KR101605755B1 - Method for controlling washing apparatus of air conditioner - Google Patents

Abstract

One aspect of the present invention relates to a control method of an air conditioner washing apparatus for controlling the direction of movement of condensed water according to the operating mode of the air conditioner and determining whether the air conditioner washing apparatus is malfunctioning.

To this end, one aspect of the present invention is to confirm the operation mode of the air conditioner, and if the operation mode is the washing mode, the condensed water generated in the air conditioner is moved to the air conditioner washing device to generate washing water, The condensed water generated in the air conditioner is discharged to the external drain when the operation mode is the normal operation mode, so that the moving direction of the condensed water is changed according to the operation mode of the air conditioner, The supply of water necessary for cleaning can be actively controlled.

According to an aspect of the present invention, there is provided a method for measuring the level of water stored in a storage unit of an air conditioner cleaning apparatus, measuring a magnitude of a current flowing in a pump or a washing water generating unit of an air conditioner cleaning apparatus, It is possible to judge the abnormality of the water level sensing unit and the drain valve. If the measured current level is not normal, it is possible to judge the abnormality of the pump and the electrolytic device, Can cope.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a control method for an air conditioner,

One aspect of the present invention relates to a control method of an external air conditioner cleaning apparatus capable of sterilizing and cleaning an indoor heat exchanger.

Generally, an air conditioner is a device for cooling air, heating or purifying the air by using the movement of heat generated by the evaporation and condensation process of the refrigerant, and then discharging the conditioned air to harmonize the air in a specific space. The air conditioner compresses the refrigerant, A condenser for converting the refrigerant in the high-temperature and high-pressure state compressed by the compressor into a liquid phase and discharging the latent heat to the outside, an expanding means for reducing the pressure by controlling the flow rate of the refrigerant converted into the liquid phase in the condenser, And an evaporator that evaporates the liquid refrigerant expanded in the expansion means to the gas while absorbing the external heat, and each component is connected by a connection pipe. Such an air conditioner causes dust, bacteria, and water on the surface of a heat exchanger such as a condenser or an evaporator when it is not used for a long period of time. When the heat exchanger is driven by such dust, bacteria, When the water is heated, it causes an unpleasant smell when operating the heat exchanger.

Accordingly, the air conditioner is cleaned to remove dust, germs, water and the like in the heat exchanger. At this time, the heat exchanger is disassembled and separated so that the user can manually perform the washing operation or replace the heat exchanger itself. Resulting in labor and exchange costs. In addition, the heat exchanger of the air conditioner is not easy to separate and clean the heat exchanger according to the installation place and installation method, and it is also difficult to perform the operation of exchanging the heat exchanger itself in a limited space.

According to an aspect of the present invention, there is provided a control method for an air conditioner cleaning apparatus that adjusts the direction of movement of condensed water according to the operating mode of the air conditioner.

In another aspect of the present invention, there is provided a control method of an air conditioner cleaning apparatus capable of determining a failure of the air conditioner cleaning apparatus by measuring a water level stored in the air conditioner cleaning apparatus and a current flowing in the air conditioner cleaning apparatus .

A control method of the air conditioner cleaning apparatus according to an embodiment of the present invention includes a heat exchanger and a control method of the air conditioner cleaner for cleaning the heat exchanger, It is preferable that the condensed water generated in the air conditioner is moved to the reservoir or the external drain of the air conditioner cleaner in accordance with the operation mode.

If it is determined that the operation mode is the cleaning mode, it is preferable to move the condensed water to the storage unit.

Preferably, the air conditioner is connected to the storage portion of the air conditioner cleaning device by a condensate water pipe, and when the operation mode is determined to be a cleaning mode, the condensate water is moved to the storage portion by a drain valve provided in the condensate water pipe Do.

Preferably, the air conditioner washing apparatus includes a filter unit, and the residue contained in the condensed water moving to the air conditioner washing apparatus is filtered through the filter unit.

Preferably, the air conditioner washing apparatus includes at least one water level sensing unit, and the water level sensing unit senses the water level of the storage unit.

Preferably, the air conditioner washing apparatus includes a washing water generating unit, and when the water level of the storage unit reaches a reference water level, the air conditioner washing apparatus moves the condensed water to the washing water generating unit.

The air conditioner washing apparatus may include a pump, and the pump may be operated to move the condensed water to the washing water generating unit.

Preferably, the washing water generating unit includes a hot water generating unit, and the washing water generating unit generates the washing water by heating the condensed water.

The washing water generating unit may include an electrolyte generating unit, a radical generating unit, and a silver nano generating unit, and the washing water generating unit may electrolyze the condensed water to generate the washing water.

It is preferable to measure the current flowing through the water contained in the wash water generating unit to confirm whether or not the electrolyte is contained in the condensed water.

The air conditioner cleaner may include an electrolyte supply unit. When it is determined that the condensed water contains no electrolyte, the electrolyte supply unit supplies the electrolyte to the air conditioner cleaner.

