KR100381946B1 - Device for drying condensation water of air conditiner - Google Patents

Abstract

The present invention relates to an air conditioner in an industrial electric / electronic control device. In the related art, when a condensate accumulated in an external bucket cannot be discarded periodically, water overflows from the bucket, or when the drainage is not performed properly. As water accumulates inside the air conditioner, it changes the temperature and humidity inside the air conditioner, resulting in a fatal failure of the electric and electronic circuits in the electric and electronic controller.

Therefore, the present invention, by installing a bucket having a detection sensor for detecting the condensate level so that the condensate generated in the heat exchanger is high, and by embedding an electric heater on the bottom or side, the condensate generated from the heat exchanger When the water level of the drained condensate reaches the proper level, the electric heater formed inside the water tank generates condensate by heating the condensate when the level of the drained condensate reaches the proper level. Water vapor is discharged to the outside through the outdoor fan of the heat exchanger to prevent condensate generated from the air conditioner from overflowing to the room, and to prevent temperature and humidity changes inside the air conditioner, It provides a condensate drying device of an air conditioner to prevent failure.

Description

Device for drying condensation water of air conditiner

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner in an industrial electric / electronic control device. In particular, after condensate generated in a heat exchanger is collected into a bucket, the level of the bucket is sensed to detect the level of the bucket, and thus, when the proper level is reached, The present invention relates to a condensate drying apparatus of an air conditioner, which heats an electric heater to boil condensed water in a bucket and discharges water vapor generated at this time to the outside through the heat exchanger to prevent the condensed water generated from the heat exchanger from overflowing to the interior.

As is well known, the air conditioner has a compressor (1), a condenser (2), a capillary tube (not shown), and a heat exchanger (evaporator) 3 constituting the refrigeration cycle, as shown in Figs. It is arranged in a connected state to form a closed circuit.

Then, when the operation of the air conditioner starts and the compressor 1 is operated, a gaseous refrigerant having a high temperature and high pressure flows into the condenser 2, and the outdoor air blown by the outdoor fan 4 in the condenser 2. The refrigerant is condensed by heat exchange.

The refrigerant condensed as described above is depressurized in the capillary tube and then flows into the heat exchanger (3). The refrigerant introduced into the heat exchanger (3) deprives heat from the indoor air and evaporates. 5) is ventilated back indoors.

At this time, the surface of the heat exchanger (3) condenses the water contained in the indoor air in the form of a condensation, and condensed water formed on the surface of the heat exchanger (3) is collected in the water reservoir (6) after It is discharged to the outside through the water hose (7) or connected to a separate bucket provided with the water hose (7) to the outside so that the drainage is made.

However, the air conditioner structure which discharges the condensed water generated in the heat exchanger 3 to the outside through the water hose 7 or discharges it to a separate bucket as described above, condensed water accumulated in the external bucket periodically If it is not possible to throw away the water from the bucket, or if the drainage is not done properly, the water will accumulate inside the air conditioner and change the temperature and humidity inside the air conditioner. Followed by a closure that caused catastrophic failure of the panel's electrical and electronic circuits.

Therefore, the present invention has been made to solve the conventional problems as described above, an object of the present invention, after installing a bucket having a detection sensor for detecting the condensate level so that the condensate generated in the heat exchanger is high (the bottom surface) Or by installing electric heater on the side), the condensate generated from the heat exchanger is drained into the bucket through the water container, and when the level of the drained condensate reaches the proper level, The electric heater formed on the bottom surface heats the condensate to generate water vapor. At this time, the condensate generated from the air conditioner overflows into the room by discharging water vapor generated from the heating of the condensate to the outside through the outdoor fan of the heat exchanger. In addition, it prevents temperature and humidity changes inside the air conditioner and prevents the failure of the electronic panel installed therein. Intended to provide a condensate drying unit of the air conditioner.

1 is a general state in which an air conditioner is mounted on an industrial electric / electronic control device.

Figure 2 is a block diagram showing the structure of a conventional air conditioner applied to the industrial electrical and electronic control device.

Figure 3 is a block diagram showing the structure of an air conditioner applied to the electric and electronic control autonomy as an embodiment of the present invention.

Figure 4 is a configuration of the condensate water level detection sensor applied to the bucket of the air conditioner in one embodiment of the present invention.

* Explanation of symbols on the main parts of the drawings *

One ; Compressor 2; Condenser

3; Heat exchanger 4; Outdoor side 휀

5; Indoor side 휀 6; Water container

7; Water hose 8; hose

10; Bucket 10a; Scatter hole

20; Water level detection sensor 30; Heater control unit

40; Electric heater

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

For reference, the drawings referred to below will be described with the same reference numerals for the same parts as in the prior art for convenience of description.

3 is a configuration diagram showing a structure of an air conditioner applied to an electric and electronic control autonomous as an embodiment of the present invention, Figure 4 is a condensate water level detection applied to the bucket of the air conditioner according to an embodiment of the present invention The configuration of the sensor.

