KR101017582B1 - Cryo therapy having vacuum insulated wall - Google Patents

Abstract

PURPOSE: A cryo therapy device having vacuum insulation wall is provided, which prevent emission of heat and achieves excellent insulation effect. CONSTITUTION: A cryo therapy device having vacuum insulation wall comprises: an exterior wall(100) forming an internal space(200) of a hollow rectangular shape by being connected to each other; an auxiliary treatment room(300) and a main treatment room(400). The auxiliary treatment room includes a partition wall in which an opening door is formed, a temperature controller, a humidity controller, and a pressure controller. The main treatment room includes glass window, a temperature controller, a humidity controller, and a pressure controller.

Description

Cryo therapy having vacuum insulated wall

The present invention relates to a low temperature treatment device having a vacuum insulated wall, and more particularly, to a low temperature treatment device having a vacuum insulated wall formed of an air tank, a first panel, a second panel, and a porous foamed molding material. The present invention relates to a low temperature treatment device having a vacuum insulation wall that can prevent radiation and prevent heat convection and conduction by a vacuum air tank, thereby achieving an excellent insulation effect even in a relatively thin structure.

The systemic low temperature treatment applies the principle of ice cold when there is a pain such as bruise or inflammation, and the user's whole body is exposed to low temperature air for 2 to 3 minutes to radiate heat to maintain body temperature from the body. It is a widely used treatment in Europe because it strengthens the immune system, increases the natural healing power of the body by fever action of the inflammatory site, and relieves pain by preventing the pain-induced nerve fibers from working by giving strong stimulation to the nervous system. .

In order for the systemic cryotherapy to be as effective as possible, the temperature in the main treatment room should be about -110 degrees Celsius, because the warmth of the body discharges from -100 degrees Celsius to -120 degrees Celsius.

However, if the user enters the main treatment room immediately, the body may not adapt to the sudden change in temperature, which may cause a heart attack. Also, when the low temperature air and the relatively high outside air of the main treatment room meet, there is a sudden convection phenomenon. As they exchanged with each other, the temperature of the main treatment room was raised to reduce the effectiveness of treatment and to replenish the lost cold air, resulting in economic losses.

Therefore, the user's body can adapt to the cold before entering the main treatment room, and at the same time, the auxiliary treatment room maintained at about -40 degrees Celsius so as not to be lost to the outside of the main treatment room is extended to one wall of the main treatment room. It was configured to communicate with each other through a separate door.

However, despite such a configuration, the walls facing the outside of the main treatment room and the auxiliary treatment room have only a general urethane foam insulation material, and have a disadvantage in that the internal temperature of the low temperature state is lost to the outside.

KR 20-1984-0000552 Y1 1984.04.04. KR 10-0149271 B1 1998.06.03 KR 10-2007-0037274 A 2007.04.04

Accordingly, the present invention provides a porous foamed molding material by the structure of the vacuum insulating wall 500 composed of the air tank 510, the first panel 520, the second panel 530, and the porous foam molding material 550. By preventing the radiation of heat by 550 and the convection and conduction of heat by the vacuum air tank 510, it provides a low temperature treatment device having a vacuum insulation wall that can achieve an excellent thermal insulation effect even in a relatively thin structure. There is a purpose.

In addition, the present invention, by overlapping the joint portion of the puzzle-like structure 160 of each vacuum insulating wall 500 in the overlapping configuration of the puzzle-like structure 160 combined with the insulating walls having different areas, the joints It is an object of the present invention to provide a low temperature treatment device having a vacuum insulation wall that can effectively prevent the conduction of heat moving through.

In addition, the present invention, the overlapping number of the vacuum insulation wall 500 forming the outer wall 100 of the main treatment room 400 overlaps the vacuum insulation wall 500 forming the outer wall 100 of the auxiliary treatment room 300. It is an object of the present invention to provide a low temperature treatment device having a vacuum insulation wall that can reduce the manufacturing cost while maintaining the internal temperature.

