KR20200027781A - Heat exchanger and Air conditioning system Using the heat exchanger - Google Patents

Abstract

The present invention relates to a heat exchanger and an air conditioning system using the same, wherein the heat exchanger is installed inside a casing so that a plurality of intake lines and exhaust lines can be separated and cross each other to allow exhaust air containing indoor heat and intake air containing external heat to be introduced while being heat-exchanged. Moreover, each of heat transfer plates is installed inside the intake lines or the exhaust lines so as to easily absorb the heat of the air being introduced or discharged, respectively, and a drain line is integrally provided to supply moisture to the heat transfer plates from the top of the casing.

Description

Heat exchanger and air conditioning system using the heat exchanger

The present invention is installed on the inside of the casing so that a plurality of intake lines and exhaust lines are separated and cross each other so that the intake air including the amount of heat in the room and the intake air including the amount of heat of the outside air exchange heat. A heat exchanger plate is installed to easily absorb the amount of air flowing in or out of the line, and a heat exchanger is provided with a drain line integrally to supply moisture to the heat transfer plate from the top of the casing and an air conditioning system using the same will be.

A heat exchanger is a device that transfers heat from a fluid having a high temperature to a fluid having a low temperature through a heat transfer wall, and is used in a heater, a cooler, an evaporator, and a condenser.

In addition, such a heat exchanger is used for heating and cooling by using the heat-dissipating (refrigerant, 熱 媒) or absorbing (refrigerant, 冷 媒) heat according to the heat transfer medium.

In general, a cooling device installed in an air conditioner, a refrigerator, etc. is composed of a compressor, a condenser, an expansion valve, and an evaporator. It cools the air by absorbing heat from ambient air using a refrigerant. The most important part is an evaporator that absorbs heat. can do.

In addition, since the evaporator is supplied with a liquid refrigerant in a gaseous state through a expansion valve in the condenser, and the refrigerant in the gaseous state is in a low temperature state, the evaporator is in the surrounding air by a cooling fin placed on the outer circumference of the refrigerant pipe through which the refrigerant circulates. It absorbs heat to cool the air.

Since the performance of the evaporator to cool the air is determined by the material of the cooling fin and the contact area, the cooling fin is made of metal with a high heat transfer coefficient and forms the contact area to the maximum to absorb as much heat as possible from the surrounding air. It is desirable.

Related to this technology, the technology of a water-cooled evaporator has been proposed in the conventional patent No. 1390649, and the configuration may further include a cooling fan 30 provided around the cooling fin 1, as shown in FIG. 1. The cooling fan 30 may lower the temperature of the cooling fin 1, increase the contact efficiency of the cooling fin 1 and water particles, and provide a pump for supplying cooling water to the sprinkler 20 ( 40) and the piping is installed, may further include a cooling water filter 50 provided at the bottom of the cooling fin (1).

In addition, the cooling fin 1 includes a metal fiber nonwoven fabric 2 and a mesh network 3 supporting the metal fiber nonwoven fabric 2, and the cooling water filter 50 contacts the cooling fin 1 It is located at the top of the reservoir to collect the used cooling water, and then filter the used cooling water and use it again.

However, the water-cooled evaporator as described above has a drawback in that it is impossible to control the humidity of the air itself introduced into the configuration for transferring the heat of the refrigerant coil 6 to the outside through the cooling plate or to transfer heat.

In order to achieve the above object, the present invention enables efficient heat exchange during the four seasons, increases the cooling effect as well as increases the heat recovery rate, enables the filtering effect as well as the implementation of the ventilation effect during the four seasons, periodic It is to provide a heat exchanger that enables cleaning and an air conditioning system using the same.

In order to achieve the object, the present invention is installed inside the casing so that a plurality of intake lines and exhaust lines are separated and cross each other so that the intake air containing the amount of heat in the room and the intake air containing the amount of heat of the outside air exchange heat. Heat exchanger is installed in each of the intake line or exhaust line to easily absorb the amount of heat flowing in or out of the intake line or exhaust line, and the heat exchanger is integrally provided with a drain line to supply moisture to the heat transfer plate from the top of the casing. to provide.

In addition, the heat exchanger of the present invention, the drain line is installed in the central portion is installed to supply each to the intake line or the exhaust line through the branch line, the partition plate of the branch line is installed to be installed to supply the divided water to both sides. , The heat transfer plate provides a heat exchanger to which the flocking cloth is integrally attached while forming protruding plates on both sides of the heat sink through a plurality of incision lines separated from each other on the metal plate.

