Air conditioner control method, device and equipment

[0069] The exemplary embodiment will be described in detail herein, and examples thereof are shown in the drawings. The following description is related to the drawings, unless otherwise indicated, the same numbers in the drawings represent the same or similar elements. The embodiments described in the exemplary embodiments are not meant to all embodiments consistent with the present application. In contrast, examples of apparatus and methods consistent with some aspects of the present application are intended in detailed in the appended claims.

[0070] It should be noted that the term "comprising", "comprising" or any other variable is intended to encompass non-exclusive contained comprising a series of elements, methods, items, or means including those elements, not only those elements. It also includes other elements that are not explicitly listed, or include elements inherent to such processes, methods, articles, or devices. In the absence of more restrictions, the elements defined by the statement "include a ...", and there is no elimination in the process, method, article, or apparatus including the element.

[0071] In order to understand, the concepts according to the embodiments of the present application will be described.

[0072] Water washing purification air conditioner: remove contaminants in indoor air (formaldehyde, flts, etc.) in indoor air through the waterfall water curtain to purify the air conditioning of the indoors. The air conditioning port of the air conditioner is located at the lower end of the air conditioner, and the water washing device is provided in the water washing apparatus, the washing device is fixed to the air conditioner. Among them, the water washing device can generate a water curtain and purify air. In a water washing device, a water tank and a centrifuge fan, a water tank, and a centrifuge fan include a motor, a water tank for generating a water curtain, a centrifugal fan for controlling air passing through the water curtain. For example, a rotary fan in the water tank is provided. When the motor in the water tank controls the rotary fan, the rotary fan can convert the water in the water tank into a water curtain, and the motor of the centrifugal fan can clean the air-conditioned air-conditioned air. In the water tank, after the air passes through the water curtain, the centrifugal fan is discharged from the air to purify the air conditioner.

[0073] Below, combined figure 1 Detailed in detail the process of working on the water washing apparatus in the air conditioner.

[0074] figure 1 A process diagram of a water washing device provided in the present application embodiment. See figure 1 Includes an washing device. Among them, the water washing device includes a water tank and a centrifuge fan, and the water tank is disposed at the bottom of the air conditioner, and the centrifugal fan is disposed at the top of the water tank. In the water tank, the water tank includes air outlet, and the center of heart is present.

[0075] See figure 1 When the water washing device is operated, the motor in the water tank can control the rotary fan rotation, and the rotating fan can convert the water in the water tank into a water curtain. When the motor of the centrifuge fan, the air outside the water washing device can enter the water tank through the air outlet, after the air passes through the water curtain, the air in the water tank can discharge the water washing device through the air blowing device of the centrifuge, and then achieve purification and humidification of air. .

[0076] In the related art, when water washing is purified, the water washing device in the water washing is operated according to the preset working parameters, thereby increasing the air humidity in the air. For example, the water washing purification air conditioner can control the motor operation in the water washing device according to the pre-set motor speed, so that the air passes through the water curtain and increases the air of the air. However, when the indoor environment changes, the water washing purification air conditioner is still operated according to the preset working parameters, which in turn leads to a lower control flexibility of water washing air conditioners.

[0077] In order to solve the technical problem with low control flexibility in the related art, the present application provides a method of controlling air conditioning, air conditioning includes a water washing device, and the water washing device can increase the humidity of the air, and obtain the air in the air conditioning. The humidity, according to the air humidity, the state of the air conditioner is determined, wherein the state of the air conditioner is a humidity state, stop the humidification state or dehumidification state. When the state of the air conditioner is a humidity state, the water washing mode is determined according to the humidity of the air, and the air conditioner is controlled to control the water washing device. As the humidity of the indoor environment changes, the air conditioner can change the water washing mode of the water washing device according to the air humidity, and then change the effect of air-conditioning control and improve the flexibility of air conditioning control.

[0078] Bonded below figure 2 The specific application scenarios of the embodiment of the present application are described.

[0079] figure 2 An application scenario is provided for the embodiment of the present application. See figure 2 , Including air conditioning. Among them, the air conditioner includes a water washing device and a display panel, the water washing device is disposed at the bottom of the air conditioner, including the air outlet, the air-conditioned air, the air conditioning, the display panel is disposed at the top of the air conditioner, the display panel can display the air conditioner The humidity of the environment.

[0080] See figure 2 When the display panel displays "humidity 20%", the environment in which the air conditioner is 20%, at this time, the air conditioner can increase the operating speed of the motor of the water washing device, so that the air after a large amount of water is placed in the environment, thereby increasing Air humidity in the environment. This can improve the control flexibility when air-conditioning humidity can be improved according to the environmental humidity, and real-time control of the air conditioner.

