KR100345006B1 - dewy prevention apparatus of air conditioner and method thereof - Google Patents

Abstract

The present invention relates to an apparatus for preventing dew formation of an air conditioner, and a method thereof, comprising: an air inlet for sucking air, an air outlet for discharging air, and a wind vane for controlling air direction of air discharged through the air outlet In the indoor unit of the conditioner, the humidity sensor for sensing the humidity of the air sucked through the intake port, and receiving the detection signal of the humidity sensor and compares whether the room humidity is above a predetermined predetermined humidity, if the predetermined humidity is above the wind direction Control means for outputting a control signal for fixing the position of the wing at a predetermined angle, and the wind direction control means for moving the position of the wind direction blade at a predetermined maximum air volume discharge angle according to the control signal of the control means, If the humidity is detected and above a certain humidity, the wind vane is positioned at a horizontal angle that is parallel to the upper surface of the discharge port. It was defined so facilitate the discharge of the discharge air to reduce the amount of dew temperature may cause problems in the indoor unit front.

Description

Dew prevention apparatus of air conditioner and method thereof

The present invention relates to a separate type air conditioner for heating and cooling operation, and in particular, to detect the indoor humidity and to fix the position of the wind vane at a horizontal angle parallel to the upper side of the discharge port when the humidity is above a predetermined humidity to reduce the amount of dew formed on the front of the indoor unit. It relates to an apparatus for preventing dew formation of an air conditioner and a method thereof.

In general, the indoor unit 1 of the separate type air conditioner, as shown in FIG. 1, forms an intake port 3 that sucks indoor air in the upper part of the front side, and discharges heat-exchanged air (cold or warm air) in the lower part of the front side. The discharge port 5 is formed, and the air discharge vane 7 is provided in the discharge port 5 to adjust the direction of the discharged air up and down.

Inside the suction port 3, a linear indoor heat exchanger 9 is provided for exchanging indoor air sucked into cold or warm air by latent heat of evaporation of the refrigerant, and a lower portion of the rear side of the indoor heat exchanger 9 is provided. An indoor fan 11 is installed to suck indoor air through the intake port 3 and to discharge air heat-exchanged in the indoor heat exchanger 9 to the room through the discharge port 5.

In addition, a duct member 13 is installed at the rear side of the indoor heat exchanger 9 to guide the flow of air sucked through the suction port 3 and discharged to the discharge port 5, and the indoor heat exchanger ( In the lower part of 9), the moisture in the air generated by the mixing of the cold air and the indoor air discharged when the indoor air sucked through the inlet 3 is heat-exchanged in the indoor heat exchanger 9, that is, the defrost water The drain 15 which collects in one place and drains to the outside is provided.

In the air conditioner configured as described above, the user operates a remote control (not shown) to press the operation / stop key (hereinafter referred to as the operation key), and then the desired operation mode (for example, cooling) and the set temperature (Ts), When the set wind direction and the set wind volume are input, the position of the wind vane 7 is adjusted according to the set wind direction, and at the same time, the indoor fan 17 rotates according to the set wind volume, and the indoor air starts to be sucked into the indoor unit 1.

At this time, if the temperature of the indoor air sucked into the indoor unit (1) is detected by a temperature sensor (not shown) in the indoor unit (1), the indoor unit (1) compares the set temperature (Ts) and the room temperature (Tr) to the room temperature ( When Tr) is higher than the set temperature Ts, the compressor (not shown) is turned on.

When the compressor is turned on, the indoor heat exchanger 9 is cooled according to the circulation of the refrigerant, so that the indoor air sucked into the indoor unit 1 is heat-exchanged with cold air while passing through the indoor heat exchanger 9 to guide the duct member 13. Received and discharged into the room through the discharge port 5, the cold air discharged through the discharge port 5 performs the cooling operation while the wind direction is adjusted by the wind direction angle of the wind direction blade 7 whose position is adjusted according to the set wind direction. .

At this time, dew is formed on the front surface of the indoor unit 1 by mixing cold air discharged by heat exchange in the indoor heat exchanger 9 and indoor air sucked through the inlet 3 from the outside, and the dew forms the indoor unit 1. It flows along the front of the down and is collected by the drain 15 is drained to the outside.

By the way, in the cooling operation of the conventional air conditioner, the position of the wind vane 7 is adjusted according to the user's set wind direction, when the cooling operation with the wind vane 7 as the highest direction under high humidity conditions discharged Due to the mixing of cold air and external air, a large amount of dew is formed on the front of the indoor unit 1, and there is a problem in that short-circuit failure of circuit components, dropping of water droplets, etc. are caused by this large amount of dew.

