KR20170107603A - A cooling system for medical - Google Patents

Abstract

The present invention relates to a cooling device for medical use in which a cooling unit, a suction unit, and a heat dissipating unit are integrated, thereby increasing heat dissipation efficiency, and a hypothermia prevention pad detection unit for detecting a hypothermia prevention pad is directly installed on a cooling plate so as to prevent hypothermia of a user, and which can be easily miniaturized to be carried on a person for convenience of use. According to the present invention, the cooling device (1000) for medical use comprises: a case (1100) which includes a grill for having a flow of air, and has a control manipulation unit (1600) located on an outer surface on one side thereof; a vacuum suction unit (1200) which is installed inside the case to create vacuum pressure by using a motor or a pump; a suction unit (1300) which is installed inside the case to communicate with a lower part of the vacuum suction unit; a cooling unit (1400) which is installed on both side surfaces of the suction unit to take away heat from a skin; and a heat dissipation unit (1500) which is installed between the case, and the vacuum suction unit and the suction unit to release heat in one direction of the case while being in contact with the cooling unit.

Description

A cooling system for medical}

More particularly, the present invention relates to a medical cryogenic apparatus, and more particularly, to a medical cryogenic apparatus, and more particularly, to a radiotherapy apparatus and a medical cryogenic apparatus which are capable of enhancing heat radiation efficiency by integrating a cooling section, a suction section and a radiating section, To a medical low temperature oven which is small in size and easy to carry and is convenient to use.

In general, induction of cooling in the skin of the human body leads to various effects such as pain relief, vasoconstriction, and inflammation suppression. Various cooling methods have been developed to induce such a cooling effect. And is used only in limited areas in some fields.

In particular, the skin cooling method is used in the treatment of skin diseases and laser treatment, but the cooling device used for treatment of skin diseases is a cooling device using the heat of vaporization of liquid nitrogen, so that it is not easy to handle under general operation conditions, And it is very inconvenient to use because of the time limit due to the vaporization rate.

Compressor type cooler using Freon gas as a refrigerant is a method of directly contacting a probe of a metal material to the skin, and it is impossible to control the temperature, and only an extremely low temperature of minus 15 degrees to minus 20 degrees is maintained The temperature of about 10 degrees of the image can not be maintained.

In recent years, a low-temperature system using a thermoelectric device capable of cooling and heating at any time through pole switching has been proposed as a next generation cooling system in which a conventional cooling system in which a compressor is operated to circulate refrigerant is eliminated.

A thermoelectric element is a device formed by bonding two different metals in the same shape or bonding an n-type semiconductor and a p-type semiconductor to each other. When a direct current is applied to the element, the endothermic reaction and the heat- . Therefore, if the heat exchanger is installed in the heat absorbing portion of the thermoelectric element, the surrounding space can be cooled. On the contrary, if the heat exchanger is installed in the heat dissipating portion, the temperature of the surrounding space can be increased.

Such a thermoelectric device does not require a driving device such as a compressor because it does not use a refrigerant using a conventional refrigeration cycle, so that no noise is generated and the size of the thermoelectric device is small.

Therefore, the heat absorbing portion of the thermoelectric element can be placed toward the space to be cooled and the heat releasing portion is disposed on the opposite side, so that the size and the time of the current supplied to the thermoelectric element can be controlled to cool or freeze. And the like.

A cooler using the above-described principle has been researched, and in particular, a skin cooler using a thermoelectric element (Korean Patent Application No. 2002-63368) and a medical cooler using a thermoelectric semiconductor (Korean Patent Registration No. 0697956) have also been filed .

In addition, these conventional skin coolers have no side effects among various techniques for the treatment of obesity, and cooling pain lipolysis without pain during the procedure is used as a new treatment method. The cooling lipololizer sucks the heat of the operation part, A sucking part for bringing the treatment part into contact with the cooling part, a cooling part for cooling the treatment part, and a heat radiating part for transferring the heat energy transferred to the cooling part to the outside.

Conventionally, in the medical cooler for cooling the skin to dissolve the fat, the suction part, the cooling part, and the heat radiating part are mechanically separated from each other and are difficult to carry, which leads to a high heat loss, there was.

In addition, although it is necessary to use a frost protection pad, which is essential to the operation site, there is a problem that the user does not perform the procedure using the frost protection pad, and thus the frost is applied.

References: Korean Patent No. 10-2004-0034039 entitled " Skin Cooler Using Thermoelectric Device ", and Korean Patent No. 10-0697956 entitled " Medical Cooler Using Thermoelectric Semiconductor "

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above problems, and it is an object of the present invention to provide a cooling plate which is integrated with a cooling part, a suction part and a heat radiating part to increase the heat radiation efficiency, The object of the present invention is to provide a medical low-temperature apparatus which can prevent the user from being frosted, can be easily miniaturized, and is easy to carry.

