CN115614944A - Control method of air conditioner - Google Patents

Abstract

The invention relates to a control method of an air conditioner, which comprises a water storage tank, a water turbine arranged in the water storage tank, a sterilization device used for sterilizing water in the water storage tank, and a fan used for promoting airflow to pass through the water tank. The control method comprises the following steps: and when the fan works, the rotating speed of the water turbine is obtained. And enabling the water turbine to rotate according to the rotating speed, determining the power of the sterilizing device according to the rotating speed of the water turbine, and enabling the sterilizing device to operate according to the determined power. In the control method of the air conditioner, the sterilization device works according to the determined power while the water turbine rotates to kill scattered planktonic mould, so that the sterilization efficiency is improved, and the sterilization time is shortened. Moreover, as the deposition blocks of the planktonic mould are scattered, the sterilizing device can not use larger power, thereby further saving energy and prolonging the service life of the sterilizing device.

Description

Control method of air conditioner

Technical Field

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

Background

The functional module includes the storage water tank in the air conditioner, and the water in the storage water tank is easy to produce the condition of scale caking and planktonic mould deposit under the condition of placing for a long time, influences quality of water. The water wheel set is arranged in the water storage tank, and water can be stirred to move by the rotation of the water wheel set. The water storage tank is also provided with an ultraviolet generating device, the ultraviolet generating device can kill the planktonic mould when working, but the deposited planktonic mould can be killed only by irradiating the ultraviolet generating device with larger power for a longer time, thereby reducing the service life of the ultraviolet generating device. How to improve the sterilization efficiency of the water in the functional module is the problem to be solved at present.

Disclosure of Invention

In view of the above problems, the present invention has been made to provide a control method of an air conditioner that overcomes or at least partially solves the above problems, and can improve the efficiency of sterilization of water in a water storage tank, thereby extending the lifespan of a sterilization device.

The air conditioner comprises a water storage tank, a water turbine arranged in the water storage tank, a sterilization device used for sterilizing water in the water storage tank and a fan used for promoting airflow to pass through the water storage tank; the control method comprises the following steps:

when the fan works and/or the water turbine works, acquiring the rotating speed of the water turbine;

and determining the power of the sterilizing device according to the rotating speed of the water turbine, and enabling the sterilizing device to operate according to the determined power.

Optionally, determining the power of the sterilization device according to the rotation speed of the water turbine comprises:

establishing a negative correlation relation model between the power of the sterilizing device and the rotating speed of the water turbine;

and calculating to obtain the corresponding power of the sterilization device according to the negative correlation relation model based on the acquired rotating speed of the water turbine.

Optionally, the obtaining of the rotation speed of the water turbine includes obtaining of a rotation speed of the fan, and determining the rotation speed of the water turbine according to the rotation speed and/or the air volume of the fan; after the rotating speed of the water turbine is obtained, the water turbine is made to rotate according to the rotating speed; or,

and acquiring the rotating speed of the water turbine by using a detection device to detect the rotating speed of the fan.

Optionally, when the fan is not operated and/or the water turbine is not operated, at least the sterilization device is started according to a preset condition.

The air conditioner comprises a water storage tank, a water turbine arranged in the water storage tank, a sterilization device used for sterilizing water in the water storage tank and a fan used for promoting airflow to pass through the water storage tank; the control method comprises the following steps: and when the fan and/or the water turbine do not work, simultaneously starting the sterilizing device and the water turbine according to preset conditions.

Optionally, the step of starting at least the sterilizing device according to the preset condition comprises simultaneously starting the sterilizing device and the water turbine according to the preset condition.

Optionally, after the sterilizing device and the water turbine are simultaneously started, the sterilizing device and the water turbine are controlled to work according to a preset program.

Optionally, the preset program is:

controlling the sterilization device and the water turbine to work for a preset sterilization time;

the preset sterilization time is divided into a plurality of continuous preset time periods; in each preset time period, the water turbine works according to a preset rotating speed, the sterilization device works according to preset power, and in two continuous preset time periods, the preset rotating speed of the water turbine corresponding to the previous preset time period is greater than the preset rotating speed of the water turbine corresponding to the next preset time period;

a plurality of preset rotating speeds of the water turbine corresponding to a plurality of preset time periods are reduced according to a first preset rule;

and the plurality of preset powers of the sterilizing device corresponding to the plurality of preset time periods are increased according to a second preset rule.