[0081] Next, the technical solution shown in the present application will be described in detail by the specific embodiments. It should be noted that the following embodiments may be present alone, or may be combined with each other, for the same or similar content, and will not be repeated in different embodiments.

[0082] image 3 A flow schematic of a control method of an air conditioner provided in the present application embodiment. See image 3 This method can include:

[0083] S301, get the air humidity in the environment where the air conditioner is located.

[0084] The execution body of the present application may be air conditioning or a control device provided in air conditioning in the air conditioner. Optionally, the air conditioner can be implemented by software, or can be implemented by combination of software and hardware.

[0085] The air conditioner can be cleaned air conditioning for water washing air. Among them, the water washing purification air conditioner includes a water washing device. The water washing device can be washed with water and increase the humidity of the air. For example, the water washing purification air conditioner can generate a water curtain through the water washing apparatus, and remove contaminants in indoor air (formaldehyde, flts, etc.) in indoor air through the waterfall water curtain, and then purify the air conditioning in the room.

[0086] The washing device includes a water tank and a centrifuge fan. The water curtain can be generated. For example, the water tank includes a motor, and when the motor in the water tank operates, the motor can move the rotary sector to rotate, and the rotating fan blade converts the water in the water tank into a water curtain. The centrifugal fan can control the air outside the water washing device through the water curtain in the water tank and discharge the air passage of the air passage. For example, the centrifuge fan includes a motor, and when the motor of the centrifuge fan, the motor of the centrifuge fan can induce the outer air from the inlet of the water tank, and control the outside air through the water curtain in the water tank, pass through the water curtain in the air. At the time, the motor of the centrifugal fan controls air discharges the water washing device from the outlet of the centrifuge fan.

[0087] The environment in which the air conditioner is located can be an environment within the range of air conditioning. For example, air conditioning is placed in the living room in the room, the environment in which the air conditioner is located is a living room; air conditioning is placed in the bedroom in the room, and the environment in which the air conditioner is located is the bedroom.

[0088] The air humidity can be water in the air. For example, under normal temperature difference pressure, the smaller the water content in the air, the lower the air humidity, the larger the water content in the air, the higher the air humidity. Optionally, the air conditioner can include a humidity sensor, which can obtain the air humidity of the environment in which the air conditioner is located according to the humidity sensor. For example, the humidity sensor can be a resistive humidity sensor, a capacitive humidity sensor, or the like, and when the moisture in the air is adsorbed on the humidity sensor, the humidity sensor can determine the humidity in the air according to the change value of the resistance or capacitance, and in the humidity sensor. When the air humidity of the environment where the air conditioner is detected, the humidity sensor can transmit air humidity to the air conditioner.

[0089] S302 determines the state of the air conditioner according to the air humidity.

[0090] The state of the air conditioner is a humidity state, stop the humidification state or dehumidification state. When the state of the air conditioner is humidified state, the air conditioner can increase the air humidity in the air. For example, when the state of the air conditioner is a humidification state, the air conditioner can control the water washing device to open, and the water washing device can increase the air humidity in the air. When the state of the air conditioner is stopped, the air conditioner stops increasing the air humidity in the air. For example, when the state of the air conditioner is stopped, the air conditioner can control the water washing device to close, and the water washing device does not increase the air humidity in the air. When the state of the air conditioner is a dehumidification state, the air conditioner can reduce the air humidity in the air. For example, when the state of the air conditioner is a dehumidification state, the air conditioner can control the water washing device to close, and reduce the fan speed of the air conditioner, so that the moisture in the air can condense on the fan of the indoor unit, thereby reducing the air humidity in the air.

[0091] Optionally, it is possible to determine the state of the air conditioner in accordance with the following implementation, when the air humidity is less than the first threshold, determine the state of the air conditioner is a humidification state. For example, when the air humidity is less than 45%, the air humidity in the air is low, and the moisture in the air is required. At this time, the state of the air conditioner can be determined to be humidified state.

[0092] When the air humidity is greater than or equal to the first threshold, when it is less than the second threshold, it is determined that the state of the air conditioner is stopped. For example, when the air humidity is greater than or equal to 45%, less than 60%, the air humidity in the air is suitable, and there is no need to increase the moisture in the air, at this time, the state of the air conditioner can be determined to stop the humidification state.

[0093] When the humidity of the air conditioner is greater than or equal to the second threshold, the state of the air conditioner is determined is a dehumidification state. For example, when the air humidity is greater than or equal to 60%, the air humidity in the air is high, and the moisture in the air is needed, at which point, the state of the air conditioner can be determined as a dehumidification state.

