KR200448666Y1 - A cooling device - Google Patents

Abstract

The present invention relates to a cold air blower by adiabatic expansion of compressed air, and to provide cool air in summer by supplying cooling air by adiabatic expansion and discharge of compressed air.
That is, the present invention in the cold air; Compressor for supplying compressed air and the adiabatic expansion cooler for storing the compressed air supplied from the compressor and adiabatic expansion to supply the cooled air.
Therefore, the present invention is capable of supplying cool air without being influenced by the surrounding environment by compressing and heating the air supplied by the compressor and then adiabatic expansion and exhausting the adiabatic expanded air to supply cold air.

Description

Cooling fan by adiabatic expansion of compressed air

The present invention relates to a cold air blower by adiabatic expansion of compressed air, and more particularly in a cold air blower; Compressor for supplying compressed air and an adiabatic expansion cooler for storing the compressed air supplied from the compressor and adiabatic expansion and supplying the cooled air, adiabatic expansion of compressed air and discharged to supply cooling air during summer The goal is to provide cool breezes.

In general, a fan used in the summer to blow the surrounding air to contact the user's skin to cool the skin to feel the cool.

However, the above fan is a situation where the effect is low and the user does not feel cool when the ambient temperature is high.

Accordingly, a cold air blower that cools and blows out surrounding air has been developed and used.

As described above, the cold blower circulates the nonwoven fabric belt in the reservoir for the blowing of cool air by the blower to evaporate the water to cool the surrounding air through the endotherm of the water evaporation process so that the cool air is blown from the blowing fan. It is.

Conventional cold air configured as described above has a lot of problems in use, such as its structure is complicated and the humidity around the evaporation process is increased, causing discomfort and periodically supply water.

Thus, the present invention is to solve the problem that the conventional cold air blower is complicated in structure, not easy to maintain, and the effect of cold air is weak as described above.

That is, the present invention in the cold air; Compressor for supplying compressed air and the adiabatic expansion cooler for storing the compressed air supplied from the compressor and adiabatic expansion to supply the cooled air.

Therefore, the present invention is capable of supplying cool air without being influenced by the surrounding environment by compressing and heating the air supplied by the compressor and then adiabatic expansion and exhausting the adiabatic expanded air to supply cold air.

1 is a main configuration showing an embodiment according to the present invention.
Figure 2 is a main configuration showing another embodiment of the thermal expansion expansion means in the practice of the present invention.
3 is a main configuration showing that the insulated expansion cylinder and the insulated expansion piston in double-acting in the practice of the present invention.

Hereinafter, described in detail by the accompanying drawings as follows.

The present invention is to supply cool air by the adiabatic expansion of the air.

That is, the present invention in the cold air; Compressor 300 for supplying compressed air and the adiabatic expansion cooler for supplying the cooled air by storing the compressed air supplied from the compressor 300 and adiabatic expansion.

Here, the adiabatic expansion cooler is an adiabatic expansion cylinder (100) having a space in which compressed air is introduced and stored, and an adiabatic expansion piston for sliding the air in accordance with the internal air pressure of the adiabatic expansion cylinder (100) ( 200, and the adiabatic expansion limit controlling the air outlet 110 through which the air cooled by the adiabatic expansion by the adiabatic expansion piston 200 and the adiabatic expansion piston 200 to operate adiabatic expansion above a set pressure. It can be implemented by a control unit 600 for controlling the configuration operation of the piston return means and the compressor 300, etc. for returning the means and the adiabatic expansion piston 200 operated insulated expansion.

The piston return means may be implemented by the return actuator 410 made of any one of a hydraulic pressure and a solenoid in the adiabatic expansion piston 200.

Another embodiment of the piston return means is provided with a double-sided expansion cylinder 100 and the adiabatic expansion piston 200 on both sides, and configured to connect the adiabatic expansion cylinder 100 on both sides by the connection bar 220. It can be done by.

Meanwhile, the return valve 210 may be provided in the adiabatic expansion cylinder to smoothly return the adiabatic expansion piston 200.

The means for limiting adiabatic expansion may be implemented by a pressure proportional piston stopper 512 operated in linkage with the pressure resistant actuating opening 511 and the pressure actuating opening 511 elastically immersed by the internal pressure of the adiabatic expanding cylinder. .