The air conditioner is connected to the air conditioner washing device and the washing water pipe. When it is confirmed that the operating mode is the washing mode, the washing water generated in the washing water generating part is preferably transferred to the air conditioner through the washing water pipe .

It is preferable that the air conditioner washing apparatus includes a spraying unit and at least one or more spraying units are installed in the heat exchanging unit to spray the washing water to the heat exchanger.

If it is determined that the operation mode is the normal operation mode, it is preferable to move the condensed water to the external drain.

And a control unit that detects the level of the condensed water supplied to the storage unit when the condensed water generated in the air conditioner is supplied to the storage unit according to the operation mode and determines the failure of the air conditioner cleaner according to the water level desirable.

It is preferable that the controller determines that the air conditioner cleaning apparatus is malfunctioning if the water level of the storage unit does not reach the reference water level even after a predetermined time elapses.

Preferably, the storage unit is connected to the air conditioner through a condensate water pipe. When the water level of the storage unit does not reach the reference water level after a predetermined time, it is determined that the water drain valve provided in the condensed water pipe is defective.

The air conditioner cleaning apparatus may further include a water level sensing unit, and if the water level of the storage unit does not reach the reference water level after a predetermined time, the water level sensing unit may determine that the water level sensing unit is defective.

If the water level of the storage unit is lower than the reference water level during the washing of the heat exchanger, it is determined that the connection part between the air conditioner and the air conditioner washing apparatus is leaked .

It is preferable to stop the operation of the air conditioner cleaning apparatus and to display the failure state on the display unit if it is determined that the air conditioner cleaning apparatus is malfunctioning.

Wherein the condensing water generated by the air conditioner is supplied to the storage unit according to the operation mode to electrolyze the condensed water into an electrolytic unit to generate washing water and drives the pump of the air conditioner washing unit, It is preferable to move to the heat exchanger to perform cleaning, and to measure a current flowing in the pump or the electrolytic apparatus to determine a failure of the air conditioner cleaning apparatus.

The determination of the failure of the air conditioner cleaning apparatus by measuring the current flowing through the pump is performed when it is determined that the air conditioner cleaner is broken due to foreign substances being clogged in the electrolytic apparatus if the current flowing through the pump is equal to or greater than a constant current value .

The controller may determine that the air conditioner cleaner is malfunctioning if the current flowing through the pump is less than a predetermined current value by measuring a current flowing through the pump and determining a failure of the air conditioner cleaner .

Wherein when the current flowing through the electrolytic apparatus is zero, the operation of the electrolytic apparatus is stopped and the air conditioner washing apparatus is broken down .

The abnormality determination unit determines whether the current flowing through the electrolytic apparatus is a malfunction of the air conditioner cleaning apparatus when the current flowing through the electrolytic apparatus exceeds a predetermined current value, It is preferable to judge that it is broken.

It is preferable to stop the operation of the air conditioner cleaning apparatus and to display the failure state on the display unit if it is determined that the air conditioner cleaning apparatus is malfunctioning.

According to another aspect of the present invention, there is provided a control method for an air conditioner washing apparatus for washing a heat exchanger and a heat exchanger, the method comprising the steps of: It is preferable that the operation mode of the air conditioner is ascertained and the condensed water moved to the storage unit is moved to the external drain or the wash water generating unit according to the operation mode.

Preferably, the air conditioner washing apparatus includes a filter unit, and the residue contained in the condensed water moving to the storage unit is filtered through the filter unit.

And if it is confirmed that the operation mode is the cleaning mode, the condensed water is moved to the wash water generating unit.

Preferably, the air conditioner washing apparatus further includes a drain pump, and the drain pump moves the condensed water to the external drain or the wash water generating unit.

When it is determined that the operation mode is the normal operation mode or the cleaning end mode, it is preferable to move the condensed water moving to the storage unit to the external drain.

According to an aspect of the present invention, the direction of movement of the condensed water is changed according to the operation mode of the air conditioner, so that the supply of water required for washing the air conditioner can be actively controlled.

According to still another aspect of the present invention, by measuring the amount of water stored in the air conditioner washing apparatus or the amount of current flowing in the pump or the washing water generating unit of the air conditioner washing apparatus, It can be judged.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a conceptual diagram showing a state in which an air conditioner washing apparatus according to an embodiment of the present invention is connected to an air conditioner.

1, the air conditioner washing apparatus 10 is used to clean dust, foreign matter, and water in the heat exchanger 3 installed in the air conditioner 1 and to remove bacteria contained in the heat exchanger 3 And is connected to the air conditioner 1 for sterilization. At this time, the air conditioner washing apparatus 10 receives the condensed water through the condensed water pipe 6 of the air conditioner, generates the washing water using the supplied condensed water, and supplies the generated washing water to the washing water pipe 9 The heat exchanger can be cleaned by supplying it to the air conditioner (1).

