物的自动净化，可以适当降低水洗电机和风机的转速或者转速档位，另一方面，空气湿度大时，适当降低水洗电机的转速或者转速档位还可以避免过多的增加室内湿度，有利于提高舒适度。Among them, the speed or speed gear of the water washing motor and the speed or speed gear of the fan are positively correlated with the air pollutant content; the speed or speed gear of the water washing motor and the speed or speed gear of the fan are negatively correlated with the air humidity. When the air humidity is high, it is conducive to the automatic purification of air pollutants, and the speed or speed gear of the washing motor and fan can be appropriately reduced. On the other hand, when the air humidity is high, appropriately reducing the speed or speed gear of the washing motor can also avoid excessive Increase the indoor humidity more, which is conducive to improving comfort.

和/或，如图5所示，获取室内环境温度、室外环境温度和设定温度，根据空气污染物含量、室内环境温度和室外环境温度确定水洗电机的转速或者转速档位，根据空气污染物含量、室内环境温度和设定温度确定风机的转速或者转速档位。And/or, as shown in Figure 5, obtain the indoor ambient temperature, outdoor ambient temperature and set temperature, determine the speed or speed gear of the washing motor according to the air pollutant content, indoor ambient temperature and outdoor ambient temperature, and determine the speed of the washing motor according to the air pollutant content Content, indoor ambient temperature and set temperature determine the speed or speed gear of the fan.

其中，水洗电机的转速或者转速档位与室外环境温度和室内环境温度的差的绝对值正相关，相应的，风机的转速或者转速档位与室内环境温度和设定温度的差的绝对值正相关。制冷时，室外环境温度和室内环境温度差越大，空调器要求的制冷效果高，制冷的另一个效果是除湿，也就是除湿效果好。此时，适当的补偿水洗电机的转速或者转速档位， 可以对室内湿度进行补偿，提高舒适性。制热时，室内环境温度和室外环境温度差越大，空调器要求的制热效果高，同样的，室内的湿度水平也会降低。此时，适当的补偿水洗电机的转速或者转速档位，可以对室内湿度进行补偿，提高舒适性。Among them, the speed or speed gear 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 correspondingly, the absolute value of the fan speed or speed gear is positively correlated with the difference between the indoor ambient temperature and the set temperature. relevant. When cooling, the greater the difference between the outdoor ambient temperature and the indoor ambient temperature, the higher the cooling effect required by the air conditioner. Another effect of cooling is dehumidification, that is, the dehumidification effect is good. At this time, by properly compensating the rotation speed or the rotation speed gear of the water washing motor, the indoor humidity can be compensated to improve the comfort. When 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 indoor humidity level will also decrease. At this time, by properly compensating the rotation speed or rotation speed gear of the water washing motor, the indoor humidity can be compensated to improve the comfort.

在一些实施例中，空调器的控制方法中，将风机转速或者转速档位与水洗电机转速或者转速档位进行关联，方法包括：In some embodiments, in the control method of the air conditioner, associating the fan speed or speed gear with the water washing motor speed or speed gear, the method includes:

获取空气湿度，根据空气污染物含量和空气湿度确定风机的转速或者转速档位，根据空气湿度、空气污染物含量和风机的转速或者转速档位确定水洗电机的转速或者转速档位；或者，根据空气污染物含量和空气湿度确定水洗电机的转速或者转速档位，根据空气湿度、空气污染物含量和水洗电机的转速或者转速档位确定风机的转速或者转速档位；Obtain the air humidity, determine the speed or speed gear of the fan according to the air pollutant content and air humidity, determine the speed or speed gear of the washing motor according to the air humidity, air pollutant content and the speed or speed gear of the fan; or, according to The air pollutant content and air humidity determine the speed or speed gear of the washing motor, and determine the fan speed or speed gear according to the air humidity, air pollutant content and the speed or speed gear of the washing motor;

和/或，获取室内环境温度、室外环境温度和设定温度，根据空气污染物含量、室内环境温度和设定温度确定风机的转速或者转速档位，根据空气污染物含量、室内环境温度、室外环境温度和风机的转速或者转速档位确定水洗电机的转速或者转速档位；或者，根据空气污染物含量、室内环境温度和室外环境温度确定水洗电机的转速或者转速档位，根据空气污染物含量、室内环境温度、设定温度和水洗电机的转速或者转速档位确定风机的转速或者转速档位。And/or, obtain the indoor ambient temperature, outdoor ambient temperature and set temperature, determine the speed or speed gear of the fan according to the air pollutant content, indoor ambient temperature and set temperature, and determine the fan speed or speed gear according to the air pollutant content, The ambient temperature and the speed or speed gear of the fan determine the speed or speed gear of the washing motor; or, determine the speed or speed gear of the washing motor according to the air pollutant content, indoor ambient temperature and outdoor , indoor ambient temperature, set temperature, and the speed or speed gear of the washing motor determine the speed or speed gear of the fan.

