CN219050136U - Wearable device - Google Patents

Abstract

The utility model relates to a wearable device, including main part, far infrared thermotherapy device, controller and power supply unit, main part includes a plurality of branch portions, and a plurality of branch portions can dismantle and connect or integrated into one piece, and far infrared thermotherapy device sets up in a plurality of branch portions, and the controller can dismantle with far infrared thermotherapy device and be connected, and far infrared thermotherapy device can send temperature signal to the controller, and the controller can be according to the current supply of temperature signal control far infrared thermotherapy device, and power supply unit is connected with the controller for provide the electric energy for far infrared thermotherapy device. The far infrared thermal therapy device can be used for far infrared thermal therapy of the whole body such as limbs, neck, shoulder circumference and the like of a human body, and the plurality of branch parts can be combined arbitrarily or used singly, so that the device is convenient to use, convenient to wear and move, and suitable for household use.

Description

Wearable device

Technical Field

The application relates to the technical field of physical treatment devices for cardiovascular and cerebrovascular diseases and joint inflammations, in particular to a wearable device.

Background

With the development of the age, the living standard of people is gradually improved, and more people pay attention to health. Medical ideas have gradually shifted from traditional disease treatment to disease prevention and healthcare care. Arteriosclerosis is the pathological basis of most chronic cardiovascular diseases, and the degree of arteriosclerosis of arterial vessel wall is positively correlated with the incidence of cardiovascular diseases. Studies have now demonstrated that the basic function of arterial blood vessels is to deliver blood and elastic-based pulsations, which are affected by increased age and by cardiovascular disease.

Far infrared thermotherapy has proven curative effects on heart failure patients, hemodialysis patients, diabetics, peripheral vascular disease, arthralgia, chronic unhealed wounds and the like. The existing equipment capable of performing far infrared thermotherapy, such as far infrared sauna rooms, far infrared radiation lamps commonly used in hospitals and the like, is limited by factors such as use environments, moving ranges and the like, is inconvenient for household use, is inconvenient for moving use, is mainly used for joints, is hard in texture, is inconvenient to put on and take off, is inconvenient for a user to move in the use process, has certain limitation, and cannot meet the physiotherapy requirements of diseases at other parts of the user.

Disclosure of Invention

The application provides a wearable device to solve the problem that current far infrared thermotherapy device is inconvenient for family use, wears to take off inconvenient, treatment scope limitation is higher, be inconvenient for remove in the use among the above-mentioned prior art.

The embodiment of the application provides a wearable device, which comprises a main body, a far infrared thermotherapy device, a controller and a power supply device, wherein the main body comprises a plurality of branch parts, and the plurality of branch parts are detachably connected or integrally formed; the far infrared thermal therapy device is arranged on the plurality of branch parts, the controller is detachably connected with the far infrared thermal therapy device, the far infrared thermal therapy device can send temperature signals to the controller, the controller can control current supply of the far infrared thermal therapy device according to the temperature signals, and the power supply device is connected with the controller and is used for providing electric energy for the far infrared thermal therapy device.

The wearable device provided by the application, after being connected with the controller through the far infrared thermotherapy device, the controller controls the power supply device to supply current to the far infrared thermotherapy device, and the temperature of the far infrared thermotherapy device is raised after the power supply is supplied, so that the far infrared thermotherapy device can radiate far infrared waves outwards, partial far infrared waves can go deep into blood vessels and resonate with molecules (such as water molecules) in the blood vessels, heat is generated, the blood and the blood vessels are heated, the far infrared thermotherapy on a human body is realized, the physical condition of a user is improved, the controller can control the heating temperature of the far infrared thermotherapy device according to the intensity, the time length and the like of the current supplied to the far infrared thermotherapy device, the generated temperature of the far infrared thermotherapy device meets the thermotherapy requirement of the user, the human body is not damaged, and the use safety of the far infrared thermotherapy device is improved. The main body part may be clothing, such as coat, trousers, one-piece clothing, etc., and of course, the main body part may be various other products capable of performing thermal therapy on human body, such as blanket, shawl, etc. In this embodiment, the main body portion may be taken as an example of a garment, and the plurality of branch portions may be different portions of the garment, for example, sleeves only for arms, trouser legs only for legs, waistcoats, and the like, and far infrared thermal therapy devices may be provided in the branch portions of the sleeves, trouser legs, waistcoats, and the like, so that thermal therapy may be performed on different portions of a human body. The branch parts can be used independently or in different combinations, and can be selected according to the condition of a human body, and of course, the branch parts can be integrally formed into an integral structure which is not detachable, such as a one-piece garment, which can be suitable for being used in moving and can realize integral thermotherapy of the human body.

