KR100283500B1 - Air conditioner condensate removal device and control method - Google Patents

Abstract

The present invention provides a method for removing condensate from an air conditioner, wherein when the user turns on the operation switch of the air conditioner and the air conditioner performs normal operation, the condensed water collected in the drain pan is detected by the condensate detection sensor of the heater part to determine whether or not the predetermined amount is more than a predetermined amount. Stage 1; In the first step, if the amount of condensed water is equal to or greater than a predetermined amount, the controller controls the heater driver to remove power from the condensate supplied to the heater, and determines whether overcurrent is detected in the heater through an overcurrent detection sensor mounted on the heater driver. step; A third step of, when the overcurrent is detected in the heater in the second step, the controller cuts off the power supply to the control heater; A fourth step of determining whether the amount of condensed water is removed by a predetermined amount or less when the overcurrent is not detected by the heater in the second step; If the condensate is removed below a certain amount in the fourth step, the control unit includes a fifth step of shutting off the power supply to the control heater unit, and detects the amount of condensate collected in the heater unit to collect the condensate above a certain amount. In order to remove condensed water through the heating wire on the back side, it is possible to maintain cleanliness in the indoor unit, and thus, a separate drain hose is not required.

Description

An apparatus for eliminating the condensed water from air-conditioner and a methed for controlling Technical

The present invention relates to an air conditioner condensate removal device and a control method thereof, and more particularly, by installing a heater unit and a condensate detection sensor on an upper surface of a drain pan where condensate is collected without a separate drain hose, The present invention relates to an air conditioner condensate removal device and a control method thereof capable of removing driving condensate.

In general, the air conditioner is largely divided into a window type in which the indoor unit and the outdoor unit are integrally formed, and a separate type air conditioner in which the indoor unit and the outdoor unit are separated. The indoor unit is installed to connect the outdoor unit with an evaporator that absorbs heat and supplies cold air to the indoor unit. The furnace is equipped with a compressor that compresses the refrigerant, a condenser that discharges the discharge heat to the outside, and a capillary tube that reduces the pressure of the refrigerant from the condenser and sends it to the evaporator of the indoor unit.

4 is an exploded perspective view for explaining the indoor unit of the separate air conditioner of the above air conditioner, the main body 10 is formed to cover the front of the indoor unit, protruding upwards to both sides having each assembly hole (21a) (22a) The drain pan 20 in which the first and second fixing pieces 21 and 22 are formed is formed.

In addition, one side is formed with a shaft 32, the other side is formed with a brow fan 30 rotatably connected to the bearing 32, the drive shaft 41 is inserted into the shaft 32 of the brow fan 30 ) And the motor 40 in which the fastener 42 is formed on the other side is comprised.

In addition, a motor fastening part 51 is formed at one side, and an assembly hole 51a is formed at a front upper and a lower part of the motor fastening part 51, and an accommodating part 53 for accommodating the brow fan 30 is provided. ) And a bearing fastening portion 52 are formed to constitute the body 50.

A brow fan 30 is installed as the receiving portion 53 of the body 50 configured as described above, and one end of the shaft 31 formed on one side of the brow fan 30 is connected to the motor fastening portion 51. It is inserted into the drive shaft 41 of the motor 40 is inserted into the motor fastening portion 51 is rotatably connected, the bearing 32 connected to the other side of the brow fan 30 is installed as a bearing fastening portion 52 In the front, an evaporator 70 for heat exchange is installed.

Meanwhile, the assembly holes 60a of the first bracket 60 coincide with the assembly holes 51a formed above and below the front of the motor fastening part 51, and then fixed with screws. The second bracket 61 is fixed in the same manner as the first bracket 60 to prevent the blast fan 30 from being separated during operation.

In addition, the drain pan 20 has the first and second fixing pieces 21 formed in the drain pan 20 in the assembly holes 60a and 61a formed at the bottom when the first and second brackets 60 and 61 are fixed. The assembly holes 21a and 22a of (22) are matched and then fixed with a screw, and then the main body 10 is fixed with the body 50.