On the other hand, the air conditioner washing apparatus 10 includes a filter unit 11 for removing condensate supplied from the air conditioner 1 or residues contained in water supplied by the user, A pump 13 and 14 for pumping the washing water generated in the water or washing water producing unit 15 stored in the storing unit 12 and moving the washing water to another place, The electrolytic water supply unit 16 supplies electrolytic water to the storage unit 12 to measure the height of the water stored in the storage unit 12, A jetting part 19 installed on the upper part of the heat exchanger 3 located in the inside of the air conditioner 1 to jet the washing water to the heat exchanger 3, A drain valve (20, 21, 22) for adjusting the moving direction of the washing water, a first drain pump (13) Which may include a current measurement unit (23, 24). On the other hand, the air conditioner washing apparatus 10 is provided with a cover 26 at an upper portion thereof and can receive water (for example, tap water) manually by a user.

The filter unit 11 is provided inside the air conditioner cleaner 10 and can filter the condensed water supplied from the air conditioner 1 or the residues contained in the water manually supplied by the user through a mesh or the like , And the water filtered by the filter unit (11) is stored in the storage unit (12).

The storage unit 12 stores the condensed water supplied from the air conditioner 1 or the water supplied by the user and supplies the stored water to the washing water generating unit 15 when washing the heat exchanger 3, When the heat exchanger is cleaned, the water stored in the storage unit 12 is discharged to the external drain 25. The storage unit 12 includes at least one water level sensing unit 17 or 18 for sensing the level of water stored therein.

The washing water generating unit 15 may be an electrolytic generating unit, a hot water generating unit, a silver nano generating unit, and a radical generating unit. The water stored in the storage unit 12 may be used to sterilize and heat the heat exchanger 3. [ A washable wash water can be generated.

On the other hand, the electrolytic generation apparatus includes a case for forming an external appearance, a pair of electrode plates provided inside the case, and an ion separation membrane provided between the electrode plates and partitioning the case. At this time, when positive (+) power and negative (-) power are applied to each pair of electrode plates, ions of the electrolyte (ie electrolytic dissolution water) are passed through the ion separation membrane to generate acidic water and alkaline water . Here, the acidic water generated by the electrolysis sterilizes the bacteria in the heat exchanger 3, and the alkaline water can clean the dust accumulated in the heat exchanger 3. In addition, the hot water generating device has a heater inside to heat the condensed water or the water supplied by the user to a predetermined temperature to generate washing water having sterilizing power. The radical generating device has a configuration similar to that of the electrolyte generating device No membrane) and electrolyzes water to produce wash water with OH radicals. In addition, the silver nano generator can generate washing water containing silver ions (Ag +) generated by electrolyzing silver plating of 99.99% purity in water.

In the meantime, the electrolyte generation device, the silver nano generating device, and the radical generating device are provided with a current sensing part 23 for sensing a current flowing in water contained therein. According to an embodiment of the present invention, It is possible to determine whether or not the electrolyte contained in the water accommodated in the air conditioner washing apparatus 10 is contained and the failure state of the air conditioner washing apparatus 10.

The electrolyte supply part 16 may be provided on one side of the upper part of the storage part 12 to supply the electrolytic dissolving water in which the solid or powder type electrolytic solution is dissolved to the storage part 12. Specifically, when the electrolyte supply portion 16 receives electrolyte in the form of solid or powder and water is supplied to the electrolyte supply portion 16 by the opening / closing operation of the electrolyte supply valve, that is, the third drain valve 22, The electrolytic water dissolves in the electrolytic water, and the electrolytically dissolvable water is discharged to the storage unit 12 through a plurality of holes (not shown).

At least one or more water level sensing units 17 and 18 are installed in the storage unit 12 to sense the level of water stored in the storage unit 12 and transmit the sensed water level information to the control unit 30. [ Specifically, according to an embodiment of the present invention, two water level sensing units 17 and 18 are provided in the storage unit 12, and the height of the water level sensing unit 17 installed at the lower level is referred to as a first reference water level And the height of the water level sensing unit 18 provided at the upper end will be referred to as a second reference water level.

The pumps 13 and 14 include a first drain pump 13 and a second drain pump 14 and the first drain pump 13 is connected to the condenser water stored in the reservoir 12 or the water supplied by the user And the second drain pump 14 pumps the washing water generated by the washing water generating section 15 to the outside drain 25 of the air conditioner washing apparatus 10 or the washing water generating section 15, And is pumped so as to be able to move to the jetting section (19) provided inside the air conditioner (1).

The jetting section 19 is installed on the upper side of the heat exchanger 3 provided inside the air conditioner 1 and supplies the acidic water, alkaline water or silver nano-washing water generated in the water washing water generating section 15 to the heat exchanger 3, the heat exchanger 3 can be sterilized and cleaned.