The low temperature treatment apparatus having a vacuum insulation wall of the present invention includes: an outer wall (100) for forming a hollow hexahedral inner space (200) by combining a plurality of mutually; Inserted vertically into the interior space 200, the interior space 200 is divided into the secondary treatment room 300 and the main treatment room 400 to be sealed, but the auxiliary treatment room 300 and the main treatment room 400 on one side A partition wall 150 in which doors are opened and closed to be in contact with each other; A door for opening and closing to be in contact with the outside is formed on one side wall (100), the auxiliary treatment room 300 is provided with a temperature control device 320, humidity control device 330 and air pressure control device 340 therein; And a main treatment room 400 having a viewing window 410 visible from the outside on one side wall 100 and having a temperature control device 420, a humidity control device 430, and an air pressure control device 440 therein. The outer wall 100 and the partition wall 150 are formed to surround the entire surface of the grid support 511 provided therein and are sealed by an air discharge valve 512 formed at one side thereof. An air tank 510; A first panel 520 fixed to one side of the air tank 510 at a predetermined interval from the air tank 510; A second spaced apart from the air tank 510 by a predetermined interval so that the air tank 510 is accommodated between the first panel 520 to form a sandwich shape Panel 530; A contact protection member 540 provided on a surface of the first panel 520 or the second panel 530 that does not face the air tank 510; The air tank 510 is foamed to the spaced space between the air tank 510 and the first and second panels 530, and then the air of the air tank 510 to discharge the air It is characterized by consisting of a vacuum insulating wall 500 formed by maintaining the inside of the tank 510 in a vacuum state.

Low temperature treatment device having a vacuum insulated wall of the present invention, the structure of the vacuum insulated wall 500 composed of the air tank 510, the first panel 520, the second panel 530 and the porous foam molding (550) By preventing the radiation of heat by the porous foam molding material 550, and convection and conduction of heat by the vacuum air tank 510, it is possible to achieve excellent heat insulation effect even in a relatively thin structure.

In addition, the low temperature treatment device having the vacuum insulation wall of the present invention, the joint of the puzzle-like structure 160 of each vacuum insulation wall 500 in the overlapping configuration of the puzzle-like structure 160 combined with the insulation walls having different areas. By intersecting the parts with each other, there is an effect that can effectively prevent the conduction of heat moving through the joint.

In addition, the low temperature treatment device having the vacuum insulation wall of the present invention, the overlapping number of the vacuum insulation wall 500 forming the outer wall 100 of the main treatment room 400 forms the outer wall 100 of the auxiliary treatment room 300. By increasing the number of the vacuum insulation wall 500 overlapping, there is an effect that can reduce the production cost while maintaining the temperature inside.

1 is a perspective view of a cryotherapy device having a vacuum insulated wall according to an embodiment of the present invention.
Figure 2 is an exploded perspective view of the vacuum insulation wall of the low temperature treatment device having a vacuum insulation wall according to an embodiment of the present invention.
3 is a cross-sectional view of a vacuum insulated wall of a cryotherapy device having a vacuum insulated wall according to an embodiment of the present invention.
4 is a perspective view of a puzzle-like structure of vacuum insulation according to an embodiment of the present invention.
Figure 5 is an exploded perspective view of the puzzle-like superposition structure of the vacuum insulation wall according to an embodiment of the present invention.
Figure 6 is a plan view of the puzzle-like superposition of the vacuum insulating wall in accordance with an embodiment of the present invention.

Hereinafter will be described in detail with reference to the accompanying drawings, a cryotherapy device having a vacuum insulating wall according to an embodiment of the present invention.

