CN218474794U - Conductive carbon cloth far infrared electric heating nursing cabin - Google Patents

Abstract

The utility model belongs to a medical nursing device, which provides a conductive carbon cloth far infrared electric heating nursing cabin for solving the problems that the local burns, especially the burns nursing devices of four limbs and the like are lack of. The protective cover is detachably connected to the cabin body supporting frame to form a nursing cabin body, and the nursing cabin body is covered on the constant temperature air cushion in a buckling manner; the top of the cabin body supporting frame is provided with a cover body, the bottom of the cabin body supporting frame is provided with a square outer frame, and vertical supporting frames are arranged at the end points of the arc-shaped cover body and the end points of the outer frame; the cover body, the vertical support frame and the square outer frame are integrally formed into a cabin body support frame; the bottom of the square outer frame is detachably connected with the top of the constant-temperature air cushion in a sealing way; the protective cover sequentially comprises from inside to outside: the anti-fouling fabric layer, the far infrared electric heating cloth, the flame-retardant sponge board layer, the aluminum plate shell layer, the flame-retardant sponge layer and the PU leather protective layer; reasonable design, proper size and is suitable for personal local nursing heat treatment. Can achieve the effects of sterilization and disinfection, has no toxic environment, is beneficial to the treatment and the protection of patients, and realizes the synchronization of treatment and nursing.

Description

Conductive carbon cloth far infrared electric heating nursing cabin

Technical Field

The utility model belongs to medical nursing device, concretely relates to conductive carbon cloth far infrared electric heat nursing cabin.

Background

Burn is a tissue injury caused by thermal action, has paroxysmal and multi-organ properties, further induces various complications, and causes severe trauma to the mind and body of a patient. It usually occurs on the body surface, including skin, subcutaneous tissue, muscle, etc., but also on other areas, such as the eyes, mouth, respiratory tract, esophagus, stomach, etc. Tissue damage and clinical processes caused by current, chemicals, radiation and the like are similar to those of thermal burns, so that the tissue damage and the clinical processes are customarily classified into the category of burns, but the tissue damage and the clinical processes are generally classified into special types of burns clinically, and the tissue damage and the clinical processes have special treatment properties. In the case of burns, it refers to tissue damage caused by hot liquids, such as boiling water, hot oil, boiling water, steam, and is also a type of burn. The factors that induce burn injury are many and rising, and the treatment of burn injury requires a long time, which is a great challenge for medical staff.

When a part of the body is burnt, but the burn is serious, other non-injured parts can be exposed to ozone, infrared rays or other treatment methods at the same time by using the large burn nursing bed, and the non-injured parts can be affected by the ozone, the infrared rays or the like at the same time to cause further injury.

Therefore, the development of a nursing device for treating local severe burns and scalds is urgently needed.

Rheumatism generally refers to the related pathological changes in the joint area, which, in addition to causing damage to bones and cartilage, may involve tendons, ligaments, muscles and nerves around the joint. The etiology of such diseases is complex and diverse, and hundreds of different types of rheumatism are currently clinically known to exist. Rheumatism mainly causes tissue cell damage and structural degeneration by triggering inflammatory reaction at the diseased part. Some patients have only limited disease damage to the periphery of the joints, while some severe patients may have inflammatory lesions that diffuse throughout the body.

The application numbers are: 201910377758.X, the invention name is: the invention provides a graphene far infrared thermal therapy device which comprises a graphene far infrared cabin, a graphene back cushion, a graphene foot cushion and a microcirculation monitoring and adjusting device, wherein the graphene far infrared cabin is integrally arched and sequentially comprises a heat resistance film, a supporting frame, a graphene heating film and a PE insulating film from outside to inside, the graphene heating film is wrapped by the PE insulating film, the graphene heating film is attached to the lower portion of the supporting frame and is bonded to the upper portion of the supporting frame, the graphene back cushion sequentially comprises a lining cloth, the graphene heating film and polyester fibers from top to bottom, the graphene heating film is wrapped by the polyester fibers, the polyester fibers are wrapped by the lining cloth, and the microcirculation monitoring and adjusting device comprises a microcirculation monitoring ring, a temperature control adjuster and a master controller. By monitoring human microcirculation, the thermal therapy temperature is adjusted at any time, and the characteristic of low-temperature radiation of the graphene heating film is utilized to form gradual surrounding type thermal radiation, so that the thermal therapy device is suitable for thermal therapy of a human body. However, the thermotherapy device only has the thermotherapy function, and cannot sterilize the whole device, and the front and the back of the thermotherapy device are hollow, so that bacteria in the air can easily enter the device in the using process, the inside of the device is not in an aseptic environment in the thermotherapy process, and pores on the skin of a human body are opened in the thermotherapy process, so that the bacteria can easily enter the body. And therefore still not completely isolated when in use.