5 is a view for explaining the coupling state of Figure 4, after fixing the main body 10 in front of the body 50, the drain pan 20, the brow fan 30 and the evaporator 70 is installed, It is fixed to the wall to be installed.

Subsequently, one side of the air conditioner indoor unit is provided with a pipe 90 for moving the refrigerant gas and a drain hose 80 for discharging the condensed water.

In the air conditioner configured as described above, when power is supplied by the user's ON signal, a motor (not shown) starts driving, and accordingly, the brow fan 30 starts to rotate, and the compressor of the outdoor unit side is not shown. At this time, the refrigerant is compressed to high temperature and high pressure, and then circulated through the condenser and capillary to the evaporator 70 of the indoor unit to evaporate the double liquid refrigerant to absorb external heat.

Accordingly, the brow fan 30 is rotated, sucked into the interior space part, and then cooled by passing through the evaporator 70. The cooled indoor air is discharged into the room through the discharge part formed in the main body 10, thereby cooling the room. It is done.

On the other hand, the air conditioner collects condensed water generated by the heat exchange of the evaporator 70 installed in the indoor unit to the drain pan 20 and is discharged to the outside through the drain hose 80 again.

However, as described above, the condensed water generated by the heat exchange of the evaporator 70 is not completely discharged through the drain hose 80, but is accumulated in the drain pan 20, resulting in impurity and drain hose for discharging condensed water ( It is pointed out that it is necessary to extend and install 80) up to the part where the drain hole is located.

The present invention is to solve the above problems, the asbestos attached to the heating wire and the condensate detection sensor is mounted on the upper surface of the drain pan, the heating wire is installed to one side of the indoor unit body heater driving unit equipped with an over-current detection sensor It is an object of the present invention to provide an air conditioner condensate removal device and a control method thereof in which the heater unit can remove the driving condensate depending on the degree of gathering of the condensate.

The present invention provides a method for removing condensate from an air conditioner, wherein when the user turns on the operation switch of the air conditioner and the air conditioner performs normal operation, the condensed water collected in the drain pan is detected by the condensate detection sensor of the heater part to determine whether or not the predetermined amount is more than a predetermined amount. Stage 1; In the first step, if the amount of condensed water is equal to or greater than a predetermined amount, the controller controls the heater driver to remove power from the condensate supplied to the heater, and determines whether overcurrent is detected in the heater through an overcurrent sensor mounted on the heater driver. step; A third step of, when the overcurrent is detected in the heater in the second step, the controller cuts off the power supply to the control heater; A fourth step of determining whether the amount of condensed water is removed by a predetermined amount or less when the overcurrent is not detected by the heater in the second step; If the condensate is removed to a predetermined amount or less in the fourth step, the control unit has a fifth step of blocking the power supply to the control heater unit.

1 is a view for explaining a drain pan of an indoor unit equipped with a means according to the present invention,

Figure 2 is a block diagram schematically showing the configuration of the air conditioning condensate removal method according to the present invention,

3 is a flowchart illustrating a method for removing air conditioner condensate according to the present invention;

4 is an exploded perspective view for explaining an indoor unit of a general detachable air conditioner;

5 is a view for explaining the coupling state of FIG.

Explanation of symbols on the main parts of the drawing

20: Dray pan 100: heater driving unit

110: overcurrent detection sensor 200: heater

210: asbestos 220: heating wire

230: condensate detection sensor 400: control unit

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

1 is a view for explaining a drain pan of an indoor unit equipped with a means according to the present invention, the asbestos 210 having the heating wire 220 and the condensate detection sensor 230 is built into the upper surface of the draped pan 30 The heating wire 220 is attached to one side of the drain pan 30 and is connected to the heater driving unit 100 on which the overcurrent detection sensor 110 is mounted.

The drain pan 20 configured as described above is installed below the body 50 in a fastening manner as described in FIG. 3.