The drain valves 20, 21 and 22 are connected to a first drain valve 20 which is opened and closed so as to selectively move the condensed water discharged from the air conditioner 1 to the external drain 25 or the storage part 12 A second drain valve 21 which is opened and closed so as to selectively move the condensed water stored in the storage unit 12 or the water supplied by the user to the wash water generating unit 15 or the external drain 25, And a third drain valve 22 that is controlled so that the wash water generated in the first portion 15 can be selectively transferred to the spray portion 19 or the electrolyte supply portion 16. [

The first drain valve 20 is opened and closed so that the condensed water discharged from the air conditioner 1 can be discharged to the external drain 25 when the operation mode of the air conditioner 1 is in the normal operation mode, When the operation mode of the air conditioner 1 is the cleaning mode, the condensed water discharged from the air conditioner 1 is controlled to be opened or closed so as to move to the storage unit 12. [

The second drain valve 21 can move the condensed water stored in the storage unit 12 or the water supplied by the user to the washing water generating unit 15 when the operating mode of the air conditioner 1 is the washing mode When the operation mode of the air conditioner 1 is in the cleaning termination mode, it is opened and closed so that the condensed water stored in the storage unit 12 or the water supplied by the user can be moved to the external drain 25 Respectively.

The third drain valve 23 is connected to the electrolytic water supply unit 16 when the washing water generated in the washing water producing unit 15 moves to the spraying unit 19 and there is no electrolyte in the water stored in the storing unit 12, And the electrolytic water is supplied to the storage part 12 by moving the washing water.

2 is a conceptual diagram showing a state in which an air conditioner washing apparatus according to another embodiment of the present invention is connected to an air conditioner.

Fig. 2 differs from Fig. 1 in that the first drain valve 20 is not included in the condensate pipe 6. 2, the condensed water discharged from the air conditioner 1 is discharged to the external drain 25 through the air conditioner cleaner 10 without being discharged to the external drain 25, and the condensed water discharged from the air conditioner 1 The second drain valve 21 is controlled to open and close so that the condensed water or the water supplied by the user is transferred to the washing water generating section 15 and the operation mode of the air conditioner is switched to the washing end mode The second drain valve 21 is controlled to be opened and closed to discharge the condensed water stored in the storage unit 12 or the water supplied by the user to the external drain 25. 2, the first drain valve 20 is not provided in the condensed water pipe 6 in comparison with the configuration of FIG. 1, thereby reducing the cost.

3 is a control block diagram of an air conditioner cleaning apparatus 10 according to an embodiment of the present invention.

3, the air conditioner washing apparatus 10 includes a water level detecting unit 17, 18 for detecting the water level of the storage unit 12, a washing water generating unit (excluding the hot water generating unit) A control unit 30 for controlling the overall control of the air conditioner cleaning apparatus 10, a drain valve (not shown) for controlling the flow direction of the condensed water or the washing water, A pump driving unit 32 for driving the pumps 13 and 14, a washing water generating unit driving unit 33 for driving the washing water generating unit 15, And a display unit 34 for displaying a state such as a mode.

At least one of the water level sensing units 17 and 18 senses the level of water stored in the storage unit 12 and transmits the sensed water level information to the control unit 30. [

The current sensing units 23 and 24 are connected to the inside of the electrolytic generating unit, the radical generating unit and the silver nano generating unit (hereinafter also referred to as "electrolytic unit") and the first drain pump 13, And detects the current flowing through the devices 13 and 15 when the power is applied to the devices 13 and 15 and transmits the sensed current information to the control unit 30. [

The control unit 30 is responsible for the overall control of the air conditioner cleaning apparatus 10 and the overall control can be broadly divided into general operation control and failure determination control of the air conditioner cleaning apparatus 10, The operation of the control unit 20 will be described with reference to the example (with the first drain valve).

First, the operation mode of the air conditioner 1 may include a normal operation mode, a cleaning mode, and a cleaning end mode. In the normal operation mode, Can control the opening and closing of the first drain valve (20) during the operation of the heat exchanger (3) according to the driving of the air conditioner (1) to discharge the condensed water generated in the heat exchanger (3) do.

In the washing mode, the control unit 30 controls the opening and closing of the first drain valve 20 in operation of the heat exchanger 3 according to the driving of the air conditioner 1 to store the condensed water generated in the heat exchanger 3, (12). At this time, the controller 30 compares the water level of the storage unit 12 transmitted from the water level sensing units 17 and 18 with a predetermined second reference water level (the height of the water level sensing unit 18) The first drain pump 13 is operated and the second drain valve 21 is opened and closed to move the condensed water stored in the storage unit 12 to the washing water generating unit 15 .

The control unit 30 compares the current information transmitted from the current sensing unit 24 with a predetermined reference current and determines whether the current flowing in the water accommodated in the washing water generating unit (excluding the hot water generating unit 15) The water stored in the storage unit 12 is determined to be electrolytically dissolvable water and the electrolysis is performed by controlling the driving of the water wash water generating unit 15 so that the electric current flowing in the water contained in the water wash water generating unit 15 The water stored in the storage unit 12 is determined to be electrolytic water seawater and the third drain valve 2 is controlled to open and close so that the electrolytic water can be supplied from the electrolytic solution supply unit 16 to the storage unit 12 .

