CN114294770A

CN114294770A - Control method of mobile air conditioner and mobile air conditioner

Info

Publication number: CN114294770A
Application number: CN202111643274.9A
Authority: CN
Inventors: 张书铭; 彭琪
Original assignee: Hisense Guangdong Air Conditioning Co Ltd
Current assignee: Hisense Guangdong Air Conditioning Co Ltd
Priority date: 2021-12-29
Filing date: 2021-12-29
Publication date: 2022-04-08
Anticipated expiration: 2041-12-29
Also published as: CN114294770B

Abstract

The invention discloses a control method of a mobile air conditioner and the mobile air conditioner, wherein the control method of the mobile air conditioner comprises the following steps: starting the mobile air conditioner; the water pumping motor works, and the time t1 when the water pumping motor runs at the highest rotating speed is recorded; receiving a signal for turning on negative ions; judging t1 and hitPreset time t of hydroelectric machine_{Is provided with}The relationship between: t1 ≦ t_{Is provided with}When the device is used, the negative ion generator is started, and the negative ion indicator lamp is started; at t1 > t_{Is provided with}And when the negative ion indicator light is turned on. Thus, passing t1 and t_{Is provided with}The comparison of (2) can judge the amount of the residual condensed water in the mobile air conditioner, so that the ability of the water pumping motor for enhancing the indoor humidity in the subsequent time can be judged, and the negative ion generator can be selectively opened by the mobile air conditioner, thus effectively reducing or even eliminating the electrostatic pollution and the ionic interference caused when the negative ion generator is opened, and improving the structural reliability of the mobile air conditioner.

Description

Control method of mobile air conditioner and mobile air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to a control method of a mobile air conditioner and the mobile air conditioner.

Background

The negative ion generator can effectively activate oxygen molecules in the air in real life, so that the oxygen molecules are more active and easier to be absorbed by human bodies, diseases are effectively prevented, metabolism is promoted, the immunity of the human bodies is enhanced, and by generating a large amount of negative ions and trace ozone, the negative ions and the ozone are combined to easily absorb various viruses and bacteria, so that structural change or energy transfer is caused, the viruses and the bacteria die, and the negative ion generator can be widely applied to scenes such as degerming, bacteriostasis, disease prevention and the like.

In the industry, the air conditioner has few machines with negative ion functions, and is basically a low-voltage (low-concentration) negative ion generator, and the negative ion generator carrying high concentration is not available in the market of the air conditioner, mainly because the problems of electrostatic pollution, strong interference and the like are easily caused by high negative ion concentration near the negative ion generator. Especially, mobile air conditioner, in order to improve the degerming effect, anion generator fixes in the air outlet position, but mobile air conditioner's display operation panel also is located here, and when anion start-up, because the anion concentration of here is higher, receives high concentration ion to disturb, when the button, AD sampling value takes place the skew, and MCU can't gather correct key-value, can lead to the display panel button to be malfunctioning, reduces mobile air conditioner's reliability and stability.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, an object of the present invention is to provide a control method of a mobile air conditioner, which can make the operation of an anion generator more stable and reliable.

The invention further provides a mobile air conditioner.

The control method of the mobile air conditioner comprises the following steps: starting the mobile air conditioner; recording the operation of the water pumping motorTime t1 of operation at maximum speed; receiving a signal for turning on negative ions; judging t1 and the preset time t of the water fetching motor_{Is provided with}The relationship between: t1 ≦ t_{Is provided with}When the device is used, the negative ion generator is started, and the negative ion indicator lamp is started; at t1 > t_{Is provided with}And when the negative ion indicator light is turned on.