In addition, the heat exchanger of the present invention is provided with a plurality of casings having an intake line and an exhaust line extending integrally to the side surfaces, and the casing provides a heat exchanger provided with drain lines, respectively.

On the other hand, the present invention heat exchange through the heat pump consisting of a cooling unit or a heating unit to the outside air flowing in the air conditioning system for introducing the outside air into the room through the ventilation fan and exhaust fan or discharge the inside air to the outside This is installed, one or more heat exchangers are installed in the air conditioning system, and heat transfer plates are respectively installed to easily absorb the heat of the air flowing in or out of the intake line or exhaust line of the heat exchanger, and at the top of the casing An air conditioning system using a heat exchanger in which a drain line is integrally provided to supply moisture to a heat transfer plate is provided.

As described above, according to the present invention, efficient heat exchange is possible during the four seasons, the cooling effect is increased, the heat recovery rate is increased, the filtering effect, and the ventilation effect requiring efficient cooling and heat recovery during the four seasons can be implemented, The effect is that periodic cleaning and supply of fresh air are possible.

1 is an external view showing a conventional evaporator.
2 is a schematic diagram showing an air conditioning system to which a heat exchanger according to the present invention is applied.
3 to 5 are external views and main sectional views respectively showing a heat exchanger according to the present invention.
6 is an operational state diagram of a heat exchanger according to the present invention.
7 is an external view showing a heat exchanger according to another embodiment of the present invention.

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

2 is a schematic view showing an air conditioning system to which a heat exchanger according to the present invention is applied, and FIGS. 3 to 5 are external views and main sectional views showing a heat exchanger according to the present invention, respectively, and FIG. 6 is a heat exchanger according to the present invention. 7 is an operation state diagram, and FIG. 7 is an external view showing a heat exchanger according to another embodiment of the present invention.

The heat exchanger 500 of the present invention includes a plurality of intake lines 510 and an exhaust line 530 such that the intake (SA) including the heat amount of the indoor air and the intake air (SA) including the heat amount of the outside air exchange heat. ) Are separated and installed inside the casing 550 to cross each other.

At this time, a heat transfer plate 570 is installed at one side of the intake line 510 or the exhaust line 530 to easily absorb the amount of heat introduced or discharged.

In addition, a drain line 590 is integrally provided to supply moisture to the heat transfer plate 570 from the upper portion of the casing 550.

At this time, the drain line 590 may be installed such that cooling water or hot water heated by the cooling unit or heating unit of the air conditioning system itself is supplied.

In addition, the drain line 590 is installed at the central portion of the casing 550 and is installed to supply to the intake line and the exhaust line simultaneously through the branch line 580, respectively.

At this time, the dividing plate 583 of the branch line 580 is installed to be installed so that the supplied water is dividedly supplied to both sides.

In addition, the heat transfer plate 570, while forming a protruding plate 573 on both sides of the heat sink through a plurality of incision lines 572 separated from each other on the metal plate 571, the flocking cloth 575 is integrally attached.

At this time, the heat transfer plate is made of copper or aluminum.

Subsequently, in the heat exchanger 500, a plurality of casings 550 having an intake line and an exhaust line extend on the side and are integrally provided.

On the other hand, after heat exchange through the heat pump 110 made of a cooling unit 113 or a heating unit 115, the outside air flowing in is introduced into the room through the ventilation fan 130 and the exhaust fan 150. The air conditioning system 100 is installed in order to discharge the air inside or outside.

At this time, one or more heat exchangers 500 are installed in the air conditioning system 100, and it is preferable that the heat exchangers are installed to supply air to which the heat transfer is completed before the heat pump flows into the heat pump.

The operation of the present invention configured as described above will be described.

2 to 7, the heat exchanger 500 of the present invention, the exhaust air (EA) containing the amount of heat in the room and the intake air (SA) containing the amount of heat of the outside air exchange heat, so that a plurality of intake air is introduced. The air conditioning system due to the difference in heat by transferring heat to fresh outside air that flows in when polluted indoor air is discharged is installed inside the casing 550 so that the line 510 and the exhaust line 530 are separated and cross each other. 100) to solve the problem of reduced efficiency.

At this time, a heat transfer plate 570 is installed on one side of the intake line 510 or the exhaust line 530 to easily absorb the amount of heat introduced or discharged, and heat transfer is accurately performed.