[0094]Optionally, according to large data statistics, it is possible to determine whether the user's favorite air humidity range is from 45% to 60%, so the first threshold can be determined to be 45%, and the second threshold is determined to be 60%. In the actual application, the user can set the value of the first threshold and the second threshold, or determine the first threshold and the second threshold according to the large data, and the present application is not limited. For example, air conditioners can be connected to a server, and obtain the first threshold and the second threshold value and the second threshold value to the first threshold and the second threshold to determine the local first threshold and the second threshold according to the first threshold value and the second threshold value set by other users.

[0095] Optionally, air conditioners can determine the first threshold and the second threshold according to the user's historical usage habits. For example, the air conditioner can determine the first threshold and the second threshold when the air humidity and the user turn off the air conditioner when the user is turned off during the historical period. For example, in the past month, when the air conditioner is less than 40%, the user opens the humidification mode of the air conditioner, when the air humidity is greater than 40%, the user opens the stop humidification mode of the air conditioner, when the air humidity is 70%, the user opens The air conditioning dehumidification mode, therefore, it can be determined that the first threshold is 40%, the second threshold is 70%, and when the air conditioner is less than 40%, the air conditioner is opened in humidification mode, which is greater than or equal to 40%, less than 70. % When%, the air conditioner is turned on to stop the humidification mode. When the air humidity is greater than 70%, the air conditioner turns on the dehumidification mode.

[0096] S303 controls air conditioning water washing devices based on air humidity and air conditioning.

[0097] According to the state of air humidity and air conditioner, the air conditioner is controlled by the following conditions:

[0098] Situation 1: The state of the air conditioner is a humidification state.

[0099] When the state of the air conditioner is a humidification state, the water washing device for air conditioning can be controlled according to the air conditioning, and the water washing mode of the water washing device is determined according to the air humidity. Wherein, the water washing mode includes a fast water washing mode and a mild water washing mode. When the water washing mode of the washing device is a quick water washing mode, the air conditioner can quickly improve the air humidity in the air by the water washing device. For example, when the water washing mode of the water washing device is a quick water washing mode, the air conditioner can control the rapid operation of the motor of the water washing device, improve the air in the unit time through the water curtain, which can quickly improve the air humidity in the air.

[0100] When the water washing mode of the washing device is a mild water washing mode, the air conditioner can slowly improve the air humidity in the air by the water washing device. For example, when the water washing mode of the water washing device is a mild water washing mode, the air conditioner can reduce the speed of the motor operation of the water washing device, which in turn reduces the speed of the air through the water curtain during the unit time, and can slowly improve the air humidity in the air.

[0101] Optionally, the water washing mode of the water washing device can be determined according to air humidity. For example, when the air humidity is low, the water washing mode of the washing device is determined to be a rapid water washing mode. When the air humidity is moderate, the water washing mode of the water washing device is determined to be a mild water washing mode.

[0102] Control the air conditioner is controlled according to the water washing mode. For example, when the water washing mode is a quick water washing mode, the air conditioner can improve the motor speed of the water tank in the washing device and the motor speed of the centrifuge fan, so that the air humidity in the air can be quickly improved; when the water washing mode is a mild water washing mode, air conditioner It can reduce the motor speed of the water tank in the washing unit and the motor speed of the centrifuge fan, so that the air humidity in the air can be slowly improved.

[0103] In this case, when the state of the air conditioner is a humidification state, the air conditioner can determine the water washing mode of the water washing device or a mild water washing mode according to the air moisture, and then control the air conditioning of the air conditioner according to the water washing mode, so that the air conditioner can be based on the water washing mode. Air humidity, real-time changing air conditioning humidity, in turn increases control flexibility when air conditioning humidification.

[0104] Case 2: The state of the air conditioner is stopped in the humidification state or the dehumidification state.

[0105] When the state of the air conditioner is stopped in the humidity or dehumidification state, the air conditioner can be controlled according to the following implementation manner: control the water washing device to stop operation. For example, when the state of the air conditioner is stopped, the air humidity in the air is the most suitable humidity. At this time, there is no need to change the air humidity in the air, the air conditioner controls the motor and the motor in the water tank of the water washing device. Stopping, stopping the air humidity in the air; when the state of the air conditioner is the initial state, indicating that the water content in the air is large, the air humidity is high, at this time, it is necessary to reduce the air humidity in the air, due to the water washing device It is not possible to reduce the air humidity in the air, therefore, the air conditioner controls the motor and the motor in the water tank of the washing device, and the motor in the centrifuge is stopped, and thereby stopping the air humidity in the air.