Alternatively, after the sterilization device and the hydraulic turbine are simultaneously turned on, one of the sterilization device and the hydraulic turbine is controlled to operate according to a preset program, and the other of the sterilization device and the hydraulic turbine is controlled to operate according to a preset relationship between the sterilization device and the hydraulic turbine.

Optionally, the preset program is:

controlling the sterilization device and the water turbine to work for preset sterilization time; the preset sterilization time is divided into a plurality of continuous preset time periods;

in each preset time period, the water turbine works according to a preset rotating speed, and in two adjacent preset time periods, the preset rotating speed of the water turbine corresponding to the previous preset time period is greater than the preset rotating speed of the water turbine corresponding to the next preset time period; a plurality of preset rotating speeds of the water turbine corresponding to the preset time periods are reduced according to a third preset rule; or, in each preset time period, the sterilization device is enabled to work according to preset power, and in two adjacent preset time periods, the power of the sterilization device corresponding to the previous preset time period is smaller than the power of the sterilization device corresponding to the next preset time period; a plurality of preset powers of the sterilization device corresponding to a plurality of preset time periods are increased according to a fourth preset rule;

the preset relationship between the sterilizing device and the water turbine is a negative correlation relationship.

Optionally, in a first preset time period, the power of the sterilization device is zero;

the sterilizing device is arranged on the bottom wall of the water storage tank and is an ultraviolet sterilizing device, and quartz glass is arranged above the sterilizing device.

Optionally, the control method of the air conditioner further includes:

detecting and judging whether the water quantity in the water storage tank is smaller than a preset water quantity or not;

if not, sending an alarm signal, closing the sterilizing device and the water turbine when the fan works, and forbidding the sterilizing device and the water turbine to be started when the fan is to be started.

According to the control method of the air conditioner, the water turbine can break up the deposition blocks of the planktonic mould in the water in the rotating process, and the sterilization device works to kill the broken planktonic mould, so that the sterilization efficiency is improved, and the sterilization time is shortened. Moreover, as the deposition blocks of the planktonic mould are scattered, the sterilization device can not always use the power of the full power, namely, the sterilization device works according to the power determined by the current rotating speed of the water turbine, so that the energy is further saved, and the service life of the sterilization device is prolonged.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is a flowchart of a control method of an air conditioner according to an embodiment of the present invention;

fig. 2 is a flowchart of a control method of an air conditioner according to an embodiment of the present invention;

fig. 3 is a flowchart of a control method of an air conditioner according to an embodiment of the present invention;

fig. 4 is a flowchart of a control method of an air conditioner according to an embodiment of the present invention.

Fig. 5 is a flowchart of a control method of an air conditioner according to an embodiment of the present invention;

FIG. 6 is a schematic front view of an air conditioner according to an embodiment of the present invention;

fig. 7 is a front side schematic configuration view of a water storage tank and a blower fan of an air conditioner according to an embodiment of the present invention;

fig. 8 is a rear side schematic structural view of a water storage tank and a blower fan of an air conditioner according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

An embodiment of the present invention provides a method for controlling an air conditioner, and fig. 1 is a flowchart of a method for controlling an air conditioner according to an embodiment of the present invention. Referring to fig. 1 and 2 to 8, a control method of an air conditioner according to an embodiment of the present invention includes a storage tank 10, a water turbine 11 disposed in the storage tank 10, a sterilization device 13 for sterilizing water in the storage tank 10, and a blower 20 for causing an air flow through the storage tank. When the water washing device works, the fan 20 promotes airflow to pass through the upper part in the water storage tank 10, and the rotation of the water turbine 11 drives water in the water storage tank 10 to wash and purify the flowing airflow.

