CN114484624B - Humidity control method and device and mobile air conditioner - Google Patents

Abstract

The invention provides a humidity control method, a humidity control device and a mobile air conditioner; wherein the method comprises the following steps: after the mobile air conditioner starts to operate, judging whether an automatic wind sweeping mode is started; if yes, controlling the atomizer to start working; when the water storage amount in the atomizer is higher than a preset water level, judging whether a human body exists in a preset distance of the mobile air conditioner; if so, adjusting the speed of the atomizer according to a first rule so as to adjust the air-out degree of the mobile air conditioner; if not, adjusting the speed of the atomizer according to a second rule so as to adjust the humidity of the room where the mobile air conditioner is located. In the above mode, when a human body approaches the mobile air conditioner, the rate of the atomizer is adjusted according to the first rule to adjust the wind-damp degree of the mobile air conditioner; when the human body is far away from the mobile air conditioner, the speed of the atomizer is adjusted through the second rule to adjust the indoor humidity, so that the comfort experience of the user is improved through corresponding humidity control under two scenes.

Description

Humidity control method and device and mobile air conditioner

Technical Field

The present invention relates to the field of air conditioner technologies, and in particular, to a humidity control method and apparatus, and a mobile air conditioner.

Background

Currently, air conditioning apparatuses have been widely used in homes and offices to provide people with comfortable working and living environments. For some application scenes such as offices, the mobile air conditioner is adopted to adjust the temperature of each part in the closed space, for example, under refrigeration or heating operation, the accurate control of the temperature is realized according to the distance between a user and the mobile air conditioner. However, in practical application, the mobile air conditioner cannot accurately control the humidity of the air outlet, and too large or too small humidity reduces the comfort experience of the user, so how to control the humidity through the mobile air conditioner is a problem to be solved.

Disclosure of Invention

Accordingly, the present invention is directed to a humidity control method, a humidity control device, and a mobile air conditioner, wherein when a human body approaches the mobile air conditioner, the rate of the atomizer is adjusted according to a first rule to adjust the air-out rate of the mobile air conditioner; when the human body is far away from the mobile air conditioner, the speed of the atomizer is adjusted through the second rule to adjust the indoor humidity, so that the comfort experience of the user is improved through corresponding humidity control under two scenes.

In a first aspect, an embodiment of the present invention provides a humidity control method, which is applied to a controller of a mobile air conditioner, where the mobile air conditioner further includes an atomizer communicatively connected to the controller; the method comprises the following steps: after the mobile air conditioner starts to operate, judging whether an automatic wind sweeping mode is started; if yes, controlling the atomizer to start working; when the water storage amount in the atomizer is higher than a preset water level, judging whether a human body exists in a preset distance of the mobile air conditioner; if so, adjusting the speed of the atomizer according to a first rule so as to adjust the air-out degree of the mobile air conditioner; if not, adjusting the speed of the atomizer according to a second rule so as to adjust the humidity of the room where the mobile air conditioner is located.

According to the humidity control method, when a human body exists in a preset distance of the mobile air conditioner, namely, the human body approaches the mobile air conditioner, the speed of the atomizer is adjusted according to the first rule, and the degree of wind-damp out of the mobile air conditioner is adjusted; when the human body is far away from the mobile air conditioner, the speed of the atomizer is adjusted through the second rule, and the indoor humidity is adjusted, so that the comfort experience of the user is improved through corresponding humidity control under two scenes.

Preferably, the step of adjusting the rate of the atomizer according to the first rule includes: acquiring the air outlet humidity of the mobile air conditioner; if the air outlet humidity is greater than the first humidity threshold value, controlling the atomizer to stop running; if the air outlet humidity is not greater than the first humidity threshold value and is not less than the second humidity threshold value, controlling the atomizer to maintain the current speed; if the air-out humidity is smaller than the second humidity threshold, calculating to obtain a first target rate according to the initial rate and the air-out humidity of the atomizer, and controlling the atomizer to operate according to the first target rate; wherein the first humidity threshold is greater than the second humidity threshold.

Preferably, the step of calculating the target rate according to the initial rate and the air-out humidity of the atomizer includes: calculating a first target rate according to the following formula; v1=v0+ (H10-H1)/h10×v0; wherein, V1 represents a first target rate, V0 represents an initial rate, H10 represents a preset average air-out humidity, and H1 represents the air-out humidity.

Preferably, the step of adjusting the rate of the atomizer according to the second rule includes: acquiring indoor humidity of an indoor where a mobile air conditioner is located; if the indoor humidity is greater than the third humidity threshold, controlling the atomizer to stop running; if the indoor humidity is not greater than the third humidity threshold and is not less than the fourth humidity threshold, controlling the atomizer to maintain the current speed; if the indoor humidity is smaller than the fourth humidity threshold, calculating to obtain a second target rate according to the initial rate of the atomizer and the indoor humidity, and controlling the atomizer to operate according to the second target rate; wherein the third humidity threshold is greater than the fourth humidity threshold.