In one possible design, the main body part includes a fixing member, and the plurality of branch parts are detachably connected to the human body through the fixing member;

the fixing piece is one or more of a magic tape, a zipper, an elastic telescopic belt, a buckle belt and a magnet.

In one possible design, the far infrared thermal therapy device includes a body, the body includes a casing layer, a protective layer, a far infrared radiation layer, a heat insulating layer and a reflecting layer, the protective layer, the heat insulating layer and the reflecting layer are sequentially arranged in the casing layer, and the far infrared radiation layer is arranged in an interlayer of the protective layer.

In one possible design, the far-infrared radiation layer is made of one of a carbon-based material, a graphene composite material, a carbon fiber, a ceramic material and a metal material, and the carbon-based material is a carbon nanotube composite material.

In one possible design, the radiation wavelength of the far-infrared radiation layer is λ,2μm.ltoreq.λ.ltoreq.100 μm.

In one possible design, the material of the reflective layer is one of aluminum foil, tin foil and ceramic composite material, and the material of the heat insulating layer is one of chemical fiber, glass fiber and aerogel material.

In one possible design, the body includes a plurality of heating units, the heating units include the protective layer and the far-infrared radiation layer, the plurality of heating units are connected in series or in parallel through wires, and the plurality of heating units are connected with the controller.

In one possible design, the body is provided with a first connector, the controller is provided with a second connector, one end of the first connector is connected with the far infrared radiation layer, the other end of the first connector is at least partially located outside the outer sleeve layer, and the body and the controller are detachably connected with the second connector through the first connector.

In one possible design, the body further comprises a temperature sensor arranged between the protective layer and the far-infrared radiation layer, the temperature sensor being adapted to detect the temperature of the far-infrared radiation layer and being capable of sending a temperature signal to the controller.

In one possible design, the power supply device is a mobile power supply or a power adapter.

In one possible design, the body further comprises a storage bag disposed outside the outer jacket layer for placing the power supply device.

In one possible design, the outer jacket layer includes an outer jacket member and a sheath, the outer jacket member being detachably sleeved outside the sheath.

In this application, far infrared radiation layer is used for receiving the electric energy that power supply unit provided to the body, during the use, connect body and controller, make the body be fixed in the back of human body, controller control power supply unit lets in electric current to the far infrared radiation layer of body, the temperature rise after the far infrared radiation layer circular telegram, thereby can externally radiate far infrared wave, partial far infrared wave can pierce through the protective layer in proper order, the jacket layer, skin and other tissues, go deep into the blood vessel, produce resonance with the molecule (e.g. hydrone) in the blood vessel, thereby produce heat, make blood and blood vessel heat the temperature rise, realize the far infrared thermotherapy to the human body, improve user's health, and the controller can control intensity and the length of time etc. of electric current that lets in the body according to the temperature signal control that the body sent, so as to guarantee the temperature composite user's of the production of body the thermotherapy demand, can not harm the human body, improve far infrared thermotherapy device's safety in utilization.

The protective layer can protect the far infrared radiation layer from being damaged by the external environment on one hand, and can protect the human body from being stimulated by the voltage of the far infrared radiation layer to generate burning sensation on the other hand. The heat insulating layer and the reflecting layer are sequentially arranged on one side of the protecting layer, and when the multifunctional heat insulating layer is used, one side, far away from the heat insulating layer and the reflecting layer, of the protecting layer is fixed with a human body. The heat insulating layer can isolate the heat generated by the far infrared radiation layer, improves the heat preservation property of the body towards one side of the human body, can reduce the heat transfer of the far infrared radiation layer towards one side far away from the human body, and improves the heat radiation efficiency of the far infrared radiation layer. The reflecting layer can reflect the far infrared waves which are radiated by the far infrared radiation layer outwards and far from the direction of the human body, so that the heat radiation efficiency of the far infrared radiation layer is further improved. Therefore, the heat insulation layer and the reflecting layer can reduce the consumption of electric energy, save energy and reduce the use cost. The overcoat layer can protect its inside protective layer, heat insulating layer and reflection stratum from the destruction of external environment, improve the life of far infrared thermotherapy device, and can fix protective layer, heat insulating layer and reflection stratum, improve the overall structure stability of body, so that the body can curl at will, the laminating human body, when the body is applied to in each branch portion, make the body can with the whole body's such as four limbs of human body, the neck, shoulder week far infrared thermotherapy, convenient to use, be convenient for dress, the user also can remove with each branch portion, make the user can carry out work at the in-process of carrying out far infrared thermotherapy, study or other things, improve the utilization ratio of user's time, and the far infrared thermotherapy device of this application is small, the body can be dismantled with the controller and be connected, be convenient for accomodate and carry, the place that the user uses far infrared thermotherapy device to carry out the thermotherapy is unrestricted, make the user can carry out far infrared thermotherapy anywhere at any time, the user is convenient for use of user family.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

