CN213154102U - Graphite alkene polymerization nanometer energy knee-pad that generates heat - Google Patents

Abstract

A graphene polymerization nanometer energy heating knee pad comprises a knee pad body, a power switch, a mobile power supply pocket and a heating layer; a power switch is arranged on the left side of the upper part of the front face of the kneepad body, a mobile power supply pocket is arranged below the right side of the power switch and used for placing a mobile power supply, and a plurality of elastic bands are arranged at the right end of the front face of the kneepad body; the left end of the back surface of the kneepad body is provided with a plurality of magic tapes, and the magic tapes are positioned on the outer side of the back surface of the elastic band and correspond to the elastic band one by one; the right end of the back of the kneepad body is provided with a heating layer. Graphite alkene polymerization nanometer energy knee-pad that generates heat, portable design, convenient to use adopts graphite alkene polymerization nanometer energy heater, heat conduction nonconducting, safe radiationless, the fast duration of generating heat is long, cold-resistant cold-proof is cold-proof, the heating effect is good, can release far infrared and produce the mineral substance radiation, adjusts blood circulation, the physiotherapy is effectual, application prospect is extensive.

Description

Graphite alkene polymerization nanometer energy knee-pad that generates heat

Technical Field

The utility model relates to a dress technical field, concretely relates to graphite alkene polymerization nanometer energy knee-pad that generates heat.

Background

With the progress of science and technology, science and technology brings great changes to traditional industries and traditional products, such as clothes in the traditional industries. Kneepads, a widely used garment, are articles for protecting the knees of people, have the functions of sports protection, cold protection, warm keeping and joint maintenance, and are classified into sports kneepads and health kneepads. The kneepad is suitable for athletes, the middle aged and the elderly people, and patients with knee diseases. Knee pads are used quite extensively in modern athletic activities. The knee is an extremely important part in movement, is a fragile part easy to be injured, is extremely painful to be injured, is slow to recover, and even is hidden and painful for an individual in rainy and cloudy days. The knee pad made of thick felt materials, which can be bought in almost all sports goods stores, can reduce and avoid injuries to a certain extent, can play a role in cold protection when used in winter, and is inexpensive. The "knee wrap" is not recommended here as an integral item, but is also widely used in all sporting activities.

The common heating knee pad achieves cold protection and warm keeping by means of the thermal resistance of the knee pad, and firstly, the thermal resistance of the fabric is high; the thickness of the kneepad, the air content in the kneepad, is the second factor. The thicker the thickness, the higher the air content. Nowadays, people have abundant substances, pursue natural and comfortable feeling, get rid of overstaffed and prominent body shape, and pursue individuality to become mainstream, so that the light, thin and comfortable heating knee pad is the potential demand of people for the heating knee pad.

Therefore, the heating knee pad in the prior art has the defects of large size, bulkiness, poor comfort, incapability of ensuring the heating working time, poor temperature adjustability and difficulty in self adjustment according to the change of the environment. Therefore, it is necessary to develop a graphene polymerization nano energy heating knee pad to solve the above problems.

Chinese patent application No. CN201910580313.1 discloses a graphene knee pad, which focuses and irradiates far infrared radiation on a knee or a certain fixed area, so as to enhance the physical therapy effect, and does not improve the comfort, heating effect, and heating effect of the heating knee pad.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: in order to overcome not enough above, the utility model aims at providing a graphite alkene polymerization nanometer energy knee-pad that generates heat, simple structure, frivolous comfortable, portable design, convenient to use, heat conduction non-conducting, safe radiationless, it is fast and duration is long to generate heat, cold-resistant cold-proof is cold-proof, and it is effectual to generate heat, can release the far infrared, can effectively improve blood circulation, alleviate muscle strain, activated cell, promote metabolism, dredge the main and collateral channels, the dehumidification of dispelling the wind, the disease-resistant ability of analgesia cold-dispelling, reinforcing organism, application prospect is extensive.