Preferably, the step of calculating the second target rate according to the initial rate of the atomizer and the indoor humidity includes: calculating a second target rate according to the following formula; v2=v0+ (H20-H2)/h20×v0; wherein V2 represents the second target rate, V0 represents the initial rate, H20 represents the preset average indoor humidity, and H2 represents the indoor humidity.

Preferably, the mobile air conditioner further comprises a water receiving disc and a base, and the atomizer comprises a first water suction pipe and a second water suction pipe; the method further comprises the steps of: if the water storage capacity in the atomizer is not higher than the preset water level, carrying out water supplementing treatment on the atomizer according to a first water supplementing rule until the water storage capacity is higher than the preset water level; wherein, the first water supply rule includes: and controlling the atomizer to extract condensed water in the water receiving disc through the first water suction pipe, and extracting condensed water in the base through the second water suction pipe.

Preferably, the mobile air conditioner further comprises an alarm module in communication connection with the controller, and the method further comprises: after the water supplementing of the atomizer is completed according to the first water supplementing rule, if the water storage capacity in the atomizer is still not higher than the preset water level, carrying out water supplementing treatment on the atomizer according to the second water supplementing rule until the water storage capacity is higher than the preset water level; wherein, the second water replenishing rule includes: generating water replenishing alarm information and sending the water replenishing alarm information to an alarm module so that the alarm module can alarm according to the water replenishing alarm information to remind a user to carry out water replenishing treatment on the atomizer.

In a second aspect, an embodiment of the present invention further provides a humidity control apparatus, which is applied to a controller of a mobile air conditioner, where the mobile air conditioner further includes an atomizer communicatively connected to the controller; the device comprises: the first judging module is used for judging whether an automatic wind sweeping mode is started or not after the mobile air conditioner starts to operate; the control module is used for controlling the atomizer to start working if the control module is in the positive state; the second judging module is used for judging whether a human body exists in a preset distance of the mobile air conditioner or not when the water storage amount in the atomizer is higher than a preset water level; the first adjusting module is used for adjusting the speed of the atomizer according to a first rule to adjust the wind-damp degree of the mobile air conditioner if the first rule is true; and the second adjusting module is used for adjusting the speed of the atomizer according to a second rule if not so as to adjust the humidity of the room where the mobile air conditioner is positioned.

In a third aspect, an embodiment of the present invention further provides a mobile air conditioner, including a memory, a processor, and a computer program stored in the memory and executable on the processor, where the processor implements the steps of the method of the first aspect.

In a fourth aspect, embodiments of the present invention also provide a computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the method of the first aspect described above.

The embodiment of the invention has the following beneficial effects:

the embodiment of the invention provides a humidity control method, a humidity control device and a mobile air conditioner, wherein when a human body exists in a preset distance of the mobile air conditioner, namely the human body approaches the mobile air conditioner, the speed of an atomizer is regulated according to a first rule, and the degree of wind-damp out of the mobile air conditioner is regulated; when a human body is far away from the mobile air conditioner, the speed of the atomizer is adjusted through a second rule, and the indoor humidity is adjusted, so that the comfort experience of a user is improved through different humidity control under two scenes; in addition, the atomizer is supplemented with water through the condensed water in the base and the water receiving disc, so that the effective utilization of the condensed water is realized, the problem that the mobile air conditioner is stopped when the water is full is avoided, the practical value is good, and the mobile air conditioner is convenient to popularize and implement in practical application.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

In order to make the above objects, features and advantages of the present invention more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a mobile air conditioner according to an embodiment of the present invention;

FIG. 2 is a flow chart of a humidity control method according to an embodiment of the present invention;

FIG. 3 is a flowchart of another humidity control method according to an embodiment of the present invention;

fig. 4 is a flowchart of a humidity control apparatus according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

For the convenience of understanding the present embodiment, the humidity control method provided in the embodiment of the present invention will be described in detail first. The execution main body is a controller of the mobile air conditioner, as shown in fig. 1, the mobile air conditioner comprises an upper fan blade 11, an evaporator 12, a water pan 13, a condenser 14, a base 15, a wind guide door 16, an atomizer 17 and a detection device; wherein the detection device comprises a human body proximity sensor 181, a rheumatism-out sensor 182 and an indoor humidity sensor 183; in practical application, the human body proximity sensor 181 is used for detecting whether a human body approaches the mobile air conditioner within a preset distance, if the preset distance can be set to 1 meter, the human body proximity sensor 181 can detect that a human body exists when the distance between a user and the mobile air conditioner is less than 1 meter, and the human body proximity sensor 181 can not detect that a human body exists when the distance between the user and the mobile air conditioner is greater than 1 meter; the air-out degree sensor 182 is disposed at the air outlet of the mobile air conditioner to detect the air-out degree of the mobile air conditioner; the indoor humidity sensor 183 is used for detecting the indoor humidity of the indoor where the mobile air conditioner is located, so that the mobile air conditioner controls the indoor humidity, and the indoor humidity is in the human comfort range, so as to ensure the comfort of the user.

In addition, the above-mentioned air guide door 16 is further provided with an angle sensor 161 for detecting the opening angle α of the air guide door 16, and in practical application, the controller adjusts the opening angle of the air guide door 16 by controlling the rotation speed of the motor connected to the air guide door 16.