FIG. 1 is a block diagram of a far infrared thermal treatment device provided herein in one embodiment;

FIG. 2 is a cross-sectional view of the body of FIG. 1 in one embodiment;

FIG. 3 is a schematic diagram of the use of the far infrared thermal treatment device provided by the present application;

FIG. 4 is a schematic view of the body of FIG. 1 in another embodiment;

FIG. 5 is a schematic view of a far infrared thermal treatment device according to an embodiment of the present disclosure;

FIG. 6 is a schematic view of a far infrared thermal treatment device according to another embodiment of the present disclosure;

FIG. 7 is a schematic view of the use of the far infrared thermal treatment device of FIG. 6;

FIG. 8 is a schematic view of a far infrared thermal treatment device according to another embodiment of the present disclosure;

FIG. 9 is a schematic view of the use of the far infrared thermal treatment device of FIG. 8;

fig. 10 is a schematic structural diagram of a far infrared thermo-therapeutic apparatus according to another embodiment of the present application.

Reference numerals:

1-a body;

11-an outer jacket layer;

111-an external member;

112-sheath;

12-a heating unit;

121-a protective layer;

122-a far infrared radiation layer;

122 a-far infrared wave

13-a heat insulating layer;

14-a reflective layer;

15-a first connector;

16-a temperature sensor;

17-storage bags;

18 a-magic tape;

18 b-a zipper;

18 c-an elastic stretch band;

18 d-buckle strap;

2-a controller;

21-a display screen;

22-timing selection button;

23-temperature selection button;

3-a power supply device;

4-plug;

5-conducting wires;

6-human body;

61-skin;

62-blood vessel.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application.

Detailed Description

For a better understanding of the technical solutions of the present application, embodiments of the present application are described in detail below with reference to the accompanying drawings.

It should be understood that the described embodiments are merely some, but not all, of the embodiments of the present application. All other embodiments, based on the embodiments herein, which would be apparent to one of ordinary skill in the art without making any inventive effort, are intended to be within the scope of the present application.

The terminology used in the embodiments of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this application and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be understood that the term "and/or" as used herein is merely one relationship describing the association of the associated objects, meaning that there may be three relationships, e.g., a and/or B, may represent: a exists alone, A and B exist together, and B exists alone. In addition, the character "/" herein generally indicates that the front and rear associated objects are an "or" relationship.

It should be noted that, the terms "upper", "lower", "left", "right", and the like in the embodiments of the present application are described in terms of the angles shown in the drawings, and should not be construed as limiting the embodiments of the present application. In the context of this document, it will also be understood that when an element is referred to as being "on" or "under" another element, it can be directly on the other element or be indirectly on the other element through intervening elements.

The embodiment of the application provides a wearable device, which can be a thermotherapy blanket, a thermotherapy sleeve for upper limbs or lower limbs of a human body, a waistcoat for trunk of the human body, a thermotherapy cape and a one-piece garment. The wearable device specifically can include a main body part, a far infrared thermal therapy device, a controller and a power supply device, wherein the main body part comprises a plurality of branch parts, the plurality of branch parts are detachably connected or integrally formed, the far infrared thermal therapy device is arranged on the plurality of branch parts, the controller 2 is detachably connected with the far infrared thermal therapy device, the far infrared thermal therapy device can send temperature signals to the controller 2, the controller 2 can control the current supply of the far infrared thermal therapy device according to the temperature signals, and the power supply device 3 is connected with the controller 2 and is used for providing electric energy for the far infrared thermal therapy device.

The application provides a wearable device, be connected the back through far infrared thermotherapy device and controller 2, controller 2 control power supply unit 3 lets in the electric current to far infrared thermotherapy device, the temperature rise after the far infrared thermotherapy device is circular telegram, thereby make far infrared thermotherapy device can be to the far infrared wave of external radiation, partial far infrared wave can go deep into the blood vessel, with the molecule (for example hydrone) in the blood vessel produce resonance, thereby produce the heat, make blood and blood vessel be heated the temperature rise, realize the far infrared thermotherapy to human 6, improve user's health. The main body part can be clothes, such as a coat, trousers, a one-piece coat, etc., of course, the main body part can also be various other products capable of carrying out thermotherapy on the human body 6, such as a blanket, a shawl, etc., and the controller 2 can control the heating temperature of the far infrared thermotherapy device according to the intensity, the time length, etc. of the current which is fed into the far infrared thermotherapy device according to the temperature signal sent by the far infrared thermotherapy device, so as to ensure that the generated temperature of the far infrared thermotherapy device meets the thermotherapy requirement of a user, the human body 6 can not be damaged, and the use safety of the far infrared thermotherapy device is improved. In this embodiment, the main body portion may be taken as an example of a garment, and the plurality of branch portions may be different portions of the garment, for example, sleeves only for arms, trouser legs only for legs, waistcoats, etc., and far infrared thermal therapy devices may be provided in the branch portions of the sleeves, trouser legs, waistcoats, etc., so that thermal therapy may be performed on different portions of the human body 6. The branch parts can be used independently or in different combinations, and can be selected according to the condition of the human body 6, and of course, the branch parts can be integrally formed into an integral structure which is not detachable, such as a one-piece garment, which can be suitable for use in moving and can realize the integral thermotherapy of the human body 6.