下面通过几个具体实施例说明：Illustrate by several specific examples below:

实施例一Embodiment one

获取空气污染物含量x，风机的转速y1＝a1x ²，水洗电机的转速y2＝a2x ²，其中，a1、a2为事先确定的系数，a1≥a2。本实施例风机的转速和水洗电机的转速均与空气污染物的含量正相关，可以提高空气污染物的净化效率，风机的转速大于等于水洗电机的转速能够保证水模块的及时出风，提高空气净化效率。 To obtain the air pollutant content x, the speed of the fan y1=a1x ² , the speed of the washing motor y2=a2x ² , where a1 and a2 are coefficients determined in advance, and a1≥a2. In this embodiment, the rotating speed of the fan and the rotating speed of the washing motor are positively correlated with the content of air pollutants, which can improve the purification efficiency of air pollutants. Purification efficiency.

实施例二Embodiment two

获取空气污染物含量x，风机的转速y1＝a1x，水洗电机的转速y2＝a2x，其中，a1、a2为事先确定的系数，a1≥a2。To obtain the air pollutant content x, the rotational speed of the fan y1=a1x, and the rotational speed of the washing motor y2=a2x, wherein a1 and a2 are coefficients determined in advance, and a1≥a2.

本实施例风机的转速和水洗电机的转速均与空气污染物的含量正相关，可以提高空气污染物的净化效率，风机的转速大于等于水洗电机的转速能够保证水模块的及时出风，提高空气净化效率。In this embodiment, the rotating speed of the fan and the rotating speed of the washing motor are positively correlated with the content of air pollutants, which can improve the purification efficiency of air pollutants. Purification efficiency.

实施例三Embodiment Three

获取空气污染物含量x，风机的转速y1＝a1x ²+c1，水洗电机的转速y2＝a2x ²+c2，其中，a1、a2为事先确定的系数，a1≥a2，c1、c2为事先确定的系数。 Obtain the air pollutant content x, the speed of the fan y1=a1x ² +c1, the speed of the washing motor y2=a2x ² +c2, where a1 and a2 are predetermined coefficients, a1≥a2, c1 and c2 are predetermined coefficient.

本实施例风机的转速和水洗电机的转速均与空气污染物的含量正相关，可以提高空 气污染物的净化效率，风机的转速大于等于水洗电机的转速能够保证水模块的及时出风，提高空气净化效率。In this embodiment, the rotating speed of the fan and the rotating speed of the washing motor are positively correlated with the content of air pollutants, which can improve the purification efficiency of air pollutants. Purification efficiency.

实施例四Embodiment four

获取空气污染物含量x，风机的转速y1＝a1x ²+c1，水洗电机的转速y2＝a2x ²+c2，其中，a1、a2为事先确定的系数，a1≥a2，c2为事先确定的系数，c1＝y2*k，0＜k＜1，或者，c1为事先确定的系数，c2＝y1*m，0＜m＜1。 Obtain the air pollutant content x, the speed of the fan y1= ^a1x2 +c1, the speed of the washing motor y2= ^a2x2 +c2, wherein a1 and a2 are predetermined coefficients, a1≥a2, c2 is a predetermined coefficient, c1=y2*k, 0<k<1, or, c1 is a predetermined coefficient, c2=y1*m, 0<m<1.

本实施例风机的转速和水洗电机的转速均与空气污染物的含量正相关，可以提高空气污染物的净化效率，风机的转速大于等于水洗电机的转速能够保证水模块的及时出风，提高空气净化效率。本实施例还将风机的转速和水洗电机的转速通过系数c1、c2直接关联，进一步提高净化效率。In this embodiment, the rotating speed of the fan and the rotating speed of the washing motor are positively correlated with the content of air pollutants, which can improve the purification efficiency of air pollutants. Purification efficiency. In this embodiment, the rotational speed of the fan is directly related to the rotational speed of the washing motor through coefficients c1 and c2, so as to further improve the purification efficiency.