The atomizer 17 further includes a first water suction pipe 171, a second water suction pipe 172, and a water injection port 173; the first water suction pipe 171 may also be referred to as a water collecting tray water suction pipe, that is, the atomizer 17 draws condensed water in the water collecting tray 13 through the first water suction pipe 171; the second water suction pipe 172 may also be referred to as a base water suction pipe, that is, the atomizer 17 draws condensed water in the base 15 through the second water suction pipe 172; the water filling port 173 is used for the user to perform the water filling operation on the atomizer 17, so that the water storage amount in the atomizer 17 can be ensured through the first water pumping pipe 171, the second water pumping pipe 172 and the water filling port 173, so that the normal operation of the atomizer 17 is ensured in the humidity control, and the humidity control effect is improved. And, the atomizer 17 is also provided with a preset water level 174 and a water level sensor 175, where the water level sensor 175 is used for detecting the height of the water storage in the atomizer 17, judging whether the height of the water storage reaches the preset water level 174, if so, judging that the water storage in the atomizer 17 reaches the standard, and the atomizer 17 can perform humidification; if the water storage capacity in the atomizer 17 does not reach the standard, the atomizer 17 cannot perform humidification operation at the moment, and water supplementing treatment is needed until the water storage capacity in the atomizer 17 reaches the standard.

It should be noted that, the bottom of the mobile air conditioner is also provided with a mobile wheel, a compressor, etc., and the specific structural arrangement of the mobile air conditioner and the specific arrangement positions of the above components may refer to the existing mobile air conditioner, and the embodiments of the present invention are not described in detail herein.

Based on the above mobile air conditioner, the embodiment of the present invention provides a humidity control method, where an execution main body is a controller, as shown in fig. 2, and the method includes the following steps:

step S202, judging whether an automatic wind sweeping mode is started or not after the mobile air conditioner starts to operate;

specifically, when the user turns on the mobile air conditioner through the air conditioner remote control device, at this time, the mobile air conditioner starts to operate according to an operation mode selected by the user, where the operation mode includes but is not limited to a heating mode and a cooling mode; in the operation process, the controller also judges whether to start an automatic wind sweeping mode, wherein the automatic wind sweeping mode is used for representing that the opening angle of the air guide door can be automatically adjusted, namely, the opening angle is changed in real time, and the non-automatic wind sweeping mode indicates that the opening angle of the air guide door cannot be automatically adjusted, namely, the opening angle is limited, and the automatic wind sweeping mode can be set by a user through air conditioner remote control equipment, can also be set by the user through a key on a mobile air conditioner shell and the like, and can be specifically set according to actual conditions.

Step S204, if yes, controlling the atomizer to start working;

in the automatic wind sweeping mode, the opening angle of the air guide door is changed, condensation is not easy to form, at the moment, the controller triggers the atomizer to open, at the moment, the controller also obtains the height of the water storage amount in the atomizer detected by the water level sensor in the atomizer, judges whether the height of the water storage amount reaches a preset water level, and executes step S206 when the water storage amount is higher than the preset water level; when the water storage capacity is not higher than the preset water level, the atomizer is subjected to water supplementing treatment.

Step S206, judging whether a human body exists in a preset distance of the mobile air conditioner or not when the water storage amount in the atomizer is higher than a preset water level;

specifically, when the water storage amount in the atomizer is higher than a preset water level, controlling the air-out degree of the mobile air conditioner through the atomizer; in order to ensure the comfort of a user, when the humidity is controlled, the embodiment of the invention is divided into two scenes of a human body approaching the mobile air conditioner and a human body far away from the mobile air conditioner, and in order to distinguish the two scenes, the mobile air conditioner is also provided with a human body approaching sensor, if the preset distance is 1 meter, when the distance between the user and the mobile air conditioner is less than 1 meter, the human body approaching sensor can detect that the human body exists, namely, the human body approaching sensor can not detect that the human body exists when the distance between the user and the mobile air conditioner is greater than 1 meter, namely, the human body approaching sensor can not detect that the human body exists, namely, the human body is far away from the mobile air conditioner, so that the controller can judge whether the human body exists in the preset distance of the mobile air conditioner through the human body approaching sensor, and when the human body exists, namely, the human body approaches the mobile air conditioner, the step S208 is executed; when the user does not exist, namely, the user is far away from the scene of the mobile air conditioner, the step S210 is executed, so that the comfort experience of the user is improved through different humidity control under the two scenes.

Step S208, if yes, adjusting the speed of the atomizer according to a first rule so as to adjust the wind-damp degree of the mobile air conditioner;

specifically, for a scene that a human body approaches a mobile air conditioner, firstly, acquiring the air outlet humidity of the mobile air conditioner; the controller obtains the air outlet humidity collected by the humidity sensor arranged at the air outlet of the mobile air conditioner, and adjusts according to the air outlet humidity and a preset air outlet humidity threshold, and because the human body approaches the mobile air conditioner, the optimal humidity range felt by the human body is 40-50% RH at this time, therefore, the preset air outlet humidity threshold comprises a first humidity threshold and a second humidity threshold, and the first humidity threshold is larger than the second humidity threshold, preferably, the first humidity threshold is 50% RH, and the second humidity threshold is 40% RH.