Specifically, as shown in fig. 1 to 3, the far infrared thermal therapy device includes a body 1, the body 1 includes an outer jacket layer 11, a protective layer 121, a far infrared radiation layer 122, a heat insulating layer 13, and a reflecting layer 14, the protective layer 121, the heat insulating layer 13, and the reflecting layer 14 are sequentially disposed in the outer jacket layer 11, and the far infrared radiation layer 122 is disposed in an interlayer of the protective layer 121.

In this embodiment, as shown in fig. 1 to 3, the far infrared radiation layer 122 is used for receiving the electric energy provided by the power supply device 3 to the body 1, when in use, the body 1 is connected with the controller 2, so that after the body 1 is fixed to the human body 6, the controller 2 controls the power supply device 3 to supply current to the far infrared radiation layer 122 of the body 1, the far infrared radiation layer 122 is electrified and then heats up, so that the far infrared radiation layer 122a can radiate the far infrared waves 122a outwards, part of the far infrared waves 122a can sequentially penetrate through the protective layer 121, the outer jacket layer 11, the skin 61 and other tissues, penetrate into the blood vessel 62 and resonate with molecules (such as water molecules) in the blood vessel 62, thereby generating heat, heating the blood and the blood vessel 62, realizing far infrared thermal therapy to the human body 6, improving the physical condition of the user, and the controller 2 can control the heating temperature of the body 1 according to the intensity, the time length and the like of the current supplied to the body 1, so as to ensure that the generated temperature of the body 1 accords with the thermal therapy requirement of the user, the human body 6 can not be damaged, and the use safety of the far infrared thermal therapy device is improved.

As shown in fig. 2 and 3, the protective layer 121 can protect the far-infrared radiation layer 122 from being damaged by the external environment, and can protect the human body 6 from being stimulated by the voltage of the far-infrared radiation layer 122 to generate burning sensation. The heat insulating layer 13 and the reflecting layer 14 are sequentially arranged on one side of the protective layer 121, and when in use, one side of the protective layer 121 away from the heat insulating layer 13 and the reflecting layer 14 is fixed with the human body 6. The heat insulating layer 13 can insulate the heat generated by the far infrared radiation layer 122, improve the heat insulation property of the body 1 towards the human body 6, reduce the heat transfer of the far infrared radiation layer 122 towards the far side away from the human body 6, and improve the heat radiation efficiency of the far infrared radiation layer 122. The reflecting layer 14 can reflect the far infrared waves 122a which are radiated from the far infrared radiation layer 122 to the outside and far from the direction of the human body 6, so as to further improve the heat radiation efficiency of the far infrared radiation layer 122. Therefore, the heat insulating layer 13 and the reflecting layer 14 can reduce the consumption of electric energy, save energy and reduce the use cost. The overcoat layer 11 can protect its inside protective layer 121, insulating layer 13 and reflection stratum 14 from external environment's destruction, improve the life of far infrared thermotherapy device, and can fix protective layer 121, insulating layer 13 and reflection stratum 14, improve the overall structure stability of body 1, so that body 1 can curl at will, laminate human 6, when body 1 sets up in each branch portion, make body 1 can with the four limbs of human 6, the neck, the whole body's such as shoulder week far infrared thermotherapy, convenient to use, be convenient for dress, the user also can be worn and be provided with each branch portion of far infrared thermotherapy device and remove, make the user can carry out work, study or other things in the in-process of carrying out far infrared thermotherapy, improve the utilization ratio of user's time, and the far infrared thermotherapy device of this application is small, body 1 can dismantle with controller 2 and be connected, be convenient for accomodate and carry, the user's use far infrared device carries out the place of thermotherapy unlimited, make the user can carry out far infrared thermotherapy at any time and anywhere, the family use of user of being convenient for.