Therefore, the time t1 for the highest rotating speed operation of the water fetching motor and the preset time t of the water fetching motor are compared_{Is provided with}Comparing the obtained data at t1 ≦ t_{Is provided with}In time, the running time of the water beating motor is short, the amount of condensed water in the mobile air conditioner is more, and the water beating motor can continuously increase the indoor humidity when the subsequent negative ion generator works, so that the negative ion generator and the negative ion indicator lamp are both started, and t1 is greater than t_{Is provided with}In the time, because the working time of the water-pumping motor is longer, the indoor humidity can not be continuously increased in the subsequent time, only the negative ion indicator lamp is turned on, and the negative ion generator is not turned on temporarily, so that the electrostatic pollution and the ion interference caused when the negative ion generator is turned on can be effectively reduced or even eliminated, and the reliability of the mobile air conditioner can be improved.

According to some embodiments of the invention, at t1 ≦ t_{Is provided with}When the negative ion generator is started, the negative ion indicator lamp is started, and the method further comprises the following steps: determining the current environmental humidity d1 and the preset humidity d_{Is provided with}The relationship between: d is not less than d1_{Is provided with}When the device is used, the negative ion generator is kept on, and the negative ion indicator lamp is kept on; at d1 < d_{Is provided with}And when the mobile air conditioner is started, the negative ion generator is kept started, the negative ion indicator lamp is kept started, and whether the mobile air conditioner meets the humidification condition or not is judged: when the humidification condition is satisfied, the mobile air conditioner operates a humidification mode.

According to some embodiments of the present invention, in the step of determining whether the mobile air conditioner satisfies the humidification condition, the humidification condition is that a low water level switch is closed.

According to some embodiments of the present invention, in the step of operating the mobile air conditioner in the humidification mode when the humidification condition is satisfied, the humidification mode includes: the mobile air conditioner is characterized in that the compressor is closed, the water fetching motor runs at the highest rotating speed, and the fan corresponding to the condenser and the fan corresponding to the evaporator keep running.

According to some embodiments of the present invention, in the step of operating the mobile air conditioner in the humidification mode when the humidification condition is satisfied, the humidification mode includes: the mobile air conditioner is characterized in that the compressor is closed, the water fetching motor runs at the highest rotating speed, the fan corresponding to the condenser and the fan corresponding to the evaporator run at the highest wind speed, and the air outlet is adjusted to the maximum air outlet angle.

According to some embodiments of the invention, where d < d_{Is provided with}And when the mobile air conditioner is started, the negative ion generator is kept started, the negative ion indicator lamp is kept started, and whether the mobile air conditioner meets the humidification condition or not is judged: when the humidification condition is satisfied, after the step of operating the mobile air conditioner in the humidification mode, the method further comprises the following steps: judging whether the current time t2 reaches the preset time t_{Is provided with}: t2 ≦ t_{Is provided with}When the mobile air conditioner is in the humidifying mode, the mobile air conditioner keeps running; at t2 > t_{Is provided with}Then, it is determined whether the ambient humidity d2 has reached the preset humidity d_{Is provided with}: at d2 < d_{Is provided with}When the device is used, the negative ion generator is turned off, and the negative ion indicator lamp is kept on; d is not less than d2_{Is provided with}And (4) clearing t2, and recalculating the time of the water fetching motor running at the highest rotating speed.

According to some embodiments of the invention, the judgment t1 is compared with the preset time t of the water-fetching motor_{Is provided with}In the step of relationship therebetween, t_{Is provided with}Satisfy the relation: t is less than or equal to 30min_{Is provided with}Less than or equal to 90 min; and/or judging the current environmental humidity d1 and the preset humidity d_{Is provided with}In the step of relationship between d_{Is provided with}Satisfy the relation: d is not more than 40% RH_{Is provided with}≤50％RH。

According to some embodiments of the invention, at said t1 > t_{Is provided with}And after the step of turning on the negative ion indicator lamp, the method also comprises the following steps: determining the current environmental humidity d3 and the preset humidity d_{Is provided with}The relationship between: at d3 < d_{Is provided with}When, the negative ionThe generator is shut down; d is not less than d3_{Is provided with}And (4) clearing t1, and recalculating the time of the water fetching motor running at the highest rotating speed.

According to some embodiments of the invention, the judgment t1 is compared with the preset time t of the water-fetching motor_{Is provided with}After the step of correlating, the method further comprises the following steps: judging whether a signal for closing the negative ions is received: and if a signal for turning off the negative ions is received, turning off the negative ion generator and the negative ion indicator lamp.