[0106] Optionally, when the state of the air conditioner is a dehumidification state, the air conditioner can turn on the dehumidification mode, thereby reducing the air humidity in the air by dehumidification mode. For example, when the state of the air conditioner is a dehumidification state, the air conditioner controls the water washing device, and reduces the rotational speed of the air conditioner fan so that the moisture in the air can condense on the fan, thereby reducing the air humidity in the air.

[0107] In this feasible implementation, when the state of the air conditioner stops the humidification state or dehumidification state, the air conditioner can control the motor in the water tank of the water washing device and the motor in the centrifuge fan, thereby stopping the air humidity in the air, so Air conditioning can change air-conditioning humidification performance according to air humidity, and increase control flexibility when air-conditioning humidity is improved.

[0108] Alternatively, the user can control the air conditioning water washing device via air conditioner remote control. Alternatively, the user can control the air conditioner by the terminal device. For example, when the user's phone and air conditioner are connected by Bluetooth, the user can control the air conditioner by phone.

[0109] The present application provides a control method of air conditioning. The air conditioner includes a water washing device, and the air moisture in which the environment in which the air conditioner is acquired. When the humidity of the air is less than the first threshold, it is determined that the state of the air conditioner is a humidity state; the humidity is greater than or When equal to the first threshold, when it is less than the second threshold, it is determined that the state of the air conditioner is stopped; when the air humidity is greater than or equal to the second threshold, it is determined that the state of the air conditioner is a dehumidification state. When the state of the air conditioner is humidified state, the air conditioner can determine the water washing mode of the water washing device according to the air conditioning, and then control the water tank and centrifuge fan in the water washing device according to the water washing mode, and when the state of the air conditioner is stopped, the air conditioner is stopped. The water washing device can be controlled. In the above method, the air conditioner can adjust the air conditioning in the environment in which the air conditioner is located, and the air conditioner is adjusted in the air conditioner in the air conditioning state, the air conditioner can be adjusted according to the air humidity in the environment. For different water washing modes, different control methods can be used to improve the flexibility of air conditioning control.

[0110] in image 3 Based on the embodiment shown, Figure 4 Further, the control method of the above air conditioner will be described in detail.

[0111] Figure 4 A flow chart of another air conditioning of the present application embodiment. See Figure 4 This method can include:

[0112] S401 Get the air humidity of the environment where the air conditioner is located.

[0113] It should be noted that the execution of S401 can refer to the execution process of S301, which is no longer described here.

[0114] S402, determines whether or not the state of the air conditioner is a humidity state according to the air humidity.

[0115] If not, step S403 is performed.

[0116] If so, step S404 is performed.

[0117] S403, the control is stopped.

[0118] Optionally, if the state of the air conditioner is a dehumidification state, the air conditioner turns on the dehumidification mode when the air conditioner control the water washing device is stopped, to reduce the air humidity in the air.

[0119] Below, combined Figure 5 , In detail the state of the air conditioner is stopped in the water washing device when the humidification state or the dehumidification state is stopped.

[0120] Figure 5 A process diagram of a control water washing device provided for the embodiment of the present application. See Figure 5 , Including air conditioning. Among them, the air conditioner includes a water washing device and a display panel, the water washing device is disposed at the bottom of the air conditioner, including the air outlet, the air-conditioned air, the air conditioning, the display panel is disposed at the top of the air conditioner, the display panel can display the air conditioner The humidity of the environment.

[0121] See Figure 5 When the display panel displays "humidity 35%", the environment in which the air conditioner is 35%, the state of the air conditioner is a humidity state, at this time, the air conditioner can increase the speed of the motor of the water washing device, so that the air after a large amount of water was washed. In the environment, thereby increasing the air humidity in the environment. When the "humidity 45%" is displayed in the display panel, the environment in which the air conditioner is 45%, the state of the air conditioner is stopped, at this time, the air conditioner can turn off the motor of the water washing device, and stop increasing the air humidity in the environment.

[0122] S404, according to air humidity, it determines the water washing mode of the water washing device.

[0123] The water washing mode of the water washing device can be determined according to the following implementation, when the air humidity is less than the third threshold, it is determined that the water washing mode is a quick water washing mode. For example, when the air conditioner is less than 30%, the air conditioner can determine the water washing mode of the water washing device, and the air conditioner controls the water washing apparatus by the fast water washing mode to increase the increase in air humidity in the environment. When the air humidity is greater than or equal to the third threshold, it is determined that the water washing mode is a mild water washing mode. For example, when the air conditioner is greater than 30%, the air conditioner can determine the water washing mode of the water washing device is a mild water washing mode, thereby reducing the increase speed of air humidity in the environment. Wherein, the third threshold is smaller than the first threshold. For example, when the air conditioner is less than 45%, the state of the air conditioner is a humidity state, and when the air conditioner is less than 30%, the water washing mode of the air conditioner is a rapid water washing mode.

