KR200243002Y1 - cooling device - Google Patents

Abstract

The present invention relates to a cooling device for controlling a room temperature by compressing and ejecting a refrigerant, and more particularly, to a cooling device capable of cooling a high-temperature, high-pressure refrigerant heat compressed by a compressor more quickly.

Conventional chiller structure has to be installed to contact the outdoors inevitably condenser that generates a high temperature has a lot of restrictions in the installation of the chiller, can not easily move the chiller once installed, the heat of the condenser only by the blower fan Conventional chiller structure for cooling the cooling effect is low when the outdoor temperature is high, in this case there is a problem that the efficiency of the entire cooling device is sharply lowered, the present invention is a compressor for compressing the refrigerant (1) A condenser 2 for cooling the heat of the refrigerant compressed by the compressor, an expansion valve 3 for ejecting the high pressure refrigerant passing through the condenser, and an evaporator 4 for radiating the cold air of the refrigerant ejected from the expansion valve. The condenser 2 is divided into a first condenser 21 and a second condenser 22, and a water tank 5 is formed outside the second condenser 22. By installing the condensed water 40 from the evaporator 4 to the inside of the water tank 5 to cool the heat of the refrigerant passing through the second condenser 22, the high temperature and high pressure Coolant heat can be rapidly cooled by the condensate from the evaporator and the wind from the blower fan to improve the cooling efficiency, and the condenser can be installed indoors by cooling the heat from the condenser quickly and effectively. The temperature of the room does not increase rapidly, which can solve the constraints caused by the installation of the chiller system and freely move the chiller system.

Description

Cooling device

The present invention relates to a cooling device for controlling a room temperature by compressing and ejecting a refrigerant, and more particularly, to a cooling device capable of cooling a high-temperature, high-pressure refrigerant heat compressed by a compressor more quickly.

In general, a cooling apparatus includes a compressor for compressing a refrigerant, a condenser for cooling the heat of the refrigerant compressed by the compressor, an expansion valve for ejecting a high pressure refrigerant passing through the condenser, and cool air of the refrigerant ejected from the expansion valve. It is composed of an evaporator that emits.

In such a cooling device, the efficiency of the cooling device depends on how quickly the high-temperature, high-pressure refrigerant heat passing through the compressor is cooled and liquefied in the condenser.

Conventional cooling apparatus has been installed in the outdoor condenser to cool the heat of the refrigerant of high temperature and high pressure, a blower fan is provided on one side of the condenser to cool the heat of the refrigerant passing through the condenser.

Such a conventional chiller structure inevitably has to be installed so as to be in contact with the outdoors inevitably has a lot of restrictions in the installation of the chiller, there was a problem that can not easily move the chiller once installed.

In addition, the conventional cooling device structure that cools the heat of the condenser using only the blower fan has a problem that if the blower fan does not have a large amount of air, the cooling effect is low, and if the airflow is increased, a severe noise is generated and the indoor installation cannot be used. .

The present invention is devised to solve the above-mentioned problems, the present invention allows the cooling of the refrigerant heat of the high temperature and high pressure state compressed by the compressor can be quickly cooled by the condensate generated in the evaporator and the wind generated in the blower fan for cooling efficiency It is an object of the present invention to provide a cooling device that can improve the efficiency.

The present invention is configured as follows to achieve the above object. That is, the present invention releases a compressor for compressing a refrigerant, a condenser for cooling the heat of the refrigerant compressed by the compressor, an expansion valve for ejecting a high pressure refrigerant passing through the condenser, and cool air of the refrigerant ejected from the expansion valve. A cooling device comprising an evaporator, wherein the condenser is divided into a first condenser and a second condenser, a water tank is installed outside the second condenser, and condensed water generated from the evaporator flows into the water tank. It is configured to cool the heat of the refrigerant passing through the second condenser.

1 is a block diagram showing a cooling device according to the present invention

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

1. compressor 2. condenser

3. Expansion valve 4. Evaporator

5. Water Tank 6. Auxiliary Tank

7. Level sensing means 8. Pump

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

1 is a block diagram showing a cooling apparatus according to the present invention.

As shown in FIG. 1, the present invention provides a compressor 1 for compressing a refrigerant, a condenser 2 for cooling the heat of the refrigerant compressed by the compressor, and an expansion valve for ejecting a high pressure refrigerant passing through the condenser. (3) and a cooling device comprising an evaporator (4) for releasing cold air of the refrigerant ejected from the expansion valve, wherein the condenser (2) is divided into a first condenser (21) and a second condenser (22). The water tank 5 is installed outside the second condenser 22, and the condensed water generated from the evaporator 4 flows into the water tank 5 to pass through the second condenser 22. It is configured to cool the heat of the refrigerant.

The water tank (5) is preferably provided with an auxiliary tank (6) for supplying a separate cooling water as well as condensate generated from the evaporator (4), when connecting the auxiliary tank (6) Self-sealing coupling (60) is installed between the (5) and the auxiliary tank (6) so that the water can communicate in each tank in the state in which the auxiliary tank (6) and the water tank (5) is connected, When separating the auxiliary tank (6) and the water tank (5) was configured to block the outlet of each tank.