1 is a perspective view of a cryotherapy unit having a vacuum insulation wall according to an embodiment of the present invention, Figure 2 is an exploded perspective view of the vacuum insulation wall of a cryotherapy unit having a vacuum insulation wall according to an embodiment of the present invention, Figure 3 A cross-sectional view of a vacuum insulated wall of a low temperature treatment device having a vacuum insulated wall according to an embodiment of the present invention. In addition, Figure 4 is a perspective view of the puzzle-like structure of the vacuum insulation according to an embodiment of the present invention, Figure 5 is an exploded perspective view of the puzzle-like structure overlapping shape of the vacuum insulation wall according to an embodiment of the present invention, Figure 6 A plan view of a puzzle type structure overlapping form of a vacuum insulating wall according to an embodiment of the present invention.

The cryotherapy unit having the vacuum insulation wall of the present invention is composed of an outer wall 100, a partition wall 150, an auxiliary treatment room 300, and a main treatment room 400 as shown in FIGS. 1 to 6.

The outer wall 100, the plurality is coupled to each other to form a hollow cube-shaped inner space 200, which will be described in more detail,

The outer wall 100 is composed of a vacuum insulating wall 500 to be described below, the outer wall 100 on both sides when the front rear upper surface to form an internal space 200 of the hexahedral shape is combined with each other to form a hexahedron shape, the inside The partition wall 150 to be described below is inserted and installed in the space 200, and the interior space 200 is divided into the auxiliary treatment room 300 and the main treatment room 400 by the partition wall 150.

The outer wall 100 may be formed by separating the respective upper and lower surfaces of the upper rear surface (not shown) divided into the auxiliary treatment room 300 and the main treatment room 400 by the partition wall 150. In this case, the overlapping number of the vacuum insulation wall 500 forming the outer wall 100 of the main treatment room 400 is greater than the overlapping number of the vacuum insulation wall 500 forming the outer wall 100 of the auxiliary treatment room 300. It is preferable that the auxiliary treatment room 300 plays an intermediate role so that the body adapts to the low temperature state of the main treatment room 400 and the external high temperature and the very low temperature of the main treatment room 400 do not directly communicate with each other. Since it is to be kept higher than the temperature of the main treatment room 400, the thickness of the outer wall 100 of the main treatment room 400 is thicker than the thickness of the outer wall 100 of the auxiliary treatment room (300) This is because the manufacturing cost can be reduced while maintaining the temperature. However, the present invention is not limited thereto, and the auxiliary treatment room 300 and the main treatment room 400 form a separate outer wall 100 inside each treatment room while sharing the outermost outer wall 100. It is also possible.

On the other hand, the term used in the present invention, the outer wall 100 of the auxiliary treatment room 300 or the outer wall 100 of the main treatment room 400 is the configuration of the outer wall 100 forming the internal space 200 of the hexahedral shape It is preferable to view the outer wall 100 of the portion corresponding to the auxiliary treatment room 300 or the main treatment room 400 divided by the middle partition wall 150, and the configuration of the outer wall 100 is the auxiliary treatment room 300 and the main treatment room. Since it is meant to extend over the treatment room 400, the auxiliary treatment room 300 and the outer wall 100 of the main treatment room 400 is not limited to any one structure that is shared or independently configured.

The partition wall 150 is vertically inserted into the inner space 200 formed inside the outer wall 100, and divides the inner space 200 into an auxiliary treatment room 300 and a main treatment room 400 to be sealed, but on one side. An interrogation 151 is formed to allow the auxiliary treatment room 300 and the main treatment room 400 to contact each other. In more detail,

The partition wall 150 is inserted into the upper and lower surfaces of the front rear surface of the outer wall 100 coupled in a hexahedral shape, and is vertically inserted to contact the four surfaces, thereby distinguishing the inner space 200 formed by the outer wall 100 to assist the treatment room ( 300) and the main treatment room (400). At this time, at one side of the partition wall 150 is formed a door 151 to be opened and closed so that the auxiliary treatment room 300 and the main treatment room 400 can contact each other.