Disclosure of Invention

The utility model discloses a solve to lack to the burn nursing device of local burn especially four limbs etc. at present, carry out the equipment that heat treatment used and can't reach partial space disinfection and sterilization to the human body, be difficult to avoid cross infection scheduling problem, provide a conductive carbon cloth far infrared electric heat nursing cabin.

The utility model discloses realized by following technical scheme: a conductive carbon cloth far infrared electric heating nursing cabin comprises an integrally formed cabin body support frame, a protective cover, a nursing cabin heat insulation curtain and a constant temperature air cushion; the protective cover is detachably connected to the cabin body supporting frame to form a nursing cabin body, and the nursing cabin body covers the constant-temperature air cushion in a buckling manner;

the cabin body supporting frame is characterized in that an arc-shaped cover body is arranged at the top of the cabin body supporting frame, a square outer frame is arranged at the bottom of the cabin body supporting frame, the arc-shaped cover body and the square outer frame are integrally formed into a cabin body supporting frame, a clamping groove is formed in the cabin body supporting frame towards the cabin body, and the end part of the protective cover is clamped in the clamping groove; the bottom of the square outer frame is detachably connected with the top of the constant-temperature air cushion in a sealing manner;

the protective cover sequentially comprises from inside to outside: an antifouling fabric layer and a black non-woven fabric layer; the far infrared electric heating cloth, the flame-retardant sponge plate layer, the aluminum plate outer shell layer, the flame-retardant sponge layer and the PU leather protective layer; the antifouling fabric layer, the black non-woven fabric layer, the far infrared electric heating cloth, the flame-retardant sponge plate layer, the aluminum plate shell layer, the flame-retardant sponge layer and the PU leather protective layer are sequentially bonded;

the far infrared electric heating cloth comprises: a pure cotton non-woven fabric layer soaked with conductive latex, wherein an electric heating element is arranged at a position 1/3-1/2 away from the bottom in the middle of the side wall of the protective cover, the electric heating element is connected with a temperature controller, and the temperature controller is connected with a temperature control switch; the temperature controller and the temperature control switch are arranged on the outer side of the PU leather protective layer;

the edge of the protective cover is bent inwards to form a cavity, the bent end part is sealed with the protective cover body, and a circle of elastic organic silicone tube is introduced into the cavity; the elastic organic silicon rubber tube is clamped in the clamping groove;

a heat preservation curtain of the nursing cabin is arranged on the side face of the protective cover;

the inner side of the top of the protective cover is provided with an ozone generator, and connecting wires of the ozone generator and the electric heating element are arranged in the clamping groove and are connected with an external power supply from one end of the clamping groove to the outside.

The electric heating elements are arranged on the outer side of the far infrared electric heating cloth and the inner side of the flame-retardant sponge plate layer, the inner side of the flame-retardant sponge plate is inwards recessed to form an electric heating element mounting groove, and the electric heating elements are mounted in the electric heating element mounting groove. The electric heating element is a temperature measuring instrument or a temperature sensor.

The constant temperature air cushion is externally connected with a power supply, and the temperature of the constant temperature air cushion is controlled to be 45-55 ℃.

The pure cotton non-woven fabric soaked with the conductive latex comprises the following components: dipping the pure cotton mesh cloth of the degummed slurry into conductive latex for 5-10min, wherein the conductive latex is formed by mixing conductive ions and SBR (styrene butadiene rubber) latex according to a mass ratio of 4; based on the total weight of the conductive ions, 40-60% of graphite and 60-40% of superconducting carbon black are mixed.

The width of the square outer frame is 55-60cm; the length is 65cm; the cabin body support frame is integrally in an inverted U shape or a square shape, and the height is 450-550cm; the cabin body supporting frame is integrally formed by aluminum profiles with the thickness of 1 mm; the outer diameter of the elastic organic silica gel tube is 8mm, and the inner diameter of the elastic organic silica gel tube is 5mm; the aperture of the clamping hole at the bottom of the clamping groove is 6.5-7mm.