The mobile air conditioner of the invention adopts the control method of the mobile air conditioner.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic diagram of a control method of a mobile air conditioner according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below, the embodiments described with reference to the drawings being illustrative, and the embodiments of the present invention will be described in detail below.

A control method of a mobile air conditioner according to an embodiment of the present invention, which is adopted by the mobile air conditioner, is described below with reference to fig. 1.

Referring to fig. 1, a method for controlling a mobile air conditioner according to an embodiment of the present invention may mainly include the following steps:

s1, starting the mobile air conditioner;

s2, the water fetching motor works, and the time t1 that the water fetching motor runs at the highest rotating speed is recorded;

s3, receiving a signal for opening negative ions;

s4, judging the preset time t between t1 and the water-fetching motor_{Is provided with}The relationship between:

s5, t1 ≤ t_{Is provided with}When the device is used, the negative ion generator is started, and the negative ion indicator lamp is started;

s6, at t1 > t_{Is provided with}And when the negative ion indicator light is turned on.

Specifically, when mobile air conditioner normally works, the condensate water that can produce the inside heat exchanger of mobile air conditioner through the motor of beating water is raised and is spattered, the blowing of fan in the cooperation mobile air conditioner, make the condensate water that rises and spatter blown into the drop of water granule, and blown to indoor well diffusion and open, thereby increase indoor humidity, so, when anion generator carries out the during operation, the condensate water can reduce or even eliminate electrostatic pollution and the ionic interference that anion generator caused, guarantee the normal work of components and parts in the mobile air conditioner, prevent that the components and parts in the mobile air conditioner from taking place to damage, can promote mobile air conditioner's security and structural reliability like this.

Further, in practical application, the mobile air conditioner is started first, then the water beating motor starts to work first, the time t1 when the water beating motor runs at the highest rotating speed is recorded, and the time t1 and the preset time t of the water beating motor are compared_{Is provided with}Comparing when t1 is less than or equal to t_{Is provided with}When the air conditioner is started, the negative ion generator is started, negative ions generated by the negative ion generator can activate oxygen molecules in the air, and can be combined with trace ozone generated by the negative ion generator to absorb various viruses and bacteria to cause structural change or energy transfer to cause death of various viruses and bacteria, and because the water pumping motor continuously increases the indoor humidity at the moment, the higher humidity can reduce or even eliminate electrostatic pollution and ion interference of the negative ion generator, so that the negative ion generator is more reliable and safer.

As shown in fig. 1, in this case, the negative ion indicator light is turned on at the same time, and the negative ion indicator light prompts the user that the control method of the mobile air conditioner controls the negative ion generator to operate normally, so that the user can know the operation condition of the mobile air conditioner more intuitively, and the user experience of the mobile air conditioner can be improved.

As shown in connection with FIG. 1, correspondingly, t1 > t_{Is provided with}When the operation time of the water pumping motor is relatively long, the residual amount of condensed water in the mobile air conditioner is small, and the water pumping motor can not continuously increase indoor humidity in subsequent time, so whether the anion generator works or not needs to further measure the indoor environment humidity at the moment, the anion indicator lamp is firstly in an on state at the moment, the on anion indicator lamp can improve the normal operation of the mobile air conditioner of a user, the anion generator does not break down because of the mobile air conditioner even if not being started, but is caused by the control logic of the control method of the mobile air conditioner, so that the user can know the operation condition of the mobile air conditioner more intuitively, and the use experience of the user on the mobile air conditioner can be improved.

As shown in fig. 1, after step S5, the method further includes the following steps:

determining the current environmental humidity d1 and the preset humidity d_{Is provided with}The relationship between:

d is not less than d1_{Is provided with}When the device is used, the negative ion generator is kept on, and the negative ion indicator lamp is kept on;

at d1 < d_{Is provided with}During the process, the negative ion generator is kept on, the negative ion indicating lamp is kept on, and whether the mobile air conditioner meets the humidifying condition or not is judged: when the humidification condition is satisfied, the mobile air conditioner operates in a humidification mode.