At the moment, if the air outlet humidity is greater than a first humidity threshold value, namely the air outlet humidity H1 is greater than 50% RH, controlling the atomizer to stop running; if the air-out humidity is not greater than the first humidity threshold value and is not less than the second humidity threshold value, namely 40% RH is less than or equal to H1 and less than or equal to 50% RH, and the air-out humidity is in the optimal proper humidity range felt by a human body at the moment, controlling the atomizer to maintain the current speed; if the air-out humidity is smaller than a second humidity threshold, namely H1 is smaller than 40% RH, a first target rate is calculated according to the initial rate and the air-out humidity of the atomizer, and the atomizer is controlled to operate according to the first target rate until the air-out humidity reaches the optimal suitable humidity range felt by a human body, so that the comfort of the human body close to the mobile air conditioner is improved.

Wherein the first target rate may be calculated according to the following equation:

V1＝V0+(H10-H1)/H10*V0 (1)

wherein, V1 represents a first target rate, V0 represents an initial rate, H10 represents a preset average air-out humidity, and H1 represents the air-out humidity. It should be noted that, here, H10 may be the optimal average air-out humidity calculated according to the historical air-out humidity.

Step S210, if not, adjusting the speed of the atomizer according to a second rule so as to adjust the humidity of the room where the mobile air conditioner is located.

Specifically, for a scene that a human body is far away from a mobile air conditioner, firstly, acquiring indoor humidity of an indoor where the mobile air conditioner is located; the controller obtains the indoor humidity collected by the indoor humidity sensor arranged at the mobile air conditioner far away from the air outlet, and adjusts according to the indoor humidity and a preset indoor humidity threshold, and because the human body is far away from the mobile air conditioner and is combined with the indoor space, the indoor optimal environment humidity range is 50-60% RH at the moment, therefore, the preset indoor humidity threshold comprises a third humidity threshold and a fourth humidity threshold, the third humidity threshold is larger than the fourth humidity threshold, preferably, the third humidity threshold is 60% RH, and the fourth humidity threshold is 50% RH.

At this time, if the indoor humidity is greater than a third humidity threshold, that is, the indoor humidity H2 is greater than 60% RH, the atomizer is controlled to stop running; if the indoor humidity is not greater than the third humidity threshold and is not less than the fourth humidity threshold, and the RH is not less than 50% and not more than 60% of RH, and at the moment, the indoor humidity is in the indoor optimal environment humidity range, the speed of the atomizer is not required to be adjusted, namely the atomizer is controlled to maintain the current speed; if the indoor humidity is smaller than a fourth humidity threshold, namely H2 is smaller than 50% RH, a second target rate is calculated according to the initial rate of the atomizer and the indoor humidity, and the atomizer is controlled to operate according to the second target rate until the indoor humidity reaches an indoor optimal environment humidity range, so that the comfort of a human body far away from the mobile air conditioner is improved.

Wherein the second target rate may be calculated according to the following equation;

V2＝V0+(H20-H2)/H20*V0 (2)

wherein V2 represents the second target rate, V0 represents the initial rate, H20 represents the preset average indoor humidity, and H2 represents the indoor humidity. Here, H20 may be an optimal average indoor humidity calculated from the historical indoor humidity.

In summary, according to the humidity control method, for two scenes of a human body approaching a mobile air conditioner and a human body leaving a mobile air conditioner, the speed of the atomizer is controlled through corresponding adjustment rules, so that the air-out humidity when the human body approaches and the indoor humidity when the human body leaves are both in the optimal humidity range felt by the human body, and the comfort experience of a user is improved.

For the treatment of water with a nebulizer, in one possible embodiment, the method further comprises: if the water storage capacity in the atomizer is not higher than the preset water level, carrying out water supplementing treatment on the atomizer according to a first water supplementing rule until the water storage capacity is higher than the preset water level; wherein, the first water supply rule includes: the control atomizer draws the comdenstion water in the water collector through first drinking-water pipe to draw the comdenstion water in the base through the second drinking-water pipe, thereby carry out moisturizing to the atomizer through the comdenstion water in water collector and the base and handle, realized the effective utilization of comdenstion water, avoided the problem that the mobile air conditioner water is full to shut down.

In another possible implementation manner, the mobile air conditioner further comprises an alarm module in communication connection with the controller, where the alarm module includes, but is not limited to, a voice alarm, an indicator light alarm, etc., and may be specifically set according to practical situations. At this time, the method further includes: after the water supplementing of the atomizer is completed according to the first water supplementing rule, if the water storage capacity in the atomizer is still not higher than the preset water level, carrying out water supplementing treatment on the atomizer according to the second water supplementing rule until the water storage capacity is higher than the preset water level; wherein, the second water replenishing rule includes: generating water replenishing alarm information, and sending the water replenishing alarm information to an alarm module, so that the alarm module alarms according to the water replenishing alarm information, such as a voice reminding user or an indicator lamp displaying reminding user and the like, so as to remind the user to carry out water replenishing treatment on the atomizer. The water supplementing treatment is carried out on the atomizer through the condensed water in the water receiving disc, the condensed water in the base and the water injected through the water injection port, so that the humidifying work of the atomizer is guaranteed, the effective utilization of the condensed water is realized, the problem that the mobile air conditioner is fully stopped due to water is avoided, and the mobile air conditioner has good practical value.

