CN110916888A - Low-temperature freezing therapeutic apparatus device for relieving fatigue - Google Patents

Abstract

The invention provides a low-temperature freezing therapeutic apparatus device for relieving fatigue, which comprises: the cavity generates low temperature through the Peltier effect refrigeration module, and is provided with the Peltier effect refrigeration module and an electric control drying module for drying in the cavity; the cavity is provided with a drying door (11) for human body to enter, and the low-temperature freezing therapeutic apparatus device is provided with a heat dissipation area (12) for taking away heat at the hot end of the Peltier effect refrigeration module; the electric control drying module and the Peltier effect refrigerating module are electrically connected to the control unit. According to the invention, an ultralow temperature environment is manufactured in the cavity through the refrigeration module, and the combined action of the drying layer and the heat dissipation area is matched, so that the pain of a human body after strenuous exercise can be relieved in a short time, and the effects of inhibiting inflammation, promoting immunoregulation, reducing overhigh muscle tension, improving functions of damaged joints and muscles, slowing down osteoporosis, resisting depression and the like are achieved.

Description

Low-temperature freezing therapeutic apparatus device for relieving fatigue

Technical Field

The invention relates to the technical field of low-temperature medical treatment, in particular to a low-temperature cryotherapy apparatus device for relieving fatigue.

Background

The precondition of the electric cryotherapy is that the human body is in an ultra-low temperature environment within a short time, and the low temperature environment absorbs heat from human tissues to achieve clinical effects. Generally, the freezing medical treatment can cool the skin of a certain part of the human body, thereby achieving the effects of relieving ache, inhibiting inflammation and the like, and the local freezing medical treatment is widely applied in clinic. Whole Body Cryotherapy (WBC) can reduce the expenditure of energy for lowering Body temperature after exercise, thereby using more energy for muscle activity. Peripheral parasympathetic nerves are stimulated through short time and ultralow temperature to cause the contraction of the wall of a small blood vessel, the blood flow in muscles is increased, the oxygen intake in blood is improved, the excretion of muscle metabolites is accelerated, the stroke output of the heart is increased, the heart rate is reduced, the oxygen consumption of the myocardium is reduced, and the fatigue elimination and physical recovery after high-intensity exercise are facilitated.

Patent CN204814362U discloses a whole body freezing method by liquid nitrogen gasification refrigeration, but because liquid nitrogen gasification requires many pipelines arranged in the cabin and valves are adjusted, a danger is generated by carelessness; and people outside the cabin are required to be matched with each other, so that manpower and material resources are wasted, and inconvenience is caused. Patent CN206167022U discloses a semiconductor cryotherapeutic apparatus, but it can only freeze local tissues, and can only be applied to clinical treatment, and cannot expand its application range, which is relatively limited. Therefore, the invention aims to solve the problems and provide a whole body cryotherapeutic apparatus which is safer, more convenient and wider in application range.

Disclosure of Invention

The invention aims to provide a low-temperature freezing therapeutic apparatus device for relieving fatigue, which can create a low-temperature environment, so that a person with physical fatigue can recover physical strength in a short time, relieve fatigue and keep various indexes of the body normal.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows: a cryotherapeutic device for fatigue mitigation, the cryotherapeutic device comprising: the cavity generates low temperature through the Peltier effect refrigeration module, and is provided with the Peltier effect refrigeration module and an electric control drying module for drying in the cavity;

the cavity is provided with a drying door (11) for human body to enter, and the low-temperature freezing therapeutic apparatus device is provided with a heat dissipation area (12) for taking away heat at the hot end of the Peltier effect refrigeration module;

the electric control drying module and the Peltier effect refrigerating module are electrically connected to the control unit.

The low-temperature cryotherapy apparatus provided by the invention utilizes the Peltier effect to generate deep low temperature in one cavity so as to achieve the effect of cryotherapy. The peltier principle of refrigeration is: the movement of charge carriers in different conductors creates a current, which, due to the different energy levels of the charge carriers in different materials, requires heat to be absorbed from the outside when it moves from a low level to a high level. The amount of heat absorbed depends on the logarithm of the element of semiconductor material N, P.