In order to ensure the quality of air flow, the control method of the air conditioner comprises the following steps: the rotational speed of the hydraulic turbine 11 is obtained when the fan 20 is operated and/or the hydraulic turbine 11 is operated. The power of the sterilization device 13 is determined on the basis of the rotational speed of the hydraulic turbine 11, and the sterilization device 13 is operated at the determined power. The device can effectively sterilize water and can sterilize air flow to a certain degree.

Specifically, hydraulic turbine 11 also can break up the sediment piece of the aquatic planktonic mould at the rotation in-process, and sterilizing equipment 13 also works simultaneously to kill the planktonic mould of breaking up, improved the efficiency of disinfecting, shortened the sterilization time. Moreover, as the deposition blocks of the planktonic mould are broken up, the sterilizing device 13 can not always use the power of the full power, namely the sterilizing device 13 works according to the power determined by the current rotating speed of the water turbine, so that the energy is further saved, and the service life of the sterilizing device 13 is prolonged. The sterilization device 13 may be an ultraviolet sterilization device or a flash sterilization device.

In some embodiments of the present invention, as shown in fig. 2, determining the power of the sterilizing device 13 according to the rotation speed of the water turbine 11 includes: and establishing a negative correlation relation model between the power of the sterilizing device 13 and the rotating speed of the water turbine 11. And calculating to obtain the corresponding power of the current sterilization device 13 according to the acquired rotating speed of the water turbine 11 and a negative correlation relation model.

The model of the negative correlation between the rotational speed R of the hydraulic turbine 11 and the power P of the sterilizing device 13 may be:

here, the rotating speed R of the hydraulic turbine 11 ranges from 0 to K, and the power P of the sterilization device 13 ranges from 0 to T. That is, as the rotational speed of the group of hydraulic turbines 11 is gradually reduced, the power of the sterilizing device 13 is gradually increased.

In some embodiments of the present invention, obtaining the rotational speed of turbine 11 comprises: and acquiring the rotating speed of the fan 20, and determining the rotating speed of the water turbine 11 according to the rotating speed and/or the air volume of the fan 20. And the water turbine is rotated according to the rotating speed after the rotating speed of the water turbine is obtained; in order to ensure the effect of water washing and purifying the airflow, the higher the rotation speed and/or the air volume of the fan 20 is, the higher the rotation speed of the water turbine 11 is. The fan here may be a centrifugal fan or an axial fan.

In other embodiments of the present invention, the rotation speed of the water turbine is obtained by detecting the rotation speed of the fan by using the detecting device.

In some embodiments of the present invention, at least the sterilization device 13 is turned on according to a preset condition when the blower 20 is not operated and/or the water turbine 11 is not operated. The preset conditions herein include the timing of turning on the sterilizing device 13, etc., and for example, the preset conditions are a preset period, i.e., an interval time for repeating sterilization, and for example, the preset period is 7 to 9 hours, preferably 8 hours, that is, the sterilizing device 13 is turned on once every 8 hours. The interval time of the repeated sterilization can be determined in the air conditioner production process or can be determined by the client.

Further, in some embodiments of the present invention, activating at least the sterilizing device 13 according to the preset conditions includes simultaneously activating the sterilizing device 13 and the hydraulic turbine 11 according to the preset conditions.

In some embodiments of the present invention, as shown in fig. 3, after the sterilization device 13 and the hydraulic turbine 11 are simultaneously turned on, the sterilization device 13 and the hydraulic turbine 11 are controlled to operate according to a preset program.

Further, in some embodiments of the present invention, the preset program is:

and controlling the sterilization device 13 and the water turbine 11 to work for a preset sterilization time.

The preset sterilization time is divided into a plurality of continuous preset time periods. In each preset time period, the water turbine 11 is enabled to work according to a preset rotating speed, the sterilization device 13 is enabled to work according to preset power, and in two continuous preset time periods, the preset rotating speed of the water turbine 11 corresponding to the previous preset time period is greater than the preset rotating speed of the water turbine 11 corresponding to the next preset time period. As can be seen from the table lookup, in each preset time period, the corresponding preset power of the sterilization device 13 and the preset rotation speed of the water turbine 11 are obtained.