实施例五Embodiment five

获取空气污染物含量x，风机的转速y1＝a1x ²+b1x，水洗电机的转速y2＝a2x ²+b2x，其中，a1、a2、b1、b2为事先确定的系数，a1≥a2。 To obtain air pollutant content x, fan speed y1=a1x ² +b1x, washing motor speed y2=a2x ² +b2x, where a1, a2, b1, b2 are predetermined coefficients, a1≥a2.

本实施例与实施例一相比，能够进一步提高转速调节的平滑性，避免转速突变对用户感受造成剧烈影响。Compared with the first embodiment, this embodiment can further improve the smoothness of the rotation speed adjustment, and avoid the drastic impact on the user experience caused by the sudden change of the rotation speed.

实施例六Embodiment six

获取空气污染物含量x，风机的转速y1＝a1x ²+b1x+c1，水洗电机的转速y2＝a2x ²+b2x+c2，其中，a1、a2、b1、b2为事先确定的系数，a1≥a2，c1、c2为事先确定的系数。 Obtain the air pollutant content x, the speed of the fan y1=a1x ² +b1x+c1, the speed of the washing motor y2=a2x ² +b2x+c2, where a1, a2, b1, b2 are predetermined coefficients, a1≥a2 , c1, c2 are coefficients determined in advance.

本实施例与实施例三相比，能够进一步提高转速调节的平滑性，避免转速突变对用户感受造成剧烈影响。Compared with the third embodiment, this embodiment can further improve the smoothness of the speed adjustment, and avoid the drastic impact on the user experience caused by the sudden change of the speed.

实施例七Embodiment seven

获取空气污染物含量x，风机的转速y1＝a1x ²+b1x+c1，水洗电机的转速y2＝a2x ²+b2x+c2，其中，a1、a2、b1、b2为事先确定的系数，a1≥a2，c2为事先确定的系数，c1＝y2*k，0＜k＜1，或者，c1为事先确定的系数，c2＝y1*m，0＜m＜1。 Obtain the air pollutant content x, the speed of the fan y1=a1x ² +b1x+c1, the speed of the washing motor y2=a2x ² +b2x+c2, where a1, a2, b1, b2 are predetermined coefficients, a1≥a2 , c2 is a predetermined coefficient, c1=y2*k, 0<k<1, or c1 is a predetermined coefficient, c2=y1*m, 0<m<1.

本实施例风机的转速和水洗电机的转速均与空气污染物的含量正相关，可以提高空气污染物的净化效率，风机的转速大于等于水洗电机的转速能够保证水模块的及时出风，提高空气净化效率。本实施例还将风机的转速和水洗电机的转速通过系数c1、c2直接关联，进一步提高净化效率。In this embodiment, the rotating speed of the fan and the rotating speed of the washing motor are positively correlated with the content of air pollutants, which can improve the purification efficiency of air pollutants. Purification efficiency. In this embodiment, the rotational speed of the fan is directly related to the rotational speed of the washing motor through coefficients c1 and c2, so as to further improve the purification efficiency.

实施例八Embodiment Eight

获取空气污染物含量x和室内湿度，根据室内湿度确定系数a3、a4，a3≥a4；室内湿度与系数负相关。Obtain the air pollutant content x and indoor humidity, and determine the coefficients a3 and a4 according to the indoor humidity, where a3≥a4; the indoor humidity is negatively correlated with the coefficient.

风机的转速y1＝a3x ²，水洗电机的转速y2＝a4x ²。 The rotation speed of the fan is y1=a3x ² , and the rotation speed of the washing motor is y2=a4x ² .

实施例九Embodiment nine

获取空气污染物含量x和室内湿度，根据室内湿度确定系数a3、a4，a3≥a4；室内湿度与系数负相关。Obtain the air pollutant content x and indoor humidity, and determine the coefficients a3 and a4 according to the indoor humidity, where a3≥a4; the indoor humidity is negatively correlated with the coefficient.

风机的转速y1＝a3x ²+c3，水洗电机的转速y2＝a4x ²+c4，其中，c3、c4为事先确定的系数。 The speed of the blower y1= ^a3x2 +c3, the speed of the washing motor y2= ^a4x2 +c4, where c3 and c4 are predetermined coefficients.