According to another aspect of the present invention, there is provided a medical cryogenic apparatus comprising: a case having a grill to have a flow of air and having a control operating part located on one side of the grill; A suction unit installed inside the case and connected to a lower portion of the vacuum suction unit; a cooling unit installed on both inner sides of the suction unit to take heat of the skin; And a heat dissipating unit disposed between the case and the vacuum suction unit and the suction unit, the heat dissipating unit being disposed in contact with the cooling unit.

The case includes a left body case disposed at an outer side of the vacuum suction unit and having a carrier ring and a silicon pad disposed on an outer surface thereof, a right body body having a control operation unit mounting groove formed on an outer side of the vacuum suction unit, A cover installed on the left body case and the upper body case, and first and second grilles provided on the side surfaces of the left and right body cases to form an air flow path.

The cooling unit is provided to protrude from the inner side surface of the suction unit, and has an insulating surface plated to be insulated by the outer surface, and an anti-frost pad detecting unit, which is a tubular surface from which an insulating surface is removed at one side of the insulating surface. A pair of cooling panels, and a thermoelectric element connected to the cooling panel and configured to discharge heat to the radiator.

The heat dissipating unit may include a heat block adapted to receive heat from the cooling unit, a heat dissipating fin adapted to receive heat from the heat block, a cooling fan fixedly installed on the outer surface of the heat dissipating fin, And a heat pipe connecting the heat block and the heat radiating fin to transfer heat from the heat block to the heat radiating fin.

The anti-frost pad detecting unit is formed on the vacuum suction side.

As described above, according to the medical cryogenic apparatus of the present invention, the cooling part, the suction part, and the radiating part are integrated to increase the radiating efficiency.

According to the medical cryogenic apparatus according to the present invention, there is an effect that the frost protection pad sensing portion for sensing the frost protection pad is installed directly on the cooling plate, thereby preventing the frost of the user.

1 is a perspective view of a medical cryogenic apparatus according to an embodiment of the present invention,
Fig. 2 is a front view of Fig. 1,
Fig. 3 is a right side view of Fig. 1,
Figs. 4 and 5 are exploded perspective views of Fig. 1,
6 is a sectional view taken along the line A-A in Fig. 2,
7 is a sectional view taken along the line B-B in Fig. 2,
8 is a sectional view taken along the line C-C in Fig.

Hereinafter, a medical cryogenic apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In the drawings, the same reference numerals are given to the same elements even when they are shown in different drawings. In the drawings, the same reference numerals as used in the accompanying drawings are used to designate the same or similar elements. And detailed description of the configuration will be omitted. Also, directional terms such as "top", "bottom", "front", "back", "front", "forward", "rear", etc. are used in connection with the orientation of the disclosed drawing (s). Since the elements of the embodiments of the present invention can be positioned in various orientations, the directional terminology is used for illustrative purposes, not limitation.

1 to 8, a medical cold room 1000 according to an embodiment of the present invention includes a case 1100 in which a control operation part 1600 is located on one side of a grill, A vacuum suction unit 1200 disposed inside the case and configured to form vacuum pressure by a motor or a pump; a suction unit 1300 installed inside the case and connected to a lower portion of the vacuum suction unit; A cooling part 1400 provided on both inner side surfaces of the suction part to absorb the heat of the skin, and a cooling part installed to be disposed between the case and the vacuum suction part and the suction part, And a left and right heat dissipation unit 1500 installed to emit heat in one direction.

Therefore, if the medical operation unit 1500 is operated by operating the control operation unit 1600 by placing the user's operation part in a state of mounting the in-phase preventing pad not shown in the suction unit 1300, the vacuum suction unit 1200 A vacuum is generated in the suction portion 1300 while the suction portion is in contact with the suction portion 1300. The suction portion is in close contact with the cooling portion 1400 to suck the heat of the treatment portion, (1500). At this time, the cooled part is contacted with the cooling part (1400) and the fat is decomposed.

The case 1100 includes a left body case 1110 having a carrier ring 1160 and a silicon pad 1170 disposed on the outer side of the vacuum suction unit 1200 and having an air flow path 1111, A right side body case 1120 having an air flow path 1121 and a control operation part mounting groove 1122 formed on the outside of the vacuum suction part so as to protrude the control operation part 1600, A cover 1130 provided at an upper portion of the right body case and having an air flow path 1131 and first and second grilles 1140 and 1140 formed at the side surfaces of the left and right body cases, , 1150).