Partition wall 150 is composed of a vacuum insulating wall 500 to be described below, as shown in Figure 4 by combining the vacuum insulating wall 500 having a different width so that the gate 151 can be formed in a polygon on one side It consists of a puzzle-like structure 160 configured to form a penetrating portion of the image. The puzzle-like structure 160 for securing the space for forming the gate 151 is preferably combined in a minimum number so as to minimize the length of the joint portion between the vacuum insulation wall 500 and the vacuum insulation wall 500. However, the number is not limited in the present invention.

When the barrier wall 150 forms a plurality of vacuum insulation walls 500 in a puzzle-like structure 160, the joints between the vacuum insulation walls 500 may have a lower thermal insulation effect than the center of the vacuum insulation wall 500. In order to solve this problem, as illustrated in FIGS. 5 and 6, a plurality of layers of the puzzle-like structure 160 of the vacuum insulation wall 500 may be formed. At this time, the puzzle-like structure 160 of the vacuum insulating wall 500 to be added may be staggered so that the central portion thereof is at the joint portion formed by the vacuum insulating wall 500 is formed. Therefore, the joints of the first vacuum insulation walls 500 and the joints of the newly added vacuum insulation walls 500 are staggered from each other, and this structure becomes clearer with reference to FIG. 6. FIG. 6 is a plan view of a superposed puzzle type structure of a vacuum insulated wall according to an exemplary embodiment of the present invention, and is shown obliquely so that the relationship between the joint parts of the two puzzle types 160 is clearly visible. It is possible to minimize the loss of heat by conduction. The overlapping form of the puzzle-type structure 160 or the puzzle-type structure 160 is also applicable to the above-described structure of the outer wall 100 and the interrogation 151 formed on the partition wall 150 and the auxiliary treatment room 300 to be described below. The same may be applied to the structure of the door 310.

The auxiliary treatment room 300 has a door 310 which opens and closes to be in contact with the outside on one side wall 100, and has a temperature control device 320, a humidity control device 330, and an air pressure control device 340 therein. It is provided, by opening and closing the door 151 of the partition wall 150 formed on one side is connected to or separated from the main treatment room 400. To explain this in more detail,

Auxiliary treatment room 300 is one of the interior space 200 divided into a partition wall 150 is inserted into the interior space 200 of the outer wall 100 having a hexahedral shape, the internal temperature is lower than the external temperature By setting the temperature higher than the internal temperature of the main treatment room 400, the body can adapt to a low temperature before entering the main treatment room 400, and at the same time having a relatively high temperature and low temperature air of the main treatment room 400. Outside air directly meets each other to prevent the temperature of the main treatment room 400 from rising sharply.

The front exterior wall 100 of the auxiliary treatment room 300 is formed with a door 310 that opens and closes to be in contact with the outside. In this case, the front exterior wall 100 of the auxiliary treatment room 300 has the same structure as the partition wall 150 described above. The furnace vacuum insulation wall 500 is made of a puzzle-like structure 160 to secure a space in which the door 310 is to be formed. On the other hand, the door 310 may be viewed from the inside and outside to recognize the situation inside the auxiliary treatment room 300 from the outside, or to recognize the outside situation inside the auxiliary treatment room 300, to prevent blur due to temperature differences The door viewing window 311 may be further provided with a heating wire.

In addition, the side or back of the auxiliary treatment room 300, the temperature control device 320 for maintaining the temperature of the auxiliary treatment room 300, the humidity control device 330 for maintaining the internal air in a dry state to prevent frostbite and An air pressure adjusting device 340 is provided to adjust the change in air pressure generated when the temperature decreases to the same condition as the external air pressure. At this time, the outer wall 100 of the side or the back of the auxiliary treatment room 300 is formed with a pipe so that the pipes connected to the external device to the upper body, or the body of the devices directly to the auxiliary treatment room 300 The connector should be formed to be connected to the interior of the, which is composed of a puzzle-like structure 160 of the vacuum insulation wall 500 in the same structure as the partition wall 150 described above to secure a space in which the pipe or connector is to be formed Can be done in a manner.

