KR20090099332A - Cooling device using of liquid nitrogen - Google Patents

Abstract

A cooling device using liquid nitrogen is provided to blow air which is useful by installing an elvan filter inside the case. A cooling device(1000) using liquid nitrogen comprises a case(100), a liquid nitrogen storing unit(200), a cold and hot switching part(300), a blower fan(400), and a remote sensor(500). The case has an inlet and an outlet. The storing unit is installed inside the case. The cold and hot switching part installed through the storing unit. The blower fan is installed within the case. The blower fan ejects the cool air to outside. The remote sensor is mounted on the storing unit.

Description

Cooling device using of liquid nitrogen

The present invention relates to a cooling device using liquid nitrogen, and more particularly to a cooling device using liquid nitrogen that can significantly reduce the power consumption according to the use of a cooler.

In general, the cooling device is to maintain the indoor air temperature at a low temperature by using a cooling cycle, such as a refrigerator, an air conditioner.

The refrigerant used in the refrigerating cycle of the cooling apparatus uses freon gas, which forms a predetermined cooling by vaporizing the refrigerant to absorb ambient heat, and forms cold air by forcibly blowing air to the cooled portion. It is well known.

Hereinafter, a conventional cooling apparatus will be described with reference to FIG. 1.

A compressor 1 for compressing the refrigerant, a refrigerant valve 2 connected to the outlet of the compressor 1 to guide the refrigerant in the circulation direction, and an outdoor heat exchanger 3 connected to the outdoor side of the refrigerant valve 2 ), An expansion mechanism (4) connected to the outdoor heat exchanger (3) and installed together inside the outdoor unit to expand the refrigerant under reduced pressure, and connected to the other side of the expansion mechanism (4) to the indoor side of the refrigerant valve (2). It consists of an indoor heat exchanger (5) connected to and installed to exchange heat with the indoor air.

That is, in the conventional cooling operation of the cooling device, the refrigerant is condensed by moving to the outdoor heat exchanger 3 by the refrigerant valve 2 and then expanded under reduced pressure through an expansion mechanism, and then moved to the indoor heat exchanger 5. After the evaporation of the cold air is repeated a series of processes to return to the compressor (1).

However, the cooling apparatus according to the related art requires a compressor (1) for compressing the refrigerant at a high temperature and high pressure to artificially circulate the refrigerant, thereby causing a driving noise of the compressor (1).

In addition, since the outdoor unit for discharging the high temperature heat generated from the refrigerant to the outside is connected, the movement is not free, and as the refrigeration capacity of the air conditioner is increased, the power consumption is also increased to increase the maintenance cost.

Moreover, the freon gas has a problem of polluting the atmospheric environment when exposed to the atmosphere.

The present invention has been made to solve the above problems, an object of the present invention is to provide a cooling device using a liquid nitrogen that can continuously supply a low temperature thermal energy by allowing the refrigerant to be efficiently cooled without a separate outdoor unit. have.

In addition, another object of the present invention to provide a cooling device using liquid nitrogen that can prevent environmental pollution.

In addition, another object of the present invention to provide a cooling device using liquid nitrogen that can blow the cooled air beneficial to the human body.

In order to achieve the above object, the cooling device using the liquid nitrogen according to the present invention is provided with a case having an inlet and an outlet, a storage unit which is installed in the case and stores the liquid nitrogen, is installed through the storage unit A cold heat exchanger, a blower fan installed in the case and discharging cold air to the outside, and a remote sensor installed in the storage unit.

In addition, the outer surface of the storage unit is characterized in that the insulating block is installed.

In particular, the storage unit is installed under the cabinet, the main body portion having a coupling hole coupled to the cold heat exchange unit, the injection port for injecting liquid nitrogen into the inner space of the body portion, safety to control the air pressure inside the body portion Valve, characterized in that consisting of a rupture plate that operates when the safety valve (이상).

In addition, the cold heat exchange unit is characterized in that the cooling pipe is formed with the inlet and outlet through which air passes.

And, the diameter of the cold air outlet is characterized in that the size is relatively smaller than the diameter of the inlet.

In addition, the cold heat exchange unit is characterized in that it is installed in direct contact with the liquid nitrogen.

Double air, the cooling pipe is characterized in that each of the air inlet and outlet ports protrude out of the storage unit.