Figure 2 is a block diagram schematically showing the configuration of the air conditioner condensate removal method according to the present invention, the condensate detection sensor 230 mounted on the operation switch 300 and the asbestos 210 of the heater unit 200 for the air conditioner operation And an overcurrent detection sensor 110 attached to the heater driving unit 100 and detecting an overcurrent of the heater unit 200 is connected to the control unit 400, respectively.

In addition, a heater driving unit 100 for supplying power to the heater unit 200 for removing condensed water by a hot wire is connected to be controlled by the control unit 400.

Figure 3 is a flow chart for explaining the air conditioner condensate removal method according to the present invention, when the user turns on the operation switch 300 to operate the air conditioner (101), the control unit 400 is a compressor and a cooling fan according to the on signal And turn on the brow fan 30 to perform a normal cooling operation of the air conditioner (102).

Subsequently, the control unit 400 receives a detection signal corresponding to the amount of condensate gathered to the heater unit 200 of the drain pan 20 through the condensate detection sensor 230 and determines whether the detected amount of condensate is greater than or equal to a predetermined amount. This can be determined by detecting the amount of condensate penetrating into the asbestos 210 (102, 103).

Therefore, if the amount of condensed water collected in the heater unit 200 is greater than or equal to a predetermined amount, the controller 400 controls the heater driver 100 to supply power to the heating wire 220 of the heater unit 200 to remove the condensed water ( 104, it is determined whether the overcurrent flows to the heating wire 220 through the detection signal applied from the overcurrent detection sensor 110 connected to the heating wire 220 (105).

When the overcurrent detection signal is applied from the overcurrent detection sensor 110, the controller 400 controls the heater driver 100 to cut off the power supplied to the hot wire (106).

Meanwhile, when the overcurrent detection signal is not applied from the overcurrent detection sensor 110 when the condensate is removed through the heating wire 220, the controller 400 receives a predetermined amount of condensate through a detection signal applied from the condensate detection sensor 230. If it is determined to be removed below (107), if the amount of condensate water is removed below a certain amount, the controller 400 controls the heater driving unit 100 to cut off the power supply to the heater unit 200 (108).

As described above, the present invention forms a heater in the upper part of the drain pan and detects the amount of condensate collected in the heater, and when the condensate is collected in a predetermined amount or more, the condensed water can be removed through the heating wire of the heater to maintain cleanliness in the indoor unit. And it does not need a separate drain hose can achieve a reduction in labor during installation accordingly.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. .

Therefore, the technical protection scope of the present invention should be defined only by the appended claims.

Claims (2)

In an air conditioner indoor unit in which an evaporator 70, a brow pan 30, and a drain pan 20 are installed, an asbestos in which a hot wire 220 and a condensate detection sensor 230 are built in an upper surface of the drain pan 20 ( 210 is attached; The hot wire 220 is installed to one side of the drain pan 20, the air conditioner condensate removal device, characterized in that connected to the heater drive unit 100 is equipped with an overcurrent detection sensor (110). In the air conditioner condensate removal method, the user turns on the operation switch 300 of the air conditioner when the air conditioner performs a normal operation to the amount of condensate collected in the drain pan 20 through the condensate detection sensor 230 of the heater unit 200 First steps (101 to 103) for detecting whether or not a predetermined quantity or more is determined; If the amount of condensate in the first step is a predetermined amount or more, the control unit 400 controls the heater driving unit 100 to remove power from the condensate supplying power to the heater unit 200, and an overcurrent detection sensor mounted on the heater driving unit 100 ( A second step (104 to 105) of determining whether an overcurrent is detected in the heater unit 200 through 110; If an overcurrent is detected in the heater unit 200 in the second step, the control unit 400 blocks the power supply to the control heater unit 200 from the heater driving unit 100; If the overcurrent is not detected in the heater unit 200 in the second step, the control unit 400 determines whether the amount of condensed water is removed below a predetermined amount (107); When the condensate water is removed to a predetermined amount or less in the fourth step, the control unit 400 includes a fifth step 108 of cutting off the power supply to the control heater unit 200. How to remove condensate.