The control unit 30 drives the second drain pump 21 by the pump driving unit 32 to supply the washing water generated in the washing water generating unit 15 to the upper part of the heat exchanger 3 through the washing water pipe 9 And the jetting section 19 injects the washing water to be moved to wash the heat exchanger 3. On the other hand, a plurality of holes (not shown) are formed in the lower surface of the jetting section 19 so as to correspond to the interval between the heat transfer fins (not shown) of the heat exchanger 3, It can be evenly discharged. At this time, the plurality of holes formed in the lower surface of the jetting section 19 may be arranged in a line according to the distance between the heat conductive fins, or may be arranged in two or more arbitrary rows. In other words, it is needless to say that the spraying unit 19 can take any form as long as it can spray the washing water evenly to the heat exchanger 3. [

The control unit 30 controls opening and closing of the second drain valve 21 to discharge the water stored in the storage unit 12 to the external drain 25 and the first drain pump 13, So that the water remaining in the storage unit 12 can be discharged.

The control unit 30 detects the level of the water stored in the storage unit 12 or controls the flow rate of the water flowing through the first drain pump 13 It is possible to judge the failure by sensing the magnitude of the current.

Specifically, in operation of the heat exchanger 3 in the washing mode, the control unit 30 controls the opening / closing of the first drain valve 20 by the drain valve driving unit 31 to return the condensed water generated in the heat exchanger 3 to the storage unit 12). At this time, the control unit 30 receives the water level information of the storage unit 12, and even if the water level of the storage unit 12 reaches the first reference level (the water level is detected) It is determined that the first drain valve 20 or the water level sensing unit 17 has failed and the failure state is displayed on the display unit 34. [

When the condensed water stored in the storage unit 12 or the water supplied by the user reaches the second reference water level (the height of the water level sensing unit 18) in the washing mode in the washing mode, the controller 30 controls the washing water generating unit 15 The second drain valve 21 and the first drain pump 13 are driven and controlled so that the second drain valve 21 can be moved to the first drain valve 21 and the second drain valve 21 after the second drain valve 21 is opened and closed for a certain period of time When the water level of the unit 12 falls below the first reference level, it is determined that the second drain valve 21 has failed and the display unit 34 displays a failure state. That is, if the second drain valve 21 fails, the water stored in the storage unit 12 is discharged to the external drain 25, so that the water level of the storage unit 12 becomes lower than a certain level. When the water level of the storage part 12 falls below the first reference level during the opening / closing control of the second drain valve 21, it is determined that the second drain valve 21 has failed and the display part 34 is in a failure state . If the water level of the storage unit 12 falls below a predetermined level during the heat exchanger cleaning process, the controller 30 determines that there is a water leakage at the connection portion of the air conditioner cleaner 10, A fault condition is displayed.

 On the other hand, when the cleaning operation of the air conditioner cleaning apparatus 10 is started, washing water is generated from the water stored in the storage unit 12 and is transferred to the air conditioner 1, The water level of the storage unit 12 does not go below a certain level (for example, the first reference level) because the water that has been cleaned by the heat exchanger 3 is moved to the storage unit 12 again.

 The control unit 30 receives the current information flowing through the first drain pump 13 from the current sensing unit 23 and determines whether the current of the first drain pump 13 reaches a constant current value (for example, 0.1 A) It is judged that the first drain pump 13 is faulty and when the current of the first drain pump 13 is equal to or larger than a constant current value (for example, 0.5 A), the washing water generating section 15 is connected to the foreign substance It is determined that the load is large and the current is increased, and the display unit 34 displays a failure state.

 The control unit 30 receives the current information flowing in the electrolytic apparatus 15 from the current measuring unit 24 and determines whether the current flowing through the electrolytic apparatus is "0" And judges that the electrolytic apparatus 15 is overheated when the current flowing through the electrolytic apparatus 15 is equal to or more than a constant current (for example, 2.5 A), and displays the above-described result on the display unit 34 do.

Meanwhile, as described above, if it is determined that a part of the air conditioner cleaning apparatus 10 has failed, the control unit 30 displays the failure state on the display unit 34 and stops the operation of the air conditioner cleaning apparatus 10 do.

The drain valve driving unit 31 controls the opening and closing of the first drain valve 20, the second drain valve 21 and the third drain valve 22 according to the signal from the controller 30, The water stored in the storage section 12 of the air conditioner cleaning apparatus 10 and the movement path of the water contained in the washing water generating section 15 can be adjusted.

The pump driving unit 32 transmits a driving signal to the first and second drain pumps 13 and 14 in accordance with the signal from the controller 30 to control the ON / OFF of the first and second drain pumps 13 and 14.

