KR101450251B1 - Portable Cooling Device - Google Patents

Abstract

The present invention relates to a portable cooling device with which a user can be supplied directly with cold air through vaporization of a liquid gas (for example, liquid nitrogen) accommodated in a container in an expansion section and heat exchange between the liquid gas and outside air. The portable cooling device according to the present invention includes a container in which a liquid gas is accommodated, and having an upper end portion formed to be open; a cap that opens/closes the upper end portion of the container; a nozzle that is disposed to penetrate the cap from an inner side of the container; a cold air generator that is provided with a case which is disposed in an upper portion of the cap, has an inflow port formed on one side for outside air inflow, and a cold air discharge port formed on the other side for heat-exchanged cooling air discharge, an air flow path which is formed inside the case to connect the inflow port to the cold air discharge port, an expansion section which is disposed inside the case, the liquid gas rising along the nozzle while communicating with an upper end portion of the nozzle being vaporized while being expanded in the expansion section, a heat-conducting heat exchange unit which is disposed inside the air flow path, one end portion thereof being formed to contact the expansion section, a blower fan which is disposed in the air flow path for forced air blow through the air flow path, and a fan driving unit which drives the blower fan; and a heat-conducting heat transfer shaft that generates a natural pressure in the container with one end being connected to the cold air generator and the other end being immersed in the liquid gas inside the container.

Description

{Portable Cooling Device}

More particularly, the present invention relates to a portable air conditioner, and more particularly, to a portable air conditioner having a portable air conditioner capable of carrying a liquid gas (for example, liquefied nitrogen) accommodated in a small container that can be carried by a user, The present invention relates to a portable air conditioner for supplying air to a user.

Since the general air conditioners are fixedly installed at any position of the indoor space to cool the entire indoor space, not only the individual tendencies of all the people in the room can not all be satisfied but also the amount of air conditioning required for cooling is also inefficient .

In addition, since the conventional air conditioner is bulky and heavy, the air conditioner can not communicate the cooling effect at a distance from the air conditioner even if the indoor space is the same, and when the person is out of the room where the air conditioner is installed, If you move to a different place, you can not expect any cooling.

In order to solve such a problem, Patent No. 323687 discloses a personal cooling apparatus which can implement a compact cooling apparatus by using liquid nitrogen and can be used while being portable, have.

In the personal cooling apparatus of the above-mentioned patent, an outer container is provided on the outer side of an inner container filled with liquid nitrogen, a heat exchange pipe is provided so as to pass through the inner container and the outer container, And blowing outside air cooled by the heat exchange to the outside of the case, thereby directly providing cold air to the individual.

However, the conventional small-sized air conditioners including the above-mentioned personal air conditioners have been downsized in size, but their miniaturization has been limited due to structural complexity and the like.

1. Korean Registered Patent No. 323687 (Registration date January 25, 2002): Personal air-conditioning system 2. Korean Patent Publication No. 2009-0052026 (Published on May 25, 2009): Portable Air Conditioner

SUMMARY OF THE INVENTION It is an object of the present invention to provide a compact portable air conditioner which is easy for an individual to carry and is convenient to use.

According to an aspect of the present invention, there is provided a portable type air conditioner comprising: a heat-insulating container having a liquid gas accommodated therein and an upper end opened; A cap for opening and closing an upper end of the container; A nozzle installed to penetrate the cap from the inside of the container; A case provided on an upper portion of the cap and having an inlet through which air flows in from the outside and a cold outlet from which cooling air exchanged in heat is discharged to the other side; An expanding unit disposed inside the case and connected to an upper end of the nozzle to expand the liquid gas along the nozzle while vaporizing the expanded gas; A heat exchanging part of a thermally conductive material formed inside the air flow path and having one end made in contact with the bulging part; a blowing fan installed in the air flow path for forcibly blowing air through the air flow path; A cool air generator having a fan drive unit; And a heat transfer shaft made of a thermally conductive material having one end connected to the cool air generator and the other end being immersed in the liquid gas inside the container to generate natural pressure inside the container.

According to the present invention, the liquid gas contained in the container is supplied to the cool air generator on the upper side of the cap and is vaporized, and the air introduced from the outside can be cooled and discharged by using the heat of vaporization. Therefore, it is possible to provide sufficient cold air at a desired place by a user with a small size and configuration that the user can carry easily.

1 is a cross-sectional view of a portable air conditioner according to an embodiment of the present invention.
Fig. 2 is a plan view of the expansion part of the portable cooling apparatus of Fig. 1;
3 is a front view of the expansion part and the heat exchange part of the portable air conditioner of Fig. 1;
Fig. 4 is a side view of the expanding portion and the heat exchanging portion of Fig. 2;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a portable air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 4, a portable air-conditioning apparatus of the present invention includes a heat insulating container 10 (e.g., a container) in which a liquid gas (for example, liquid nitrogen or liquid oxygen or a mixture of liquid nitrogen and liquid oxygen) A cap 30 for opening and closing an open upper end of the container 10; a nozzle 20 installed to penetrate the cap 30 from the inside of the container 10; A cooler generator 40 installed at the upper side of the container 10 and a thermally conductive material 40 having one end connected to the cooler generator 40 and the other end being locked to the liquid gas inside the container 10, And a heat transfer shaft (50).