In this embodiment, it can also be said that, as shown in fig. 5, after the sterilizing device 13 and the hydraulic turbine 11 are simultaneously turned on, the sterilizing device 13 and the hydraulic turbine 11 are operated in accordance with the preset relationship among the sterilizing device 13, the hydraulic turbine 11, and the sterilizing time. The sterilization time is divided into a plurality of preset time periods in succession. The preset relationship between the sterilizing device 13, the hydraulic turbine 11 and the sterilizing time includes the preset rotation speed of the hydraulic turbine 11 and the power of the sterilizing device 13 in each preset time period. In two adjacent preset time periods, the rotating speed of the water turbine 11 corresponding to the previous preset time period is greater than the rotating speed of the water turbine 11 corresponding to the next preset time period, and the power of the sterilizing device 13 corresponding to the previous preset time period is less than the power of the sterilizing device 13 corresponding to the next preset time period.

Further, a plurality of preset rotation speeds of the water turbine 11, corresponding to a plurality of preset time periods, are reduced according to a first preset rule; the plurality of preset powers of the sterilizing device 13 corresponding to the plurality of preset time periods are increased according to a second preset law.

The first preset rule is that in two adjacent preset time periods, the preset rotating speed of the water turbine corresponding to the previous preset time period is one fifth greater than the preset rotating speed of the water turbine 11 corresponding to the next preset time period. The second predetermined rule is that, in two adjacent predetermined time periods, the predetermined power of the sterilization device corresponding to the previous predetermined time period is smaller than the predetermined power of the sterilization device corresponding to the next predetermined time period by one fifth of the maximum power.

In some embodiments of the present invention, in the table, the preset rotation speed of the hydraulic turbine 11 corresponding to the first preset time period is K, and the corresponding preset power of the sterilization device 13 is 0. The preset rotating speed of the water turbine 11 corresponding to the second preset time period is four fifths of the K, and the preset power of the corresponding sterilizing device 13 is one fifth of the T. The preset rotating speed of the water turbine 11 corresponding to the third preset time period is three fifths of K, and the preset power of the corresponding sterilizing device 13 is two fifths of T. The preset rotating speed of the water turbine 11 corresponding to the fourth preset time period is two fifths of K, and the preset power of the corresponding sterilization device 13 is three fifths of T. The preset rotating speed of the water turbine 11 corresponding to the first preset time period is one fifth of K, and the preset power of the corresponding sterilizing device 13 is four fifths of T.

In some embodiments of the present invention, as shown in fig. 4, after the sterilizing device 13 and the hydraulic turbine 11 are simultaneously turned on, one of the sterilizing device 13 and the hydraulic turbine 11 is controlled to operate according to a preset program, and the other of the sterilizing device 13 and the hydraulic turbine 11 is controlled to operate according to a preset relationship between the sterilizing device 13 and the hydraulic turbine 11.

Further, in some embodiments of the present invention, the preset program is:

and controlling the sterilizing device 13 and the water turbine 11 to work for a preset sterilizing time.

The preset sterilization time is divided into a plurality of continuous preset time periods.

In each preset time period, the water turbine 11 is operated according to a preset rotating speed, and in two adjacent preset time periods, the preset rotating speed of the water turbine 11 corresponding to the previous preset time period is greater than the preset rotating speed of the water turbine 11 corresponding to the next preset time period. And reducing a plurality of preset rotating speeds of the water turbine corresponding to a plurality of preset time periods according to a third preset rule. Or, in each preset time period, the sterilization device 13 is operated according to the preset power, and in two adjacent preset time periods, the preset power of the sterilization device 13 corresponding to the previous preset time period is smaller than the preset power of the sterilization device 13 corresponding to the next preset time period. And a plurality of preset powers of the sterilization device corresponding to the plurality of preset time periods are increased according to a fourth preset rule.

The third predetermined rule may be a rule different from the first predetermined rule, and may be the same. The fourth predetermined rule may be a rule different from the second predetermined rule, and may be the same as the second predetermined rule.