实施例十Embodiment ten

获取空气污染物含量x和室内湿度，根据室内湿度确定系数a3、a4，a3≥a4；室内湿度与系数负相关。Obtain the air pollutant content x and indoor humidity, and determine the coefficients a3 and a4 according to the indoor humidity, where a3≥a4; the indoor humidity is negatively correlated with the coefficient.

风机的转速y1＝a3x ²+c3，水洗电机的转速y2＝a4x ²+c4，其中，c4为事先确定的系数，c3＝y2*k，0＜k＜1，或者，c3为事先确定的系数，c4＝y1*m，0＜m＜1。 The speed of the fan y1= ^a3x2 +c3, the speed of the 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.

本实施例还将风机的转速和水洗电机的转速通过系数c1、c2直接关联，进一步提高净化效率。In this embodiment, the rotational speed of the fan is directly related to the rotational speed of the washing motor through coefficients c1 and c2, so as to further improve the purification efficiency.

实施例十一Embodiment Eleven

获取空气污染物含量x和室内湿度，根据室内湿度确定系数a3、a4，a3≥a4；室内湿度与系数负相关。Obtain the air pollutant content x and indoor humidity, and determine the coefficients a3 and a4 according to the indoor humidity, where a3≥a4; the indoor humidity is negatively correlated with the coefficient.

风机的转速y1＝a3x ²+b3x，水洗电机的转速y2＝a4x ²+b4x，其中，b3、b4为事先确定的系数。 The rotation speed of the fan y1= ^a3x2 +b3x, the rotation speed of the washing motor y2= ^a4x2 +b4x, wherein b3 and b4 are predetermined coefficients.

实施例十二Embodiment 12

获取空气污染物含量x和室内湿度，根据室内湿度确定系数a3、a4，a3≥a4；室内湿度与系数负相关。Obtain the air pollutant content x and indoor humidity, and determine the coefficients a3 and a4 according to the indoor humidity, where a3≥a4; the indoor humidity is negatively correlated with the coefficient.

风机的转速y1＝a3x，水洗电机的转速y2＝a4x。The rotating speed y1=a3x of the fan, and the rotating speed y2=a4x of the washing motor.

实施例十三Embodiment Thirteen

获取空气污染物含量x和室内湿度，根据室内湿度确定系数a3、a4，a3≥a4；室内湿度与系数负相关。Obtain the air pollutant content x and indoor humidity, and determine the coefficients a3 and a4 according to the indoor humidity, where a3≥a4; the indoor humidity is negatively correlated with the coefficient.

风机的转速y1＝a3x ²+b3x+c3，水洗电机的转速y2＝a4x ²+b4x+c4，其中，b3、b4为事先确定的系数，c3、c4为事先确定的系数。 The speed of the fan y1= ^a3x2 +b3x+c3, the speed of the washing motor y2= ^a4x2 +b4x+c4, where b3 and b4 are predetermined coefficients, and c3 and c4 are predetermined coefficients.

实施例十四Embodiment Fourteen

获取空气污染物含量x和室内湿度，根据室内湿度确定系数a3、a4，a3≥a4；室内湿度与系数负相关。Obtain the air pollutant content x and indoor humidity, and determine the coefficients a3 and a4 according to the indoor humidity, where a3≥a4; the indoor humidity is negatively correlated with the coefficient.

风机的转速y1＝a3x ²+b3x+c3，水洗电机的转速y2＝a4x ²+b4x+c4，其中，b3、b4为 事先确定的系数，c4为事先确定的系数，c3＝y2*k，0＜k＜1，，或者，c3为事先确定的系数，c4＝y1*m，0＜m＜1。 The speed of the fan y1= ^a3x2 +b3x+c3, the speed of the washing motor y2= ^a4x2 +b4x+c4, where b3 and 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.

实施例十五Embodiment 15

获取空气污染物含量x、室内环境温度Tin、室外环境温度Tout、设定温度Ts。Obtain air pollutant content x, indoor ambient temperature Tin, outdoor ambient temperature Tout, and set temperature Ts.

风机的转速y1＝a5x ²+b5x，水洗电机的转速y2＝a6x ²+b6x，其中，a5、a6为事先确定的系数或者根据空气湿度确定的系数，a5≥a6，b5＝|Tin-Ts|，b6＝|Tout-Tin|。 The speed of the fan y1=a5x ² +b5x, the speed of the washing motor y2=a6x ² +b6x, where a5 and a6 are coefficients determined in advance or determined according to the air humidity, a5≥a6, b5=|Tin-Ts| , b6=|Tout-Tin|.

