KR101940546B1 - Apparatus For Air Conditioning Using Vortex Tube - Google Patents

Abstract

The present invention relates to an air conditioner for an electronic panel using a vortex tube which controls air in an electronic panel using a vortex tube. The air conditioner for reducing the temperature in the electronic panel providing an inner space to install an electrical device and adjusting the humidity not to coagulate comprises: the vortex tube installed to enable a low-temperature outlet to face the inside of the electronic panel so as to supply low-temperature air to the inside of the electronic panel by separating introduced air into high-temperature air and the low-temperature air; and a discharge means for inhaling inner air inside the electronic panel by using the introduced air supplied from the outside so as to discharge the inner air to the outside of the electronic panel.

Description

[0001] The present invention relates to an air conditioner using a vortex tube,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioner for an electric vehicle panel, and more particularly, to an air conditioner for an electric vehicle panel using a vortex tube for controlling air inside an electric vehicle panel using a vortex tube.

Vortex tubes have been developed and used as refrigerant-free cooling systems with compressed air only. The cooling system using the vortex tube is based on the principle of separating into a hot gas and a low temperature gas when a vortex is generated in the introduced gas. This type of cooling apparatus has a structure in which a separated low-temperature gas is supplied to a necessary place to cause a cooling action, and the high-temperature gas is discharged to the outside.

The cooling device using the vortex tube does not require a complicated configuration such as a refrigerant circulation system, a compressor, an evaporator, and an outdoor unit as compared with a general absorption type refrigeration system, so that it can be installed at a low cost. In addition, the maintenance cost is very low and the volume occupied is so small that it is used in many places in the industry. In particular, vortex tubes are often used when local cooling is required throughout the industrial field (eg, battlefield panels).

Among the industrial facilities, the electric panel is installed in the form of a box or a chamber, in which many electric devices are installed. Since these electric devices generate a large amount of heat during operation, the heat generation temperature of the electric panel must be controlled using a cooling device.

Cooling air flows into the inside of the panel for cooling. When the cold air suddenly enters from inside the panel, the humidity becomes saturated and condensation occurs. This condensate has a very bad effect on water-sensitive electrical components.

Therefore, conventionally, by forcibly discharging the air inside the electric panel, especially the upper layer air, to the outside of the electric panel, the humidity has been lowered to prevent the condensation from occurring. A blowing fan that normally operates with electrical energy has been used to discharge the air inside the electric panel.

However, the following problems were caused by using a fan.

That is, there is a problem that foreign substances such as insects are introduced into the electrical parts through the air blowing holes for installing the blowing fan, dust is accumulated in the blowing fan and periodically needs to be cleaned. , There is a problem that when a failure occurs undesirably, condensation is not found.

Korean Patent Application No. 10-2007-0107881, No. 10-2015-0051631, No. 10-2014-0115168, and the like are cited as related technologies, but they deal with a problem different from the problem that the present inventors are worried about have.

Korean Patent Application No. 10-2007-0107881 Korean Patent Application No. 10-2015-0051631 Korean Patent Application No. 10-2014-0115168

It is an object of the present invention to solve the above problems and to provide a method for lowering the relative humidity by discharging the air inside the electric panel to lower the temperature inside the electric panel and prevent condensation at the same time, And to provide the above-mentioned objects. More specifically, it is an object of the present invention to provide an air conditioner in which there is no fear of failure, installation cost is low, and maintenance cost is not generated in place of a conventional ventilation fan.

The above object is achieved by an air conditioning apparatus for reducing the temperature inside an electric panel providing a space for installing an electric device and adjusting humidity to prevent condensation from occurring;

A vortex tube having a low-temperature side discharge port directed toward the inside of the electric panel so as to supply the low-temperature air into the electric panel by separating the incoming air into high temperature air and low temperature air;

And an exhaust means for sucking in the air inside the electric panel using the air supplied from outside and discharging the air into the outside of the electric panel.

According to another aspect of the present invention, there is further provided an induction pipe having one end connected to a hot-side outlet of the vortex tube and the other end connected to the exhausting means;

So that the vortex tube can supply air to the exhaust means.

According to another aspect of the present invention, the exhaust means is an air amplifier using a Coanda effect; The air amplifier may be configured to receive high temperature air discharged from the vortex tube.

According to another aspect of the present invention, the exhaust means may be installed on the upper side plate of the electric panel.

According to the above configuration, an air conditioning apparatus using a vortex tube is provided, which can lower the temperature inside the electric panel and, at the same time, reduce the relative humidity by discharging the air inside thereof to prevent condensation.

More specifically, instead of the conventional ventilation fan, there is provided an air conditioner which has no fear of failure, has a low installation cost, and can neglect the maintenance cost. Also, an air conditioner is provided which can completely solve the electrical problem such as short-circuit by replacing the existing ventilating fan operated by electric energy with a device which can operate without electric energy.

1 is a configuration diagram of an air conditioner using a vortex tube according to an embodiment of the present invention.
2 is a configuration diagram of an air amplifier as an exhaust means of an air conditioner using a vortex tube according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying FIGS. 1 to 2 at the same time.