The container 10 can be constructed by applying a heat insulating material or a vacuum thermosensitive bottle which is formed in a cylindrical shape having a size such that the upper end thereof is opened and can be gripped by a hand, and which can prevent heat transfer to the outside.

The nozzle 20 may be formed as a single long tube. However, as in this embodiment, the upper end of the nozzle 20 may be connected to the lower side of the cap 30 and the lower end of the nozzle 20 may be connected to the lower A second nozzle 21 connected at the lower end to the upper side of the cap 30 to communicate with the upper end of the first nozzle 21 and an upper end connected to the expanding portion 44 inside the cooler generator 40; And can be configured to be detachable by the nozzle 22.

The cap 30 is detachably coupled to the upper end of the container 10 to open and close the upper end of the container 10. (Not shown) is formed on the inner circumferential surface of the upper end of the container 10 in order to detachably connect the cap 30 to the container 10, and a screw (not shown) is screwed on the outer circumferential surface of the cap 30 A thread (not shown) may be formed. A gas supply hole 31 through which the first and second nozzles 21 and 22 are connected is formed at the center of the cap 30.

A pressure regulating hole 32 is formed in the cap 30 so as to pass through the pressure regulating hole 32. When the pressure inside the pressure regulating hole 32 becomes equal to or higher than a set pressure, A pressure regulating valve 60 for discharging the gas in the inside of the fuel cell 10 to the outside can be configured. The pressure regulating valve 60 is provided inside the pressure regulating hole 32 formed in a multi-stage structure and includes a ball 61 for opening and closing the pressure regulating hole 32, (Not shown).

The cool air generator 40 is installed at the upper end of the cap 30 to expand the liquid gas supplied through the nozzle 20 and cool the outside air by using the heat of vaporization of the expanded gas . In this embodiment, the cool air generator 40 is installed at an upper portion of the cap 30, and has an inlet 42 through which air flows in from the outside, and a cool air outlet An air flow path 41a formed so as to connect the inlet port 42 and the cold air outlet port 43 to the inside of the case 41; An expanding part 44 provided in the air flow path 41a and connected to the upper end of the nozzle 20 so that the liquid gas rising along the nozzle 20 expands and vaporizes; A blowing fan 46 installed in the air passage 41a for forcibly blowing air through the air passage 41a and a blowing fan 46 for blowing air through the air passage 41a, And a fan driving unit for driving the fan driving unit.

Although not shown in the drawing, the fan driving unit includes a motor connected to the center of the blowing fan 46, a battery for supplying power to the motor, and a switch for controlling supply of power from the battery to the motor. .

The case 41 is formed separately from the cap 30. Alternatively, the case 41 and the cap 30 may be integrally formed. An inlet 42 of the case 41 is formed at the lower end of the case 41 and a cold air outlet 43 is formed at a side of the case 41.

The expansion portion 44 is made of a thermally conductive metal material having high thermal conductivity and is installed inside the case 41. The inflating portion 44 has a substantially rectangular space so that the liquid gas L supplied through the nozzle 20 can expand. The lower portion of the inflating portion 44 has an end portion And a gas inlet 44b communicating with the gas inlet 44b and supplied with the liquid gas L is formed. A plurality of heat transfer fins 44a are arranged at regular intervals in the space of the expansion part 44 to improve the heat transfer performance to the heat exchange part 45. [

A gas discharge port 44c is formed at one side of the expansion part 44 and an exhaust valve 47 for discharging the gas vaporized in the expansion part 44 to the outside is installed in the gas discharge port 44c do.

The heat exchanging part (45) is integrally formed on the upper surface of the expansion part (44). The heat exchanging part 45 is composed of a plurality of heat dissipating fins 45c arranged on the upper surface of the expanding part 44 at regular intervals in one direction.

The heat transfer shaft 50 has a long bar shape and penetrates the cap 30 from the inside of the container 10 and contacts the lower side of the expanding portion 44. The heat transfer shaft 50 receives heat from the expanding portion 44 and vaporizes a part of the liquid gas L inside the vessel 10 to vaporize the liquid gas L from the inside of the vessel 10 through the nozzle 20 It acts to generate natural pressure that flows. In this embodiment, the heat transfer shaft 50 is connected to the expansion portion 44, but may alternatively be connected to other components of the cooler generator 40, for example, one side of the case 41.

A heating unit (for example, a heating coil) that generates heat by an external power source may be additionally mounted on the upper end of the heat transfer shaft 50 to enhance the natural pressure generation effect by the heat transfer shaft 50.

The operation of the portable air conditioner constructed as described above will be described below.

When a switch (not shown) of the fan driving unit is operated while the user opens the exhaust valve 47, power is supplied from the battery (not shown) of the fan driving unit to the motor (not shown) .