In addition, by adopting the far infrared thermo-therapy device to perform far infrared thermo-therapy, blood and blood vessel 62 can be directly heated and warmed, and the blood circulation of the peripheral blood vessel of the human body can be improved; can also promote the increase of the expression level of heat shock protein (HSP 70) in human body 6, thereby improving the anti-stress capability of human body 6; can also promote vascular 62 endothelial cells to produce vascular relaxants such as NO, thereby improving guanylate cyclase activity in vascular smooth muscle cells, relaxing blood vessel 62, inhibiting platelet and leukocyte aggregation to protect brain vascular endothelium, promoting blood circulation, and improving vascular sclerosis; it also regulates MicroRNA (miRNA) function and expression to promote cardiovascular health. Therefore, the far infrared thermal therapy of the far infrared thermal therapy device can directly act on the inside of the human body 6, promote the expansion of micro blood vessels from the inside, smooth blood circulation, improve metabolism, further improve the immunity and cure ability of the body, can be used for improving and preventing cardiovascular diseases, diabetes, peripheral vascular sclerosis and other chronic diseases, and can also soften dialysis leakage and nearby blood vessels 62, reduce joint inflammation and relieve pain.

In addition, the protective layer 121 is made of a material that is easy to be penetrated by the far infrared band, so that the far infrared radiation layer 122 is prevented from blocking the far infrared wave 122a radiated from outside and being unable to heat the tissues below the skin 61, and the far infrared thermal therapy function of the far infrared thermal therapy device is ensured.

As shown in fig. 1, the controller may have a timing function and a temperature adjusting function, and specifically may be provided with a timing selection key 22 and a temperature selection key 23, so that a user can select a duration and a temperature of far infrared thermal therapy according to own needs, so that the time of the user for far infrared thermal therapy is prevented from being too long or too short, the temperature is too high or too low, and the use convenience and the safety of the far infrared thermal therapy device are improved.

Specifically, pressing the timing selection key 22 may cycle between a short time (e.g., 0.5 h), a medium time (e.g., 1 h), and a long time (e.g., 2 h). Pressing the temperature selection key 23 may cycle between a low temperature (e.g., 45 ℃), a medium temperature (e.g., 50 ℃) and a high temperature (e.g., 55 ℃). Of course, other settings are possible and are not limited herein.

More specifically, the controller may be further provided with a display screen 21 for displaying timing and temperature setting, so as to further improve the convenience of use for the user, avoid the error of the timing and temperature setting for the user, and improve the use safety of the far infrared thermal therapy device.

Specifically, as shown in fig. 3, most of the energy generated by the far infrared radiation layer 122 for performing far infrared thermal therapy on the human body 6 is transmitted by heat radiation, so that the energy can penetrate into the tissues below the skin 61 to heat the human body 6 from the inside, and specifically, the energy can penetrate into the depth of 0.5 cm-5 cm below the skin 61, thereby heating the blood below the skin 61 and the blood vessel 62 and improving the condition of the human body 6. In addition, a small part of energy is transferred in a heat conduction mode, so that the contact temperature between the far infrared thermal therapy device and the skin 61 of the human body 6 can be reduced, the burning sensation of a user in the process of performing far infrared thermal therapy is avoided, and the use safety and the use experience of the user are improved.

Specifically, the radiation wavelength of the far infrared radiation layer 122 is λ,2 μm+.λ+.100 μm.

In this embodiment, as shown in fig. 3, when the radiation wavelength λ of the far-infrared radiation layer 122 satisfies that λ is less than or equal to 2 μm and less than or equal to 100 μm, the relative intensity of the far-infrared radiation layer 122 for externally radiating the far-infrared wave 122a is ensured to be stronger, so that the heat generated by the far-infrared radiation layer 122 can reach a depth of 0.5cm to 5cm below the skin 61 under the combined action of the heat radiation of the far-infrared wave and the heat conduction of the heat accumulated over time, and the far-infrared radiation layer is helpful to the human body 6, thereby meeting the heating requirement of the far-infrared thermal therapy device on the human body 6.

Preferably, the wavelength of the far infrared radiation layer 122 externally radiates far infrared waves is between 4 μm and 25 μm.

In a specific embodiment, as shown in fig. 3, the far-infrared radiation layer 122 is made of one of a carbon-based material, a graphene composite material, a carbon fiber, a ceramic material, and a metal material, and preferably the carbon-based material is a carbon nanotube composite material.