The antifouling cloth layer is a plastic gridding cloth layer with the thickness of 2mm and a grid of 1 multiplied by 1 cm; the electric heating cloth is a pure cotton non-woven cloth layer soaked with conductive latex of 40 meshes; the flame-retardant sponge board layer is a 120-mesh flame-retardant sponge board layer; the aluminum plate shell layer is a soft aluminum plate shell with the thickness of 1 mm; the flame-retardant sponge layer is 200 meshes of flame-retardant sponge.

The power density of the far infrared electric heating cloth is 0.06w/cm ² The heating temperature is 55-60 ℃. At least 1 handle is also installed to the nursing cabin outside.

Before the medical nursing cabinet is used, the ozone generating device is opened, ozone in the nursing cabinet is sterilized, then the ozone generating device is closed, the heat-insulating curtain is opened, the part to be thermally treated enters the nursing cabinet, and the nursing cabinet becomes a closed and sterile space. When the power supply is switched on, the far infrared electric heating cloth is heated, and the ozone and the far infrared electric heating cloth provide the effects of deodorization, sterilization and disinfection in the nursing cabin, and simultaneously provide the heating function, and provide the reliable effects of preventing and treating the secondary infection and the treatment effect on the burn and scald parts.

The sterilization and disinfection state of the internal microenvironment is ensured, and the ozone purifies the air, thereby effectively reducing the risk of secondary infection; so that the patient can be further effectively treated.

The temperature measuring instrument and the temperature controller are arranged in the middle of the side wall, when the temperature in the cabin reaches the required temperature, the temperature measuring instrument or the temperature sensor measures the required temperature, and when the temperature continues to rise, the temperature measuring instrument or the temperature sensor senses the high temperature and then the temperature controller is further controlled to automatically power off, so that the temperature is prevented from further rising, and the high-temperature further burning event is avoided.

The electrothermal element is arranged at the position from 1/3 to 1/2 of the bottom of the middle part of the side wall, and the heat conduction is a process of conducting from the top to the bottom, so that the temperature at the top of the nursing cabin is higher than that at the middle part and the bottom of the nursing cabin, the middle part belongs to a medium-temperature zone, the electrothermal element is arranged at the middle part of the side wall, the correct temperature in the nursing cabin is displayed properly, and the secondary damage of burning caused by improper temperature display or the failure of reaching a better treatment purpose caused by too low temperature are avoided.

The bottom constant temperature air cushion is externally connected with a power supply, and the temperature of the constant temperature air cushion is controlled to be 45-55 ℃. Such that the temperature in the care compartment, including the bottom, is equalized. The heat-insulating curtain prevents the dissipation of internal heat, and further controls the balance of the temperature in the cabin.

After treatment, the ozone generator in the nursing cabin is turned on for further disinfection and sterilization, and the treated ozone generator is convenient for subsequent patients to use.

The protection casing can be disposable, also can the patient utilize many times, is convenient for lay, reduces medical personnel's work. Meanwhile, the protective cover can be industrially produced, the elastic organic silicon tube can be easily drawn out of and inserted into the top of the protective cover, secondary utilization can be achieved, and generation of medical waste is reduced.

The utility model has reasonable design and proper size, and is suitable for personal local nursing thermotherapy. Can realize the sealing in the nursing cabin for whole confined space can reach and disinfect, nontoxic environment does benefit to patient's treatment and protection.

Drawings

FIG. 1 is a schematic structural view of the present invention; FIG. 2 is a schematic view of a shield structure; FIG. 3 is a schematic view of the structure of the card slot and the edge of the shield;

in the figure: 1-cabin body supporting frame; 1.1-arc cover body; 1.2-square outer frame; 1.3-card slot;

2-a protective cover; 2.1-antifouling cloth layer; 2.2-black non-woven fabric layer; 2.3-far infrared electric heating cloth; 2.4-flame retardant sponge board layer; 2.5-an aluminum sheet outer shell layer; 2.6-a flame-retardant sponge layer; 2.7-PU leather protective layer; 2.8-cavity; 2.9-organic silicone tube;