The technical scheme is as follows: a graphene polymerization nanometer energy heating knee pad comprises a knee pad body, a power switch, a mobile power supply pocket and a heating layer; a power switch is arranged on the left side of the upper part of the front face of the kneepad body, a mobile power supply pocket is arranged below the right side of the power switch and used for placing a mobile power supply, and a plurality of elastic bands are arranged at the right end of the front face of the kneepad body; the left end of the back surface of the kneepad body is provided with a plurality of magic tapes, and the magic tapes are positioned on the outer side of the back surface of the elastic band and correspond to the elastic band one by one; a heating layer is arranged at the right end of the back of the kneepad body; the knee pad body comprises a lycra and health physiotherapy cloth from outside to inside, the heating layer comprises a lining strip and a graphene polymerization nanometer energy heating layer from outside to inside, the heating layer is sewn between the lycra and the health physiotherapy cloth, a hexagonal net is further arranged at the right end of the back of the knee pad body and is arranged on the outer side of the health physiotherapy cloth, and the hexagonal net is used for placing moxa sheets; the mobile power supply is connected with the graphene polymerization nanometer energy heating layer through a connecting wire and is used for providing electric energy for heating of the graphene polymerization nanometer energy heating layer, and the power switch is electrically connected with the mobile power supply and controls the power supply of the mobile power supply to be switched on and off; and a 0.5cm double-spigot Lycra elastic edge strip is arranged at the position, below the power switch, of the front surface of the kneepad body.

Graphite alkene polymerization nanometer energy knee-pad that generates heat, moreover, the steam generator is simple in structure, high durability and convenient use, place portable power source in the portable power source pocket, portable power source passes through the connecting wire and connects the layer that generates heat, both can easily accomplish the control of portable power source power supply's break-make through switch, the magic is pasted and the rubber band area can easily be adjusted graphite alkene polymerization nanometer energy to the cooperation and generate heat the waistline elasticity of knee-pad, it is frivolous comfortable, the portability is good, high durability and convenient use, layer heat conduction non-conducting generates heat, it is safe nonradiative, it is fast and duration is long to generate heat, cold-resistant cold-proof, it is.

Further, the graphene polymerization nanometer energy heating kneecap is characterized in that a triangular needle with the color same as that of lycra of 0.8cm is adopted for edge rolling around the periphery of the kneecap body; and a triangular needle is pressed around the periphery of the portable power source pocket.

The design prolongs the service life of the graphene polymerization nanometer energy heating knee pad, and the knee pad is more durable.

Further, in the graphene polymerization nanometer energy heating knee pad, the graphene polymerization nanometer energy heating layer is composed of a plurality of graphene polymerization nanometer energy heating wires.

The graphene polymerization nanometer energy heating layer is composed of a plurality of graphene polymerization nanometer energy heating wires, the graphene polymerization nanometer energy heating wires are made of a formula loaded by a preparation method of the graphene polymerization nanometer energy heating wire with the patent application number of CN201910617985.5 and a process of the formula, the graphene polymerization nanometer energy heating wires are good in integrity, strong in continuity, good in flexibility, resistant to bending and breaking, washable, resistant to rubbing, non-conductive in heat conduction, safe, free of radiation, high in heating speed and long in duration, fatigue and pain of knee parts can be effectively relieved, and damage to the knee joints in motion is reduced.

In addition, the graphene polymerization nanometer energy heating wire can emit light waves of 6-16 micrometers to a human body in a nanometer far infrared mode, and through reasonable and slow release of heat, acupuncture points are stimulated, channels and collaterals are dredged, local blood circulation is improved, and metabolism is promoted. Has the characteristics of convenient use, safety, environmental protection and the like, can effectively improve blood circulation, relieve muscle strain, activate cells, promote metabolism, dredge channels and collaterals, expel wind and dampness, relieve pain and dispel cold, and enhance the disease resistance of organisms; the mineral radiation can be generated after fever, and the health care food can regulate the blood circulation of human body and is beneficial to the health of human body.

Further, according to the graphene polymerization nanometer energy heating knee pad, the graphene polymerization nanometer energy heating wire comprises a heating core body and a protection layer from inside to outside.

Further, the protective layer comprises an insulating layer and a waterproof layer which are sequentially arranged from inside to outside, and the heating core body is tightly coated with the protective layer.

Further, according to the graphene polymerization nanometer energy heating knee pad, the insulating layer is made of silica gel, and an anti-oxidation layer is arranged on the surface of the insulating layer.

The insulating layer is made of silica gel, the silica gel has the characteristics of acid resistance, alkali resistance, water resistance, high temperature resistance, long service life and the like, and the antioxidation layer can be one or the mixture of more of common phenolic antioxidants, amine antioxidants, phosphorus antioxidants and sulfur antioxidants. The insulating layer is coated on the heating core body, so that the graphene polymerization nanometer energy heating wire has excellent flexibility, is resistant to bending, does not have thermal expansion and cold contraction deformation, and is not easy to break, and the safety of the graphene polymerization nanometer energy heating wire in use is fully ensured.

Further, according to the graphene polymerization nanometer energy heating knee pad, the waterproof layer is a polyacrylate waterproof coating, and a plurality of moisture-dispersing micropores are formed in the surface of the waterproof layer.