In this embodiment, as shown in fig. 3, the heating principle of the far infrared radiation layer 122 is that molecules inside the material of the far infrared radiation layer 122 generate mutual friction and collision under the condition of power-on, so that heat energy can be generated, and the heat energy can be radiated by far infrared waves with a certain wavelength. When the material of the far infrared radiation layer 122 is a carbon nanotube composite material, the carbon nanotubes can synthesize a highly anisotropic heat transfer material, so that the radiation direction of the heat transfer material can be fixed, and in addition, as long as the carbon nanotubes are doped in the composite material, the heat conductivity of the composite material can be greatly improved, so that the carbon nanotube composite material has better electric conductivity and heat conductivity, has superconductivity, has higher electric heat conversion efficiency, can convert most of the input electric energy into heat conduction energy and far infrared radiation energy, improves the heating efficiency of the far infrared radiation layer 122, has higher far infrared radiation efficiency, can reduce the use of the far infrared radiation layer 122 material, saves materials, and can make the far infrared radiation layer 122 lighter and softer, thereby making the volume of the body 1 smaller and more convenient, so that the body 1 can be integrated in each branch part of a wearable device, and can be used with the far infrared temperature therapy of the four limbs, the neck, the shoulder and the whole body, and the like of a user can use flexibly, wearing conveniently, and attaching the body 6, thereby meeting various requirements of the user for the far infrared temperature therapy, and being suitable for household use.

Of course, the material of the far infrared radiation layer 122 may be a graphene composite material, a carbon fiber, a ceramic material, a metal material, or the like, which has good electric conductivity and thermal conductivity, and is not limited herein.

In one embodiment, the reflective layer 14 is made of one of aluminum foil, tin foil, and ceramic composite, and the insulating layer 13 is made of one of chemical fiber, glass fiber, and aerogel.

In this embodiment, when the material of the reflective layer 14 is one of aluminum foil, tin foil and ceramic composite material, the far infrared radiation layer 122 can reflect the far infrared wave 122a which is radiated outwards and far away from the direction of the human body 6, so as to further improve the heat radiation efficiency of the far infrared radiation layer 122, and further reduce the weight and thickness of the reflective layer 14, and further reduce the weight and thickness of the body 1, improve the softness of the body 1, make the body 1 easier to be attached to the human body 6, and satisfy the far infrared thermal therapy requirements of users on different parts. When the material of the heat insulating layer 13 is one of chemical fiber, glass fiber and aerogel material, the heat insulating layer has higher heat insulating performance, the heat insulating performance of the body 1 towards one side of the human body 6 is further improved, the heat of the far infrared radiation layer 122 can be reduced, the heat radiation efficiency of the far infrared radiation layer 122 is improved, the thickness of the heat insulating layer 13 can be reduced, the heat insulating layer 13 is lighter and thinner, the weight and the thickness of the body 1 are further reduced, and the softness of the body 1 is further improved.

Of course, the material of the reflective layer 14 may be other materials capable of reflecting the far infrared wave 122a, and the material of the heat insulating layer 13 may be other materials having a heat insulating function, which is not limited herein.

In a specific embodiment, as shown in fig. 1 and 4, the body 1 includes a plurality of heating units 12, the heating units 12 include a protective layer 121 and a far infrared radiation layer 122, the plurality of heating units 12 are connected in series or in parallel by wires 5, and the plurality of heating units 12 are connected with the controller 2.

In this embodiment, this structure can the modularization assembly, reduces manufacturing cost, can also make body 1 curl more easily, and the human body of laminating more improves far infrared thermotherapy device's application range.

In a specific embodiment, the body 1 is provided with a first connector 15, the controller 2 is provided with a second connector, one end of the first connector 15 is connected with the far infrared radiation layer 122, the other end of the first connector 15 is at least partially located outside the outer jacket layer 11, and the body 1 and the controller 2 are detachably connected with the second connector through the first connector 15.

In this embodiment, the body 1 is detachably connected with the controller 2, so that the body 1 is convenient to clean, and the far infrared thermotherapy device is convenient to store and carry. Wherein, the first joint 15 can be provided with dustproof and waterproof devices, which further improves the use safety of the body 1.

In a specific embodiment, the body 1 further includes a temperature sensor 16, and the temperature sensor 16 may be disposed between the protective layer 121 and the far infrared radiation layer 122, or may also be disposed between the heat insulating layer 13 and the protective layer 121, so that the temperature sensor 16 and the circuit arrangement and the quantity control may be facilitated, for example, when there are more heating units, the setting of the temperature sensor 16 may be reduced, and the cost may be saved. The temperature sensor 16 is for detecting the temperature of the far infrared radiation layer 122, and is capable of sending a temperature signal to the controller 2.

In this embodiment, the setting of the temperature sensor can ensure that the temperature of the body 1 is within the set range, and can cooperate with the controller 2 to enable the far infrared thermal therapy device to perform multi-temperature gear control, so as to avoid the too low temperature or overheat of the user in the process of far infrared thermal therapy, improve the far infrared thermal therapy effect of the far infrared thermal therapy device, improve the use safety of the far infrared thermal therapy device, and meet different use requirements of the user.

