KR20150140046A - Portable cooling appapatus - Google Patents

Abstract

The present invention provides a portable cooling apparatus to be coupled to a product used by supplying or circulating a liquid or a gas to lower the temperature of the liquid or the gas supplied or circulated. The portable cooling apparatus can allow the temperature of a fluid to be lowered. Therefore, the portable cooling apparatus is coupled to the product used by supplying or circulating the gas or the liquid to lower the temperature of the gas or the liquid supplied or circulated, thereby maintaining the body temperature of a worker subjected to a high temperature environment. Moreover, the portable cooling apparatus can directly be applied to various kinds of conventional air jackets and effectively increase the applying time for cooled air while reducing unit cost from using the conventional vortex tube, a refrigerant cycling device (a cooler) or the like.

Description

[0001] PORTABLE COOLING APPAPATUS [0002]

The present invention relates to a portable refrigerant apparatus, and more particularly, to a portable refrigerant apparatus in which a gas or liquid is supplied or circulated to be combined with a product to be used to lower the temperature of a gas or liquid to be supplied or circulated.

An air jacket is used to protect workers who weld in a high temperature environment such as a shipyard. Such an air jacket is intended to prevent industrial accidents caused by an increase in the temperature of an operator working in a high temperature space. By jetting compressed air supplied from the compressor toward the human body of the operator, the air jacket evaporates the sweat and lowers the body temperature .

In connection with the air jacket that allows the air supplied from the compressor to be directly sprayed to the operator, the Korean Registered Utility Model No. 0471653 entitled " Jacket Air Supply Device ", Registered Patent No. 1120983 entitled "Air jacket using vortex tube" 0930656 "jacket type personal air conditioner"

Such conventional techniques may be applied to a small fan (registered trademark) No. 0471653 entitled " jacket air supply device ", a vortex tube (registered patent No. 1120983 entitled "an air jacket using a vortex tube"), And "jacket type personal cooling system") to reduce the temperature of the air to provide a cooling effect.

However, such a conventional technique can not stably provide cooling efficiency of air, is difficult to be easily installed in an air jacket worn by a worker, and has a problem of increasing the unit price of an air jacket. have. For example, when a small fan is used, it is possible to construct an air jacket that does not require connection with a compressor, but it has a structure to circulate indoor air, so that it can not be applied in a harsh environment such as welding work of a shipyard. There is a problem that satisfactory cooling efficiency can not be provided. In addition, when the vortex tube is applied, half of the air introduced from the compressor is discharged as warm air due to the principle of the vortex tube, so that it is difficult to maintain the cooling efficiency due to the loss of the air amount, There is a problem in that an additional burden is required to be discharged to the outside. When a small air conditioner is used, a problem of supply of power for operating the air conditioner occurs, and a problem of heat treatment generated in the condenser is additionally generated.

Therefore, the refrigerant (cooling) device applied to the air jacket in the prior art can not obtain a satisfactory cooling efficiency and is practically difficult to apply.

Accordingly, the present invention has been made in order to solve the problems of the related art, and it is an object of the present invention to provide a new type of portable device which can supply or circulate a gas or a liquid, And to provide a refrigerant device.

In particular, it is an object of the present invention to provide a new type of portable refrigerant apparatus for supplying air into a jacket worn by a worker to maintain the temperature of the worker in a high-temperature working environment such as a welding operation at a shipyard .

It is another object of the present invention to provide a new type of portable refrigerant device which can be directly applied to various existing air jackets.

Another object of the present invention is to provide a new type of portable refrigerant device capable of effectively increasing the application time of cold air while lowering the increase in unit price generated when a conventional vortex tube, a refrigerant cycle device (cooler) or the like is applied do.

According to an aspect of the present invention for achieving the above object, there is provided a fluid supply device comprising: a fluid inlet part (22) in which an internal space (21) is formed and into which fluid supplied from a fluid supply device (1) An internal vessel (20) in which a fluid outlet portion (24) flowing out to the using device (2) is installed; A refrigerant (12) filled in the inner space (21) of the inner vessel (20); A cooling hose 30 for connecting the fluid inlet portion 22 and the fluid outlet portion 24 in the internal space 21 of the inner container 20 to form a passage 31 that flows to the fluid outlet portion 24; ); The refrigerant 12 is formed to be hermetically accommodated in the inner vessel 20 so that the refrigerant 12 is converted into a low temperature state through the cooling of the inner vessel 20 so that the fluid supply device 1 and the fluid The temperature of the fluid supplied from the fluid supply device 1 to the fluid using device 2 can be lowered by connecting between the using devices 2.

In such a portable refrigerant apparatus, the refrigerant 12 may be a mixture of polymer gels and ionic alloys, which are water-absorbent resins.