实施例十六Embodiment sixteen

获取空气污染物含量x、室内环境温度Tin、室外环境温度Tout、设定温度Ts。Obtain air pollutant content x, indoor ambient temperature Tin, outdoor ambient temperature Tout, and set temperature Ts.

风机的转速y1＝b5x，水洗电机的转速y2＝b6x，其中，b5＝|Tin-Ts|，b6＝|Tout-Tin|。The rotational speed of the blower y1=b5x, the rotational speed of the washing motor y2=b6x, wherein, b5=|Tin-Ts|, b6=|Tout-Tin|.

实施例十七Embodiment 17

获取空气污染物含量x、室内环境温度Tin、室外环境温度Tout、设定温度Ts。Obtain air pollutant content x, indoor ambient temperature Tin, outdoor ambient temperature Tout, and set temperature Ts.

风机的转速y1＝a5x ²+b5x+c5，水洗电机的转速y2＝a6x ²+b6x+c6，其中，a5、a6为事先确定的系数或者根据空气湿度确定的系数，a5≥a6，b5＝|Tin-Ts|，b6＝|Tout-Tin|，c5、c6为事先确定的系数。 The speed of the fan y1=a5x ² +b5x+c5, the speed of the washing motor y2=a6x ² +b6x+c6, wherein a5 and 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.

实施例十八Embodiment eighteen

获取空气污染物含量x、室内环境温度Tin、室外环境温度Tout、设定温度Ts。Obtain air pollutant content x, indoor ambient temperature Tin, outdoor ambient temperature Tout, and set temperature Ts.

风机的转速y1＝a5x ²+b5x+c5，水洗电机的转速y2＝a6x ²+b6x+c6，其中，a5、a6为事先确定的系数或者根据空气湿度确定的系数，a5≥a6，b5＝|Tin-Ts|，b6＝|Tout-Tin|，c6为事先确定的系数，c5＝y2*k，0＜k＜1，或者，c5为事先确定的系数，c6＝y1*m，0＜m＜1。 The speed of the fan y1=a5x ² +b5x+c5, the speed of the washing motor y2=a6x ² +b6x+c6, wherein a5 and a6 are coefficients determined in advance or determined according to the air humidity, a5≥a6, b5=| Tin-Ts|, b6=|Tout-Tin|, c6 is a predetermined coefficient, c5=y2*k, 0<k<1, or, c5 is a predetermined coefficient, c6=y1*m, 0<m <1.

实施例十九Embodiment nineteen

本实施例中风机转速档位和水洗电机档位与空气污染物含量x正相关，如下表所示：In this embodiment, the fan speed gear and the washing motor gear are positively correlated with the air pollutant content x, as shown in the following table:

the	x≤x1x≤x1	x1<x≤x2x1<x≤x2	x2<x≤x3x2<x≤x3	x3<x≤x4x3<x≤x4
水洗电机转速Washing motor speed	停止stop	转速1Speed 1	转速2Speed 2	转速3Speed 3
风机转速Fan speed	设定风速set wind speed	设定转速set speed	第一风速first wind speed	第二风速second wind speed

其中，x1<x2<x3<x4，转速1<转速2<转速3，第一风速<第二风速。Wherein, x1<x2<x3<x4, rotation speed 1<rotation speed 2<rotation speed 3, first wind speed<second wind speed.

当然，本实施例的空调器还可以与其他空气设备联动，例如，新风***和空气净化器等。Of course, the air conditioner in this embodiment can also be linked with other air equipment, for example, a fresh air system and an air purifier.

以上实施例仅用以说明本发明的技术方案，而非对其进行限制；尽管参照前述实施例对本发明进行了详细的说明，对于本领域的普通技术人员来说，依然可以对前述实施例所记载的技术方案进行修改，或者对其中部分技术特征进行等同替换；而这些修改或替换， 并不使相应技术方案的本质脱离本发明所要求保护的技术方案的精神和范围。The above embodiments are only used to illustrate the technical solutions of the present invention, rather than to limit them; although the present invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art can still understand the foregoing embodiments. Modifications are made to the technical solutions described, or equivalent replacements are made to some of the technical features; and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions claimed in the present invention.