Accordingly, when the air is exhausted from the vacuum suction unit 1200, vacuum is generated in the suction unit 1300 while being discharged to the outside of the case 1100, and the heat taken by the cooling unit 1400 is dissipated through the heat dissipation unit 1500, And is discharged to the outside of the case 1100 through the through-

The cooling unit 1400 is installed to protrude from the inner surface of the suction unit 1300 and includes an insulating surface 1411 plated to be insulated from the outer surface, And a thermoelectric element 1420 connected to the cooling panel and adapted to discharge heat to the heat dissipation unit. The heat dissipation unit 1420 includes a pair of cooling panels 1410 having a frost prevention pad sensing unit 1412.

Therefore, when the suction portion 1300 is placed on the treatment site without attaching the frostbite pad to the suction portion 1300, there is a problem that the frozen portion comes into direct contact with the cooling panel 1410, When the frostblock coated with the liquid phase is not used, the control portion 1600 is constructed so that the frostbite pad detecting portion 1412 is not energized and the vacuum suction portion 1200 is not operated. .

That is, the in-phase-preventing pad is attached to the in-phase-preventing pad sensing part 1412 of the cooling panel 1410 provided inside the suction part 1300 so that both ends thereof are in contact with each other, and the suction part 1300 is positioned at the treatment part, 1600 operate, the liquid phase deposited on the frost protection pad acts as a conductor and operates by energizing the frost protection sensor 1412 of the cooling panels 1410 of both sides so that the frost protection pad is operated without using the frost protection pad There is an effect of a double safety device that prevents the generation of a frost in a site in advance.

Also, since the invisible-image-prevention pad sensing unit 1412 uses a cooling panel 1410, which is not a separate sensor, as a sensor, as a sensing unit for sensing an electrification by removing an insulating surface, In terms of cost reduction, productivity is improved.

The heat dissipating unit 1500 includes a heat block 1510 to receive heat from the cooling unit, a heat dissipation fin 1520 to receive heat from the heat block and to discharge the heat dissipation unit 1500, And a heat pipe 1540 connected to the heat block to transfer heat from the heat block to the heat radiating fin.

Accordingly, the heat block 1510 is connected to the thermoelectric element 1420 of the cooling part 1400 to receive the heat and to transfer the heat to the heat radiating fin 1520 via the heat pipe 1540. The heat radiating part 1500 Each of the cooling fans 1530 installed in the cooling fan 1530 operates in one direction so that the heat of each of the cooling fins 1520 is easily discharged to the outside, The heat pipe 1520 and the cooling fan 1530 and the heat pipe 1540 can be integrated to reduce the size of the device, thereby minimizing the time and place for the operation.

On the other hand, the in-phase-preventing pad sensing part 1412 is formed on the vacuum suction part side to prevent the current from being conducted by the treatment part, thereby preventing the malfunction from occurring.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such modifications and changes will fall within the scope of the present invention if they are apparent to those skilled in the art.

1000: medical low temperature oven 1100: case
1110: Left body case 1120: Right body case
1130: cover 1140: first grill
1150: second grill 1160: carrier ring
1170: Silicon pad 1200: Vacuum suction part
1300: Suction part 1400: Cooling part
1410: cooling panel 1411: insulated surface
1412: frostbite pad detection unit 1420:
1500: Heat dissipation part 1510: Heat block
1520: radiating fin 1530: cooling fan
1540: heat pipe 1600:

Claims (5)

A case in which a grill is provided to have a flow of air and a control operating portion is positioned on one side of the grill,
A vacuum suction unit provided inside the case and configured to form vacuum pressure by a motor,
A suction unit installed in the case and communicating with a lower portion of the vacuum suction unit,
A cooling unit installed on both inner side surfaces of the suction unit to take heat of the skin,
And a pair of heat dissipating units installed to be disposed between the case, the vacuum suction unit, and the suction unit, the heat dissipating unit being installed in contact with the cooling unit and capable of emitting heat in one direction of the case. The method according to claim 1,
In this case,
A left body case disposed on an outer side of the vacuum suction unit and having a carrier ring and a silicon pad,
A right body case having a control operating part mounting groove formed on the outside of the vacuum suction part and protruding from the control operating part,
A cover provided on the left body case and the upper body case,
And first and second grilles disposed on the side surfaces of the left and right body cases to form an air flow path. The method according to claim 1,
The cooling unit includes:
A pair of cooling panels which are provided on both sides of the suction part and which are plated so as to be insulated by the outer surface, and a frost protection pad sensing part,
And a thermoelectric element connected to the cooling panel and configured to discharge heat to the radiator. The method according to claim 1,
The heat-
A heat block adapted to receive heat from the cooling unit,
A heat radiating fin to receive heat from the heat block,
A cooling fan fixed to a side surface of the radiating fin to radiate heat of the radiating fin to the outside,
And a heat pipe connecting the heat block and the heat dissipation fin to transfer heat from the heat block to the heat dissipation fin. The method of claim 3,
Wherein the invisible-phase-prevention pad sensing unit is formed on a side of the vacuum suction unit.

Images