3-nursing cabin heat preservation curtain; 4-constant temperature air cushion; 5-an electric heating element; 6-temperature controller; 7-a temperature control switch; 8-a handle.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in figure 1, the conductive carbon cloth far infrared electric heating nursing cabin comprises an integrally formed cabin body support frame 1, a protective cover 2, a nursing cabin heat insulation curtain 3 and a constant temperature air cushion 4; the protective cover 2 is detachably connected to the cabin body supporting frame 1 to form a nursing cabin body, and the nursing cabin body covers the constant-temperature air cushion 4 in a buckling manner;

the top of the cabin body supporting frame 1 is provided with an arc-shaped cover body 1.1, the bottom of the cabin body supporting frame is provided with a square outer frame 1.2, the arc-shaped cover body 1.1 and the square outer frame 1.2 are integrally formed into the cabin body supporting frame 1, a clamping groove 1.3 is formed in the cabin body supporting frame 1, and the end part of the protective cover 2 is clamped in the clamping groove 1.3; the bottom of the square outer frame 1.2 is detachably connected with the top of the constant temperature air cushion 4 in a sealing way;

as shown in fig. 2, the protective cover 2 sequentially comprises from inside to outside: an antifouling cloth layer 2.1 and a black non-woven cloth layer 2.2; 2.3 parts of far infrared electric heating cloth, 2.4 parts of flame-retardant sponge board layers, 2.5 parts of aluminum plate outer shell layers, 2.6 parts of flame-retardant sponge layers and 2.7 parts of PU leather protective layers; the antifouling cloth layer 2.1, the black non-woven cloth layer 2.2, the far infrared electric heating cloth 2.3, the flame-retardant sponge plate layer 2.4, the aluminum plate shell layer 2.5, the flame-retardant sponge layer 2.6 and the PU leather protective layer 2.7 are sequentially bonded;

the far infrared electric heating cloth 2.3 comprises: a pure cotton non-woven fabric layer soaked with conductive latex, an electric heating element 5 is arranged at the position 1/3-1/2 away from the bottom in the middle of the side wall of the protective cover 2, the electric heating element 5 is connected with a temperature controller 6, and the temperature controller 6 is connected with a temperature control switch 7; the temperature controller 6 and the temperature control switch 7 are arranged on the outer side of the PU leather protective layer;

as shown in fig. 3, the edge of the protective cover 2 is bent inwards to form a cavity 2.8, the bent end part is sealed with the protective cover body, and a circle of elastic silicone rubber tube 2.9 is introduced into the cavity; the elastic organic silicon rubber tube 2.9 is clamped in the clamping groove 1.3;

a nursing cabin heat insulation curtain 3 is arranged on the side surface of the protective cover 2; the inner side of the top of the protective cover 2 is provided with an ozone generator, and connecting wires of the ozone generator and the electric heating element are arranged in the clamping groove and are connected with an external power supply from one end of the clamping groove to the outside.

The electric heating elements are arranged on the outer side of the far infrared electric heating cloth and the inner side of the flame-retardant sponge plate layer, the inner side of the flame-retardant sponge plate is inwards recessed to form an electric heating element mounting groove, and the electric heating elements are mounted in the electric heating element mounting groove.

The electric heating element is a temperature measuring instrument or a temperature sensor. The constant temperature air cushion is externally connected with a power supply, and the temperature of the constant temperature air cushion is controlled to be 45-55 ℃.

The pure cotton non-woven fabric soaked with the conductive latex comprises the following components: dipping the pure cotton mesh cloth of the degummed slurry into conductive latex for 5-10min, wherein the conductive latex is formed by mixing conductive ions and SBR (styrene butadiene rubber) latex according to a mass ratio of 4; based on the total weight of the conductive ions, 40-60% of graphite and 60-40% of superconducting carbon black are mixed.

The width of the square outer frame is 55-60cm; the length is 65cm; the cabin body supporting frame is integrally in an inverted U shape or a square shape, and the height is 450-550cm; the cabin body supporting frame is integrally formed by aluminum profiles with the thickness of 1 mm; the outer diameter of the elastic organic silica gel tube is 8mm, and the inner diameter of the elastic organic silica gel tube is 5mm; the aperture of the clamping hole at the bottom of the clamping groove is 6.5-7mm.