Specifically, after the anion generator and the anion indicator lamp are both turned on, the mobile air conditioner needs to monitor the current indoor environment humidity d1 in real time and according to d1 and the preset humidity d_{Is provided with}The comparison shows that the negative ion generator and the negative ion indicator lamp are controlled and adjusted, so that the negative ion generator can continuously prevent the influence of electrostatic pollution and ion interference on the mobile air conditioner in normal work.

Further, when d1 ≧ d_{Is provided with}When the temperature is high, the indoor current environment humidity d1 is high, and the indoor humidity can effectively reduce or even eliminate the electrostatic pollution and the ion interference generated by the anion generator, so that the anion generator is kept on at the moment, and the anion indicator lamp is kept on. Correspondingly, when d1 < d_{Is provided with}During the process, the anion generator is kept on, the anion indicator lamp is kept on, and because the indoor current environment humidity d1 is relatively low at the moment, in order to improve the effect of eliminating the electrostatic pollution and the ion interference of the indoor humidity to the anion generator, the mobile air conditioner is required to operate in a humidifying mode on the premise that the mobile air conditioner meets the humidifying condition, so that the indoor current environment humidity d1 can be quickly improved, and the reliability and the stability of the control method of the mobile air conditioner can be more comprehensively ensured.

Referring to fig. 1, in the step of determining whether the mobile air conditioner satisfies the humidification condition, the humidification condition is that the low water level switch is turned on. Specifically, when the mobile air conditioner is in a humidification mode, a large amount of condensed water needs to be consumed in a short time, in order to know whether the amount of the existing condensed water in the mobile air conditioner is sufficient more intuitively and accurately, a low water level switch can be arranged in the mobile air conditioner, when the low water level switch is turned on, the level of the condensed water in the mobile air conditioner is low, the amount of the condensed water cannot be consumed in a large amount in a short time, the mobile air conditioner does not meet humidification conditions, when the low water level switch is turned off, the level of the condensed water in the mobile air conditioner is high, the amount of the condensed water can be consumed in a large amount in a short time, and the mobile air conditioner meets the humidification conditions.

Referring to fig. 1, in the step of operating the humidification mode of the mobile air conditioner when the humidification condition is satisfied, the humidification mode includes: the mobile air conditioner closes the compressor, the water pumping motor runs at the highest rotating speed, and the fan corresponding to the condenser and the fan corresponding to the evaporator keep running. Particularly, when the mobile air conditioner is in a humidifying mode, the water pumping motor can be operated at the highest rotating speed, so that the efficiency of water splashing by the water pumping motor is higher, the compressor can be closed firstly in order to prevent the splashing condensate water from contacting with the compressor in work to cause evaporation of the condensate water, the condensate water can be prevented from being wasted, and the humidifying effect in the humidifying mode can be improved.

Furthermore, the fan corresponding to the condenser and the fan corresponding to the evaporator are kept running, so that the amount of blown air of the raised condensed water into the room is larger, the effect of increasing the indoor humidity by the condensed water is better, and the humidification stability and reliability of the humidification mode can be further improved.

Referring to fig. 1, in the step of operating the humidification mode of the mobile air conditioner when the humidification condition is satisfied, the humidification mode includes: the compressor is closed by the mobile air conditioner, the water fetching motor runs at the highest rotating speed, the fan corresponding to the condenser and the fan corresponding to the evaporator run at the highest wind speed, and the air outlet is adjusted to the maximum air outlet angle. Specifically, the water beating motor runs at the highest rotating speed, and the fan corresponding to the condenser and the fan corresponding to the evaporator run at the highest wind speed, so that the amount of the condensed water splashed in unit time can be further increased, the amount of the condensed water blown out in unit time by the fan corresponding to the condenser and the fan corresponding to the evaporator can be increased, the water beating efficiency of the water beating motor can be increased, and the water blowing efficiency of the fan corresponding to the condenser and the fan corresponding to the evaporator can be increased.