According to the humidity control method provided by the embodiment of the invention, when a human body approaches a mobile air conditioner, the speed of the atomizer is adjusted through a first rule, and the degree of wind-damp of the mobile air conditioner is adjusted; when a human body is far away from the mobile air conditioner, the speed of the atomizer is adjusted through a second rule, and the indoor humidity is adjusted, so that the comfort experience of a user is improved through different humidity control under two scenes; in addition, the atomizer is supplemented with water through the condensed water in the base and the water receiving disc, so that the effective utilization of the condensed water is realized, the problem that the mobile air conditioner is stopped when the water is full is avoided, the practical value is good, and the mobile air conditioner is convenient to popularize and implement in practical application.

On the basis of fig. 2, the embodiment of the invention also provides another humidity control method, which mainly describes the whole process of humidity control, including the air outlet humidity and the indoor humidity; as shown in fig. 3, the method comprises the steps of:

step S302, starting the mobile air conditioner; for example, the operation mode is a heating mode or a cooling mode at this time;

step S304, judging whether an automatic wind sweeping mode is started; if yes, go to step S306; if not, then step S334 is performed;

Step S306, controlling the atomizer to start working; at this time, the opening angle of the air guide door is changed, and condensation is not easy to form, so that the atomizer is controlled to start working;

step S308, judging whether the water storage capacity in the atomizer meets the standard; namely, judging whether the water storage amount in the atomizer is higher than a preset water level, if so, executing step S310, and if not, executing step S328;

step S310, judging whether a human body exists in a preset distance of the mobile air conditioner; judging whether a human body approaches the mobile air conditioner or not through the human body proximity sensor, if so, executing step S312, wherein the human body exists in the detection range (or the preset distance) of the human body proximity sensor; if not, executing step S320;

step S312, judging that RH is more than or equal to 40% and H1 is more than or equal to 50% RH; namely judging whether the air-out humidity H1 is in the optimal humidity range of the human body; wherein, the optimal humidity range of the human body comprises a first humidity threshold and a second humidity threshold, wherein, the first humidity threshold is 50% RH, and the second humidity threshold is 40% RH; if yes, step S314 is executed, and if no, step S316 and step S318 are executed;

step S314, controlling the atomizer to maintain the current speed;

Step S316, H1 is more than 50% RH, and the atomizer is controlled to stop running;

step S318, H1 is less than 40% RH, a first target rate is calculated, and the atomizer is controlled to operate according to the first target rate; and returning to the step S312 to repeatedly execute until the wind-damp degree reaches the optimal humidity range of the human body; it should be noted that, the calculation process of the first target rate may refer to the foregoing embodiment, and the embodiment of the present invention is not described in detail herein.

Step S320, judging that the RH is more than or equal to 50 percent and the H2 is more than or equal to 60 percent; namely judging whether the indoor humidity H2 is in the indoor optimal environment humidity range; the indoor optimal environment humidity range comprises a third humidity threshold and a fourth humidity threshold, wherein the third humidity threshold is 60% RH, and the fourth humidity threshold is 50% RH; if yes, step S322 is executed, and if no, step S324 and step S326 are executed;

step S322, controlling the atomizer to maintain the current speed;

step S324, H2 is more than 60% RH, and the atomizer is controlled to stop running;

step S326, H2 is less than 50% RH, a second target rate is calculated, and the atomizer is controlled to operate according to the second target rate; and returning to the step S320 to repeatedly execute until the wind-damp degree reaches the indoor optimal environment humidity range; it should be noted that, the calculation process of the second target rate may refer to the foregoing embodiment, and the embodiment of the present invention is not described in detail herein.

Step S328, controlling the first water pumping pipe and the second water pumping pipe to pump water; the method comprises the steps that water supplementing treatment is carried out on an atomizer according to a first water supplementing rule, specifically, the atomizer is controlled to extract condensed water in a water receiving disc through a first water suction pipe, and extract condensed water in a base through a second water suction pipe, so that the water supplementing treatment is carried out on the atomizer through the condensed water in the water receiving disc and the base;

step S330, judging whether the water storage amount reaches the standard; namely, in the water supplementing process, judging whether the water storage amount is higher than a preset water level in real time, if so, returning to the execution step S310, and if not, executing the step S332;

step S332, reminding a user to supplement water from the water injection port; when the water supplementing of the atomizer is completed according to the first water supplementing rule, if the water storage capacity in the atomizer is still not higher than the preset water level, carrying out water supplementing treatment on the atomizer according to the second water supplementing rule, specifically, generating water supplementing alarm information, and sending the water supplementing alarm information to an alarm module, so that the alarm module alarms according to the water supplementing alarm information to remind a user to carry out water supplementing treatment on the atomizer; and, in the water replenishing process, returning to the step S308 to repeatedly execute until the water storage amount is higher than the preset water level;