Such a portable refrigerant apparatus includes an outer container 40 formed to insert the inner container 20 cooled in one direction and having an inner space 41; And an insulator 50 inserted into the inner space 41 of the outer container 40 and forming an inner space 51 into which the inner container 20 is inserted.

In the portable refrigerant apparatus as described above, the inner container 20 further includes an aluminum pipe 25 inserted into the inner space 21, so that the cooling hose 30 is moved along the inner circumference of the aluminum pipe 25 And the cooling hose (30) accommodated in the inner container (23) can increase the contact area with the refrigerant (12).

In such a portable refrigerant apparatus, the fluid supply device 1 may be provided with an air compressor 17 so as to introduce compressed air.

In such a portable refrigerant apparatus, the fluid using device 2 is a wearable jacket, and the fluid introduced from the fluid supply device 1 can be cooled by passing through the coolant 12 and injected into the jacket.

According to the portable refrigerant apparatus of the present invention, an internal space 21 is formed, and an air inlet portion 22 through which the fluid supplied from the fluid supply device 1 flows, The refrigerant 12 to be filled in the inner space 21 of the inner container 20 and the inner space 21 of the inner container 20 and the inner space 20 of the inner container 20, And a cooling hose 30 connecting the air inlet portion 22 and the fluid outlet portion 24 to the fluid outlet portion 24 to form a passage 31. The refrigerant 12 is introduced into the inner container 20, The fluid supply device 1 is connected between the fluid supply device 1 and the fluid usage device 2 at the time of use by converting the refrigerant 12 into a low temperature state through cooling of the inner container 20, It is possible to lower the temperature of the fluid supplied from the fluid supply device 2 to the fluid supply device 2, It was coupled to the product being used, and so as to lower the temperature of the gas or liquid to be supplied or circulated, so that in a high temperature environment to maintain the body temperature of the operator. In addition, it can be applied directly to a variety of conventional air jackets, and it is possible to effectively increase the application time of cool air while lowering an increase in the unit price that occurs when a conventional vortex tube or a refrigerant cycle device (cooler) is applied.

1 is a view illustrating a portable refrigerant apparatus according to a technical idea of the present invention;
2 is a view for explaining a main configuration of a portable refrigerant apparatus according to a preferred embodiment of the present invention;
3 is a cross-sectional view of a portable refrigerant apparatus according to another preferred embodiment of the present invention;
FIG. 4 illustrates a structural coupling of a portable refrigerant apparatus according to another preferred embodiment of the present invention; FIG.
FIG. 5 is a graph showing a change in temperature with time in a portable refrigerant apparatus according to a preferred embodiment of the present invention.

1 is a view showing a portable refrigerant apparatus according to a technical idea of the present invention.

Referring to FIG. 1, an internal container 20, a refrigerant 12, and a cooling hose 30 are formed.

The portable refrigerant apparatus according to the technical idea of the present invention includes a fluid inlet portion 22 in which an internal space 21 is formed and into which fluid supplied from the fluid supply device 1 flows, The refrigerant 12 to be filled in the inner space 21 of the inner container 20 and the inner space 21 of the inner container 20 to which the fluid outlet portion 24 that flows out from the inner space 20 And a cooling hose 30 connecting the fluid inlet portion 22 and the fluid outlet portion 24 to form a passage 31 that flows to the fluid outlet portion 24. [

Such a portable refrigerant apparatus is formed such that the refrigerant 12 is enclosed and accommodated in the inner vessel 20 to convert the refrigerant 12 into a low temperature state through cooling of the inner vessel 20, The temperature of the fluid supplied from the fluid supply device 1 to the fluid using device 2 can be lowered by connecting it between the fluid using devices 2.

The inner container 20 may be provided in a form capable of filling the refrigerant 12 and may be provided with the cooling hose 30 in the inner space 21 to supply the fluid using device 2 by cooling the introduced fluid.

The coolant 12 is provided by mixing a polymer gel and an ion alloy, which are water-absorbent resins, so that the freezing time and the cold thermal conductivity are improved. In case of using only polymer gel, the freezing time and the cold heat conduction of the air are weak. On the other hand, only the polymer gel raw material and water can be used. However, since the freezing time and the cold conductivity are weak, The refrigerant 12 is used as a mixture of the polymer gel and the ion alloy, which are water-absorbent resins, because the thermal conductivity is improved.

The cooling hose (30) is formed with the passage (31), so that the fluid can flow in. The thickness of the cooling hose (30) can be varied according to the needs of the user. And it is made of a material which does not have the same effect of corrosion even when it comes into contact with the refrigerant (12) and can not break even when cooled.

The fluid supply device 1 may be provided with an air compressor 17 to introduce compressed air and the fluid use device 2 is a wearable jacket which is configured to supply the fluid introduced from the fluid supply device 1 to the refrigerant 12 Then cooled, and injected into the jacket. It can also be applied to a vortex tube, a refrigerant cycle device (cooler), and the like.