In this embodiment, the preset rotation speed of the hydraulic turbine 11 is gradually decreased from high, and the power of the sterilization device 13 is controlled according to the preset relationship between the sterilization device 13 and the hydraulic turbine 11. Alternatively, the preset power of the sterilization device 13 is gradually increased from low, and the rotation speed of the turbine 11 is controlled according to the preset relationship between the sterilization device 13 and the turbine 11.

In some embodiments of the present invention, the predetermined relationship between the sterilization device 13 and the water turbine 11 is a negative correlation. For example, the preset relationship between the sterilizing device 13 and the water turbine 11 conforms to the above-described negative correlation model.

Specifically, the preset sterilizing time is 10 minutes, and the sterilizing time is divided into 5 consecutive preset time periods on average as an example. In the first preset time period, the rotating speed of the group of hydraulic turbines 11 is K, and the power of the sterilizing device 13 is zero according to the above negative correlation model. In the second preset time period, the rotating speed of the group of hydraulic turbines 11 is four fifths of the rotating speed K, and the power of the sterilizing device 13 is one fifth of the power of T according to the negative correlation model. In the third preset time period, the rotating speed of the group of water turbines 11 is three fifths of the K, and the power of the sterilizing device 13 is two fifths of the T according to the above negative correlation model. In the fourth preset time period, the rotating speed of the water turbine 11 group is two fifths of K, and according to the negative correlation model, the power of the sterilization device 13 is three fifths of T. In the fifth preset time period, the rotating speed of the group of hydraulic turbines 11 is one fifth of K, and according to the above negative correlation model, the power of the sterilizing device 13 is four fifths of T.

In some embodiments of the present invention, during the first preset time period of the above-mentioned consecutive preset time periods, the power of the sterilization device 13 is zero, and the water and the substances therein are moved by rapid stirring, and then sterilization is started, so as to improve the sterilization efficiency.

In some embodiments of the present invention, the control method of the air conditioner further includes: and detecting and judging whether the water quantity in the water storage tank 10 is less than the preset water quantity. If not, an alarm signal is sent, the sterilizing device 13 and the water turbine 11 are closed when the fan 20 works, and the sterilizing device 13 and the water turbine 11 are forbidden to be started when the fan 20 is about to be started. The alarm signal is sent out, so that the influence on the washing and purification of the airflow due to insufficient water quantity can be avoided, and the method can also avoid the waste of energy due to the idle running of the sterilizing device 13 and the water turbine 11. In some embodiments, a liquid level meter 12 is disposed on the water storage tank, and the amount of water in the water storage tank 10 is detected by the liquid level meter 12.

In some embodiments of the present invention, as shown in fig. 8, the sterilization device 13 is disposed on the bottom wall of the water storage tank 10, and the quartz glass 15 is disposed above the sterilization device 13. The quartz glass 15 can prevent the sterilization device 13 from irradiating to cause the degradation of the components of the water storage tank.

The embodiment of the invention also provides another control method of the air conditioner, which comprises the following steps: and when the fan 20 and/or the water turbine 11 are not operated, the sterilizing device 13 and the water turbine 11 are simultaneously started according to preset conditions.

Thus, it should be appreciated by those skilled in the art that while various exemplary embodiments of the invention have been shown and described in detail herein, many other variations or modifications which are consistent with the principles of this invention may be determined or derived directly from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.

Claims (12)

1. A control method of an air conditioner comprises a water storage tank, a water turbine arranged in the water storage tank, a sterilization device used for sterilizing water in the water storage tank, and a fan used for promoting airflow to pass through the water storage tank; the control method is characterized by comprising the following steps:

when the fan works and/or the water turbine works, acquiring the rotating speed of the water turbine;

and determining the power of the sterilizing device according to the rotating speed of the water turbine, and enabling the sterilizing device to operate according to the determined power.

2. The control method of an air conditioner according to claim 1,

determining the power of the sterilization device according to the rotating speed of the water turbine comprises the following steps:

establishing a negative correlation relation model between the power of the sterilizing device and the rotating speed of the water turbine;

and calculating to obtain the corresponding power of the sterilization device according to the negative correlation relation model based on the acquired rotating speed of the water turbine.