Accordingly, the present invention has been made in order to solve the above-mentioned conventional problems, and when the indoor humidity is detected and the predetermined humidity is above a certain humidity, the position of the wind vane is fixed at a horizontal angle that is parallel to the upper surface of the discharge port to discharge the discharged air. The purpose of the present invention is to provide an apparatus and a method for preventing dew formation of an air conditioner, which reduces the amount of dew formed on the front of an indoor unit.

In order to achieve the above object, a dew condensation preventing device of an air conditioner according to the present invention includes an air inlet for sucking air, an air outlet for discharging air, and a wind vane for controlling the air direction of the air discharged through the air outlet. In the indoor unit of an air conditioner, if the humidity sensor for detecting the humidity of the air sucked through the inlet and the detection signal of the humidity sensor is received by comparing the indoor humidity is above a predetermined predetermined humidity or more than a predetermined humidity Control means for outputting a control signal for fixing the position of the wind vane at a predetermined angle, and the wind direction control means for moving the position of the wind vane at a predetermined maximum air volume discharge angle in accordance with the control signal of the control means. It is characterized by.

In addition, the dew condensation prevention method of the air conditioner according to the present invention, the indoor unit operating method of the air conditioner for controlling the air direction of the air discharged by the wind vane when heat exchanged by the air suctioned through the suction port and discharged through the discharge port In the indoor humidity sensing step of detecting the humidity of the air sucked through the inlet and the humidity detected in the indoor humidity detection step by comparing the predetermined humidity with a predetermined predetermined humidity to determine whether the indoor humidity is above the predetermined humidity When the indoor humidity is above a predetermined humidity in the determining step and the humidity discriminating step, it is characterized in that the dew direction prevention step for smoothing the flow of the discharged air by fixing the position of the wind direction blade at a predetermined maximum air flow discharge angle.

1 is a side cross-sectional view of a state in which an indoor unit of a conventional air conditioner is installed on a wall surface;

Figure 2 is a side cross-sectional view of the indoor unit of the air conditioner according to the present invention installed on the wall surface,

3 is a control block diagram of an apparatus for preventing dew formation of an air conditioner according to an embodiment of the present invention;

Fig. 4 is a flow chart showing the operation procedure of the dew preventing control of the air conditioner according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: indoor unit 3: inlet

5: discharge port 7: wind direction blade

17: humidity sensor 104: control means

108: indoor humidity detection means 112: wind direction control means

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

About the same part as a conventional structure, the description which overlaps by specifying the same name and the same code | symbol is abbreviate | omitted.

As shown in FIG. 2, an inner side of the inlet 3 is provided with a humidity sensor 17 for detecting humidity of indoor air sucked through the inlet 3.

As shown in FIG. 3, the power supply means 100 converts a commercial AC voltage into a predetermined DC voltage, and outputs the same. The operation operation means 102 is an air conditioner operation mode (automatic, cooling, heating, dehumidifying, And a plurality of keys for inputting the set air volume, the set air volume, the set wind direction, the set temperature Ts, and the operation / stop of the air conditioner.

Then, the control means 104 receives the detection signal of the humidity sensor 17 and compares whether the indoor humidity is above a predetermined predetermined humidity, and then whether the probability of dew condensation on the front of the indoor unit 1 is high or low. By judging, the position of the wind vane 11 is controlled.

The indoor temperature detecting means 106 detects the temperature Tr of the indoor air sucked through the suction port 3, and the indoor humidity detecting means 108 measures the humidity of the indoor air sucked through the suction port 3. It is composed of a humidity sensor 17 and the like to detect and output to the control means 104.

In addition, the compressor driving means 110 drives the compressor 111 on / off according to the comparison result of the set temperature Ts and the room temperature Tr, and the wind direction adjusting means 112 discharges the outlet 5 according to the set wind direction. While controlling the direction of the air discharged through the () and at the same time the indoor humidity (Hr) is above the predetermined humidity (Hs), the upper surface (ⓐ) of the discharge port 5 and the width direction surface (ⓦ) of the wind vane (7) The wind direction blade 7 is moved by driving the stepping motor 113 by receiving the pulse signal output from the control means 104 so as to be parallel.