Step S334, obtaining the opening angle of the air guide door; namely, acquiring the opening angle of the air guide door acquired by the angle sensor;

step S336, judging whether the opening angle is larger than a preset angle; specifically, since the opening angle of the air guide door may be limited, if the opening angle is smaller, the atomizer is opened at this time, and condensation is easily formed on the air guide door, which affects the usability of the mobile air conditioner. Therefore, through the preset angle, whether the opening angle meets the opening requirement of the atomizer is judged, if the preset angle is 45 degrees, if so, namely, when the opening angle is larger than 45 degrees, the atomizer is opened reasonably, and the step S306 is returned to be executed; if not, namely, the opening angle is smaller than 45 degrees, executing step S338;

step S338, the atomizer does not work;

step S340, reminding a user whether to turn on the atomizer; generating opening reminding information, and sending the opening reminding information to an alarm module for alarm so as to prompt a user whether to open the atomizer; if yes, go to step S342, if not, go to step S344;

step S342, reminding a user to adjust the opening angle of the air guide door; and returns to step S334 to be repeatedly executed;

in step S344, the atomizer is not operated.

In summary, according to the humidity control method provided by the embodiment of the invention, the angle sensor is arranged on the mobile air conditioner, so that the controller can judge whether to start the atomizer in the non-automatic wind sweeping mode according to the opening angle of the air guide door; judging whether a human body approaches the mobile air conditioner or not by arranging a human body approach sensor so as to respectively control humidity of two scenes of the human body approaching mobile air conditioner and the human body away from the mobile air conditioner; for a scene that a human body approaches to the mobile air conditioner, detecting the air-out humidity of the mobile air conditioner in real time through an air-out humidity sensor, and adjusting the air-out humidity to be in an optimal humidity range of the human body; for a scene that a human body is far away from the mobile air conditioner, detecting the indoor humidity of the indoor where the mobile air conditioner is located in real time through an indoor humidity sensor, and adjusting the indoor humidity to be in an indoor optimal environment humidity range; in addition, the atomizer is supplemented with water through the water receiving disc and the base, so that the condensed water is effectively utilized; and the device is also provided with an alarm module for reminding a user to adjust the opening angle of the air guide door, injecting water into the atomizer and the like, so that the comfort experience of the user is improved through different humidity control under two scenes; the method also realizes the effective utilization of condensed water, avoids the problem of full water stop of the mobile air conditioner, has good practical value and is convenient to popularize and implement in practical application.

Corresponding to the embodiment of the method, the embodiment of the invention also provides a humidity control device which is applied to a controller of the mobile air conditioner, and the mobile air conditioner also comprises an atomizer which is in communication connection with the controller; as shown in fig. 4, the apparatus includes: a first judging module 41, a control module 42, a second judging module 43, a first adjusting module 44 and a second adjusting module 45; wherein, the functions of each module are as follows:

a first judging module 41, configured to judge whether to start the automatic wind sweeping mode after the mobile air conditioner starts to operate;

a control module 42 for controlling the atomizer to start working if yes;

a second judging module 43, configured to judge whether a human body exists within a preset distance of the mobile air conditioner when the water storage amount in the atomizer is higher than a preset water level;

a first adjusting module 44, configured to adjust the rate of the atomizer according to a first rule to adjust the degree of wind-damp of the mobile air conditioner if the first rule indicates that the mobile air conditioner is not used for wind-damp;

and the second adjusting module 45 is configured to adjust the rate of the atomizer according to a second rule to adjust the humidity of the room where the mobile air conditioner is located if not.

According to the humidity control device provided by the embodiment of the invention, when a human body exists in a preset distance of the mobile air conditioner, namely, the human body approaches the mobile air conditioner, the speed of the atomizer is adjusted through a first rule, and the air-out degree of the mobile air conditioner is adjusted; when the human body is far away from the mobile air conditioner, the speed of the atomizer is adjusted through the second rule, and the indoor humidity is adjusted, so that the comfort experience of the user is improved through different humidity control under two scenes.

In one possible implementation manner, the first adjusting module 44 is further configured to: acquiring the air outlet humidity of the mobile air conditioner; if the air outlet humidity is greater than the first humidity threshold value, controlling the atomizer to stop running; if the air outlet humidity is not greater than the first humidity threshold value and is not less than the second humidity threshold value, controlling the atomizer to maintain the current speed; if the air-out humidity is smaller than the second humidity threshold, calculating to obtain a first target rate according to the initial rate and the air-out humidity of the atomizer, and controlling the atomizer to operate according to the first target rate; wherein the first humidity threshold is greater than the second humidity threshold.

In another possible implementation manner, the calculating the target speed according to the initial speed of the atomizer and the humidity of the air outlet includes: calculating a first target rate according to the following formula; v1=v0+ (H10-H1)/h10×v0; wherein, V1 represents a first target rate, V0 represents an initial rate, H10 represents a preset average air-out humidity, and H1 represents the air-out humidity.