Claims (10)

1. 一种空调器的控制方法，所述空调器包括风机和水洗模块，所述水洗模块包括水洗电机，其特征在于，所述方法包括：A control method for an air conditioner, the air conditioner includes a fan and a water washing module, the water washing module includes a water washing motor, characterized in that the method includes:

   获取空气污染物含量，根据所述空气污染物含量确定所述水洗电机的转速或者转速档位和所述风机的转速或者转速档位。The content of air pollutants is obtained, and the speed or speed gear of the washing motor and the speed or speed gear of the fan are determined according to the air pollutant content.
2. 根据权利要求1所述的空调器的控制方法，其特征在于，所述方法包括：The control method of an air conditioner according to claim 1, characterized in that the method comprises:

   获取空气污染物含量，根据所述空气污染物含量确定所述风机的转速或者转速档位，根据所述空气污染物含量和所述风机的转速或者转速档位确定所述水洗电机的转速或者转速档位；或者，根据所述空气污染物含量确定所述水洗电机的转速或者转速档位，根据所述空气污染物含量和所述水洗电机的转速或者转速档位确定所述风机的转速或者转速档位。Obtain the air pollutant content, determine the speed or speed gear of the fan according to the air pollutant content, determine the speed or speed gear of the washing motor according to the air pollutant content and the speed or speed gear of the fan Gear position; or, determine the speed or speed gear of the water washing motor according to the air pollutant content, and determine the speed or speed gear of the fan according to the air pollutant content and the speed or speed gear of the water washing motor stalls.
3. 根据权利要求1所述的空调器的控制方法，其特征在于，所述方法包括：The control method of an air conditioner according to claim 1, characterized in that the method comprises:

   获取空气湿度，根据所述空气污染物含量和所述空气湿度确定所述水洗电机的转速或者转速档位和所述风机的转速或者转速档位；Obtain air humidity, and determine the speed or speed gear of the water washing motor and the speed or speed gear of the fan according to the air pollutant content and the air humidity;

   和/或，获取室内环境温度、室外环境温度和设定温度，根据所述空气污染物含量、室内环境温度和室外环境温度确定所述水洗电机的转速或者转速档位，根据所述空气污染物含量、室内环境温度和设定温度确定所述风机的转速或者转速档位。And/or, obtain the indoor ambient temperature, outdoor ambient temperature and set temperature, determine the speed or speed gear of the water washing motor according to the air pollutant content, indoor ambient temperature and outdoor ambient temperature, Content, indoor ambient temperature and set temperature determine the speed or speed gear of the fan.
4. 根据权利要求3所述的空调器的控制方法，其特征在于，所述方法为：The control method of an air conditioner according to claim 3, wherein the method is:

   获取空气湿度，根据所述空气污染物含量和所述空气湿度确定所述风机的转速或者转速档位，根据所述空气湿度、所述空气污染物含量和所述风机的转速或者转速档位确定所述水洗电机的转速或者转速档位；或者，根据所述空气污染物含量和所述空气湿度确定所述水洗电机的转速或者转速档位，根据所述空气湿度、所述空气污染物含量和所述水洗电机的转速或者转速档位确定所述风机的转速或者转速档位；Obtain air humidity, determine the speed or speed gear of the fan according to the air pollutant content and the air humidity, and determine according to the air humidity, the air pollutant content and the speed or speed gear of the fan The speed or speed gear of the water washing motor; or, determine the speed or speed gear of the water washing motor according to the air pollutant content and the air humidity, and determine the speed or speed gear of the water washing motor according to the air humidity, the air pollutant content and the air humidity. The speed or speed gear of the washing motor determines the speed or speed gear of the fan;