The power supply device 3 may be a mobile power supply or a power adapter.

As shown in the specific embodiments in fig. 5, 8 and 10, the power supply device 3 of the far infrared thermo-therapeutic apparatus in this form is a power supply adapter, the power supply adapter is connected with a plug 4, when in use, the plug 4 is connected with a 220V household ac power supply, and the power supply adapter can convert ac power into dc power, for example, low-voltage dc power of 5V, 24V, 36V and the like, so that the body 1 can be charged with the low-voltage dc power, the user has no risk of electric shock, and the use safety of the user is improved.

As shown in the specific embodiment in fig. 6, the power supply device 3 of the far infrared thermo-therapeutic apparatus in this form is a mobile power supply, so that a user can move at will when using the far infrared thermo-therapeutic apparatus, thereby reducing the limitation of the far infrared thermo-therapy on the movement of the patient and improving the convenience of use of the user.

When the power supply device 3 is a portable power source, the power supply voltage is preferably a direct current 5V voltage.

In a specific embodiment, the body 1 further comprises a storage bag 17, and the storage bag 17 is disposed on the outer side of the outer jacket layer 11, for placing the power supply device 3.

In this embodiment, as shown in fig. 6, when the power supply device 3 is a mobile power supply, the mobile power supply can be turned on and then placed in the storage bag, so as to facilitate the carrying and movement of the far infrared thermal therapy device, and further improve the convenience of use for users.

In one embodiment, the outer jacket 11 includes an outer sleeve 111 and a sheath 112, and the outer sleeve 111 is detachably sleeved on the outer side of the sheath 112.

In this embodiment, the sheath 112 can protect the protective layer 121, the heat insulating layer 13 and the reflecting layer 14 inside the sheath from being damaged by external environment, and fix the protective layer 121, the heat insulating layer 13 and the reflecting layer 14, so as to improve the structural stability of the body 1, and meanwhile, the outer sleeve 111 is detachably sleeved outside the sheath 112, so that the sheath 112 can be protected, the sheath 112 is prevented from being polluted and damaged by external environment, the neatness and the service life of the sheath 112 are improved, and the outer sleeve 111 can be detached, cleaned and replaced, so that the use experience of a user is improved.

Wherein, the common fabric disinfectant can be added for disinfection in the cleaning process of the external member 111 so as to avoid cross infection among users.

The material of the sheath 112 and the outer sleeve member 111 is natural fiber or artificial fiber, which is not limited herein, and natural fiber is preferred, so that the outer sleeve member 111 is softer, has better skin-friendly performance, improves the wearing comfort of the user, and improves the use experience of the user.

In a specific embodiment, the main body of the wearable device further includes a fixing element, so that each branch portion can be detachably connected to the human body 6 through the fixing element, and of course, the main body can also be fixed to the human body through the fixing element, and the fixing element is one or more of a velcro tape 18a, a zipper 18b, an elastic telescopic belt 18c, a buckle belt 18d and a magnet. For example, when the branch portions are sleeves and a waistcoat, respectively, the sleeves may be attached to the waistcoat by means of a zipper, so that the sleeves and the waistcoat are combined to form an outer sleeve that can be wrapped around the upper body of the person. Of course, other combinations are possible, and this embodiment is not necessarily exemplified.

It should be noted that, according to different requirements of the user's use location, such as the whole body, the limbs, the neck, the shoulder circumference, etc., the far infrared thermo-therapeutic device may be a planar device similar to a blanket shape, such as a far infrared thermo-therapeutic blanket shown in fig. 5, a sleeve device similar to a wrist-protecting shape, such as a far infrared limb and joint thermo-therapeutic sleeve shown in fig. 6 and 7, and a device meeting ergonomic curve clipping, such as a far infrared cape and a far infrared lower limb thermo-therapeutic device shown in fig. 8 to 10, etc., which will be described in detail by way of examples.

In the first embodiment, as shown in the specific embodiment of fig. 5, the far infrared thermal therapy device is a far infrared thermal therapy blanket, and the far infrared thermal therapy device in this form is soft enough, is not afraid of bending and stress, can cover the human body 6, can be laid under the human body 6, or can wrap the human body 6, and can perform long-time and multi-range far infrared thermal therapy on the human body 6.

The far infrared thermal blanket can be provided with a plurality of sizes according to the use requirement of a user, for example, a large thermal blanket can cover the whole body, and a small thermal blanket can cover parts of human bodies such as the back, the waist, the legs, the arms and the like. In addition, when the far infrared thermal blanket is used in cold weather, the blanket or the quilt can be covered on the thermal blanket, so that the heat preservation effect and the heat transfer effect of the far infrared thermal blanket are further improved, and the electricity consumption is saved. The outer sleeve 111 such as a quilt cover can be used by sleeving, and is convenient to detach and clean.