Further, adjust the air outlet to the biggest air-out angle, so set up, when the fan that corresponds at the condenser and the fan that the evaporimeter corresponds blow water to indoor, can reduce the effect of blockking of mobile air conditioner to water, make more water blow out from mobile air conditioner in the unit interval, can promote the comdenstion water and blown out to indoor efficiency from mobile air conditioner to can promote the effect of humidification mode.

As shown in FIG. 1, when d < d_{Is provided with}During the process, the negative ion generator is kept on, the negative ion indicating lamp is kept on, and whether the mobile air conditioner meets the humidifying condition or not is judged: when the humidification condition is satisfied, after the step of operating the mobile air conditioner in the humidification mode, the method further comprises the following steps:

judging whether the current time t2 reaches the preset time t_{Is provided with}：

T2 ≦ t_{Is provided with}Meanwhile, the mobile air conditioner keeps running in a humidifying mode;

at t2 > t_{Is provided with}Then, it is determined whether the ambient humidity d2 has reached the preset humidity d_{Is provided with}：

At d2 < d_{Is provided with}When the device is used, the negative ion generator is turned off, and the negative ion indicator lamp is kept on;

d is not less than d2_{Is provided with}And (4) clearing t2, and recalculating the time of the water fetching motor running at the highest rotating speed.

Specifically, after the mobile air conditioner is in the humidifying mode and humidifies the room for a period of time, it is necessary to first determine whether the current time t2 has reached the preset time t_{Is provided with}At t2 ≦ t_{Is provided with}And when the time that the mobile air conditioner is in the humidifying mode does not reach the preset time, the mobile air conditioner can continuously keep the operation of the humidifying mode. Correspondingly, at t2 > t_{Is provided with}Meanwhile, it is also necessary to determine whether the indoor ambient humidity d2 has reached the preset humidity d_{Is provided with}According to the indoor ambient humidity d2 and the preset humidity d_{Is provided with}To more accurately and specifically control the operation of the anion generator.

Further, at d2 < d_{Is provided with}At the moment, the indoor environment humidity is in the preset time t when the mobile air conditioner operates in the humidifying mode_{Is provided with}Then, the humidity is still not higher than the preset humidity, and the indoor environment humidity can not effectively eliminate the electrostatic pollution and ion interference generated by the negative ion generator, thereforeAnd the negative ion generator is turned off, and the negative ion indicator lamp is kept on. Correspondingly, d is greater than or equal to d2_{Is provided with}When the time is zero, t2 is cleared, the time of the water beating motor running at the highest rotating speed is recalculated, t2 is cleared, the time of the water beating motor running at the highest rotating speed is recalculated, t2 after the clearing becomes t1 after the time of the water beating motor running at the highest rotating speed is recalculated, and t1 is more than or equal to t1 at the moment_{Is provided with}At the moment, the negative ion generator is started, the negative ion indicator lamp is started, and the control method of the mobile air conditioner can be circulated in a reciprocating mode, so that the control method of the mobile air conditioner can continuously eliminate the electrostatic pollution and the ion interference of the negative ion generator, and the unnecessary energy consumption waste of the mobile air conditioner can be prevented.

At the preset time t between the judgment t1 and the water fetching motor_{Is provided with}In the step of relationship therebetween, t_{Is provided with}Satisfy the relation: t is less than or equal to 30min_{Is provided with}Less than or equal to 90min, and judging the current environmental humidity d1 and the preset humidity d_{Is provided with}In the step of relationship between d_{Is provided with}Satisfy the relation: d is not more than 40% RH_{Is provided with}RH is less than or equal to 50 percent. Specifically, the preset time t of the water-fetching motor_{Is provided with}Set between 30 minutes and 90 minutes, thus the preset time t of the water-fetching motor can be ensured_{Is provided with}Within a reasonable range, the preset time t of the water-fetching motor can be prevented_{Is provided with}The overlong leads to the fact that the water fetching motor uses the condensed water in the preset time, and the short preset time of the water fetching motor can be further prevented, so that the effect of the water fetching motor on increasing the indoor environment humidity in the preset time is not obvious, and the reliability and the stability of the control method of the mobile air conditioner can be further improved.