   和/或，获取室内环境温度、室外环境温度和设定温度，根据所述空气污染物含量、室内环境温度和设定温度确定所述风机的转速或者转速档位，根据所述空气污染物含量、室内环境温度、室外环境温度和所述风机的转速或者转速档位确定所述水洗电机的转速或者转速档位；或者，根据所述空气污染物含量、室内环境温度和室外环境温度确定所述水洗电机的转速或者转速档位，根据所述空气污染物含量、室内环境温度、设定温度和所述水洗电机的转速或者转速档位确定所述风机的转速或者转速档位。And/or, obtain the indoor ambient temperature, outdoor ambient temperature and set temperature, determine the speed or speed gear of the fan according to the air pollutant content, indoor ambient temperature and set temperature, and determine the fan speed or speed gear according to the air pollutant content , the indoor ambient temperature, the outdoor ambient temperature, and the fan speed or speed gear to determine the speed or speed gear of the water washing motor; or, determine the The speed or speed gear of the water washing motor is determined according to the air pollutant content, indoor ambient temperature, set temperature and the speed or speed gear of the water washing motor.
5. 根据权利要求1-4任意一项所述的空调器的控制方法，其特征在于，所述水洗电机的转速或者转速档位和所述风机的转速或者转速档位与所述空气污染物含量正相关。The control method of an air conditioner according to any one of claims 1-4, characterized in that, the speed or speed gear of the water washing motor and the speed or speed gear of the fan are directly proportional to the air pollutant content. relevant.
6. 根据权利要求5所述的空调器的控制方法，其特征在于，获取空气污染物含量x，The control method of an air conditioner according to claim 5, characterized in that, obtaining the air pollutant content x,

   所述风机的转速y1＝a1x ²，所述水洗电机的转速y2＝a2x ²，其中，a1、a2为事先确定的系数，a1≥a2； The speed of the fan y1=a1x ² , the speed of the washing motor y2=a2x ² , where a1 and a2 are predetermined coefficients, a1≥a2;

   或者，所述风机的转速y1＝a1x ²+c1，所述水洗电机的转速y2＝a2x ²+c2，其中，a1、a2为事先确定的系数，a1≥a2，c1、c2为事先确定的系数，或者c2为事先确定的系数，c1＝y2*k，0＜k＜1，或者，c1为事先确定的系数，c2＝y1*m，0＜m＜1； Alternatively, the speed of the blower y1= ^a1x2 +c1, the speed of the washing motor y2= ^a2x2 +c2, where a1 and a2 are predetermined coefficients, a1≥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;

   或者，所述风机的转速y1＝a1x ²+b1x，所述水洗电机的转速y2＝a2x ²+b2x，其中，a1、a2、b1、b2为事先确定的系数，a1≥a2； Or, the speed y1 of the fan=a1x ² +b1x, the speed y2 of the washing motor y2=a2x ² +b2x, wherein a1, a2, b1, b2 are predetermined coefficients, a1≥a2;

   或者，所述风机的转速y1＝a1x，所述水洗电机的转速y2＝a2x，其中，a1、a2为事先确定的系数，a1≥a2；Alternatively, the rotation speed of the fan is y1=a1x, and the rotation speed of the washing motor is y2=a2x, wherein a1 and a2 are coefficients determined in advance, and a1≥a2;

   或者，所述风机的转速y1＝a1x ²+b1x+c1，所述水洗电机的转速y2＝a2x ²+b2x+c2，其中，a1、a2、b1、b2为事先确定的系数，a1≥a2，c1、c2为事先确定的系数，或者c2为事先确定的系数，c1＝y2*k，0＜k＜1，或者，c1为事先确定的系数，c2＝y1*m，0＜m＜1。 Or, the speed y1 of the fan= ^a1x2 +b1x+c1, the speed y2= ^a2x2 +b2x+c2 of the washing motor, wherein a1, a2, b1, b2 are predetermined coefficients, a1≥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.
7. 根据权利要求3或4所述的空调器的控制方法，其特征在于，所述水洗电机的转速或者转速档位和所述风机的转速或者转速档位与所述空气污染物含量正相关；所述水洗电机的转速或者转速档位和所述风机的转速或者转速档位与所述空气湿度负相关。The control method of the air conditioner according to claim 3 or 4, characterized in that, the speed or speed gear of the washing motor and the speed or speed gear of the fan are positively correlated with the air pollutant content; The speed or speed gear of the washing motor and the speed or speed gear of the fan are negatively correlated with the air humidity.
8. 根据权利要求7所述的空调器的控制方法，其特征在于，获取空气污染物含量x和室内湿度，根据所述室内湿度确定系数a3、a4，a3≥a4；The control method of the air conditioner according to claim 7, characterized in that the air pollutant content x and the indoor humidity are obtained, and the coefficients a3 and a4 are determined according to the indoor humidity, and a3≥a4;

   所述风机的转速y1＝a3x ²，所述水洗电机的转速y2＝a4x ²； The speed of the fan y1=a3x ² , the speed of the washing motor y2=a4x ² ;