The antifouling cloth layer is a plastic gridding cloth layer with the thickness of 2mm and a grid of 1 multiplied by 1 cm; the electric heating cloth is a pure cotton non-woven cloth layer soaked with conductive latex of 40 meshes; the flame-retardant sponge board layer is a 120-mesh flame-retardant sponge board layer; the aluminum plate shell layer is a soft aluminum plate shell with the thickness of 1 mm; the flame-retardant sponge layer is 200 meshes of flame-retardant sponge.

The power density of the far infrared electric heating cloth is 0.06w/cm ² The heating temperature is 55-60 ℃. At least 1 handle 8 is also installed to the nursing cabin outside.

Before the device is used, the ozone generating device is opened, the nursing cabin is subjected to ozone sterilization, then the ozone generating device is closed, the heat-insulating curtain is opened, the part to be subjected to thermal therapy enters the nursing cabin, and the nursing cabin is a closed and sterile space. The far infrared electric heating cloth is heated when the power supply is switched on, and the ozone and the far infrared electric heating cloth provide the effects of deodorization, sterilization and disinfection in the nursing cabin, and simultaneously provide the heating function, and provide the reliable effects of preventing and treating secondary infection and treating the burn and scald parts.

The sterilization and disinfection state of the internal microenvironment is ensured, and the ozone purifies the air, thereby effectively reducing the risk of secondary infection; so that the patient can be further effectively treated.

The temperature measuring instrument and the temperature controller are arranged in the middle of the side wall, when the temperature in the cabin reaches the required temperature, the temperature measuring instrument or the temperature sensor measures the required temperature, and when the temperature continues to rise, the temperature measuring instrument or the temperature sensor senses the high temperature and then the temperature controller is further controlled to automatically power off, so that the temperature is prevented from further rising, and the high-temperature further burning event is avoided.

The electric heating element is arranged at the position from 1/3 to 1/2 of the middle part of the side wall from the bottom, and the heat conduction is a process of conducting from the top to the bottom, so that the temperature at the top of the nursing cabin is higher than that at the middle part and the bottom of the nursing cabin, the middle part belongs to a medium-temperature zone, the electric heating element is arranged at the middle part of the side wall, the correct temperature in the nursing cabin is properly displayed, and the secondary damage of burning caused by improper temperature display or the failure of reaching a better treatment purpose caused by too low temperature are avoided.

The bottom constant temperature air cushion is externally connected with a power supply, and the temperature of the constant temperature air cushion is controlled to be 45-55 ℃. Such that the temperature in the care compartment, including the bottom, is equalized. The heat preservation curtain prevents the dissipation of internal heat, and further controls the balance of the temperature in the cabin.

After the treatment is finished, the ozone generator in the nursing cabin is turned on for further disinfection and sterilization, and the ozone generator is convenient for subsequent patients to use after treatment.

The protection casing can be disposable, also can the patient utilize many times, is convenient for lay, reduces medical personnel's work. Meanwhile, the protective cover can be industrially produced, the elastic organic silicone tube can be easily drawn out from the top of the protective cover and inserted into the protective cover, secondary utilization can be realized, and the generation of medical waste is reduced.

The utility model has reasonable design and proper size, and is suitable for personal local nursing thermotherapy. Can realize nursing the sealed in-cabin for whole confined space can reach and disinfect, nontoxic environment does benefit to patient's treatment and protection, has realized that treatment and nursing are synchronous.

The structure, ratio, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention does not have the substantial significance in the technology, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy which can be produced by the present invention and the purpose which can be achieved by the present invention. In addition, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are used for clarity of description only, and are not used to limit the scope of the present invention, and the relative relationship between the terms may be changed or adjusted without substantial technical changes.

Claims (8)

1. The utility model provides a conductive carbon cloth far infrared electric heat nursing cabin which characterized in that: comprises an integrally formed cabin body support frame (1), a protective cover (2), a nursing cabin heat insulation curtain (3) and a constant temperature air cushion (4); the protective cover (2) is detachably connected to the cabin body supporting frame (1) to form a nursing cabin body, and the nursing cabin body is covered on the constant temperature air cushion (4) in a buckling manner;

the cabin body supporting frame (1) is characterized in that an arc-shaped cover body (1.1) is arranged at the top of the cabin body supporting frame (1), a square outer frame (1.2) is arranged at the bottom of the cabin body supporting frame, the arc-shaped cover body (1.1) and the square outer frame (1.2) are integrally formed into the cabin body supporting frame (1), a clamping groove (1.3) is formed in the cabin body supporting frame (1) towards the inside of the cabin body, and the end part of a protective cover (2) is clamped in the clamping groove (1.3); the bottom of the square outer frame (1.2) is detachably and hermetically connected with the top of the constant-temperature air cushion (4);