The handle bar 360 is formed inside the outer wall 100 of the auxiliary treatment room 300 so that the handle bar 360 can be held even when the behavior is inconvenient, and the signal lamp 351, the speaker 352, and the emergency switch An alarm means 350 composed of 353 is provided to inform the movement of the main treatment room 400 to the signal lamp 351 and the speaker 352 or to give a warning signal in case of an emergency, and an emergency switch in an emergency situation. (353) allows you to call for help.

The inner surface of the outer wall 100 of the auxiliary treatment room 300 may be formed of a contact protection member 540 made of a material having low thermal conductivity such as cloth or plywood in order to prevent skin tissue damage caused by cold when contacting the body. The contact protection member 540 is preferably formed entirely on the inner side of the outer wall 100 of the auxiliary treatment room 300, but may not be formed on the upper outer wall 100 having a low risk of physical contact, and the outer wall 100 in a planar shape. It is also possible to adhere to the inner surface of the) or a three-dimensional form such as a lattice form, concave-convex form. In addition, the contact protection member 540 may be equally applied to structures such as the handle bar 360 and the emergency switch 353 provided in the auxiliary treatment room 300.

The main treatment room 400 is provided with a see-through window 410 that is visible from the outside on one side wall 100, the temperature control device 420, the humidity control device 430 and the air pressure control device 440 is provided therein, Opening and closing the door 151 of the partition wall 150 formed on one side is connected to or separated from the auxiliary treatment room 300. To explain this in more detail,

The main treatment room 400 is a partition wall 150 inserted into the inner space 200 of the outer wall 100 having a hexahedral shape and is the other one of the two inner spaces 200 except the auxiliary treatment room 300. After setting the internal temperature to around -110 degrees Celsius, the body is exposed to cold air for 2 to 3 minutes to radiate heat from the body to maintain body temperature, thereby strengthening the body's immune system and fevering the inflammatory site. By increasing the natural healing powers in the body, and also gives a strong stimulation to the nervous system serves to relieve pain by preventing the action of pain-induced nerve fibers. The internal temperature of the main treatment room 400 is preferably set to -110 degrees Celsius, since the most exothermic action in the body is -100 degrees Celsius to -120 degrees Celsius.

The front outer wall 100 of the main treatment room 400 can be viewed from the inside and outside to recognize the situation inside the main treatment room 400 from the outside, or to recognize the outside situation inside the main treatment room 400, due to the temperature difference The viewing window 410 is further provided with a heating wire to prevent blur, in this case, the front outer wall 100 of the main treatment room 400 is the same structure as the partition wall 150 described above, the puzzle of the vacuum insulating wall 500 The structure 160 is formed to secure a space in which the viewing window 410 is to be formed.

In addition, the side or back of the main treatment room 400, the temperature control device 420 for maintaining the temperature of the auxiliary treatment room 300, the humidity control device 430 for maintaining the internal air in a dry state to prevent frostbite and An air pressure adjusting device 440 is provided to adjust the change in air pressure generated when the temperature decreases to the same condition as the external air pressure. At this time, the outer wall 100 of the side or the rear of the main treatment room 400 is formed with a pipe so that the pipes connected to the upper body of the above apparatus, or the main body of the apparatus directly the main treatment room 400 The connector should be formed so as to be connected to the inside of the, which consists of the puzzle-like structure 160 of the vacuum insulation wall 500 in the same structure as the partition wall 150 described above to secure a space in which the pipe or connector is to be formed Can be done in a manner.

The handle bar 460 is formed inside the outer wall 100 of the main treatment room 400 so that the handle bar 460 can be held even when the behavior is inconvenient, and the signal lamp 451, the speaker 452, and the emergency switch An alarm means 450 composed of 453 is provided so that the signal lamp 451 and the speaker 452 can inform the end of the treatment or give an alarm signal in case of an emergency, and the emergency switch 453 in case of emergency You can ask for help from outside.