In another possible embodiment, the second adjustment module 45 is further configured to: acquiring indoor humidity of an indoor where a mobile air conditioner is located; if the indoor humidity is greater than the third humidity threshold, controlling the atomizer to stop running; if the indoor humidity is not greater than the third humidity threshold and is not less than the fourth humidity threshold, controlling the atomizer to maintain the current speed; if the indoor humidity is smaller than the fourth humidity threshold, calculating to obtain a second target rate according to the initial rate of the atomizer and the indoor humidity, and controlling the atomizer to operate according to the second target rate; wherein the third humidity threshold is greater than the fourth humidity threshold.

In another possible embodiment, the calculating the second target rate according to the initial rate of the atomizer and the indoor humidity includes: calculating a second target rate according to the following formula; v2=v0+ (H20-H2)/h20×v0; wherein V2 represents the second target rate, V0 represents the initial rate, H20 represents the preset average indoor humidity, and H2 represents the indoor humidity.

In another possible embodiment, the mobile air conditioner further includes a water pan and a base, and the atomizer includes a first water suction pipe and a second water suction pipe; the apparatus further comprises: if the water storage capacity in the atomizer is not higher than the preset water level, carrying out water supplementing treatment on the atomizer according to a first water supplementing rule until the water storage capacity is higher than the preset water level; wherein, the first water supply rule includes: and controlling the atomizer to extract condensed water in the water receiving disc through the first water suction pipe, and extracting condensed water in the base through the second water suction pipe.

In another possible implementation manner, the mobile air conditioner further includes an alarm module communicatively connected to the controller, and the apparatus further includes: after the water supplementing of the atomizer is completed according to the first water supplementing rule, if the water storage capacity in the atomizer is still not higher than the preset water level, carrying out water supplementing treatment on the atomizer according to the second water supplementing rule until the water storage capacity is higher than the preset water level; wherein, the second water replenishing rule includes: generating water replenishing alarm information and sending the water replenishing alarm information to an alarm module so that the alarm module can alarm according to the water replenishing alarm information to remind a user to carry out water replenishing treatment on the atomizer.

The humidity control device provided by the embodiment of the invention has the same technical characteristics as the humidity control method provided by the embodiment, so that the same technical problems can be solved, and the same technical effects can be achieved.

The embodiment of the invention also provides a mobile air conditioner, which comprises a processor and a memory, wherein the memory stores machine executable instructions which can be executed by the processor, and the processor executes the machine executable instructions to realize the humidity control method.

The present embodiment also provides a machine-readable storage medium storing machine-executable instructions that, when invoked and executed by a processor, cause the processor to implement the humidity control method described above.

The humidity control method, the humidity control device and the computer program product of the mobile air conditioner provided by the embodiments of the present invention include a computer readable storage medium storing program codes, and the instructions included in the program codes may be used to execute the method described in the foregoing method embodiment, and specific implementation may refer to the method embodiment and will not be repeated herein.

It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described system and apparatus may refer to corresponding procedures in the foregoing method embodiments, which are not described herein again.

In addition, in the description of embodiments of the present invention, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a non-volatile computer readable storage medium executable by a processor. Based on this understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

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

Finally, it should be noted that: the above examples are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention, but it should be understood by those skilled in the art that the present invention is not limited thereto, and that the present invention is described in detail with reference to the foregoing examples: any person skilled in the art may modify or easily conceive of the technical solution described in the foregoing embodiments, or perform equivalent substitution of some of the technical features, while remaining within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention, and are intended to be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. A humidity control method, which is characterized by being applied to a controller of a mobile air conditioner, wherein the mobile air conditioner further comprises an atomizer in communication connection with the controller; the method comprises the following steps:

after the mobile air conditioner starts to operate, judging whether an automatic wind sweeping mode is started or not;

if yes, controlling the atomizer to start working;

when the water storage amount in the atomizer is higher than a preset water level, judging whether a human body exists in a preset distance of the mobile air conditioner;

if so, adjusting the speed of the atomizer according to a first rule so as to adjust the air-out degree of the mobile air conditioner;

if not, adjusting the speed of the atomizer according to a second rule so as to adjust the humidity of the room where the mobile air conditioner is located;

wherein the step of adjusting the rate of the atomizer according to a first rule comprises: acquiring the air outlet humidity of the mobile air conditioner; if the wind-out degree is larger than a first humidity threshold value, controlling the atomizer to stop running; if the air outlet humidity is not greater than the first humidity threshold and is not less than the second humidity threshold, controlling the atomizer to maintain the current speed; if the air-out humidity is smaller than the second humidity threshold, calculating to obtain a first target rate according to the initial rate of the atomizer and the air-out humidity, and controlling the atomizer to operate according to the first target rate; wherein the first humidity threshold is greater than the second humidity threshold; the step of calculating a first target rate according to the initial rate of the atomizer and the air-out humidity comprises the following steps: calculating the first target rate according to the following formula; v1=v0+ (H10-H1)/h10×v0; wherein V1 represents the first target rate, V0 represents the initial rate, H10 represents a preset average air-out humidity, and H1 represents the air-out humidity;