As shown in FIGS. 3 and 4, the compressor 1, the condenser 2, the capillary tube (not shown), and the heat exchanger (evaporator) 3 are connected to each other so as to form a closed circuit by a pipe to form a refrigeration cycle. In air conditioners,

Collecting the condensed water of the refrigerant generated from the evaporation of the heat exchanger (3) to the water reservoir (6), the water reservoir (6) and the water to store the condensed water collected by the water reservoir (6) A bucket 10 connected through a hose 7;

A water level detection sensor 20 formed at one side of the bucket 10 to detect a level of condensate stored through the water hose 7;

A heater controller (30) which performs a control operation to enable power supply according to the water level detection signal of the condensate detected by the water level detection sensor (20);

It is formed on the inner bottom surface (or side) of the water tank 10, the condensed water stored in the water tank 10 in accordance with the power supplied in the control of the heater control unit 30 by heating from the outdoor side (4) An electric heater 40 which lowers the water level after generating water vapor discharged to the outside; It consists of.

Here, since the water vapor emitted from the outdoor side (4) to the outside does not change into water droplets while hitting the air at the same time as the external release, the disadvantages of the conventional spray method or ultrasonic method (the water particles are larger than the steam, so again from the outside Phenomenon of reducing water droplets).

In addition, the water level detection sensor 20 is preferably using a float type detection sensor, the electric heater 40 is excellent in power reduction and safety functions as the current supplied is significantly reduced when the self-heating more than It is preferable to use a PTC heater having an effect, and the bucket 10 is preferably seated in the interior of the air conditioner and forms scattering holes 10a in one side thereof in case condensate exceeds an appropriate level. .

In addition, by connecting the hose 8 to the scattering hole (10a) when the condensed water in the water tank 10 exceeds the appropriate level may be drained to the outside through the hose (8).

Referring to Figures 3 and 4 attached to the operation of an embodiment of the present invention configured as described above are as follows.

First, when the condensate of the refrigerant generated from the evaporation of the heat exchanger (3) is collected into the water reservoir (6), the water reservoir (6) is provided with a water hose (7) to store the collected condensate. Connect the bucket (10) through.

Then, after installing a float type water level detection sensor 20 for detecting the level of the condensate stored through the water hose (7) on one side of the bucket (10), the heater on the side of the bucket (10) The electric heater 40 is installed according to the power supplied from the controller 30.

Thereafter, when the operation of the air conditioner starts and the compressor 1 is operated, a gaseous refrigerant having a high temperature and high pressure flows into the condenser 2, and the outdoor condenser 2 is blown by the outdoor side 4 4. The refrigerant is condensed by heat exchange with air.

The condensed refrigerant is decompressed in a capillary tube and then introduced into the heat exchanger (3). In the heat exchanger (3), the introduced refrigerant takes heat from the indoor air and evaporates the cooled indoor air. Blow into the room through (5).

On the other hand, the surface of the heat exchanger (3) is condensed and formed by the water contained in the steam in the indoor air,

Condensed water formed on the surface of the heat exchanger (3) is collected in the water container (6) and then discharged to the water tank (10) through the water hose (7).

At this time, the water level detection sensor 20 formed on one side of the bucket 10 detects the level of condensate stored in the bucket 10 through the water hose 7,

When the water level of the water tank 10 detected by the water level detection sensor 20 exceeds an appropriate water level, the water level detection sensor 20 outputs the water level detection signal to the heater controller 30.

If the heater control unit 30 is broken, the condensed water in the bucket 10 is discharged to the outside by the hose 8 connected to the scattering hole 10a.

In addition, the heater controller 30 performs a control operation to enable power supply according to the water level detection signal of the condensate detected by the water level detection sensor 20, and the power supplied from the control of the heater controller 30. As the electric heater 40 formed on the side of the bucket 10 is heated to boil the condensed water stored inside the bucket 10.

At this time, the condensed water is generated when the condensed water is boiled from the heating of the electric heater 40, the water level of the condensed water stored in the water tank 10 is lowered, the water level detection sensor 20 is reduced to the original position Of course, the heater control unit 30 is to stop the heating operation of the electric heater (40).

On the other hand, the water vapor generated from the heating of the electric heater 40 is externally discharged from the outdoor fan (4) of the air conditioner,

Since the water vapor emitted from the outdoor side (4) to the outside does not turn into water droplets while colliding with the air at the same time as the external discharge, the disadvantages of the conventional spray method or ultrasonic method (the water particles are larger than the steam, so from the outside to the water droplets again) Reducing phenomenon).

As described above, the present invention installs a bucket having a detection sensor for detecting the condensate level so that the condensate generated in the heat exchanger is high, and then embeds an electric heater in the bottom thereof, thereby collecting the condensate generated from the heat exchanger. When the condensed water level reaches the proper level, the electric heater formed on the side of the water tank generates condensate by heating the condensate when the condensed water level reaches the proper level. To prevent the condensate generated from the air conditioner from overflowing to the room through the outdoor side of the heat exchanger, and to prevent temperature and humidity changes inside the air conditioner. It provides the effect of preventing failure of electronic panel.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (1)

Compressor, condenser, capillary tube, and heat exchanger are arranged to form a closed circuit by a pipe to constitute a refrigeration cycle, and to collect condensate of refrigerant generated from the evaporation of the heat exchanger into a water container. In air conditioners, Inside the air conditioner to form a bucket for receiving and storing the condensed water collected by the water container through the water hose, On one side of the bucket is formed a float type water level detection sensor for detecting the storage level of the condensate when the condensate is stored through the water hose, One end of the air conditioner is provided with a heater control unit for controlling the power supply in accordance with the water level detection signal of the condensate detected by the water level detection sensor, A PTC heater inside the water tank to heat the condensed water stored in the water tank when the power is supplied from the control of the heater controller to generate water vapor discharged from the outside to the outside, and to lower the water level; Condensate drying device of the air conditioner, characterized in that to form.