The outdoor fan motor driving means 114 drives the outdoor fan 115 on / off according to the comparison result of the set temperature Ts and the room temperature Tr, and the indoor fan motor driving means 116 is an indoor heat exchanger ( The indoor fan 11 is turned on / off by controlling the rotation speed of the indoor fan motor 117 according to the set air volume so as to blow air (cold or hot air) heat exchanged in 9) into the room.

In addition, the display means 118 is the operation selection mode (automatic, cooling, dehumidification, blowing, heating, etc.) input by the driving operation means means 102 and the temperature and time, etc. under the control of the control means 104. Is displayed.

Hereinafter, the effect of the dew condensation prevention device and the method of the air conditioner configured as described above will be described.

FIG. 4 is a flowchart showing the operation procedure of the anti-wrinkle control of the air conditioner according to the present invention, in which S denotes a step.

First, when power is applied to the air conditioner, the power supply means 100 converts a commercial AC voltage into a predetermined DC voltage and outputs it to each driving circuit and the control means 104.

Therefore, in step S1, the DC voltage output from the power supply means 100 is input from the control means 104 to initialize the air conditioner.

At this time, the user operates the operation operation unit 102 (key input unit or remote control provided on the indoor control panel) and presses the operation / stop key, and then the operation mode (for example, cooling) and the set temperature of the desired air conditioner. When Ts, the set wind amount and the set wind direction are input, an operation selection signal and an operation start signal (hereinafter referred to as a driving signal) are input to the control means 104.

Accordingly, in step S2, the control means 104 determines whether the driving signal is input from the driving operation means 102, and if the driving signal is not input (NO), the control means 104 keeps the air conditioner in the operation standby state. Repeat the operation below S2.

As a result of the discrimination in step S2, when the operation signal is input (YES), the control means 104 proceeds to step S3 to perform the cooling operation of the air conditioner, and the control means 104 supplies a control signal for driving the indoor fan 11. Output to the indoor fan motor driving means 116 and at the same time outputs a drive pulse for moving the wind vane 7 to the open position to the wind direction adjusting means (112).

Therefore, the indoor fan motor driving means 116 controls the rotation speed of the indoor fan motor 117 according to the set air volume to turn on the indoor fan 11, and the wind direction adjusting means 112 outputs from the control means 104. The wind vane 7 mounted on the rotating shaft of the stepping motor 113 is moved to an open position by rotating the stepping motor 113 by receiving the driving pulse to be opened to open the wind vane 7.

When the indoor fan 11 is turned on, indoor air starts to be sucked into the indoor unit 1, and at this time, the indoor temperature sensing means 106 detects the temperature Tr of the indoor air sucked into the indoor unit 1. .

At this time, in step S4, it is determined whether a predetermined time (delay time for protecting the compressor, about 3 minutes) has elapsed, and if the predetermined time has not elapsed (NO), the operation of step S4 or less until the predetermined time elapses Repeat

As a result of the discrimination in step S4, when a predetermined time elapses (YES), the control means 104 advances to step S5, whereby the control unit 104 detects that the room temperature Tr sensed by the room temperature sensing means 106 is a set temperature Ts. If the indoor temperature Tr is not greater than the set temperature Ts (NO), the process returns to the step S4 while waiting for the operation operation of the outdoor unit, and repeats the operation of the step S4 or less.

As a result of the discrimination in step S5, if the room temperature Tr is greater than the set temperature Ts (YES), the control means 104 drives the compressor 111 and the outdoor fan 115 to the step S6. The control signal is output to the compressor driving means 110 and the outdoor fan motor driving means 114.

Therefore, the compressor driving means 110 receives the control signal output from the control means 104 to drive (on) the compressor 111 and the outdoor fan motor driving means 114 is output from the control means 104. The outdoor fan 115 is driven (on) by receiving a control signal.

When the compressor 111 and the outdoor fan 115 are turned on, the indoor heat exchanger 9 is cooled according to the circulation of the refrigerant, and thus, at step S7, the indoor air sucked into the indoor unit 1 by the rotational force of the indoor fan 11 is performed. Is heat-exchanged with cold air while passing through the indoor heat exchanger (9) and is guided by the duct member (13) to be discharged into the room through the discharge port (5), the cold wind discharged through the discharge port (5) is a wind vane (7) Air conditioning is controlled according to the wind direction angle of the room to perform the cooling.