[0124] S405 controls the water washing device for air conditioning according to the water washing mode.

[0125] The washing device includes a water tank and a centrifuge fan, a water tank, and a centrifuge fan including a motor, and the air conditioner can control the water washing device by controlling the motor of the water tank and the centrifuge fan. For example, the motor in the water tank is used to control the rotary fan, and when the motor in the air conditioner control water tank is opened, the motor of the water tank can control the rotary sector rotation, thereby converting the water in the water tank into a water curtain. For example, the motor in the centrifuge fan is used to control the air passing through the water curtain, and discharge air conditioning through the air curtain. When the motor in the air conditioner is turned on, the motor of the centrifugal fan can be inhaled through the inlet air of the water tank. And the air passes through the water curtain in the water tank, after the air passes through the water curtain, the motor can discharge air through the air blower of the fan.

[0126] According to the following implementation, the air conditioner is controlled according to the water washing mode: according to the water washing mode, determine the first motor speed of the water tank and the second motor speed of the centrifuge fan. Among them, the first motor speed is the speed of the motor in the water tank, and the second motor speed is the motor speed in the centrifuge fan.

[0127] Optionally, according to the two feasible implementations, the first motor speed and the second motor speed are determined:

[0128] A feasible implementation:

[0129]When the water washing mode is a quick water washing mode, it is determined that the first motor speed is the first preset rotation speed, and the second motor rotation speed is the second preset speed. Among them, the first preset rotational speed is the motor speed of the preset water tank, and the second preset rotational speed is a motor speed of the preset centrifuge fan. For example, at a first predetermined rotation speed is 1000 per minute, the second preset rotation speed is 800 per minute, if the water washing mode of the water washing device is a quick water washing mode, the air conditioner can determine the first motor speed of the motor of the water tank. Turn 1000 per minute, the second motor speed of the motor of the centrifuge fan is 800 per minute.

[0130] When the water washing mode is a mild water washing mode, it is determined that the first motor speed is the third preset rotation speed, and the second motor rotation speed is the fourth preset speed. Among them, the third preset speed is the motor speed of the water tank set in advance, and the fourth preset rotational speed is the motor speed of the preset centrifuge fan. For example, at the second preset rotation speed is 700 per minute, the second preset rotation speed is 500 per minute, if the water washing mode of the water washing device is a moderate water washing mode, the air conditioner can determine the first motor speed of the electric machine of the water tank. Turn 700 per minute, the second motor speed of the motor of the centrifugal fan is 500 per minute.

[0131] The first preset speed of the motor of the water tank is greater than the third preset speed. For example, if the first preset speed of the motor of the water tank is 1500 per minute, the third preset speed is less than 1500 per minute, and the third preset rotation speed can be 800 per minute.

[0132] The second preset speed of the centrifugal fan is greater than the fourth preset speed. For example, if the second preset rotation speed of the motor from the heart fan is 1200 per minute, the fourth preset speed is less than 1200 revolutions per minute, and the fourth preset rotation speed can be 600 per minute.

[0133] Alternatively, the first preset speed of the water tank can be larger than the second preset speed of the centrifuge fan, or may be less than the fourth preset speed of the centrifuge fan, the second preset speed of the water tank can be less than the fourth preset of the centrifugal fan. The speed can also be larger than the second preset speed of the centrifuge fan, and the present application is not limited.

[0134] In this feasible implementation, the air conditioner can determine the first predetermined speed of the water tank, the second preset speed, and the fourth preset speed of the third preset speed and the fourth preset speed of the electric motor motor according to the water washing mode of the water tank. For different water washing modes, air conditioners can use different speed control of the motor and centrifugal electric machine, which can improve the control flexibility of air conditioning.

[0135] Another feasible implementation:

[0136] Get the air humidity corresponding to the water washing mode, the first preset relationship between the motor speed of the water tank and the motor speed of the centrifuge. Among them, the first preset relationship includes at least one air humidity and a motor speed of the water tank corresponding to each air humidity and a motor speed of the centrifuge fan. Optionally, when the air conditioner determines the water washing mode, the air humidity corresponding to the water washing mode can be obtained in real time. For example, when the water washing mode is a quick water washing mode, the air conditioner can acquire air humidity in real time according to the humidity sensor. For example, the air humidity corresponding to the water washing mode, the first preset relationship between the motor speed of the water tank and the motor speed of the centrifuge can be shown in Table 1:

[0137] Table 1

[0138]

[0139] In addition, Table 1 is only a first preset relationship between the air humidity corresponding to the water washing mode, the motor speed of the water tank and the motor speed of the centrifuge fan, and the air humidity, water tank corresponding to the water washing mode. The first preset relationship between the motor speed and the motor speed of the centrifuge fan is defined.