The adiabatic expansion limiting means includes a pressure sensor 521 for detecting an internal pressure of the adiabatic expansion cylinder and a movable piston stopper 522 which is operated by any one of a pneumatic pressure and a solenoid by receiving a pressure signal through the pressure sensor 521. It can be configured and implemented.

Hereinafter, the operation of the present invention will be described.

In the cold air fan as described above; Compressor 300 for supplying compressed air and the adiabatic expansion cooler for supplying the cooled air by storing and adiabatic expansion of the compressed air supplied from the compressor 300, the adiabatic expansion cooler is compressed air inflow An adiabatic expansion cylinder (100) having a space to be stored, an adiabatic expansion piston (200) which slides in accordance with the internal air pressure of the adiabatic expansion cylinder (100), and adiabatic expansion of air, and the adiabatic expansion piston (200) By the adiabatic expansion means for controlling the air outlet 110 and the adiabatic expansion piston 200 to discharge the air cooled by the adiabatic expansion by the adiabatic expansion operation above a set pressure and the adiabatic expansion piston ( When operating the present invention composed of a control unit 600 for controlling the operation of the piston return means and the compressor 300, etc. to return operation 200,

When the air supplied from the compressor 300 reaches the pressure according to the user's setting when the air supplied to the adiabatic expansion cylinder 100 reaches, the restrained state of the adiabatic expansion piston 200 by the adiabatic expansion limiting means is released. .

As described above, when the adiabatic expansion piston 200 in which the restrained state by the adiabatic expansion limiting means is released is adiabatic expanded and moved, the compressed air is cooled while adiabatic expansion, and the cooled air is discharged through the air outlet 110. Will be.

As described above, when the cooling air discharged through the air outlet 110 is directly supplied to the user or supplied through another device, the user may receive cool air even in summer.

In addition, the return of the adiabatic expansion piston 200 which is operated by the adiabatic expansion may be configured to be returned by the return actuator 410 or may be configured by double acting with the adiabatic expansion cylinder 100 and the adiabatic expansion piston 200 on both sides. If it is possible to use without having a separate return actuator (410).

Therefore, the present invention is capable of supplying cool air without being influenced by the surrounding environment by compressing and heating the air supplied by the compressor and then adiabatic expansion and exhausting the adiabatic expanded air to supply cold air.

100: adiabatic expansion cylinder
110: air outlet
200: adiabatic expansion piston 210: return valve 220: connection bar
300: Compressor
410: return actuator
511: pressure resistance operation
512: proportional pressure piston stopper
521: pressure sensor
522: Moving Piston Stopper
600: control unit

Claims (2)

Compressor 300 for supplying compressed air and the adiabatic expansion cooler for supplying the cooled air by storing and adiabatic expansion of the compressed air supplied from the compressor 300,
The adiabatic expansion cooler is an adiabatic expansion cylinder (100) having a space in which compressed air is introduced and stored therein, and an adiabatic expansion piston (200) for sliding the air in accordance with the internal air pressure of the adiabatic expansion cylinder (100). And adiabatic expansion limiting means for controlling the air outlet 110 through which the air cooled by the adiabatic expansion by the adiabatic expansion piston 200 and the adiabatic expansion piston 200 are operated adiabatic expansion above a set pressure; A control unit 600 for controlling the operation of the piston returning means for returning the adiabatic expansion piston 200 operated by the adiabatic expansion operation and the compressor 300, etc.,
The piston return means
The adiabatic expansion piston 200 is composed of a return actuator 410 made of any one of a hydraulic pressure and a solenoid,
The adiabatic expansion cylinder 100 and the adiabatic expansion piston 200 are provided on both sides to constitute double acting, and the adiabatic expansion cylinder 100 on both sides is configured to be connected by a connecting bar 220. and;

A return valve (210) is provided in the adiabatic expansion cylinder (100) to smoothly return the adiabatic expansion piston (200);
The means for limiting adiabatic expansion
A pressure proportional piston stopper 512 which is operated in linkage with the pressure resistant operation sphere 511 elastically immersed by the internal pressure of the adiabatic expansion cylinder,
Any one of the pressure sensor 521 for detecting the internal pressure of the adiabatic expansion cylinder, and the movable piston stopper 522 that receives the pressure signal through the pressure sensor 521 and is operated by any one of the oil pressure and the solenoid. A cold air blower by adiabatic expansion of compressed air, characterized in that one is selected and configured. delete

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