The washing water generating part driving part 33 controls the power supply to the washing water generating part 15 according to the signal of the controller 30 and allows the water contained in the washing water generating part 15 to be electrolyzed or heated.

The display unit 34 may be provided on the front surface of the air conditioner cleaner 10 as a display that allows the user to check the operation mode or the failure state of the air conditioner 1. [

4 is a control flowchart of the drain valve according to the operating mode of the air conditioner cleaning apparatus according to the embodiment of the present invention.

4, when the power source of the air conditioner washing apparatus 10 is turned on, the control unit 30 determines whether the operation mode of the air conditioner corresponds to one of the normal operation mode, the cleaning mode, and the cleaning end mode (S10).

Next, when it is determined that the operation mode of the air conditioner 1 is the normal operation mode, the control unit 30 controls the opening and closing of the first drain valve 20 so that the heat exchanger 3 of the air conditioner 1 So that the generated condensed water can be directly discharged to the external drain 25. (S20, S30)

If it is determined that the operation mode of the air conditioner 1 is the cleaning mode, the controller 30 controls the opening / closing of the first drain valve 20, The condensed water is moved to the storage unit 12 of the air conditioner washing apparatus 10. (S40, S50)

Next, when the condensed water stored in the storage unit 12 reaches a certain water level, the condensed water is moved to the washing water generating unit 15 to generate washing water, and the generated washing water is supplied to the spraying unit The first drain valve 21 and the first drain pump 13 are controlled to be stored in the storage unit 12 after the washing of the heat exchanger is completed (S60, S70, S90).

If it is determined that the operation mode of the air conditioner 1 is the cleaning termination mode, the control unit 30 controls the second drain valve 21 and the first drain pump 13 so that the inside of the storage unit 12 To the external drain 25. (S80, S90)

5 is a control flowchart of the drain valve according to the operating mode of the air conditioner cleaning apparatus according to another embodiment of the present invention.

5, in comparison with FIG. 4, even when the operation mode of the air conditioner 1 is in the normal operation mode, the condensed water discharged from the air conditioner 1 is supplied to the external drain 25 ). ≪ / RTI > That is, the control flow of FIG. 5 is a control flow according to the connection state of the air conditioner cleaning apparatus 10 of FIG. 2. The control flow of FIG. 5 is a control flow of the condenser water pipe 6 connected to the air conditioner cleaning apparatus 10 from the air conditioner 1 The condensed water moves to the storage portion 12 of the air conditioner cleaner 10 even in the normal operation mode and the moved water is discharged to the first drain pump 13, And is discharged to the external drain 25 by the operation of the discharge lamp. The connecting method of the air conditioner washing apparatus is advantageous in that the first drain valve 20 is not installed, thereby reducing the cost and increasing the spatial utilization. Meanwhile, since the same control flow as that of FIG. 4 is applied in addition to the above-described difference, description of other steps will be replaced by the description of FIG.

6 is a control flowchart for determining whether the air conditioner cleaning apparatus according to an embodiment of the present invention is in failure.

As shown in FIG. 6, when the operation of the air conditioner cleaning apparatus 10 is started, condensate is supplied to the storage unit 12. That is, when it is determined that the operation mode of the air conditioner 1 is the cleaning mode, the controller 30 controls the condenser water generated in the heat exchanger 3 due to the operation of the air conditioner 1, The first drain valve 20 is controlled to be opened and closed so as to move to the storage section 12 of the first drain valve 20 (S200)

Next, the level of the condensed water stored in the storage unit 12 is sensed. At least one or more water level sensing units 17 and 18 may be provided on the inner wall of the storage unit 12. According to an aspect of the present invention, the water level sensing units 17 and 18 ) Are installed. At this time, the height of the water level sensing unit 17 disposed relatively below the two water level sensing units 17 and 18 is referred to as a first reference water level, and the height of the water level sensing unit 18, Referred to as a reference water level (S205)

Next, the control unit 30 checks whether the water level of the storage unit 12 reaches the first reference water level, and if the water level of the storage unit 12 reaches the first reference water level after a predetermined time (for example, three minutes) It is determined that the first drain valve 20 or the water level sensing unit 17 has failed and the failure state is displayed on the display unit 34 and the operation of the air conditioner cleaner 10 (S210, S215, S220, S225, S230)

On the other hand, if it is determined that the water level of the storage unit 12 has reached the first reference water level before a predetermined time elapses, the controller 30 checks whether the water level of the storage unit 12 reaches the second reference water level. At this time, the second reference water level is the water level required to clean the heat exchanger 3 (S235)

Next, when it is determined that the water level of the storage unit 12 has reached the second reference water level, the control unit 30 controls the opening and closing of the first drain pump 13 and the second drain valve 21, And the washing water generating unit 15 generates washing water by electrolyzing or heating the water moved in the storing unit 12 at step S240.