[0140] According to the water washing mode and the first preset relationship, the first motor speed and the second motor speed are determined. For example, if the air humidity corresponding to the water washing mode is a humidity 1, the first motor speed of the electric machine of the water tank is a rotational speed 1, and the second motor speed of the motor of the centrifuge fan is a rotational speed A; if the air humidity corresponding to the water washing mode is a humidity 2, The first motor speed of the motor of the water tank is the rotational speed 2. The second motor speed of the motor of the centrifuge fan is a rotational speed B; if the air humidity corresponding to the water washing mode is humidity 3, the first motor speed of the motor of the water tank is 3, The second motor speed of the motor of the centrifuge fan is the speed C.

[0141] Optionally, when the motor speed of the water tank corresponding to the water washing mode, the air humidity can be segmented, according to the air humidity of different stages, the motor and the motor of the centrifugal fan are controlled according to the air humidity of different stages. . For example, when the water washing mode is a rapid water washing mode, if the air moisture is between 5% and 15%, the air conditioner can control the motor speed of the water tank as the rotational speed 1. The motor speed of the centrifuge fan is a rotational speed A. If the air humidity is 15% Between -30%, the air conditioner can control the motor speed of the water tank as the speed 2. The motor speed of the centrifuge fan is a rotational speed B; when the water washing mode is a mild water washing mode, if the air humidity is between 30% -40%, air conditioner The motor speed of the water tank is the motor speed of 3, and the motor speed of the centrifuge fan is the rotational speed C.

[0142] In this feasible implementation, the air conditioner can determine the first motor speed of the water tank and the second motor speed of the motor rotational speed of the electric machine of the water tank according to the air conditioning mode of the water washing device, and can be flexible according to air humidity, flexible Control the motor and centrifugal fan of the water tank, in turn can improve the control flexibility of air conditioning.

[0143] According to the first motor speed, the motor is controlled. According to the second motor speed, the motor of the centrifugal fan is controlled. For example, the larger the first motor speed, the greater the motor speed in the water tank, the higher the speed of the water curtain in the water tank; the larger the second motor speed, the faster the external air passes through the water curtain, the faster the centrifugal fan The more the gas discharged in the air outlet time.

[0144] Below, combined Figure 6 The process of controlling the air conditioner according to the water washing mode is described in detail.

[0145] Figure 6 Another process diagram of another control water washing apparatus provided for the embodiment of the present application embodiment. See Figure 6 , Including air conditioning. Among them, the air conditioner includes a water washing device and a display panel, the water washing device is disposed at the bottom of the air conditioner, including the air outlet, the air-conditioned air, the air conditioning, the display panel is disposed at the top of the air conditioner, the display panel can display the air conditioner The humidity of the environment.

[0146] See Figure 6 When the display panel displays "humidity 20%", the environment in which the air conditioner is 20%, the state of the air conditioner is a humidification state, and the water washing mode of the water washing device is a quick water washing mode. At this time, the air conditioner can increase the electric machine of the water tank. A motor speed and a second motor speed of the motor of the centrifuge fan such that the air after a large amount of water is placed in the environment, thereby increasing the air humidity in the environment. When the display panel displays "humidity 35%", the environment of the air conditioner is 35%, the state of the air conditioner is a humidity, and the water washing mode of the water washing device is a mild water washing mode. At this time, the air conditioner can reduce the first motor of the water tank. The motor speed and the second motor speed of the motor of the centrifuge fan such that the air after a small amount of water is placed in the environment, thereby reducing the increase speed of air humidity in the environment. This can improve the control flexibility when air-conditioning humidity can be improved according to the environmental humidity, and real-time control of the air conditioner.

[0147] The present application provides a control method of air conditioning. In the air conditioner including the water washing device, the air humidity in which the environment in which the air conditioner is acquired, determines whether the state of the air conditioner is a humidity state, and if, control the water washing device to stop working, According to, according to the air humidity, the water washing mode of the water washing device is determined, and the air conditioner is controlled according to the water washing mode. In the above method, if the state of the air conditioner is a humidity state, according to the water washing mode, the first motor speed of the motor of the water tank in the water tank is determined in the water washing mode, the second motor speed of the motor of the centrifugal fan, in turn according to the first motor speed and the second Motor speed control water washing device, since different water washing modes correspond to different first motor speed and second motor speed, the air conditioner can adjust the motor speed of the tank and the motor speed of the centrifuge fan in real time, and in real time The effect of changing air conditioning humidification can improve the flexibility of air conditioning control.