In the low-temperature cryotherapeutic apparatus device for relieving fatigue, a refrigeration area (10) of the cavity is surrounded by an arc-shaped corrugated copper plate (9) and a surrounding drying layer. The cooling of refrigeration region to the health is accomplished in the low temperature cavity, and a low temperature environment can be made to the inside refrigeration module of cavity, and the health need not contact the cavity inner wall, does not rely on the air convection to come the cooling to the health more, has avoided the human body to blow the harmful effects that leads to after the motion is perspired. The circular arc-shaped corrugated copper plate is more advantageous than the plane plate because the circular arc-shaped corrugated copper plate can form a semi-enclosed cold-conducting surface to surround more human body trunk, so that the body temperature can be more quickly reduced under the condition that the skin can not be contacted.

According to the low-temperature cryotherapeutic apparatus device for relieving fatigue, the drying layer (6) and the heat insulation layer (5) are sequentially arranged outside the cavity, the heat insulation layer improves the refrigeration effect, the temperature inside the refrigeration cavity is not affected by the external environment, and the better refrigeration effect is achieved. In addition, the drying layer is provided with an electric control drying block around the cavity and on the top of the cavity. On one hand, water drops or frost generated on the surface of the refrigeration module can be eliminated; on the other hand, after strenuous exercise, the human body surface can sweat, and the dry layer can play a role in removing sweat, so that a good foundation is provided for the subsequent freezing treatment.

In the low-temperature cryotherapeutic apparatus device for relieving fatigue, provided by the invention, the electric control drying module is distributed in the drying layer outside the cavity.

In the low-temperature cryotherapeutic apparatus device for relieving fatigue, the electric control drying module adopts the drying blocks (7), and the drying blocks (7) are uniformly distributed in the drying layer.

In the low-temperature cryotherapy apparatus for relieving fatigue, the top of the cavity of the low-temperature cryotherapy apparatus is provided with a drying top (14) with air holes.

In the low-temperature cryotherapeutic apparatus device for relieving fatigue, the heat dissipation area (12) is positioned at the back of the cavity, the heat dissipation area is provided with an air inlet (13) positioned at the top of the heat dissipation area (12) and an air outlet (15) positioned on the side wall of the heat dissipation area (12) and close to the bottom, and the heat dissipation area is provided with a fan for keeping circulation of heat dissipation air. The heat dissipation area ensures that air at the heat dissipation end flows smoothly, takes away heat at the hot end, enables the hot end of the refrigeration piece to dissipate heat rapidly, and enables the cold end refrigeration effect to reach the best state.

Compared with the prior art, the invention has the advantages that: according to the invention, an ultralow temperature environment is manufactured in the cavity through the refrigeration module, and the combined action of the drying layer and the heat dissipation area is matched, so that the pain of a human body after strenuous exercise can be relieved in a short time, and the effects of inhibiting inflammation, promoting immunoregulation, reducing overhigh muscle tension, improving functions of damaged joints and muscles, slowing down osteoporosis, resisting depression and the like are achieved.

Drawings

FIG. 1 is a top perspective view of a fatigue-alleviating cryotherapeutic device according to an embodiment of the invention.

FIG. 2 is an oblique perspective view of the fatigue-alleviating cryotherapeutic device of an embodiment of the present invention.

FIG. 3 is a schematic front view of a fatigue-alleviating cryotherapeutic device according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of an electric cabinet in an embodiment of the present invention.

Description of reference numerals: the air-conditioning system comprises an electric cabinet 1, an electric cabinet power supply 2, a refrigeration switch 3, a drying switch 4, a heat preservation layer 5, a drying layer 6, a drying block 7, a refrigeration block 8, a corrugated copper plate 9, a refrigeration area 10, a drying door 11, a heat dissipation area 12, an air inlet 13, a drying top 14 with air holes and an exhaust hole 15.

Detailed Description

The technical solution adopted by the present invention will be further explained with reference to the schematic drawings.