Next, the second drain pump 14 pumps the washing water generated in the washing water generating section 15 to move it to the spraying section 19 provided in the upper part of the heat exchanger 3, and the spraying section 19 And the heat exchanger 3 is cleaned by spraying uniformly (S245)

Next, during the washing process of the heat exchanger 3, the water level of the storage unit 12 is continuously detected and the water level of the storage unit 12 is checked to be lower than the first reference water level (S250, S255)

Next, if it is determined that the water level of the storage unit 12 is lower than the first reference water level, it is checked whether a predetermined time has passed since the first operation of the air conditioner cleaning apparatus 10 (S260)

Next, when it is determined that the water level of the storage part 12 has become lower than the first reference water level after the initial driving of the air conditioner washing device (preferably after the initial driving of the washing water producing part 15) It is judged that the water stored in the storage part 12 is discharged to the external drain 25 due to the failure of the second drain valve and the failure state is displayed on the display part 34 and the operation of the air conditioner cleaner 10 (S270, S225, S230)

On the other hand, after the water level of the storage unit 12 has elapsed after a certain period of time has elapsed after the initial operation of the air conditioner cleaning apparatus 10 (preferably after the initial operation of the washing water generating unit 15) It is judged that a leakage has occurred at an arbitrary connecting portion and the failure state is displayed on the display unit 34 and the operation of the air conditioner washing apparatus 10 is stopped (S265, S225, S230)

7 is a control flowchart for determining whether the air conditioner cleaning apparatus according to another embodiment of the present invention has failed.

7, when the operation of the air conditioner washing apparatus 10 is started and the washing of the heat exchanger 3 proceeds, the current value flowing through the first drain pump 13 is measured (S300, S310)

Next, when the pump current value is compared with the first reference current (for example, 0.1A) and the pump current value is determined to be smaller than the first reference current value, it is determined that the first drain pump 13 has failed , Displays a failure on the display unit 34, and stops the operation of the air conditioner cleaning apparatus 10. (S320, S330, S340, S350)

On the other hand, if it is determined that the pump current value is larger than the second reference current (for example, 0.5 A), it is determined that the washing water generating portion 15 is clogged by the foreign substance and the load is increased and a fault is displayed on the display portion 34 , The operation of the air conditioner washing apparatus 10 is stopped (S360, S370)

8 is a control flowchart for determining whether or not the air conditioner cleaning apparatus 10 according to another embodiment of the present invention has failed.

8, when the operation of the air conditioner washing apparatus 10 is started and the washing of the heat exchanger 3 is progressed, the current value flowing through the washing water generating unit 15 is measured. In this case, the washing water generating unit 15 may be an electrolyte generating apparatus, a radical generating apparatus, and a silver nano generating apparatus, for example. However, the hot water generating apparatus not performing the electrolyzing operation is not applied to the present embodiment. S400, S410)

Next, it is determined whether the current value flowing through the washing water generating section 15 is "0 ", and if the current value flowing through the washing water generating section is" 0 " , Displays a failure on the display unit 34 and stops the operation of the air conditioner cleaner 10. (S420, S430, S440, S450)

On the other hand, when it is confirmed that the current value flowing through the washing water generating section 15 is larger than the third reference current (for example, 2.5 A), it is determined that the washing water generating section 15 is overheated, And stops the operation of the air conditioner cleaning apparatus 10. (S460, S470, S440, S450)

1 is a conceptual diagram illustrating a state in which an air conditioner washing apparatus according to an embodiment of the present invention is connected to an air conditioner

2 is a conceptual diagram illustrating a state in which an air conditioner washing apparatus according to another embodiment of the present invention is connected to an air conditioner

3 is a control block diagram of an air conditioner washing apparatus according to an embodiment of the present invention.

FIG. 4 is a flowchart illustrating a control operation of the drain valve according to the operating mode of the air conditioner cleaning apparatus according to the embodiment of the present invention.

FIG. 5 is a flowchart illustrating a control operation of the drain valve according to the operation mode of the air conditioner cleaning apparatus according to another embodiment of the present invention.

6 is a control flowchart for determining whether the air conditioner cleaning apparatus according to an embodiment of the present invention is faulty or not.

7 is a control flowchart for determining whether the air conditioner cleaning apparatus according to another embodiment of the present invention has failed.

8 is a control flowchart for determining whether or not the air conditioner cleaning apparatus according to another embodiment of the present invention has failed.