[0148] Based on any of the above embodiments, the following binds Figure 7 The process of controlling the above air conditioner is described in detail.

[0149] Figure 7 A process diagram of a control method of an air conditioner provided in the present application embodiment. See Figure 7 , Including air conditioning. Among them, the air conditioner includes a water washing device and a display panel, the water washing device is disposed at the bottom of the air conditioner, including the air outlet, the air-conditioned air, the air conditioning, the display panel is disposed at the top of the air conditioner, the display panel can display the air conditioner The humidity of the environment.

[0150] See Figure 7 When the display panel of the air conditioner displays "humidity 20%", the environment in which the air conditioner is 20%, the state of the air conditioner is a humidification state, and the water washing mode of the water washing device is a quick water washing mode. At this time, the air conditioner can increase the motor of the water tank. The first motor speed and the second motor speed of the motor of the centrifuge fan make the air after a large amount of water to the environment, thereby increasing the air humidity in the environment.

[0151] See Figure 7 When the display panel of the air conditioner displays "humidity 35%", the environment in which the air conditioner is 35%, the state of the air conditioner is a humidity state, and the water washing mode of the water washing device is a mild water washing mode. At this time, the air conditioner can reduce the motor of the water tank. The first motor speed and the second motor speed of the motor of the centrifuge fan make the air after a small amount of water to the environment, thereby reducing the rate of air humidity in the environment.

[0152] See Figure 7 When the display panel of the air conditioner displays "humidity 45%", the environment in which the air conditioner is 45%, the state of the air conditioner is stopped, and the air conditioner can turn off the motor and the motor of the water tank in the water tank in the water tank. Further, stop the increase in air humidity in the environment.

[0153] See Figure 7 When the display panel of the air conditioner displays "humidity 65%", the environment in which the environment in which the air conditioner is 65%, the state of the air conditioner is a dehumidification state, at this time, the air conditioner can turn off the motor and the motor of the centrifugal fan in the water tank in the water washing device, and Open the dehumidification mode, thereby reducing the air humidity in the air. This can improve the control flexibility when air-conditioning humidity can be improved according to the environmental humidity, and real-time control of the air conditioner.

[0154] Figure 8 A structural diagram of an air conditioner provided by the embodiment of the present application embodiment. The air conditioning control device 10 can be disposed in air conditioning, and the air conditioner includes a water washing device. See Figure 8 The control device 10 of the air conditioner can include a acquisition module 11, a determination module 12, and a control module 13, wherein:

[0155] The acquisition module 11 is for obtaining air humidity in the environment in which the air conditioner is located;

[0156] The determining module 12 is for, according to the air humidity, the state of the air conditioner is determined, the state of the air conditioner is a humidity state, stop the humidification state or dehumidification state;

[0157] The control module 13 is for controlling the air conditioning an washing device according to the state of the air humidity and the air conditioner.

[0158] In a possible embodiment, the control module 13 is specifically used:

[0159] When the state of the air conditioner is a humidification state, according to the air humidity, it is determined that the water washing mode of the water washing device is determined according to the water washing mode, and the water washing mode includes a rapid water washing mode, mild water washing. mode;

[0160] When the state of the air conditioner is stopped in the humidity or dehumidification state, the water washing device stops working.

[0161] In a possible embodiment, the control module 13 is specifically used:

[0162] When the air humidity is less than the third threshold, it is determined that the water washing mode is a quick water washing mode;

[0163] When the air humidity is greater than or equal to the third threshold, it is determined that the water washing mode is a mild water washing mode.

[0164] In a possible embodiment, the control module 13 is specifically used:

[0165] According to the water washing mode, the first motor speed of the water tank and the second motor speed of the centrifugal fan are determined.

[0166] According to the first motor rotation speed, the motor of the water tank is controlled;

[0167] According to the second motor speed, the motor of the open fan is controlled.

[0168] In a possible embodiment, the control module 13 is specifically used:

[0169] When the water washing mode is a rapid water washing mode, it is determined that the first motor rotation speed is a first preset rotation speed, the second motor rotational speed of the second preset rotational speed;

[0170] When the water washing mode is a mild water washing mode, it is determined that the first motor rotation speed is a third preset rotational speed, the second motor rotation speed of the fourth preset speed, the first predetermined speed greater than the third The preset speed is greater than the fourth preset rotation speed.