The inner surface of the outer wall 100 of the main treatment room 400 may be formed of a contact protection member 540 made of a material having low thermal conductivity such as cloth or plywood in order to prevent skin tissue damage caused by cold when contacted with the body. The contact protection member 540 is preferably formed entirely on the inner surface of the outer wall 100 of the main treatment room 400, but may not be formed on the upper outer wall 100 having a low risk of physical contact, and the outer wall 100 in a planar shape. It is also possible to adhere to the inner surface of the) or a three-dimensional form such as a lattice form, concave-convex form. In addition, the contact protection member 540 may be equally applied to structures such as a handle bar 460 and an emergency switch 453 provided in the main treatment room 400.

The vacuum insulation wall 500 constitutes the outer wall 100 and the partition wall 150,

It is formed to surround the entire surface of the grid support 511 provided therein, the plate-shaped air tank 510 is sealed by the air discharge valve 512 formed on one side, and one side surface of the air tank 510 The air tank 510 is accommodated between the first panel 520 and the first panel 520 spaced apart from the air tank 510 by a predetermined interval, and the other of the air tank 510 to form a sandwich shape. The second panel 530 that is fixed to the air tank 510 spaced apart from one side and fixed on one side, the surface of the first panel 520 or the second panel 530 does not face the air tank 510 It is composed of a contact protection member 540 provided in the air tank 510 and the porous foamed molding material 550 in the spaced apart space of the first and second panels 530 after the foaming of the air tank 510 It is formed by discharging air to maintain the inside of the air tank 510 in a vacuum state.

In more detail,

The vacuum insulation wall 500 has a structure in which a vacuum air tank 510 is inserted into a conventional sandwich panel made by attaching a panel made of iron plate or the like to both sides of the porous foamed molding material 550, and the porous foamed molding material 550. It serves to block the conduction and convection of heat inside.

The vacuum insulation wall 500 is composed of an air tank 510, a first panel 520, a second panel 530, and a porous foam molding 550.

Air tank 510 is formed in the form of a flat plate closed on all sides, the air discharge valve 512 is formed to discharge the internal air on one side and to seal the tank after the discharge of air. However, when the air inside the tank of the plate shape is discharged, the deformation is caused by the external pressure toward the center due to the pressure difference. In order to prevent the inside of the tank is provided with a lattice made of a material having a low thermal conductivity such as cardboard, plywood, plastic so that even if the tank inside the vacuum state, deformation does not occur due to external pressure. The material of the air tank 510 may be any material as long as it can seal the air such as metal and reinforced plastic and is not easily deformed by external pressure.

The air discharge valve 512 formed on one side of the air tank 510 is a conventional valve type, but may be closed after discharge of air to maintain a vacuum state, but the present invention is not limited thereto, and the air inside the tank may be discharged to the outside. It is also included in the case of maintaining the vacuum state by closing the air with a silicone adhesive or the like after the discharge of the configured form of the discharge port, any of the configuration that can be sealed if the air inside the tank to be discharged to the outside. .

The first panel 520 is formed in a plate shape, such as a conventional iron plate, tin plate, reinforced plastic plate, one side of the air tank 510, that is, a predetermined distance from one side of one of the wide side of the air tank 510 formed in a plate shape Is spaced apart and fixed, the porous foam molding material 550 is filled between the air tank 510.

The second panel 530 is formed in a plate shape, such as a conventional iron plate, tin plate, reinforced plastic plate, the other side of the air tank 510, that is, the first panel 520 of the wide side of the air tank 510 formed in a plate shape ) And is fixed at a predetermined interval apart from the side that does not face, and the porous foam molding material 550 is filled between the air tank 510.