In addition, to form a through-hole 50 for smooth air flow into the tank on one side of the water tank (5), install a water level sensing means (7) on the inner upper portion of the auxiliary tank (6), The highest water level detected was configured to be lower than the height of the through hole 50 of the water tank.

Various means may be used as the water level detecting means 7, and in the drawings of the present invention, a float 70 that is raised and lowered according to the change of the water level, and a switch 71 that is turned on / off as the float 70 is moved. ), A flashing light 73 that emits light by an electrical signal of the switch, a buzzer 72 for generating sound, and a switch 74 for turning on / off the power of the cooling device.

A spray nozzle 80 is installed in the water tank 5 to circulate the cooling water, and sprays the cooling water circulated by the pump 8 to the condenser 22 on the upper portion of the second condenser 22. ) Was installed.

Reference numeral 40 is a condensate tray for collecting condensate generated from the evaporator, and 41 is a tube for moving the water collected in the condensate tray to the water tank.

When the auxiliary tank 6 is connected to one side of the water tank, the present invention configured as described above introduces the water contained in the auxiliary tank 6 into the water tank 5 through the self-sealing coupling 60. .

When the cooling device is operated in such a state, the refrigerant is compressed by the compressor 1 to obtain high temperature and high pressure, and the refrigerant 8 flows into the second condenser 22 in the pump 8 and the injection nozzle 80. It is primarily cooled by water sprayed through.

The steam generated in the primary cooling process is moved to the second condenser 22 through the upper surface of the open water tank 5, dried and discharged by the blowing fan of the second condenser.

The refrigerant passing through the second condenser 22 is secondarily cooled by the wind by the blowing fan in the course of passing through the second condenser 22 and is ejected into the evaporator 4 through the expansion valve 3.

The refrigerant ejected into the evaporator 4 emits cold air, which is vaporization heat while vaporizing, and the vaporized refrigerant repeats a circulation operation introduced into the compressor 1.

Condensed water is generated in the evaporator 4 to discharge cold air, and the condensed water is collected in the condenser receiver 40 installed under the evaporator 4, and then flows into the water tank 5 through the pipe 41.

The amount of condensate generated depends on the ambient humidity, and when the humidity around the evaporator is high, a large amount of condensate is generated.

When a large amount of condensed water is introduced into the water tank 5, the water level in the water tank 5 is increased, and the water level in the auxiliary tank 6 communicated with the self-sealing coupling 60 is also raised.

As the water level in the auxiliary tank 6 rises due to the continuous inflow of condensate, the float 70 rises along the rising water surface and contacts the switch 71, and the buzzer 72 and the flashing light 73 contact the switch 71. ) Is operated at the same time to warn that the auxiliary tank (6) is full.

When the water level warning is detected, the auxiliary tank 6 is separated from the water tank 5 to remove the water in the auxiliary tank 6 and then connected to the water tank 5 again.

Even though there is a warning, if the auxiliary tank is not removed, the cooling device switch 74 is turned off to stop all operations of the cooling device to block the problem of overflowing water.

The present invention is not limited to the above-described embodiments and can be carried out in various modifications within the range allowed by the technical idea of the present invention.

As described above, according to the present invention, the refrigerant heat of the high temperature and high pressure state compressed by the compressor can be rapidly cooled by the condensate generated by the evaporator and the wind generated by the blower fan, thereby improving the cooling efficiency, which is generated by the evaporator. By reusing the cold condensate, it is possible to save energy by not using a pump for forced discharge of the condensate, and to reduce the inconvenience of frequently discarding the collected condensate.

In addition, as the heat generated from the condenser is cooled quickly and effectively, even if the condenser is installed in the room, the temperature of the room does not increase rapidly, which can solve the constraints caused by the installation of the chiller device. There is an effect that can be moved freely.

Claims (3)

A compressor (1) for compressing the refrigerant, a condenser (2) for cooling the heat of the refrigerant compressed by the compressor, an expansion valve (3) for ejecting a high pressure refrigerant passing through the condenser, and a refrigerant ejected from the expansion valve In the cooling device consisting of an evaporator (4) for radiating heat of cold air, the condenser (2) is divided into a first condenser (21) and a second condenser (22), the outside of the second condenser (22) The water tank 5 is installed, and the condensed water 40 generated from the evaporator 4 flows into the water tank 5 to cool the heat of the refrigerant passing through the second condenser 22. Cooler characterized in that configured. According to claim 1, wherein the auxiliary tank (6) is connected to the water tank (5), on one side of the water tank (5) to form a through hole for the air flow into the tank, the water tank (5) Cooling device, characterized in that the self-sealing coupling (60) is installed between the auxiliary tank (6) and the water level sensing means (7) is installed on the inner upper portion of the auxiliary tank (6). The water tank (5) is provided with a pump (8) for circulating cooling water, and the cooling water circulated by the pump (8) on the upper part of the second condenser (22). 22) Cooling apparatus, characterized in that configured to install a spray nozzle (80) to spray.