As shown in fig. 1-4, a fatigue-alleviating cryotherapeutic device, comprising: the air-conditioning system comprises an electric cabinet 1, an electric cabinet power supply 2, a refrigeration switch 3, a drying switch 4, a heat preservation layer 5, a drying layer 6, a drying block 7, a refrigeration block 8, a corrugated copper plate 9, a refrigeration area 10, a drying door 11, a heat dissipation area 12, an air inlet 13, a drying top 14 with air holes and an exhaust hole 15.

Referring to fig. 1-3, the low temperature cryotherapy apparatus of the present invention comprises a cavity generating low temperature by a peltier effect refrigeration module, the cavity is close to the front of a vertical cuboid, the cavity is provided with the peltier effect refrigeration module and an electric control drying module for drying the cavity, the electric control drying module is, for example, an electric control drying cake (i.e., a drying block), the peltier effect refrigeration module comprises a refrigeration block 8 installed in the cavity, the outside of the cavity is sequentially provided with a drying layer 6 and a heat insulation layer 5, the cavity is provided with a drying door 11 for human body to enter, the drying door 11 is located at the front side of the apparatus, the drying door comprises but is not limited to a sliding door, the low temperature cryotherapy apparatus is provided with a heat dissipation area 12 for taking away heat at the hot end of the peltier effect refrigeration module, the heat dissipation area 12 is located at the rear of the low temperature cryotherapy apparatus, the whole exhaust heat dissipation area is distributed on the back of the refrigeration area, the hot end of the refrigeration block is also arranged in the area, and the area is provided with an exhaust fan with enough high power. Therefore, the heat dissipation condition of the hot end can be ensured to be good, and the refrigeration effect of the cold end is ensured. The top of the refrigeration area is provided with a drying top 14 (or called as a drying cover) with small air holes, and the air holes are dense and small, so that the normal breathing of a human body can be ensured, and excessive hot air outside can be prevented from entering the refrigeration cabin to damage the low-temperature environment.

After strenuous exercise, people can pull open the drying door 11 with head and four limbs well safeguard measure, be equipped with the automatically controlled drying piece the same with the heat preservation on the drying door, get into dry and super low temperature refrigeration region 10, accept whole body cryotherapy, refrigeration region 10 is enclosed by curved ripple copper 9 and surrounding dry layer and forms, curved ripple copper is compared with planar more advantage, because he can form the cold conduction face that partly surrounds and enclose more human truck, under the condition that can not contact skin, can make the temperature of health drop more so fast. At this moment, all refrigeration piece 8 simultaneous workings make and keep ultra-low temperature environment, because the refrigeration piece during operation can produce the drop of water on the surface, consequently need in time carry out drying and dehumidification to avoid causing the injury to people's health, when carrying out the drying to moisture, also played the effect of cooling down to the hot junction, dry piece 7 plays the primary role this moment, dry piece 7 evenly distributed is in dry layer 6. Except dehumidifying the refrigeration piece top layer, another significant that dry layer 6 exists is to carrying out the drying to the human body top layer, because after the strenuous motion, the human body can be sweat incessantly in the short time, even dry sweat with the sweat before getting into the freezing region, also be difficult to avoid continuing to sweat, consequently can keep human surface dry all the time under the effect of dry layer, prevent that the ultra-low temperature environment from causing the injury to the surperficial skin of people. The drying block on the drying door and the drying block in the drying layer act together to accelerate the water removal speed. The heat dissipation area is mainly responsible for taking away the heat at the hot end of the refrigeration block.

As can be seen in FIG. 2, the whole body cryotherapeutic apparatus is substantially in the form of an upright rectangular parallelepiped (although other shapes are possible, and only schematic structural drawings are used herein) having a length and width of 1.5 meters and a height of 2 meters. The top of the heat dissipation area is provided with an air inlet 13, the bottom end of the side surface is provided with an exhaust hole 15, the whole exhaust heat dissipation area is distributed on the back surface of the refrigeration area, the hot end of the refrigeration block is also arranged in the area, and the area is provided with an exhaust fan with enough high power. Therefore, the heat dissipation condition of the hot end can be ensured to be good, and the refrigeration effect of the cold end is ensured. The top of the refrigeration area is provided with a drying top 14 with small air holes which are dense and small, so that normal breathing of a human body can be ensured, and excessive hot air outside can be prevented from entering the refrigeration cabin to damage a low-temperature environment.