Description of the Related Art [0002]

10: air conditioner washing apparatus 11: filter unit

12: storage part 13: first drainage pump

15: wash water generating unit 17,18:

Claims (31)

1. A control method for an air conditioner washing apparatus for washing a heat exchanger and a heat exchanger, The operation mode of the air conditioner is checked, The condensed water generated in the air conditioner is moved to a storage portion or an external drain of the air conditioner cleaner in accordance with the operation mode, If it is determined that the operation mode is the cleaning mode, moves the condensed water to the storage unit, The air conditioner washing apparatus includes an electrolytic apparatus for electrolyzing the condensed water to generate washing water, and a pump for moving the washing water to the heat exchanger, wherein the electric current flowing through the pump or the electrolytic apparatus is measured, A failure of the gas cleaning apparatus is judged, The determination of the failure of the air conditioner cleaning apparatus by measuring the current flowing through the pump is performed when it is determined that the air conditioner cleaner is broken due to foreign substances being clogged in the electrolytic apparatus when the current flowing through the pump is equal to or higher than a constant current value And if the current flowing through the pump is below a predetermined current value, the pump malfunctions and the controller determines that the air conditioner cleaner has failed. delete The method according to claim 1, The air conditioner is connected to the storage unit by a condensate water pipe, And when the operation mode is determined to be the cleaning mode, the drain valve provided in the condensed water pipe is opened and the condensed water is moved to the storage unit. The method according to claim 1, The air conditioner cleaning apparatus includes a filter unit, And filtering the residue contained in the condensed water moving to the storage unit through the filter unit. The method according to claim 1, The air conditioner cleaning apparatus includes at least one level detecting section, Wherein the water level sensing unit senses the water level of the storage unit. The method according to claim 1, The air conditioner washing apparatus includes a washing water producing section, And when the water level of the storage unit reaches a reference water level, moves the condensed water to the wash water generating unit. The method according to claim 6, The air conditioner cleaning apparatus includes a pump, And the pump is operated to move the condensed water to the wash water generating unit. The method according to claim 6, The washing water generating portion includes a hot water generating device, Wherein the washing water generating unit generates the washing water by heating the condensed water. The method according to claim 6, The washing water generating unit includes an electrolyte generating unit, a radical generating unit, and a silver nano generating unit, And the washing water generating unit generates the washing water by electrolyzing the condensed water. 10. The method of claim 9, Wherein the control unit determines whether or not the electrolytic solution is contained in the condensed water by measuring a current flowing through the water contained in the water cleaning unit. 11. The method of claim 10, The air conditioner cleaning apparatus includes an electrolyte supply unit, If it is determined that the condensed water contains no electrolyte, the electrolyte supply unit supplies the electrolyte to the storage unit. The method according to claim 6, The air conditioner is connected to the washing water generating unit and the washing water pipe, And when the operation mode is confirmed to be the cleaning mode, the washing water generated in the washing water generating unit is moved to the air conditioner through the washing water pipe. 13. The method of claim 12, Wherein the air conditioner cleaning device includes a jetting portion, Wherein the sprayer is mounted on at least one or more of the heat exchangers to spray the wash water into the heat exchanger. The method according to claim 1, If it is determined that the operation mode is the normal operation mode, And the condensed water is moved to the external drain. The method according to claim 1, A controller for sensing the level of the condensed water supplied to the storage unit, And determining whether the air conditioner cleaning apparatus is malfunctioning according to the water level. 16. The method of claim 15, Determining whether the air conditioner cleaning apparatus is malfunctioning according to the water level, Wherein the control unit determines that the air conditioner cleaning apparatus is in failure if the water level of the storage unit does not reach the reference water level after a predetermined time elapses. 16. The method of claim 15, The storage unit is connected to the air conditioner through a condensate pipe, Wherein the control unit determines that the drain valve provided in the condensed water pipe is faulty if the water level of the storage unit does not reach the reference water level after a predetermined time elapses. 16. The method of claim 15, The air conditioner cleaning apparatus includes a water level sensing unit, And when the water level of the storage unit does not reach the reference water level even after the reference time has elapsed, the water level sensing unit determines that the water level sensing unit is defective. 16. The method of claim 15, If the level of the storage portion is equal to or higher than the reference level, the heat exchanger is washed, And when the water level of the storage unit falls below a reference level during the washing of the heat exchanger, it is determined that water leakage occurs at a connection portion between the air conditioner and the air conditioner washing apparatus. 16. The method of claim 15, If it is determined that the air conditioner cleaning apparatus is malfunctioning, The operation of the air conditioner cleaning apparatus is stopped, and the failure state is displayed on the display unit. delete delete delete The method according to claim 1, And determining the failure of the air conditioner cleaning apparatus by measuring a current flowing through the electrolytic apparatus, And when the current flowing through the electrolytic apparatus is zero, the operation of the electrolytic apparatus is stopped to determine that the air conditioner washing apparatus has failed. The method according to claim 1, And determining the failure of the air conditioner cleaning apparatus by measuring a current flowing through the electrolytic apparatus, Wherein the electrolytic apparatus is overheated when the current flowing through the electrolytic apparatus is equal to or greater than a constant current value, thereby determining that the air conditioner cleaning apparatus has failed. The method according to claim 1, If it is determined that the air conditioner cleaning apparatus is malfunctioning, The operation of the air conditioner cleaning apparatus is stopped, and the failure state is displayed on the display unit. delete delete delete delete delete

Images