Correspondingly, the preset humidity d_{Is provided with}Set between 40% RH and 50% RH, so that the preset humidity d can be achieved_{Is provided with}Within a reasonable range, not only can prevent the preset humidity d_{Is provided with}The humidity is too high, so that after the water pumping motor runs at the highest rotating speed t1, the indoor environment humidity is far less than the preset humidity d_{Is provided with}Therefore, the control method of the mobile air conditioner can not normally control the negative ion generator, and can prevent the preset humidity d_{Is provided with}Too small to result in beatingAfter the hydroelectric generator runs at the maximum rotating speed t1, the indoor environment humidity is far larger than the preset humidity d_{Is provided with}Therefore, the control method of the mobile air conditioner cannot normally control the negative ion generator, so that the reliability and stability of the control method of the mobile air conditioner can be further improved, and the use experience of a user on the mobile air conditioner can be improved.

As shown in fig. 1, after step S6, the method further includes the following steps: determining the current environmental humidity d3 and the preset humidity d_{Is provided with}The relationship between: at d3 < d_{Is provided with}When the negative ion generator is turned off, d3 is larger than or equal to d_{Is provided with}And (4) clearing t1, and recalculating the time of the water fetching motor running at the highest rotating speed. Specifically, at t1 > t_{Is provided with}Meanwhile, the negative ion indicator is turned on, and the current indoor ambient humidity d3 and the preset humidity d need to be further confirmed at this time_{Is provided with}If d3 < d_{Is provided with}At this time, the indoor environment humidity is low, and the static pollution and the ion interference of the negative ion generator cannot be eliminated, so that the negative ion generator is in a closed state at this time. Correspondingly, if d3 ≧ d_{Is provided with}At this time, t1 can be cleared, the time of the water fetching motor running at the highest rotating speed is recalculated, the control method of the mobile air conditioner ends the control period, and the time t1 of the water fetching motor running at the highest rotating speed is recalculated after the zero clearing is finished and is smaller than t1_{Is provided with}Thus, the process proceeds to step S3 again, the anion generator is turned on, and the anion indicator lamp is turned on.

As shown in fig. 1, after step S4, the method further includes the following steps: judging whether a signal for closing the negative ions is received: if a signal for turning off the negative ions is received, the negative ion generator and the negative ion indicating lamp are turned off. Specifically, when the mobile air conditioner normally works and a user wants to turn off the negative ion generator, the signal for turning off the negative ions can be directly sent to the mobile air conditioner, if the signal for turning off the negative ions is received, the mobile air conditioner can disregard other instructions of the mobile air conditioner and turn off the negative ion generator and the negative ion indicator lamp, so that the reliability of the control method of the mobile air conditioner can be further improved, and the user experience can be further improved. The negative ion generator is a high-concentration high-voltage negative ion generator.

According to the control method of the mobile air conditioner, the mobile air conditioner can not only effectively activate oxygen molecules in the air, so that the oxygen molecules are more active and can be more easily absorbed by a human body, diseases are effectively prevented, metabolism is promoted, the immunity of the human body is enhanced, a large amount of negative ions are generated, and simultaneously, a trace amount of ozone is generated, and the mobile air conditioner can be combined to easily absorb various viruses and bacteria to cause structural change or energy transfer to cause death of the viruses and bacteria.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.