   或者，所述风机的转速y1＝a3x ²+c3，所述水洗电机的转速y2＝a4x ²+c4，其中，c3、c4为事先确定的系数，或者c4为事先确定的系数，c3＝y2*k，0＜k＜1，或者，c3为事先确定的系数，c4＝y1*m，0＜m＜1； Alternatively, the speed of the fan y1= ^a3x2 +c3, the speed of the washing motor y2= ^a4x2 +c4, where c3 and 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;

   或者，所述风机的转速y1＝a3x ²+b3x，所述水洗电机的转速y2＝a4x ²+b4x，其中，b3、b4为事先确定的系数； Or, the speed y1 of the fan= ^a3x2 +b3x, the speed of the washing motor y2= ^a4x2 +b4x, where b3 and b4 are predetermined coefficients;

   或者，所述风机的转速y1＝a3x，所述水洗电机的转速y2＝a4x；Or, the speed of the fan y1=a3x, the speed of the washing motor y2=a4x;

   或者，所述风机的转速y1＝a3x ²+b3x+c3，所述水洗电机的转速y2＝a4x ²+b4x+c4，其中，b3、b4为事先确定的系数，c3、c4为事先确定的系数，或者c4为事先确定的系数，c3＝y2*k，0＜k＜1，，或者，c3为事先确定的系数，c4＝y1*m，0＜m＜1。 Or, the speed y1 of the blower fan= ^a3x2 +b3x+c3, the speed y2= ^a4x2 +b4x+c4 of the washing motor, wherein b3 and b4 are predetermined coefficients, and c3 and 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. 根据权利要求3或4所述的空调器的控制方法，其特征在于，所述水洗电机的转速或者转速档位与所述室外环境温度和室内环境温度的差的绝对值正相关，所述风机的转 速或者转速档位与所述室内环境温度和设定温度的差的绝对值正相关。The control method of the air conditioner according to claim 3 or 4, characterized in that, the rotation speed or rotation speed gear 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 fan The rotational speed or rotational speed gear is positively correlated with the absolute value of the difference between the indoor ambient temperature and the set temperature.
10. 根据权利要求9所述的空调器的控制方法，其特征在于，获取空气污染物含量x、室内环境温度Tin、室外环境温度Tout、设定温度Ts；The control method of the air conditioner according to claim 9, characterized in that the air pollutant content x, the indoor ambient temperature Tin, the outdoor ambient temperature Tout, and the set temperature Ts are acquired;

    所述风机的转速y1＝a5x ²+b5x，所述水洗电机的转速y2＝a6x ²+b6x，其中，a5、a6为事先确定的系数或者根据空气湿度确定的系数，a5≥a6，b5＝|Tin-Ts|，b6＝|Tout-Tin|； The speed y1 of the blower fan= ^a5x2 +b5x, the speed y2= ^a6x2 +b6x of the washing motor, wherein a5 and a6 are coefficients determined in advance or determined according to air humidity, a5≥a6, b5=| Tin-Ts|, b6=|Tout-Tin|;

    或者，所述风机的转速y1＝b5x，所述水洗电机的转速y2＝b6x，其中，b5＝|Tin-Ts|，b6＝|Tout-Tin|；Alternatively, the speed of the fan y1=b5x, the speed of the washing motor y2=b6x, where b5=|Tin-Ts|, b6=|Tout-Tin|;

    或者，所述风机的转速y1＝a5x ²+b5x+c5，所述水洗电机的转速y2＝a6x ²+b6x+c6，其中，a5、a6为事先确定的系数或者根据空气湿度确定的系数，a5≥a6，b5＝|Tin-Ts|，b6＝|Tout-Tin|，c5、c6为事先确定的系数，或者c6为事先确定的系数，c5＝y2*k，0＜k＜1，或者，c5为事先确定的系数，c6＝y1*m，0＜m＜1。 Alternatively, the rotational speed y1 of the blower fan= ^a5x2 +b5x+c5, the rotational speed y2= ^a6x2 +b6x+c6 of the washing motor, wherein a5 and a6 are coefficients determined in advance or determined according to the air humidity, and a5 ≥a6, b5=|Tin-Ts|, b6=|Tout-Tin|, c5, c6 are predetermined coefficients, or c6 is a predetermined coefficient, c5=y2*k, 0<k<1, or, c5 is a predetermined coefficient, c6=y1*m, 0<m<1.

Images