The waterproof layer is a polyacrylate waterproof coating, so that the waterproof performance is further improved, and the safety of the graphene polymerization nanometer energy heating wire in use is more fully ensured. Meanwhile, the surface of the waterproof layer is fully distributed with a plurality of micropores for moisture diffusion, so that heat transfer is not hindered, and the service life is prolonged.

The utility model has the advantages that:

(1) the utility model discloses a graphite alkene polymerization nanometer energy heating knee-pad, simple structure, convenient to use places portable power source in the portable power source pocket, and portable power source passes through the connecting wire and connects the layer that generates heat, can both easily accomplish the control of the break-make of portable power source power supply through switch, and magic subsides and rubber band area to the cooperation can easily adjust the waist circumference elasticity of graphite alkene polymerization nanometer energy heating knee-pad, and is frivolous comfortable, and the portability is good, convenient to use, generate heat evenly, generate heat effectually;

(2) the graphene polymerization nanometer energy heating knee pad can be washed and rubbed, the heating layer is heat-conducting and non-conducting, safe and radiationless, has high heating speed and long duration, is cold-resistant and warm-keeping, has good heating effect, can effectively relieve the fatigue and pain of the knee part, and reduces the damage to the knee joint in the movement; the graphene polymerization nanometer energy heating layer is composed of a plurality of graphene polymerization nanometer energy heating wires, and has the advantages of good integrity, strong continuity, excellent flexibility, bending resistance and difficult fracture;

(3) graphene polymerization nanometer energy knee-pad that generates heat, graphene polymerization nanometer energy heater can the nanometer far-infrared to human emission 6-16 microns light wave, through thermal reasonable slow release, amazing acupuncture point, dredge the main and collateral channels, improve local blood circulation, promote the metabolism. Has the characteristics of convenient use, safety, environmental protection and the like, can effectively improve blood circulation, relieve muscle strain, activate cells, promote metabolism, dredge channels and collaterals, expel wind and dampness, relieve pain and dispel cold, and enhance the disease resistance of organisms; mineral radiation can be generated after fever, so that the blood circulation of a human body is regulated, and the health of the human body is benefited;

(4) graphite alkene polymerization nanometer energy knee-pad that generates heat, graphite alkene polymerization nanometer energy heater waterproof insulation, the security is good, long service life.

Drawings

Fig. 1 is a schematic front structural view of a graphene polymerization nano energy heating knee pad of the present invention;

fig. 2 is a schematic view of a back structure of the graphene polymerization nanometer energy heating knee pad of the present invention;

fig. 3 is a schematic close-up view of a portion of the graphene polymeric nanoenergy heating knee pad of the present invention;

fig. 4 is a cross-sectional view of the middle part of the knee pad body of the graphene polymerization nanometer energy heating knee pad of the present invention;

fig. 5 is a schematic structural view of a graphene polymerization nano energy heating wire of the graphene polymerization nano energy heating knee pad of the present invention;

fig. 6 is an electrical connection diagram of the graphene polymerization nano energy heating knee pad of the present invention;

in the figure: the knee pad comprises a knee pad body 1, an elastic band 11, a magic tape 12, lycra 13, a health physiotherapy cloth 14, a hexagonal net 15, a double-seam lycra elastic strip 16, a triangular needle border 17, a power switch 2, a mobile power supply pocket 3, a heating layer 4, a lining strip 41, a graphene polymerization nanometer energy heating layer 42, a mobile power supply 5, a graphene polymerization nanometer energy heating wire 6, a heating core body 61, a protective layer 62, an insulating layer 621, an oxidation resistant layer 6211, a waterproof layer 622 and micropores a.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 6 in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The graphene polymerization nanometer energy heating knee pad with the structure shown in fig. 1, 2, 3, 4 and 6 comprises a knee pad body 1, a power switch 2, a mobile power supply pocket 3 and a heating layer 4; a power switch 2 is arranged on the left side of the upper part of the front face of the kneepad body 1, a mobile power supply pocket 3 is arranged below the right side of the power switch 2, the mobile power supply pocket 3 is used for placing a mobile power supply 5, and a plurality of elastic bands 11 are arranged at the right end of the front face of the kneepad body 1; the left end of the back surface of the kneepad body 1 is provided with a plurality of magic tapes 12, and the magic tapes 12 are positioned on the outer side of the back surface of the elastic band 11 and correspond to the elastic band 11 one by one; the right end of the back of the kneepad body 1 is provided with a heating layer 4; the kneepad body 1 comprises a lycra 13 and a health physiotherapy cloth 14 from outside to inside, the heating layer 4 comprises a lining strip 41 and a graphene polymerization nanometer energy heating layer 42 from outside to inside, the heating layer 4 is sewn between the lycra 13 and the health physiotherapy cloth 14, a hexagonal net 15 is further arranged at the right end of the back of the kneepad body 1, the hexagonal net 15 is arranged on the outer side of the health physiotherapy cloth 14, and the hexagonal net 15 is used for placing moxa sheets; the mobile power supply 5 is connected with the graphene polymerization nanometer energy heating layer 42 through a connecting wire and is used for providing electric energy for heating of the graphene polymerization nanometer energy heating layer 42, and the power switch 2 is electrically connected with the mobile power supply 5 and controls the power supply of the mobile power supply 5 to be switched on and off; the front surface of the kneepad body 1 is provided with a 0.5cm double-spigot lycra elastic edge strip 16 below the power switch 2.