That is, according to the above-described configuration, the air tank 510 is accommodated between the first panel 520 and the second panel 530 to have a sandwich shape, and between the first panel 520 and the air tank 510. After the porous foamed molding material 550 is filled in the space between the second panel 530 and the air tank 510, the air is discharged through the air discharge valve 512 provided in the air tank 510. The vacuum insulating wall 500 is configured by keeping the air tank 510 in a vacuum state by discharging air inside the tank 510 to seal the air. At this time, in order to protect the air tank 510 from impact, contact, etc., the width of the first panel 520 and the second panel 530 is larger than that of the air tank 510, and then the porous foam molding 550 is formed. By filling the width of the first panel 520 and the second panel 530, the porous foam molding 550 may be molded in a form surrounding the entire surface of the air tank (510).

On the other hand, the temperature of the first or second panel 530 is lowered due to the low temperature of the auxiliary treatment room 300 and the main treatment room 400, the moisture of the skin surface freezes instantly when a body contact, and part of the body panel Since there may be a risk of sticking to the surface of the first panel 520 or the second panel 530, the contact protection formed of a material having low thermal conductivity, such as cloth or plywood, on the surface of the side that does not face the air tank 510 The member 540 may be further included.

Looking at the use of a cryotherapy device having a vacuum insulation wall of the present invention made of the above-described configuration,

The auxiliary treatment room 300 and the main treatment room 400 each have a low temperature and low humidity by the temperature control devices 320 and 420, the humidity control devices 330 and 430, and the air pressure control devices 340 and 440 provided therein. It is maintained, and the air pressure is set according to the external air pressure. Then, when the operator opens the entrance 310 provided in the auxiliary treatment room 300 and enters the inside of the auxiliary treatment room 300, after 2 to 3 minutes, a signal lamp 351 provided on one wall of the auxiliary treatment room 300 is provided. The traffic light turns on to notify the movement to the main treatment room 400. At this time, the movement to the main treatment room 400 through the speaker 352 together with the signal lamp 351 may be emitted. The operator may support the body by holding a handle, etc. in the auxiliary treatment room 300, and when an abnormality is felt in the body, open the door 310 or press the emergency switch 353 to notify the outside of the emergency situation. .

On the other hand, through the door viewing window 311 formed in the door 310 to check the status of the subject from the outside, or to be able to check the external instructions from the inside with the naked eye.

After the adaptation is completed in the auxiliary treatment room 300 for 2 to 3 minutes, the subject opens the interrogator 151 formed in the partition wall 150 according to the movement signal to the main treatment room 400 and moves to the main treatment room 400. The subject who moved to the main treatment room 400 exposes the body to a low temperature of -110 degrees Celsius for 2 to 3 minutes inside the main treatment room 400, where the warmth from the body reaches its peak and thus a strong fever on the inflammation site. The natural healing power is increased, and the body exposed to the dry and cold air is strongly stimulated by the nervous system, the blood vessels contract and the pain-causing fibers do not work. By promoting higher than the rate of spread of inflammation promotes natural healing of inflammation. At this time, since the temperature is kept at a low temperature of -110 degrees Celsius, but little humidity, moisture does not freeze from the skin surface, so there is no risk of frostbite.

On the other hand, the viewing window 410 formed in the main treatment room 400 can check the state of the inside of the subject from the outside, the viewing window 410 is further equipped with a camera (not shown) to the post-treatment treatment by taking the state of the subject It can be utilized.

In addition, when 2 to 3 minutes have elapsed since the operator enters the main treatment room 400, the treatment end signal is turned on to the signal lamp 451, and a comment indicating the end of treatment may be emitted through the speaker 452.

Meanwhile, an alarm is issued to the outdoor unit and the alarm means 350 and 450 of the temperature controllers 320 and 420 which are commonly used in the low temperature treatment device among the above-described configurations, and the temperature, humidity, and air pressure inside each treatment room are measured. The control system which controls the driving of each device and controls the recording of the camera monitoring the condition of the patient in the treatment room and the display device which outputs the control screen of the control system are commonly used. As the subject matter may be obscured by the gist of the present invention, it is not illustrated and described. Since such a structure is obvious to those skilled in the art, a separate description will be omitted.