3. The control method of an air conditioner according to claim 1,

acquiring the rotating speed of the water turbine comprises acquiring the rotating speed of the fan, and determining the rotating speed of the water turbine according to the rotating speed and/or the air volume of the fan; after the rotating speed of the water turbine is obtained, the water turbine is made to rotate according to the rotating speed; or,

and acquiring the rotating speed of the water turbine by using a detection device to detect the rotating speed of the fan.

4. The control method of an air conditioner according to claim 1,

and when the fan does not work and/or the water turbine does not work, at least starting the sterilizing device according to preset conditions.

5. The control method of an air conditioner according to claim 4,

the method for starting at least the sterilizing device according to the preset conditions comprises the step of starting the sterilizing device and the water turbine simultaneously according to the preset conditions.

6. A control method of an air conditioner comprises a water storage tank, a water turbine arranged in the water storage tank, a sterilization device used for sterilizing water in the water storage tank, and a fan used for promoting airflow to pass through the water storage tank; the control method is characterized by comprising the following steps: and when the fan and/or the water turbine do not work, simultaneously starting the sterilizing device and the water turbine according to preset conditions.

7. The control method of an air conditioner according to claim 5 or 6, wherein the operation of the sterilizing device and the water turbine is controlled according to a preset program after the sterilizing device and the water turbine are simultaneously turned on.

8. The control method of an air conditioner according to claim 7,

the preset program comprises the following steps:

controlling the sterilization device and the water turbine to work for a preset sterilization time;

the preset sterilization time is divided into a plurality of continuous preset time periods; in each preset time period, the water turbine is enabled to work according to a preset rotating speed, the sterilization device is enabled to work according to preset power, and in two continuous preset time periods, the preset rotating speed of the water turbine corresponding to the previous preset time period is larger than the preset rotating speed of the water turbine corresponding to the next preset time period;

a plurality of preset rotating speeds of the water turbine corresponding to the preset time periods are reduced according to a first preset rule;

and the plurality of preset powers of the sterilizing device, which correspond to the plurality of preset time periods, are increased according to a second preset rule.

9. The control method of an air conditioner according to claim 5 or 6, wherein after the sterilizing device and the water turbine are simultaneously turned on, one of the sterilizing device and the water turbine is controlled to operate according to a preset program, and the other of the sterilizing device and the water turbine is controlled to operate according to a preset relationship between the sterilizing device and the water turbine.

10. The control method of an air conditioner according to claim 9,

the preset program is as follows:

controlling the sterilization device and the water turbine to work for preset sterilization time; the preset sterilization time is divided into a plurality of continuous preset time periods;

in each preset time period, the water turbine works according to a preset rotating speed, and in two adjacent preset time periods, the preset rotating speed of the water turbine corresponding to the previous preset time period is greater than the preset rotating speed of the water turbine corresponding to the next preset time period; a plurality of preset rotating speeds of the water turbine corresponding to the preset time periods are reduced according to a third preset rule; or, in each preset time period, enabling the sterilization device to work according to preset power, and in two adjacent preset time periods, enabling the power of the sterilization device corresponding to the previous preset time period to be smaller than the power of the sterilization device corresponding to the next preset time period; a plurality of preset powers, corresponding to a plurality of preset time periods, of the sterilization device are increased according to a fourth preset rule;

the preset relationship between the sterilizing device and the water turbine is a negative correlation relationship.

11. The control method of an air conditioner according to claim 8 or 10, wherein in a first of the preset time periods, the power of the sterilizing device is zero;

the sterilizing device is arranged on the bottom wall of the water storage tank, the sterilizing device is an ultraviolet sterilizing device, and quartz glass is arranged above the sterilizing device.

12. The control method of an air conditioner according to claim 1, 5 or 6, further comprising:

detecting and judging whether the water quantity in the water storage tank is smaller than a preset water quantity or not;

if not, sending an alarm signal, closing the sterilizing device and the water turbine when the fan works, and forbidding the sterilizing device and the water turbine to be started when the fan is to be started.

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