[0171] In a possible embodiment, the control module 13 is specifically used:

[0172] Get the air humidity corresponding to the water washing mode, the first predetermined relationship between the motor speed of the water tank and the motor speed of the centrifuge, the first preset relationship comprises at least one air humidity and each air humidity. The motor rotational speed of the corresponding water tank and the motor speed of the centrifugal fan;

[0173] According to the water washing mode and the first preset relationship, the first motor speed and the second motor speed are determined.

[0174] In a possible embodiment, the determining module 12 is specifically used:

[0175] When the humidity of the air is smaller than the first threshold, it is determined that the state of the air conditioner is the humidification state;

[0176] When the humidity of the air is greater than or equal to the first threshold, when less than the second threshold, it is determined that the state of the air conditioner is the stop humidity state;

[0177] When the air humidity is greater than or equal to the second threshold, it is determined that the state of the air conditioner is the dehumidification state.

[0178] Figure 9 A schematic diagram of the hardware structure of the air conditioner provided herein. See Figure 9 The air conditioner 20 can include a processor 21 and a memory 22, wherein the processor 21 and the memory 22 can communicate; exemplary, processor 21 and memory 22 communicate via communication bus 23, the memory 22 for The storage program command is used to call the control method of the air conditioner shown in the memory in which the program instructions in the memory performs the air conditioner shown in any method embodiment.

[0179] Optionally, air conditioning control device 20 may also include a communication interface, and the communication interface can include a transmitter and / or receiver.

[0180] Optionally, the above processor can be a central processing unit (CPU), but also other universal processors, Digital Signal Processor, DSPs, dedicated integrated circuits (Application Specific Integrated Circuit, ASIC) )Wait. The general purpose processor can be a microprocessor or the processor can also be any conventional processor or the like. The steps of the method disclosed herein can be directly reflected in the completion of the hardware processor, or in combination with hardware and software module in the processor.

[0181] This application provides an air conditioner that includes a control device of the air conditioner described in any of the above embodiments.

[0182] The present application provides a readable storage medium that stores a computer program on which the computer program is configured to implement a control method of air conditioning as described in any of the above embodiments.

[0183] The present application embodiment provides a computer program product, the computer program product comprising an instruction, and when the instruction is executed, the computer performs the control method of the above air conditioner.

[0184] All or some of the steps of the above method embodiments can be accomplished by the hardware related to the program instruction. The foregoing procedures can be stored in a readable memory. When the program is executed, the step of including the above method embodiments is performed; the aforementioned memory (storage medium) includes: read-only memory (English: Read-Only Memory, abbreviation: ROM), RAM, flash memory, hard disk, Solid state drive, tape (English: magnetic tape), floppy disk (English: floppydisk), disc (English: Optical DISC) and any combination.

[0185] The present application example is described with reference to the method, device (system), and flowcharts and / or block diagrams of the computer program product, in accordance with the present application embodiment. It should be understood that each of the flowcharts and / or blocks in the flowchart and / or block diagram can be implemented by a computer program command, and a combination of flow and / or box in the flowchart and / or block diagram. These computer program instructions can be provided to a general-purpose computer, a dedicated computer, an embedded processor, or another programmable processing unit to generate a machine such that instructions performed by the processing unit of the computer or other programmable terminal device can be implemented. In the process Figure one Process or multiple processes and / or boxes Figure one Apparatus specified in multiple boxes or multiple boxes.

[0186] These computer program instructions can also be stored in a computer readable memory capable of booting a computer or other programmable terminal device in a particular manner such that instructions stored in the computer readable memory generates a manufacturing product of an instruction device, the instruction device Implementation Figure one Process or multiple processes and / or boxes Figure one The function specified in the box or multiple boxes.

[0187] These computer program instructions can also be loaded on a computer or other programmable terminal device such that a series of steps on a computer or other programmable device to generate a computer implemented process, thereby executing instructions executed on a computer or other programmable device. Provide for implementation Figure one Process or multiple processes and / or boxes Figure one The steps of the function specified in multiple boxes or multiple boxes.

[0188] It will be apparent to those skilled in the art, and various modifications and variations can be made to the present application without departing from the spirit and scope of the present application. Thus, if these modifications and variations of the present application are within the scope of the claims and equivalents thereof, the present application is intended to include these modifications and variations.

[0189] In the present application, the term "comprising" and its deformation can refer to non-limiting including; the term "or" and its deformation may refer to "and / or". The term "first", "second", etc. in this application is used to distinguish a similar object, without having to describe a particular order or ahead order. In this application, "multiple" refers to two or more. "And / or" describes the association relationship of the associated object, indicating that there are three relationships, such as A, / or B, which can be represented: Alone A, while there are three situations of B, alone. Character "/" generally means that the associated object is a "or" relationship.