In addition, a triangular needle border 17 which is 0.8cm and has the same color with the lycra 13 is adopted around the periphery of the kneepad body 1; triangular needles are pressed around the periphery of the portable power source pocket 3.

Further, the graphene polymerization nanometer energy heating layer 42 is composed of a plurality of graphene polymerization nanometer energy heating wires 6.

Further, as shown in fig. 5, the graphene polymerization nanometer energy heating wire 6 includes a heating core 61 and a protection layer 62 from inside to outside.

As shown in fig. 3, the temperature sensor assembly 3 further includes an a/D converter 32 and a controller 33, the temperature sensor 31, the a/D converter 32 and the controller 33 are electrically connected in sequence, and the controller 33 adjusts the voltage and the current of the heater 23 to realize temperature control.

Further, the protection layer 62 includes an insulation layer 621 and a waterproof layer 622 sequentially disposed from inside to outside, and tightly covers the heating core body 61.

Further, the insulating layer 621 is made of silica gel, and an anti-oxidation layer 6211 is disposed on the surface of the insulating layer 621.

Further, the waterproof layer 622 is a polyacrylate waterproof coating, and a plurality of moisture-permeable micropores are formed in the surface of the waterproof layer 622.

Examples

Based on the above structural basis, as shown in fig. 1-6.

Graphite alkene polymerization nanometer energy knee-pad that generates heat, simple structure, convenient to use places portable power source 6 at portable power source pocket 3, portable power source 6 passes through the connecting wire and connects layer 4 that generates heat, both can easily accomplish the control of the break-make of portable power source 6 power supplies through switch 2, the waistline elasticity that graphite alkene polymerization nanometer energy knee-pad that generates heat can easily be adjusted to the cooperation to magic subsides 12 and elastic band 11.

The heating layer 4 is heat-conducting and non-conducting, can be washed by water, is resistant to rubbing, is safe and free of radiation, is high in heating speed and long in duration, is cold-resistant and warm-keeping, and is good in heating effect, the graphene polymerization nanometer energy heating layer 42 can release far infrared rays, and can effectively improve blood circulation, relieve muscle strain, activate cells, promote metabolism, dredge channels and collaterals, dispel wind and remove dampness, relieve pain and dispel cold, and enhance the disease resistance of organisms. The heating device is light, thin, comfortable, good in portability, convenient to use, uniform in heating and good in heating effect; the mineral radiation can be generated after fever, and the health care food can regulate the blood circulation of human body and is beneficial to the health of human body.

Further, a triangular needle border 17 which is 0.8cm and has the same color with lycra 13 is adopted around the periphery of the kneepad body 1; triangular needles are pressed around the periphery of the portable power source pocket 3. The design prolongs the service life of the graphene polymerization nanometer energy heating knee pad, and is more durable.

The graphene polymerization nanometer energy heating layer 42 is composed of a plurality of graphene polymerization nanometer energy heating wires 6, is good in integrity, strong in continuity, excellent in flexibility, resistant to bending and not prone to breaking, can effectively relieve fatigue and pain of knee parts, and reduces damage to knee joints in movement.

In addition, the graphene polymerization nanometer energy heating wire 6 can emit light waves of 6-16 microns to a human body in a nanometer far infrared mode, and can stimulate acupuncture points, dredge channels, improve local blood circulation and promote metabolism through reasonable and slow heat release. Has the characteristics of convenient use, safety, environmental protection and the like; the mineral radiation can be generated after fever, and the health care food can regulate the blood circulation of human body and is beneficial to the health of human body.

Further, the graphene polymerization nanometer energy heating wire 6 comprises a heating core body 61 and a protective layer 62 from inside to outside. The protective layer 62 includes an insulating layer 621 and a waterproof layer 622 sequentially disposed from inside to outside, and tightly covers the heating core 61.