On the other hand, the remote sensor is characterized in that consisting of a sensor connected to the bursting plate, a high frequency amplifier receiving the RF signal converted from the sensor, the transmitting antenna for transmitting the signal of the high frequency amplifier to the receiving antenna.

In addition, the inside of the case is characterized in that the cold air duct of the type to facilitate cold air transfer is installed.

And, the upper end of the cold air duct is characterized in that the elvan rock filter for emitting far infrared rays is installed.

In addition, the inner bottom surface of the case is characterized in that the drip tray is installed.

In addition, the inside of the case is characterized in that the water removal filter for removing water and a filtering network for filtering foreign matter contained in the cooled air is installed.

According to the present invention of the configuration as described above, the liquid nitrogen to be filled in the storage unit to change the sucked air to the cooled air in the non-moving state, does not require a compressor for the circulation supply of the refrigerant does not generate noise Therefore, there is an effect that can greatly reduce the power consumption of the user.

In addition, the inside of the case is installed an elvan rock filter has the effect of blowing the cooled air beneficial to the human body.

In addition, when the remote sensor is installed, when the storage unit is abnormal, there is an effect that a quick action can be made by calling the manager directly.

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

As shown in FIGS. 2 to 6, the cooling apparatus 1000 using the liquid nitrogen according to the embodiment of the present invention includes a case 100 having an inlet 101 and an outlet 102, in the case 100. Installed in the storage unit 200 for storing liquid nitrogen, the cold heat exchange unit 300 is installed in a state penetrating the storage unit 200, the blowing fan installed in the case 100 and discharges the cold air to the outside ( 400), the remote sensor 500 is installed in the storage unit 200.

First, as shown in Figures 2 and 3, the case 100 is made of a box of a rectangular shape (Box), the panel constituting the box by selecting one of a variety of materials, such as metal, aluminum, synthetic resin material Since it can use, it does not specifically limit about a material.

The case 100 is formed with a respective inlet 101 and outlet 102 to allow the air to be sucked into and discharged therein.

That is, the inlet 101 and the outlet 102 are located on the lower and upper surfaces of the case 100, respectively.

In this case, the outlet 102 is disposed on the upper surface of the case 100, but if necessary, the outlet 102 may be installed on the upper side from the same surface of the inlet 101.

In addition, the case 100 has at least one or more hinged opening and closing door 110 is installed to facilitate regular inspection.

In addition, the wheel 120 is installed on the bottom surface of the case 100 to facilitate movement.

And, the front of the case 100 is provided with a control panel 130 to control the blowing fan 400 to be described later.

In detail, the control panel 130 includes basic switches for operating the cooling device 1000 using the liquid nitrogen according to the present invention, and passes through the storage unit 200 installed in the case 100. It is possible to effectively control the blowing force of the blowing fan 400 to vary the moving speed of the air.

Here, the blowing fan 400 is installed in the upper side in the case (100).

In addition, a cold air duct 140 is installed inside the case 100 to guide the movement of the cold air so that the cold air passing through the storage unit 200 does not move radially.

In this case, the cold air duct 140, when viewed from the front, is made in the form of gradually narrowing from the lower end to the upper end.

In addition, the upper half of the cold air duct 140 is installed barbanseok filter 150 for emitting far infrared rays.

That is, the ganban rock filter 150 is to provide a more comfortable air to the user by removing the most staphylococcus aureus in the air and at the same time releasing beneficial far infrared rays to the human body.

In addition, the inner bottom surface of the case 100 is provided with a drip tray 160 that receives moisture for condensation generated during the passage of external air through the storage unit 200.

Then, the water filled in the sump container 160 more than a predetermined level is discharged to the outside through the exhaust hose.

In addition, the inside of the case 100 is provided with a water removal filter 170 for removing water contained in the air and a filter net 180 for filtering foreign matter (dust), respectively.

In particular, the water removal filter 170 is preferably installed between the cold air duct 140 and the blowing fan 400.

That is, the moisture removal filter 170 is disposed on the cold air duct 140 to block the moisture contained in the air passing through the storage unit 200 to be described later to move toward the blowing fan 400. The blowing fan 400 serves to prevent the phenomenon of corrosion.

In addition, the filter net 180 is installed inside the suction port of the case. In addition, the filter net 180 may be installed inside the outlet 102 as necessary.