Can see this whole body cryotherapeutic instrument's positive effect picture in fig. 3, dry door 11 is installed in whole body cryotherapeutic instrument's front, and dry top 14 is the same with dry layer 6 and dry door 11, and the dry top is also even to be equipped with automatically controlled dry cake, can carry out the omnidirectional for the people's that is in the refrigeration region health on the one hand and remove the sweat and dispel the damp, and on the other hand can assist the cooling in the heat dissipation region at the regional back of refrigeration.

The electric control drying module and the Peltier effect refrigerating module are electrically connected with a control unit, namely an electric control box 1. Referring to fig. 4, the control unit of the low-temperature cryotherapy apparatus for relieving fatigue is placed at an electric cabinet 1, the control unit includes but is not limited to a single chip microcomputer, the electric cabinet 1 is connected to an electric cabinet power supply 2, a refrigeration switch 3 and a drying switch 4 are arranged at the electric cabinet 1, the refrigeration switch 3 is used for opening a peltier effect refrigeration module, and the drying switch 4 is used for opening an electric control drying module. Before a human body enters, the power supply and the drying switch are turned on, the drying inside the whole cavity is guaranteed, and the refrigeration switch is turned on, so that the temperature of a refrigeration area is lowered to a target temperature.

In conclusion, the ultra-low temperature environment is manufactured in the cavity through the refrigeration module, and the combined action of the drying layer and the heat dissipation area is matched, so that the pain of a human body after strenuous exercise can be relieved in a short time, and the effects of inhibiting inflammation, promoting immunoregulation, reducing overhigh muscle tension, improving functions of damaged joints and muscles, relieving osteoporosis, resisting depression and the like are achieved.

Descriptions of well-known technologies, such as the peltier cooling principle, etc., are omitted throughout the text.

Claims (7)

1. A cryotherapeutic device for alleviating fatigue, the cryotherapeutic device comprising: the cavity generates low temperature through the Peltier effect refrigeration module, and is provided with the Peltier effect refrigeration module and an electric control drying module for drying in the cavity;

the cavity is provided with a drying door (11) for human body to enter, and the low-temperature freezing therapeutic apparatus device is provided with a heat dissipation area (12) for taking away heat at the hot end of the Peltier effect refrigeration module;

the electric control drying module and the Peltier effect refrigerating module are electrically connected to the control unit.

2. A fatigue relieving cryotherapeutic device apparatus according to claim 1, wherein the cooling area (10) of the chamber is surrounded by an arc-shaped corrugated copper plate (9) and a surrounding desiccant layer.

3. A fatigue relieving cryotherapeutic device apparatus according to claim 1, wherein a drying layer (6) and a heat insulating layer (5) are provided in sequence outside the cavity.

4. A fatigue relieving cryotherapeutic device apparatus according to claim 1, wherein the electrically controlled drying module is distributed in a drying layer outside the cavity.

5. A fatigue relieving cryotherapeutic device apparatus according to claim 1, wherein said electronically controlled drying module employs drying blocks (7), the drying blocks (7) being evenly distributed in a drying layer.

6. A fatigue relieving cryotherapeutic device according to claim 1, wherein the top of the cavity of the cryotherapeutic device has a dry top (14) with ventilation holes.

7. A fatigue relieving cryotherapeutic device according to claim 1, wherein the heat dissipation area (12) is located at the back of the cavity, said heat dissipation area having air inlets (13) at the top of the heat dissipation area (12) and air outlets (15) at the side walls and near the bottom of the heat dissipation area (12), said heat dissipation area being provided with a fan for keeping the heat dissipation air circulating.

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