At this time, dew is formed on the front surface of the indoor unit 1 by mixing cold air discharged by heat exchanged from the indoor heat exchanger 9 and indoor air sucked through the suction port 3 from the outside. 3) detects the humidity (Hr) of the indoor air sucked into the indoor unit (1) through the humidity sensor (17).

Accordingly, in step S9, the control means 104 receives the analog data of the signal sensed by the humidity sensor 17 and converts it into digital, and then the indoor humidity Hr is set to a predetermined constant humidity Hs; The humidity of the dew drops).

As a result of the determination in step S9, if the indoor humidity Hr is not equal to or above the predetermined humidity Hs (NO), it is determined that the probability of dew condensation on the front of the indoor unit 1 is low, and the control means 104 proceeds to step S91. Returns to the step S8 while adjusting the position of the wind vane 7 according to the set wind direction, and repeats the operation of step S8 or less.

On the other hand, as a result of the determination in step S9, if the indoor humidity Hr is equal to or higher than the predetermined humidity Hs (YES), it is determined that the dew is likely to form on the entire surface of the indoor unit 1, and the control means 104 proceeds to step S10. ) Outputs a driving pulse to the wind direction control means 112 to move the position of the wind vane 7 to a horizontal angle (maximum air volume discharge angle) which is a position parallel to the upper surface ⓐ of the discharge port 5.

Therefore, the wind direction adjusting means 112 receives the driving pulse output from the control means 104 and rotates the stepping motor 113 to parallel the position of the wind direction blade 7 with the upper surface ⓐ of the discharge port 5. It moves to a horizontal angle, which is a position, so that the upper surface ⓐ of the discharge port 5 and the width direction surface of the wind vane 7 are parallel, so that the air discharged through the discharge port 5 is smoothly operated as much as possible. (1) Reduce the amount of dew on the front.

Subsequently, in step S11, the operation key of the operation operation means 102 is turned off to determine whether the operation stop signal is input to the control means 104, and if the operation stop signal is not input (NO), the process returns to step S8. To continuously detect the indoor humidity Hr and repeat the operation of step S8 or below.

As a result of the determination in step S11, when the operation stop signal is input (YES), the control means 104 turns off the compressor 111, the outdoor fan 115, and the indoor fan 11 by air-conditioning. After the air cooling operation is stopped, the control means 104 outputs the driving pulse to the wind direction adjusting means 112 so that the wind vane 7 moves to the closed position.

Therefore, the wind direction adjusting means 112 receives the driving pulse output from the control means 104 and rotates the stepping motor 113 to move the wind vane 7 to the closed position to close the wind vane 7 completely. End the operation.

As described above, according to the apparatus for preventing dew condensation of the air conditioner according to the present invention and the method thereof, if the indoor humidity is detected and the predetermined humidity is equal to or greater, the position of the wind vane is fixed at a horizontal angle which is a position parallel to the upper side of the discharge port. This facilitates the discharge of the discharged air, thereby reducing the amount of dew that forms on the front of the indoor unit.

Claims (3)

In the indoor unit of the air conditioner having a suction port for sucking air, a discharge port for discharging air, and a wind direction blade for adjusting the wind direction of the air discharged through the discharge port, Humidity sensor for detecting the humidity of the air sucked through the inlet, A control means for receiving the detection signal of the humidity sensor and comparing whether the indoor humidity is above a predetermined predetermined humidity and outputting a control signal for fixing the position of the wind vane at a predetermined angle when the indoor humidity is above a predetermined humidity; An apparatus for preventing dew condensation of an air conditioner according to a control signal of the control means, the wind direction adjusting means for moving the position of the wind vane at a predetermined maximum air volume discharge angle. The method of claim 1, The maximum air flow rate of discharge angle is the dew condensation preventing device of the air conditioner, characterized in that the width direction surface (ⓦ) of the wind direction blade is a position parallel to the upper surface (ⓐ) of the discharge port. In the indoor unit operating method of the air conditioner for controlling the wind direction of the air discharged by the wind vane when the heat sucked through the suction port to discharge through the discharge port, Indoor humidity detection step for detecting the humidity of the air sucked through the inlet, A humidity judging step of judging whether the indoor humidity is above a predetermined humidity by comparing the indoor humidity detected in the indoor humidity detecting step with a predetermined predetermined humidity; Dew condensation of the air conditioner, characterized in that if the indoor humidity in the humidity discrimination step is above a certain humidity, the dew direction is prevented to smooth the flow of the discharge air by fixing the position of the wind vane at a predetermined maximum air flow discharge angle. Prevention method.