The step of adjusting the rate of the atomizer according to a second rule comprises: acquiring indoor humidity of an indoor where the mobile air conditioner is located; if the indoor humidity is greater than a third humidity threshold, controlling the atomizer to stop running; if the indoor humidity is not greater than the third humidity threshold and is not less than a fourth humidity threshold, controlling the atomizer to maintain the current speed; if the indoor humidity is smaller than the fourth humidity threshold, calculating to obtain a second target rate according to the initial rate of the atomizer and the indoor humidity, and controlling the atomizer to operate according to the second target rate; wherein the third humidity threshold is greater than the fourth humidity threshold; the step of calculating a second target rate according to the initial rate of the atomizer and the indoor humidity, including: calculating the second target rate according to the following formula; v2=v0+ (H20-H2)/h20×v0; wherein V2 represents the second target rate, V0 represents the initial rate, H20 represents a preset average indoor humidity, and H2 represents the indoor humidity.

2. The method of claim 1, wherein the mobile air conditioner further comprises a water pan and a base, the atomizer comprising a first water suction pipe and a second water suction pipe; the method further comprises the steps of:

If the water storage capacity in the atomizer is not higher than the preset water level, carrying out water supplementing treatment on the atomizer according to a first water supplementing rule until the water storage capacity is higher than the preset water level; wherein, the first water replenishing rule includes: and controlling the atomizer to extract the condensed water in the water receiving disc through the first water suction pipe, and extracting the condensed water in the base through the second water suction pipe.

3. The method of claim 2, wherein the mobile air conditioner further comprises an alarm module communicatively coupled to the controller, the method further comprising:

after the water supplementing of the atomizer is completed according to the first water supplementing rule, if the water storage capacity in the atomizer is still not higher than the preset water level, carrying out water supplementing treatment on the atomizer according to the second water supplementing rule until the water storage capacity is higher than the preset water level; wherein, the second water replenishing rule includes: generating water replenishing alarm information, and sending the water replenishing alarm information to the alarm module, so that the alarm module alarms according to the water replenishing alarm information to remind a user to carry out water replenishing treatment on the atomizer.

4. A humidity control device, characterized by being applied to a controller of a mobile air conditioner, wherein the mobile air conditioner further comprises an atomizer in communication connection with the controller; the device comprises:

the first judging module is used for judging whether an automatic wind sweeping mode is started or not after the mobile air conditioner starts to operate;

the control module is used for controlling the atomizer to start working if the atomizer is in the preset state;

the second judging module is used for judging whether a human body exists in a preset distance of the mobile air conditioner or not when the water storage amount in the atomizer is higher than a preset water level;

the first adjusting module is used for adjusting the speed of the atomizer according to a first rule so as to adjust the air-out degree of the mobile air conditioner;

the second adjusting module is used for adjusting the speed of the atomizer according to a second rule if not so as to adjust the humidity of the room where the mobile air conditioner is located;

wherein, the first adjustment module includes: acquiring the air outlet humidity of the mobile air conditioner; if the wind-out degree is larger than a first humidity threshold value, controlling the atomizer to stop running; if the air outlet humidity is not greater than the first humidity threshold and is not less than the second humidity threshold, controlling the atomizer to maintain the current speed; if the air-out humidity is smaller than the second humidity threshold, calculating to obtain a first target rate according to the initial rate of the atomizer and the air-out humidity, and controlling the atomizer to operate according to the first target rate; wherein the first humidity threshold is greater than the second humidity threshold; and calculating a first target rate according to the initial rate of the atomizer and the air-out humidity, wherein the first target rate comprises the following steps: calculating the first target rate according to the following formula; v1=v0+ (H10-H1)/h10×v0; wherein V1 represents the first target rate, V0 represents the initial rate, H10 represents a preset average air-out humidity, and H1 represents the air-out humidity;

The second adjustment module includes: acquiring indoor humidity of an indoor where the mobile air conditioner is located; if the indoor humidity is greater than a third humidity threshold, controlling the atomizer to stop running; if the indoor humidity is not greater than the third humidity threshold and is not less than a fourth humidity threshold, controlling the atomizer to maintain the current speed; if the indoor humidity is smaller than the fourth humidity threshold, calculating to obtain a second target rate according to the initial rate of the atomizer and the indoor humidity, and controlling the atomizer to operate according to the second target rate; wherein the third humidity threshold is greater than the fourth humidity threshold; and calculating a second target rate according to the initial rate of the atomizer and the indoor humidity, wherein the second target rate comprises the following steps: calculating the second target rate according to the following formula; v2=v0+ (H20-H2)/h20×v0; wherein V2 represents the second target rate, V0 represents the initial rate, H20 represents a preset average indoor humidity, and H2 represents the indoor humidity.

5. A mobile air conditioner comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the steps of the method of any of the preceding claims 1-3 when executing the computer program.

6. A computer-readable storage medium, characterized in that it has stored thereon a computer program which, when executed by a processor, performs the steps of the method of any of the preceding claims 1-3.