Since the portable refrigerant apparatus according to the present invention can lower the temperature of the fluid, it is possible to reduce the temperature of the gas or liquid to be supplied or circulated by coupling the gas or the liquid to the product to be used by supplying or circulating , So that the operator's body temperature can be maintained in a high-temperature working environment. In addition, it can be applied directly to a variety of conventional air jackets, and it is possible to effectively increase the application time of cool air while lowering an increase in the unit price that occurs when a conventional vortex tube or a refrigerant cycle device (cooler) is applied.

Hereinafter, the preferred embodiments of the present invention will be described with reference to Figs. 2 to 5 attached hereto. On the other hand, with respect to the mixing technique of the refrigerant, the application technique of the fluid supply device, the application technique of the fluid utilization device, and the like, those skilled in the art to which the present invention is applicable and those skilled in the art, The description is omitted and the present invention has been mainly shown and described with respect to portions related to the present invention.

2 is a view for explaining a main configuration of a portable refrigerant apparatus according to a preferred embodiment of the present invention.

Referring to FIG. 2, the internal container 20, the refrigerant 12, the cooling hose 30, the external container 40, and the heat insulator 50 are formed.

The portable refrigerant apparatus 10 according to the preferred embodiment of the present invention is provided with a passage 31 through which the fluid flows by being filled with the refrigerant 12 in the inner space 21 of the inner vessel 20 and having the cooling hose 30 And this configuration is the same as that described above in Fig.

An outer container 40 having an inner space 41 and an inner space 41 inserted into the inner space 41 of the outer container 40. The inner container 20 is inserted into the inner space 41 of the outer container 40, (50) for forming an internal space (51) in which the heat sink (50) is inserted.

The outer container 40 is inserted into the inner container 20 so that the inner container 20 is separated from the inner container 20 when it is cooled, and inserted into the outer container 40 at the time of use.

Since the heat insulating material 50 blocks the heat from the outside and keeps the cooled air and the heat insulating material 50 can be used as a material capable of blocking heat normally used by workers in related fields, ) May be applied.

Since the portable refrigerant apparatus 10 according to the preferred embodiment of the present invention can lower the temperature of the fluid, it can be supplied to or circulated through a gas or a liquid, And maintains the operator's body temperature in a high-temperature working environment. In addition, it can be applied directly to a variety of conventional air jackets, and it is possible to effectively increase the application time of cool air while lowering an increase in the unit price that occurs when a conventional vortex tube or a refrigerant cycle device (cooler) is applied.

3 is a cross-sectional view of a portable refrigerant apparatus according to another preferred embodiment of the present invention. 4 is a view illustrating a structural coupling of a portable refrigerant apparatus according to another preferred embodiment of the present invention.

3, the outer container 40, the outer container lid 40a, the heat insulator 50, the inner container 20, the inner container lid 20a, the refrigerant 12, the fluid inlet 22 ), And a fluid outlet portion (24).

A heat insulating body 50 provided between the outer vessel 40 and the inner vessel 20 to block heat transfer to the outside, an aluminum tube 25 provided inside the inner vessel 20, And a cooling hose 30 mounted on the inside of the aluminum pipe 25 and provided in a winding laminated manner in contact with the inner wall surface of the aluminum pipe 25. The inner space 20 of the inner container 20 is provided with the refrigerant 12 injected into the aluminum pipe 25 and the inner container 20, the fluid inlet portion 22 and the fluid outlet portion 24, And an outer container lid portion 40a for shielding the inner space 41 of the outer container 40. The inner container lid portion 20a covers the inner space 41 of the outer container 40,

Referring to FIG. 4, the structure of the portable refrigerant apparatus according to another preferred embodiment of the present invention is shown in order. FIG. 4 (a) is a view illustrating a state in which the cooling hose 30 is wound inside the aluminum tube 25 4 (b) shows a cooling hose 30 connected to the fluid inlet portion 22 and the fluid outlet portion 24 provided in the inner container lid portion 20a. 4 (c) is an outer appearance in which the inner container 20 is shielded by the inner container lid 20a, and FIG. 4 (d) And is inserted and fixed therein. FIG. 4 (e) finally closes the outer container lid 40a to construct a portable refrigerant device.

Since the portable refrigerant apparatus 10 according to the preferred embodiment of the present invention can lower the temperature of the fluid, it can be supplied to or circulated through a gas or a liquid, And maintains the operator's body temperature in a high-temperature working environment. In addition, it can be applied directly to a variety of conventional air jackets, and it is possible to effectively increase the application time of cool air while lowering an increase in the unit price that occurs when a conventional vortex tube or a refrigerant cycle device (cooler) is applied.

FIG. 5 is a graph showing a change in temperature with time in a portable refrigerant apparatus according to a preferred embodiment of the present invention.