Meanwhile, as shown in FIGS. 3 and 4, the storage unit 200 is made of aluminum (AL) or an aluminum alloy having excellent thermal conductivity, and an insulating material having a predetermined thickness on an inner wall thereof (glass fiber: 210). ) Is installed.

Specifically, the storage unit 200 is installed below the cold air duct 140 in the case 100, the main body portion 220 having a coupler 221 is coupled to the cold heat exchange unit 300 to be described later, the When the injection port 230 for injecting liquid nitrogen into the inner space of the main body 220, the safety valve 240 for adjusting the air pressure inside the main body 220, the abnormality of the safety valve 240, It consists of a working rupture plate 250.

As the liquid nitrogen is filled with a predetermined space in the storage unit 200, air passing through the cold heat exchanger 300, which will be described later, is converted into cooled air.

It is preferable to form a plurality of coupler 221 of the storage unit 200. This is for supplying cooled air through a large amount of air.

In addition, the coupling port 221 of the storage unit 200 is formed in a form such that the cold heat exchange unit 300 to be described later in direct contact with the liquid nitrogen, or corresponding to the shape of the cold heat exchange unit 300 It can also be combined in the state which formed the wall surface.

Here, the safety valve 240 is for discharging the gas to the outside as the liquid nitrogen is converted to the gas after a predetermined time in the process of cooling the outside air, the air pressure generated in the storage unit 200 When this value is above a certain value, it serves to bypass.

In addition, the bursting plate 250 serves to discharge air pressure by rupturing itself when a predetermined pressure or more is provided in case the safety valve 240 is not normally operated.

For example, when the operation of the safety valve 240 is assumed to bypass the gas when the gas pressure in the storage unit 200 is about 1.5kg / ㎠ or more, the rupture plate 250 is about 2.0kg / ㎠ or more Set to burst on pressure.

Double a, it is preferable to install an additional insulating block 260 around the outer surface of the storage unit 200. This is to allow the heat insulation block 260 to preserve the cold heat as much as possible so that the cold heat of the liquid nitrogen filled in the storage unit 200 does not easily disappear to the outside.

In addition, the storage unit 200 is equipped with a fixing bracket 270 to be easily fixed in the case 100.

On the other hand, the cold heat exchange unit 300 is coupled to the coupling port 221 of the storage unit 200, it is made of a cooling pipe (P) formed with an inlet 310 and the outlet 320 through which air passes.

Here, the cooling pipe (P) is made of a circular shape, but may be manufactured in a rectangular or elliptical shape, there is no particular reason for the shape thereof.

In addition, the diameter of the cold air outlet 320 of the cooling pipe (P) is formed to a size relatively smaller than the diameter of the inlet (310).

The cooling pipe P is formed such that each of the air inlet 310 and the outlet 320 is protruded to the outside of the storage unit 200.

On the other hand, as shown in Figures 4 and 5, the remote sensor 500 is that when the bursting plate 250 installed in the above-described storage unit 200 is ruptured, it is to immediately transfer the call origin call to the manager wirelessly A detection sensor 510 connected to the bursting plate 250, a high frequency amplifier 540 receiving the RF signal converted from the detection sensor 510, and a signal from the high frequency amplifier 540 to a reception antenna (not shown). It consists of a transmitting antenna 550 to transmit.

Such a remote sensor is a known technique, and will be described below with reference to FIG. 5.

First, the detection sensor 510 that detects the rupture of the bursting plate 250 amplifies a situation signal through the signal amplifier 520 and then modulates the RF signal together with the oscillation signal of the oscillator 530.

The RF signal passes through the high frequency amplifier 540 again and transmits a status signal to the receiving antenna of the manager through the transmitting antenna 550.

The cooling device 1000 using the liquid nitrogen according to the present invention is not limited to the scope of the present invention, but is presented as a specific example, it can be variously applied within the spirit of the present invention.

Hereinafter, the operation of the cooling apparatus 1000 using the liquid nitrogen according to the present invention will be described with reference to FIG. 6.

First, when operating the control panel 130 of the case 100, the blowing fan 400 to suck the outside air is activated.

Thereafter, the air introduced through the blowing fan 400 passes through the cooling pipe P passing through the storage unit 200. At this time, the air passing through the cooling pipe (P) is converted to cold by the low temperature of the surrounding, and then passed through the cold air duct 140, ganban rock filter 150, moisture removal filter 170 in sequence. It is then discharged to the outlet 102 of the case 100.