External air flows into the case 41 through the inlet 42 of the case 41 by the rotation of the blowing fan 46 and flows through the air passage 41a. At the same time, heat of external air is transferred to the liquid gas L inside the vessel 10 through the heat transfer shaft 50, and natural pressure is generated by the liquid gas vaporized inside the vessel 10, 20, and is supplied to the inside of the expanding section 44.

The liquid gas supplied to the inside of the expansion part 44 expands in the space inside the expansion part 44 and is vaporized to take heat, thereby cooling the heat radiation fin 45a of the heat exchange part 45. At this time, the outside air introduced through the inlet (42) passes through the space between the radiating fins (45a) of the heat exchanging part (45) and is cooled by being deprived of heat.

The cooled air passing through the heat exchanging unit 45 is discharged to the outside through the cold air outlet 43 of the case 41 to provide cool air to the user.

When the pressure of the inside of the vessel 10 becomes excessively high due to an increase in the amount of gas vaporized in the vessel 10 during use, the ball 61 of the pressure control valve 60 is pressed against the elastic force of the compression spring 62 And the pressure regulating hole 32 is opened. Accordingly, the gasified gas in the container 10 is discharged to the outside through the pressure regulating hole 32, so that the pressure inside the container 10 is lowered. Then, the elastic force of the compression spring 62 causes the ball 61 And the pressure regulating hole 32 is closed.

Also, when the vessel 10 is turned upside down during use, only vaporized gaseous gas is discharged to the expansion part 44 through the nozzle 20, thereby preventing the liquid gas from flowing out unintentionally.

As described above, according to the present invention, the liquid gas L contained in the container 10 is supplied to the cold generator 40 on the upper side of the cap 30 and is vaporized, and the air introduced from the outside is cooled by using the heat of vaporization, . Therefore, the overall size and configuration can be greatly reduced, and there is an advantage that the user can easily use the portable device while using it.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the present invention as defined by the appended claims. And it is to be understood that such modified embodiments belong to the scope of protection of the present invention defined by the appended claims.

10: container 20: nozzle
21: first nozzle 22: second nozzle
30: cap 31: gas supply hole
32: pressure regulator 40: cold generator
41: Case 41a:
42: inlet port 43: cold outlet port
44: Expansion part 44a: Heat transfer pin
45: heat exchanger 45a:
46: blowing fan 47: exhaust valve
50: heat transfer shaft L: liquid gas

Claims (6)

A heat insulating container (10) having a liquid gas accommodated therein and an upper end opened;
A cap 30 for opening / closing an upper end of the container 10;
A nozzle (20) installed to pass through the cap (30) from the inside of the container (10);
A case 41 provided at an upper portion of the cap 30 and formed with an inlet port 42 through which air flows in from the outside and a cold air outlet 43 through which heat exchanged cooling air is discharged to the other side, An air flow path 41a formed inside the case 41 so as to connect the inlet port 42 and the cold air outlet port 43 to form a passage through which heat is exchanged with the air introduced from the outside, An expanding portion 44 installed inside the air flow path 41a and communicating with an upper end portion of the nozzle 20 so that the liquid gas rising along the nozzle 20 is expanded and vaporized; A heat exchanging part 45 made of a thermally conductive material formed in contact with the expansion part 44; a blowing fan 46 installed in the air flow path 41a for forcibly blowing air through the air flow path 41a; And a fan drive unit for driving the fan 46 Group generator 40, and;
And a heat transfer shaft (50) made of a thermally conductive material, one end of which is connected to the cool air generator (40) and the other end is immersed in the liquid gas inside the container (10) Portable air conditioner. The refrigerator according to claim 1, characterized in that the cool air generator (40) further comprises an exhaust valve (47) connected to the expanding part (44) and discharging the vaporized gas in the expanding part (44) Portable air conditioning system. The refrigerator according to claim 1, wherein the heat exchanging unit (45) of the cool air generator (40) comprises a plurality of heat dissipating fins (45c) arranged on the upper side of the expanding unit (44) at regular intervals in one direction, And a plurality of heat transfer fins (44a) are arranged at regular intervals on the inside of the partition (44). The air conditioner according to claim 1, further comprising: a pressure control hole (32) penetrating the cap (30) vertically; a ball (61) installed inside the pressure control hole (32) And a compression spring 62 for elastically supporting the ball 61. A pressure control valve 60 for discharging the gas in the vessel 10 to the outside when the pressure inside the vessel 10 becomes equal to or higher than a set pressure, Further comprising a plurality of air conditioning units. The heat transfer apparatus according to claim 1, wherein an upper end of the heat transfer shaft (50) is in contact with the bulging portion (44) to receive heat from the bulging portion (44) Wherein the heating unit is selectively installed when necessary. The container according to claim 1, wherein the nozzle (20) has a first nozzle (21) having an upper end connected to a lower side of the cap (30) and a lower end spaced a predetermined distance from a lower portion of the container And a second nozzle (22) disposed on the upper side of the cap (30) and communicating with the upper end of the first nozzle (21) and having an upper end connected to the expansion part (44).

Images