In addition, a drain line 590 is integrally provided to supply moisture to the heat transfer plate 570 from the upper portion of the casing 550, and when water is supplied through the drain line, moisture contacts the heat transfer plate and flows as latent heat by evaporation. In addition to realizing the cooling effect of the air, it becomes possible to realize the humidification effect.

At this time, the drain line 590 is partially connected by a cooling unit or a heating unit of the air conditioning system in a double tube shape, so that cooling water or hot water to be heated is installed so that the cooling effect can further increase the heat transfer effect.

In addition, the drain line 590 is installed to be supplied to the intake line and the exhaust line at the same time through a plurality of branch lines 580 installed at the upper center of the casing 550 and connected to the lower part by gravity.

At this time, the dividing plate 583 is installed at the lower end of the branch line 580 to accurately supply the supplied water to both sides to quantitatively supply to the heat transfer plates of the intake lines and exhaust lines located on both sides.

Then, the heat transfer plate 570, through a plurality of incision lines 572 separated from each other on the metal plate (571) to form a protruding plate (573) on both sides of the heat sink to allow heat transfer while air passes therebetween. Then, the water is easily absorbed by a flocking cloth 575 made of natural or artificial fibers on the top of the metal plate to evaporate.

At this time, the heat transfer plate is made of copper or aluminum, and heat transfer is facilitated.

In addition, heat transfer is efficiently performed by cooling by evaporation by the moisture that has penetrated the flocking cloth, and humidity can be controlled by supplying a certain amount of moisture to the intake air.

In addition, a gap maintaining member 578 is integrally provided on one side of the heat transfer plate to maintain a constant gap through which air passes.

Subsequently, the heat exchanger 500 is provided with a plurality of casings 550 having an intake line and an exhaust line extending on the side to be integrally provided to be variously applied according to capacity.

Meanwhile, the heat exchanger 500 of the present invention can be applied to the air conditioning system 100.

That is, the air conditioning system 100 of the present invention, after the heat exchange through the heat pump 110 consisting of the cooling unit 113 or the heating unit 115, the outside air flowing in the ventilation fan 130 and the exhaust fan 150 ), The outside air is introduced into the room or the inside air is discharged to the outside.

At this time, the air flowing through one or more heat exchangers 500 installed in the air conditioning system 100 is cooled and supplied to the cooling unit 113 to enable efficient utilization.

That is, the heat exchanger is to supply the heat pump with cooling or heated air, which has been completely heat-transferred, before the heat pump is introduced.

100 ... air conditioning system 110 ... heat pump
130 ... ventilating fan 500 ... heat exchanger
550 ... casing 570 ... heat transfer plate
590 ... drainage line

Claims (5)

Exhaust air containing the amount of heat of the indoor air and intake air containing the amount of heat of the outside air exchange heat and are installed inside the casing so that a plurality of intake lines and exhaust lines are divided to cross each other,
Heat transfer plates are respectively installed inside the intake line or exhaust line so as to easily absorb the amount of heat flowing in or out.
A heat exchanger in which a drain line is integrally provided to supply moisture to the heat transfer plate from the top of the casing. The method of claim 1, wherein the heat exchanger, the drain line is installed in the upper center of the casing is installed to supply each to the intake line or exhaust line through the branch line,
A heat exchanger, characterized in that a partition plate is installed at the bottom of the branch line to install and supply water to both sides. The heat exchanger according to claim 1, wherein a plurality of casings having an intake line and an exhaust line extend integrally to the side surfaces, and the casing is provided with drain lines, respectively. The method of claim 1, wherein the heat transfer plate is formed of a protruding plate on both sides of the heat sink through a plurality of incision lines separated from each other on the metal plate, the flocking cloth is integrally attached, and a gap maintaining member is further provided on one side. Heat exchanger. An air conditioning system is installed in which fresh air from outside is exchanged through a heat pump composed of a cooling unit or a heating unit, and then the outside air is introduced into the room through a ventilation fan and an intake fan, or the inside air is discharged to the outside.
At least one heat exchanger consisting of any one selected from claims 1 to 4 is installed in the air conditioning system,
Heat transfer plates are respectively installed in the intake line or exhaust line of the heat exchanger so as to easily absorb the amount of heat flowing in or out.
An air conditioning system using a heat exchanger in which a drain line is integrally provided to supply moisture to a heat transfer plate from the top of the casing.

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