the protective cover (2) is sequentially from inside to outside: an antifouling cloth layer (2.1) and a black non-woven cloth layer (2.2); the far infrared electric heating cloth comprises far infrared electric heating cloth (2.3), a flame-retardant sponge board layer (2.4), an aluminum plate outer shell layer (2.5), a flame-retardant sponge layer (2.6) and a PU leather protective layer (2.7); the antifouling fabric layer (2.1), the black non-woven fabric layer (2.2), the far infrared electric heating cloth (2.3), the flame-retardant sponge board layer (2.4), the aluminum plate shell layer (2.5), the flame-retardant sponge layer (2.6) and the PU leather protective layer (2.7) are bonded in sequence;

the far infrared electric heating cloth (2.3) comprises: a pure cotton non-woven fabric layer soaked with conductive latex, an electric heating element (5) is arranged at the position 1/3-1/2 away from the bottom in the middle of the side wall of the protective cover (2), the electric heating element (5) is connected with a temperature controller (6), and the temperature controller (6) is connected with a temperature control switch (7); the temperature controller (6) and the temperature control switch (7) are arranged on the outer side of the PU leather protective layer;

the edge of the protective cover (2) is bent inwards to form a cavity (2.8), the bent end part is sealed with the protective cover body, and a circle of elastic organic silicon rubber tube (2.9) is introduced into the cavity; the elastic organic silicon rubber tube (2.9) is clamped in the clamping groove (1.3);

a heat-insulating curtain (3) of the nursing cabin is arranged on the side surface of the protective cover (2);

the inner side of the top of the protective cover (2) is provided with an ozone generator, and connecting wires of the ozone generator and the electric heating element are arranged in the clamping grooves and are connected with an external power supply from one end of the clamping grooves to the outside.

2. The far infrared electric heating nursing cabin of the conductive carbon cloth of claim 1, which is characterized in that: the electric heating element is arranged on the outer side of the far infrared electric heating cloth and the inner side of the flame-retardant sponge plate layer, the inner side of the flame-retardant sponge plate is inwards sunken to form an electric heating element mounting groove, and the electric heating element is mounted in the electric heating element mounting groove.

3. The far infrared electric heating nursing cabin of the conductive carbon cloth of claim 1 or 2, which is characterized in that: the electric heating element is a temperature measuring instrument or a temperature sensor.

4. The far infrared electric heating nursing cabin of the conductive carbon cloth of claim 1 or 2, characterized in that: the constant temperature air cushion is externally connected with a power supply, and the temperature of the constant temperature air cushion is controlled to be 45-55 ℃.

5. The far infrared electric heating nursing cabin of the conductive carbon cloth of claim 1, which is characterized in that: the width of the square outer frame is 55-60cm; the length is 65cm; the cabin body supporting frame is integrally in an inverted U shape or a square shape, and the height is 450-550cm; the cabin body supporting frame is integrally formed by aluminum profiles with the thickness of 1 mm; the outer diameter of the elastic organic silica gel tube is 8mm, and the inner diameter of the elastic organic silica gel tube is 5mm; the aperture of the clamping hole at the bottom of the clamping groove is 6.5-7mm.

6. The conductive carbon cloth far infrared electric heating nursing cabin of claim 1, which is characterized in that: the antifouling cloth layer is a plastic gridding cloth layer with the thickness of 2mm and a grid of 1 multiplied by 1 cm; the electric heating cloth is a pure cotton non-woven cloth layer soaked with conductive latex with 40 meshes; the flame-retardant sponge board layer is a 120-mesh flame-retardant sponge board layer; the aluminum plate shell layer is a soft aluminum plate shell with the thickness of 1 mm; the flame-retardant sponge layer is 200 meshes of flame-retardant sponge.

7. The far infrared electric heating nursing cabin of the conductive carbon cloth of claim 1, which is characterized in that: the power density of the far infrared electric heating cloth is 0.06w/cm ² The heating temperature is 55-60 ℃.

8. The conductive carbon cloth far infrared electric heating nursing cabin of claim 1, which is characterized in that: at least 1 handle (8) is also installed to the nursing cabin outside.

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