On the other hand, as the remote sensor 500 is installed in the bursting plate 250 of the storage unit 200, when an abnormality occurs in the storage unit 200, the remote sensor 500 directly sends a signal to call a manager. Prompt action can be taken.

1 is a schematic diagram showing a conventional cooling apparatus.

2 is a perspective view showing a cooling device using liquid nitrogen according to an embodiment of the present invention.

3 is a cross-sectional view of the front of FIG. 2.

4 is a front view and a plan view of the storage unit of FIG.

5 is a schematic diagram showing the configuration of the remote sensor of FIG.

6 is a side sectional view showing an operating state of a cooling apparatus using liquid nitrogen according to an embodiment of the present invention.

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

100: case 120: wheels

130: control panel 140: cold air duct

150: Elvan rock filter 160: drip tray

170: water removal filter 180: filter network

200: storage unit 210: insulation

220: main body 230: inlet

240: safety valve 250: rupture plate

300: cold heat exchanger 400: blowing fan

500: remote sensor P: cooling pipe

Claims (13)

Case with inlet and outlet, A storage unit installed in the case and storing liquid nitrogen; A cold heat exchange unit installed to penetrate the storage unit; A blowing fan installed in the case and discharging cold air to the outside; Cooling apparatus using liquid nitrogen, characterized in that consisting of a remote sensor installed in the storage unit. The method of claim 1, Cooling apparatus using liquid nitrogen, characterized in that the insulating block is installed on the outer surface of the storage unit. The method of claim 1, The storage unit is installed at the bottom of the cabinet, the body portion having a coupler coupled to the cold heat exchange unit, An injection hole for injecting liquid nitrogen into the inner space of the main body part, Safety valve for adjusting the air pressure inside the main body, Cooling apparatus using liquid nitrogen, characterized in that the bursting plate is operated when the safety valve is abnormal. The method of claim 1, The cold heat exchange unit is a cooling device using liquid nitrogen, characterized in that the cooling pipe formed with the inlet and outlet through which air passes. The method of claim 4, wherein Cooling apparatus using liquid nitrogen, characterized in that the diameter of the cold air outlet is relatively smaller than the diameter of the inlet. The method of claim 4, wherein The cold heat exchange unit is a cooling device using liquid nitrogen, characterized in that installed in direct contact with the liquid nitrogen. The method of claim 4, wherein The cooling pipe is a cooling device using liquid nitrogen, characterized in that each of the air inlet and outlet ports protrude out of the storage unit. The method of claim 3, The remote sensor is a detection sensor connected to the bursting plate, High frequency amplifier receiving the RF signal converted from the sensor, Cooling apparatus using liquid nitrogen, characterized in that consisting of the transmitting antenna for transmitting the signal of the high-frequency amplifier to the receiving antenna. The method according to any one of claims 1 to 8, Cooling apparatus using liquid nitrogen, characterized in that the cooling air duct of the form is installed inside the case to facilitate the transfer of cold air. The method of claim 9, Cooling device using a liquid nitrogen, characterized in that the upper half of the cold air duct is installed an elvan rock filter that emits far infrared rays. The method according to any one of claims 1 to 8, Cooling apparatus using liquid nitrogen, characterized in that the drip tray is installed on the inner bottom surface of the case. The method according to any one of claims 1 to 8, Cooling apparatus using a liquid nitrogen, characterized in that the inside of the case is provided with a water removal filter for removing water and a filtering network for filtering foreign matter contained in the cooled air. Case with inlet and outlet, A storage unit installed in the case and storing liquid nitrogen; Cooling pipes are installed to penetrate the storage unit but different inlet and outlet sizes of air, A blowing fan installed in the case and discharging cold air to the outside; Remote sensor consisting of a sensor, a high frequency amplifier, a transmission antenna installed in the storage unit to transmit an RF signal to the receiver as needed, Insulation block installed on the outer surface of the storage unit, Is installed in the case and includes a blowing fan for discharging the cold air to the outside, Inside the case, a cold air duct of the type to facilitate cold air transfer, Elvan filter is installed on the top of the cold air duct to emit far infrared rays, Drip tray is installed on the inner bottom surface of the case, and Cooling apparatus using liquid nitrogen, characterized in that further comprises a water removal filter and a filter net installed inside the case.

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