Referring to FIG. 5, the portable refrigerant apparatus 10 is measured at intervals of 5 minutes using the thermal imaging camera in the order of (a), (b), (c), and (d).

5 (a) is a view for starting the measurement of the temperature of the portable refrigerant apparatus 10. In the portable refrigerant apparatus 10, the cooled refrigerant apparatus 10 clearly differs from the external temperature and the average temperature by the data is the fluid inlet 22, 19.3 占 폚, the portable refrigerant apparatus 10 is 6 占 폚, and the fluid outlet portion 24 is 19.6 占 폚.

5 minutes later, in Fig. 5 (b), the fluid inlet portion 22 is 16 占 폚, the portable refrigerant device 10 is 15.4 占 폚, and the fluid outlet portion 24 is 14.3 占 폚. 5 (a), the temperature of the portable refrigerant apparatus 10 is increased by the external temperature, but the temperature of the fluid outlet portion 24 is significantly lowered.

After 10 minutes, FIG. 5 (c) shows the fluid inlet portion at 16.6 ° C, the portable refrigerant device at 15.9 ° C, and the fluid outlet portion at 14.6 ° C. Compared with Figure 5 (b), the portable refrigerant system 10 maintains the temperature on average and the fluid outlet 24 is also continuously supplying the cooled fluid.

After 15 minutes, FIG. 5 (d) shows the fluid inlet portion at 16 ° C, the portable refrigerant device at 14.1 ° C, and the fluid outlet portion at 15 ° C. 5 (c), the temperature of the portable refrigerant apparatus 10 may drop, but data errors may exist depending on the external environment. If the temperature of the fluid outlet portion 24 is about 1 degree C However, it can be confirmed that the cooled fluid is supplied.

According to data obtained by measuring the temperature of the portable refrigerant apparatus 10, it is possible to use the conventional cooling apparatus for about 2 hours while maintaining the cooling time of the external apparatus. However, the portable refrigerant apparatus 10) can be maintained for about 4 hours.

Since the portable refrigerant apparatus 10 according to the preferred embodiment of the present invention can lower the temperature of the fluid, it can be supplied to or circulated through a gas or a liquid, And maintains the operator's body temperature in a high-temperature working environment. In addition, it can be applied directly to a variety of conventional air jackets, and it is possible to effectively increase the application time of cool air while lowering an increase in the unit price that occurs when a conventional vortex tube or a refrigerant cycle device (cooler) is applied.

Although the air jacket including the cooling device according to the preferred embodiment of the present invention has been described above with reference to the above description and drawings, it should be understood that the present invention is not limited thereto. It will be understood by those skilled in the art that various changes and modifications may be made.

1: fluid supply device 2: fluid use device
10: Portable refrigerant device 12: Refrigerant
20: inner container 20a: inner container cover
21: inner space 25: aluminum tube
30: cooling hose 31: passage
40: outer container 40a: outer container cover
41: inner space 50:
51: Interior space

Claims (6)

A fluid inlet portion 22 into which the fluid supplied from the fluid supply device 1 is formed and a fluid outlet portion 24 through which the introduced fluid flows out into the fluid using device 2, An inner container 20 in which the inner container 20 is installed;
A refrigerant (12) filled in the inner space (21) of the inner vessel (20);
A cooling hose 30 for connecting the fluid inlet portion 22 and the fluid outlet portion 24 in the internal space 21 of the inner container 20 to form a passage 31 that flows to the fluid outlet portion 24; );
The refrigerant 12 is formed to be hermetically accommodated in the inner vessel 20 so that the refrigerant 12 is converted into a low temperature state through the cooling of the inner vessel 20 so that the fluid supply device 1 and the fluid (2) to lower the temperature of the fluid supplied from the fluid supply device (1) to the fluid using device (2).
The method according to claim 1,
Wherein the refrigerant (12) is a mixture of polymer gels and ion alloys which are water-absorbent resins.
3. The method according to claim 1 or 2,
An outer container (40) formed to insert the inner container (20) cooled in one direction and having an inner space (41);
Further comprising an insulator (50) inserted into the inner space (41) of the outer container (40) and forming an inner space (51) into which the inner container (20) Device.
The method according to claim 1,
The inner vessel 20 further includes an aluminum tube 25 inserted into the inner space 21 so that the cooling hose 30 is wound and laminated along the inner circumference of the aluminum tube 25 Wherein the cooling hose (30) housed in the inner container (23) increases the contact area with the refrigerant (12).
The method according to claim 1,
Characterized in that the fluid supply device (1) is provided with an air compressor (17) to introduce compressed air.
The method according to claim 1,
Wherein the fluid using device (2) is a wearable jacket, and the fluid introduced from the fluid supply device (1) is passed through the coolant (12) and cooled to be injected into the jacket.

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