As described above, the low temperature treatment device having the vacuum insulated wall of the present invention includes a vacuum insulated wall 500 composed of the air tank 510, the first panel 520, the second panel 530, and the porous foam molding 550. By preventing the radiation of heat by the porous foam molding 550 of the structure, and convection and conduction of heat by the vacuum air tank 510, it is possible to achieve excellent heat insulation effect even in a relatively thin structure,

In addition, the low temperature treatment device having the vacuum insulation wall of the present invention, the joint of the puzzle-like structure 160 of each vacuum insulation wall 500 in the overlapping configuration of the puzzle-like structure 160 combined with the insulation walls having different areas. By intersecting the parts, it is possible to effectively prevent the conduction of heat moving through the joints,

In addition, the low temperature treatment device having the vacuum insulation wall of the present invention, the overlapping number of the vacuum insulation wall 500 forming the outer wall 100 of the main treatment room 400 forms the outer wall 100 of the auxiliary treatment room 300. By increasing the number of the vacuum insulation wall 500 overlapping, there is an effect that can reduce the production cost while maintaining the temperature inside.

100: outer wall 150: partition wall (150)
200: interior space (200) 300: auxiliary treatment room (300)
400: main treatment room (400) 500: vacuum insulation wall (500)

Claims (4)

A plurality of outer walls 100 coupled to each other to form a hollow hexahedral inner space 200;
Inserted vertically into the interior space 200, the interior space 200 is divided into the secondary treatment room 300 and the main treatment room 400 to be sealed, but the auxiliary treatment room 300 and the main treatment room 400 on one side Barrier ribs 150 formed with an opening 151 opening and closing to be in contact with each other;
One side outer wall 100 has a door 310 is opened and closed to be in contact with the outside, the auxiliary treatment room 300 is provided with a temperature control device 320, a humidity control device 330 and a pressure control device 340 therein ); And
A main treatment room 400 having a viewing window 410 visible from the outside on one side wall 100 and having a temperature control device 420, a humidity control device 430, and an air pressure control device 440 therein; Consisting of
The outer wall 100 and the partition wall 150,
A plate-shaped air tank 510 formed to surround the entire surface of the grid support 511 provided therein and sealed by an air discharge valve 512 formed at one side thereof;
A first panel 520 fixed to one side of the air tank 510 at a predetermined interval from the air tank 510;
A second spaced apart from the air tank 510 by a predetermined interval so that the air tank 510 is accommodated between the first panel 520 to form a sandwich shape Panel 530;
A contact protection member 540 provided on a surface of the first panel 520 or the second panel 530 that does not face the air tank 510; Consisting of,
After foaming the porous foamed molding material 550 in the spaced space between the air tank 510 and the first and second panels 520 and 530, the air in the air tank 510 is discharged. 510 a vacuum insulating wall 500 formed by maintaining the interior in a vacuum state;
Low temperature treatment device having a vacuum insulation wall, characterized in that consisting of. The method of claim 1,
The vacuum insulation wall 500 is a vacuum insulation wall, characterized in that the puzzle (Puzzle) structure (160) configured to form a polygonal through portion on one side by combining the vacuum insulation wall 500 having different areas. Eggplant is a cryotherapy device. The method of claim 2,
The vacuum insulating wall 500, the puzzle-like structure 160 is composed of a plurality of overlapping layers, the heat insulating wall of the puzzle-like structure 160, the joint portion of the insulating walls of the puzzle-type structure 160 to be added is pre-formed Cryogenic treatment device having a vacuum insulation wall, characterized in that it is combined so as to cross each other. The method of claim 3, wherein
The outer wall 100 is a vacuum insulation wall 500 in which an overlapping number of the vacuum insulation wall 500 forming the outer wall 100 of the main treatment room 400 forms the outer wall 100 of the auxiliary treatment room 300. Cryotherapy device having a vacuum insulated wall, characterized by more than a superimposed number.

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