The present invention relates to an air conditioner which reduces the temperature inside the electric panel (3) providing the internal space (S) for installing the electric device (1) and prevents the condensation from occurring by adjusting the humidity. In particular, the present invention is based on the use of a vortex tube (5) as a cooling device. The constitution and operation principle of the vortex tube 5 will be described with reference to the known art and the foregoing description. Since the electric field panel 3 represents various control volumes such as a box, a chamber, a cabin, and a room that need air conditioning, the scope of the present invention is not limited to the electric panel 3.

The vortex tube 5 separates the introduced compressed air a1 into the high temperature air a2 and the low temperature air a3 to supply the low temperature air a3 to the inside of the electric panel 3, Is directed to the inside of the electric panel (3).

The vortex tube 5 may be further connected to the distribution pipe 9 so as to blow cool air evenly inside the electric panel. The distribution pipe 9 is installed in the vortex tube 5 so that the nozzle 11 faces upward. It is common practice to supply compressed air al to the vortex tube 5 as is known in the art.

The hot air a2 discharged from the vortex tube 5 has been discharged to the outside. It can be understood that the present invention suggests a method of utilizing the air that is discharged to the outside. In particular, the present invention utilizes kinetic energy, i.e., air flow, rather than thermal energy of the discarded air.

According to the present invention, there is proposed a method of using this discarded wind to exhaust the internal air (a4) of the electric panel (3). The air a5 to be exhausted can be discarded to the outside. But it would be better if he could use his kinetic energy again in another system. In some cases, it may be used in an air amplifier installed in other electric panel. As for the generated noise, a muffler can be installed to attenuate the noise.

The present invention proposes an exhaust means (15) for sucking the internal air (a4) inside the electric panel using the inflow air supplied from the outside and discharging it to the outside of the electric panel (3). That is, by forcibly removing the high-temperature internal air a4 inside the electric field panel 3, the coagulation does not occur on the surface of the electric device 1 as cool air is supplied.

The exhaust means 15 is means for pumping the air in a specific space to another space by using the wind which flows from the outside. According to the present invention, the exhaust means 15 may be an air amplifier using a Coanda effect. The Coanda effect is a phenomenon in which a fluid tends to flow in close contact with a surface when the fluid flows along the curved surface. The Bernoulli principle also applies to air amplifiers. Therefore, the air amplifier exhausts the air inside the electric panel by the same principle as the 'wingless fan'. The ventilation means 15 may be simply a venturi pipe. However, it can be said that the air amplifier is high in efficiency of exhaust.

The air amplifier 15 'as the exhaust means 15 is provided in the hole after the upper side plate 3a of the electric panel 3 is pierced. 2, the air inlet side 17 is conically open like a funnel and the outlet side 19 is in the form of a narrow tube. The air supplied from the vortex tube 5, that is, the hot air a2, flows through the nozzle 23 provided in the ring shape on the inner wall 21 of the air amplifier 15 ' In this process, the internal air a4 inside the electric panel is sucked and discharged together.

The air amplifier 15 'is installed on the upper side of the electric panel 3 so as to emit the air on the upper side within the electric panel 3. [ One end of the induction pipe 25 is connected to the high temperature side discharge port 27 of the vortex tube and the other end is connected to the inlet side 17 of the exhaust means 15. The induction pipe 25 and the high-temperature side discharge port 27 may be provided inside or outside the electric panel depending on the situation. However, in the case of being installed on the inner side, it is preferable that the outer circumferential surface of the induction pipe 25 is wrapped with a heat insulating material to enhance the cooling effect.

According to the embodiment of the present invention, it is possible to further include control means for controlling each of the above-mentioned components. A control valve 29 for controlling the amount of hot air a2 discharged from the vortex tube to be supplied to the exhaust means 15 may be further provided. It is possible to always check the internal state (temperature, humidity, etc.) of the electric panel 3 so that the control valve 27 adjusts the amount of air supplied to the exhaust means 15. [

According to another aspect of the present invention, if the hot air can not be supplied from the vortex tube 5 in some cases, the exhaust means 15 may be provided with a compressor (not shown) provided for the operation of the vortex tube 5 As shown in Fig.

The configuration shown and described above is merely a preferred embodiment based on the technical idea of the present invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. The above-mentioned embodiments can be practiced by any person skilled in the art in any combination, and all possible combinations are within the scope of the present invention.

1: Electric device 3: Overall panel
5: Vortex tube 7: Low temperature outlet
9: Distribution pipe 13: Compressor
15: exhaust means 15 ': air amplifier
17: inlet side 19: outlet side
23: nozzle 25: guide tube
27: high temperature side discharge port 29: valve
S: interior space

Claims (4)

An air conditioner for lowering the temperature inside the electric panel on which the electric device is installed and controlling the humidity to prevent condensation;
A vortex tube having a low-temperature side discharge port facing the inside of the electric panel so as to supply the low-temperature air to the inside of the electric panel by separating the incoming air into high temperature air and low temperature air;
An air amplifier using the Coanda effect installed on the electric panel to draw in the air inside the electric panel using the air supplied from the vortex tube and to discharge the air inside the electric panel to the outside of the electric panel; And
An induction pipe having one end connected to a hot side outlet of the vortex tube and the other end connected to the air amplifier to supply air to the air amplifier;
;
To allow the vortex tube to supply air to the air amplifier,
Wherein the air amplifier is configured to receive high temperature air discharged from the vortex tube.
delete delete The method according to claim 1,
Wherein the air amplifier is installed on an upper side plate of the electric panel.

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