The insulating layer 621 is made of silica gel, which has the characteristics of acid and alkali resistance, water resistance, high temperature resistance, long service life, and the like, and the antioxidation layer 6211 may be one or a mixture of more of common phenolic antioxidants, amine antioxidants, phosphorus antioxidants, and sulfur antioxidants. The insulating layer is coated on the heating core body, so that the graphene polymerization nanometer energy heating wire 6 has excellent flexibility, is resistant to bending, does not have thermal expansion and cold contraction deformation, and is not easy to break, and the safety of the graphene polymerization nanometer energy heating wire 6 in use is fully ensured.

Further, the waterproof layer 622 is a polyacrylate waterproof coating, and a plurality of moisture-permeable micropores a are formed in the surface of the waterproof layer 622. The waterproof layer 622 is a polyacrylate waterproof coating, so that the waterproof performance is further improved, and the safety of the graphene polymerization nanometer energy heating wire 6 in use is more fully ensured. Meanwhile, the surface of the waterproof 622 layer is fully distributed with a plurality of micropores for dispersing moisture, so that heat transfer is not hindered, and the service life is prolonged.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be within the scope of the present invention to perform various simple modifications to the technical solution of the present invention, and these simple modifications all belong to the protection scope of the present invention.

It should be noted that the various technical features described in the above embodiments can be combined in any suitable manner without contradiction, and in order to avoid unnecessary repetition, the present invention does not need to describe any combination of the features.

In addition, the embodiments of the present invention can be arbitrarily combined with each other, and the same shall be regarded as the disclosure of the present invention as long as the idea of the present invention is not violated.

Claims (7)

1. A graphene polymerization nanometer energy heating knee pad is characterized by comprising a knee pad body (1), a power switch (2), a mobile power supply pocket (3) and a heating layer (4); a power switch (2) is arranged on the left side of the upper part of the front of the kneepad body (1), a mobile power supply pocket (3) is arranged below the right side of the power switch (2), the mobile power supply pocket (3) is used for placing a mobile power supply (5), and a plurality of elastic bands (11) are arranged at the right end of the front of the kneepad body (1); the left end of the back of the kneepad body (1) is provided with a plurality of magic tapes (12), and the magic tapes (12) are positioned on the outer side of the back of the elastic band (11) and correspond to the elastic band (11) one by one; a heating layer (4) is arranged at the right end of the back of the kneepad body (1); the kneepad body (1) comprises a Lycra (13) and a health physiotherapy cloth (14) from outside to inside, the heating layer (4) comprises a lining strip (41) and a graphene polymerization nanometer energy heating layer (42) from outside to inside, the heating layer (4) is sewn between the Lycra (13) and the health physiotherapy cloth (14), the right end of the back face of the kneepad body (1) is further provided with a hexagonal net (15), the hexagonal net (15) is arranged on the outer side of the health physiotherapy cloth (14), and the hexagonal net (15) is used for placing moxa sheets; the mobile power supply (5) is connected with the graphene polymerization nanometer energy heating layer (42) through a connecting wire and is used for providing electric energy for heating of the graphene polymerization nanometer energy heating layer (42), and the power switch (2) is electrically connected with the mobile power supply (5) and controls the power supply of the mobile power supply (5) to be switched on and off; the front surface of the kneepad body (1) is provided with a 0.5cm double-spigot Lycra elastic edge strip (16) at the position below the power switch (2).

2. The graphene polymerization nanoenergy heating knee pad according to claim 1, wherein a triangular needle border (17) of 0.8cm with the same color as lycra (13) is adopted around the periphery of the knee pad body (1); the triangular needle is pressed around the periphery of the portable power source pocket (3).

3. The graphene polymeric nano energy heating knee pad according to claim 1, wherein the graphene polymeric nano energy heating layer (42) is composed of a plurality of graphene polymeric nano energy heating wires (6).

4. The graphene polymeric nano energy heating knee pad according to claim 3, wherein the graphene polymeric nano energy heating wire (6) comprises a heating core body (61) and a protective layer (62) from inside to outside.

5. The graphene polymeric nanoenergy heating knee pad according to claim 4, wherein the protective layer (62) comprises an insulating layer (621) and a waterproof layer (622) which are arranged in sequence from inside to outside, and tightly covers the heating core body (61).

6. The graphene-polymerized nano energy heating knee pad according to claim 5, wherein the insulating layer (621) is made of silica gel, and an anti-oxidation layer (6211) is disposed on the surface of the insulating layer (621).

7. The graphene polymeric nanoenergy heating knee pad according to claim 6, wherein the waterproof layer (622) is a polyacrylate waterproof coating, and the surface of the waterproof layer (622) is provided with a plurality of moisture-permeable micropores.

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