In the description of the present invention, "the first feature" and "the second feature" may include one or more of the features. In the description of the present invention, "a plurality" means two or more. In the description of the present invention, the first feature being "on" or "under" the second feature may include the first and second features being in direct contact, and may also include the first and second features being in contact with each other not directly but through another feature therebetween. In the description of the invention, "above", "over" and "above" a first feature in a second feature includes the first feature being directly above and obliquely above the second feature, or simply means that the first feature is higher in level than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims

1. A control method of a mobile air conditioner is characterized by comprising the following steps:

starting the mobile air conditioner;

the water pumping motor works, and the time t1 when the water pumping motor runs at the highest rotating speed is recorded;

receiving a signal for turning on negative ions;

judging t1 and the preset time t of the water fetching motor_{Is provided with}The relationship between:

t1 ≦ t_{Is provided with}When the device is used, the negative ion generator is started, and the negative ion indicator lamp is started;

at t1 > t_{Is provided with}And when the negative ion indicator light is turned on.

2. The control method of mobile air conditioner as claimed in claim 1, wherein t1 is greater than or equal to t_{Is provided with}When the negative ion generator is started, the negative ion indicator lamp is started, and the method further comprises the following steps:

at d1 < d_{Is provided with}And when the mobile air conditioner is started, the negative ion generator is kept started, the negative ion indicator lamp is kept started, and whether the mobile air conditioner meets the humidification condition or not is judged: when the humidification condition is satisfied, the mobile air conditioner operates a humidification mode.

3. The control method of a mobile air conditioner according to claim 2, wherein in the step of judging whether the mobile air conditioner satisfies a humidification condition,

the humidification condition is a low water level switch closure.

4. The control method of a mobile air conditioner according to claim 2, wherein in the step of operating the mobile air conditioner in a humidification mode when the humidification condition is satisfied,

the humidification mode includes: the mobile air conditioner is characterized in that the compressor is closed, the water fetching motor runs at the highest rotating speed, and the fan corresponding to the condenser and the fan corresponding to the evaporator keep running.

5. The control method of a mobile air conditioner according to claim 4, wherein in the step of operating the mobile air conditioner in a humidification mode when the humidification condition is satisfied,

the humidification mode includes: the mobile air conditioner is characterized in that the compressor is closed, the water fetching motor runs at the highest rotating speed, the fan corresponding to the condenser and the fan corresponding to the evaporator run at the highest wind speed, and the air outlet is adjusted to the maximum air outlet angle.

6. The control method of mobile air conditioner according to claim 2, wherein d < d_{Is provided with}And when the mobile air conditioner is started, the negative ion generator is kept started, the negative ion indicator lamp is kept started, and whether the mobile air conditioner meets the humidification condition or not is judged: the mobile air conditioner operates when the humidification condition is satisfiedAfter the step of the line humidifying mode, the method further comprises the following steps:

T2 ≦ t_{Is provided with}When the mobile air conditioner is in the humidifying mode, the mobile air conditioner keeps running;

7. The control method of mobile air conditioner as claimed in claim 2, wherein the judgment t1 is compared with the preset time t of the water-fetching motor_{Is provided with}In the step of the relationship between (a) and (b),

t_{is provided with}Satisfy the relation: t is less than or equal to 30min_{Is provided with}Less than or equal to 90 min; and/or

Judging the current environmental humidity d1 and the preset humidity d_{Is provided with}In the step of the relationship between (a) and (b),

d_{is provided with}Satisfy the relation: d is not more than 40% RH_{Is provided with}≤50％RH。

8. The control method of mobile air conditioner as claimed in claim 1, wherein at t1 > t_{Is provided with}And after the step of turning on the negative ion indicator lamp, the method also comprises the following steps:

determining the current environmental humidity d3 and the preset humidity d_{Is provided with}The relationship between:

at d3 < d_{Is provided with}When the negative ion generator is turned off;

d is not less than d3_{Is provided with}And (4) clearing t1, and recalculating the time of the water fetching motor running at the highest rotating speed.

9. The control method of a mobile air conditioner according to claim 1,at the judgment t1 and the preset time t of the water fetching motor_{Is provided with}After the step of correlating, the method further comprises the following steps:

judging whether a signal for closing the negative ions is received: and if a signal for turning off the negative ions is received, turning off the negative ion generator and the negative ion indicator lamp.

10. A mobile air conditioner characterized by employing the control method of a mobile air conditioner according to any one of claims 1 to 9.