Wherein, the sheath 112 and the outer sleeve member 111 can be waterproof treated to make the body 1 waterproof, so that the far infrared thermal blanket is safe to be immersed in water, and thus children can use the blanket. And fixing pieces can be arranged on the far infrared thermal blanket, and the fixing pieces are one or more of magic tapes 18a, zippers 18b, elastic telescopic belts 18c and buckling belts 18d so as to prevent children from being tampered with and separated from the far infrared thermal blanket.

In the second embodiment, as shown in fig. 6 and 7, the far infrared thermo-therapeutic device is a far infrared limb and joint thermo-therapeutic sleeve, which can be applied to the wrist, ankle, local area of the upper and lower limbs, etc., and is particularly suitable for long-term care of kidney dialysis leakage. The far infrared limb and joint thermotherapy sleeve is provided with the bifurcation magic tape 18a, so that the far infrared limb and joint thermotherapy sleeve can be attached to different parts of the human body 6, and the human body is convenient to wear and use by a user. Of course, other fasteners such as the slide fastener 18b, the elastic band 18c, the buckle 18d, etc. may be provided, and the present utility model is not limited thereto.

The power supply device 3 of the far infrared limb and joint thermotherapy sleeve is a mobile power supply, the body 1 is provided with a storage bag 17, and the mobile power supply can be placed in the storage bag 17 when in use, so that a patient can conveniently wear the far infrared thermotherapy device for movement.

Further, a zipper 18b can be arranged on the storage bag 17, so that the power supply device is prevented from being separated from the storage bag 3 and being broken by falling, and the service life of the far infrared thermal therapy device is prolonged.

In a third embodiment, as shown in fig. 8 and 9, the far-infrared thermo-therapeutic device is a far-infrared thermo-therapeutic cape, which is suitable for users such as scapulohumeral periarthritis and peri-shoulder muscular soreness, and is designed by ergonomics, curved surface cutting, fitting the shoulder circumference of the user more, wearing comfort, fitting the human body 6 more, so that the heating unit 12 inside the device is fitting the human body more closely, and the far-infrared thermo-therapeutic effect is improved.

Wherein, the far infrared thermo-therapeutic device is the far infrared thermo-therapeutic cape's mounting can be the elastic telescopic band 18c to be convenient for put on and take off, improve and put on and take off efficiency, improve user's wearing comfort level. Of course, other fixing members such as the slide fastener 18b, the hook and loop fastener 18a, and the strap 18d may be provided, and the present utility model is not limited thereto.

In a fourth embodiment, as shown in fig. 10, the far infrared thermal therapy device is a far infrared lower limb thermal therapy device, and the body 1 of the far infrared lower limb thermal therapy device may be correspondingly provided with heating units at the positions of the feet, the lower legs and the thighs, so that the user can perform far infrared thermal therapy on the feet, the lower legs and the thighs at the same time when using the far infrared thermal therapy device, and the far infrared thermal therapy device is applicable to diseases such as arteriosclerosis of lower limbs, in particular to arteriosclerotic stenosis or occlusion (LEAD) of lower limbs.

The fixing parts of the far infrared lower limb thermotherapy device can be a zipper 18b and a buckle belt 18d, the zipper 18b is convenient to put on and take off, the buckle belt 18d can fasten the port, the fit between the body 1 and the human body 6 is improved, the heat dissipation in the body 1 is reduced, the thermotherapy effect is improved, and the energy consumption is reduced.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (12)

1. A wearable device, comprising:

the main body part comprises a plurality of branch parts, and the plurality of branch parts are detachably connected or integrally formed;

the far infrared thermal therapy device is arranged on the plurality of branch parts;

the controller is detachably connected with the far infrared thermal therapy device, the far infrared thermal therapy device can send a temperature signal to the controller, and the controller can control current supply of the far infrared thermal therapy device according to the temperature signal;

and the power supply device is connected with the controller and used for providing electric energy for the far infrared thermal therapy device.

2. The wearable device according to claim 1, wherein the main body portion includes a fixing member through which the plurality of branch portions are detachably connected to a human body;

the fixing piece is one or more of a magic tape, a zipper, an elastic telescopic belt, a buckle belt and a magnet.

3. The wearable device according to claim 1, wherein the far-infrared thermal therapy device comprises a body comprising an outer jacket layer, a protective layer, a far-infrared radiation layer, a heat insulating layer, and a reflective layer, the protective layer, the heat insulating layer, and the reflective layer being sequentially layered within the outer jacket layer, the far-infrared radiation layer being disposed in an interlayer of the protective layer.

4. The wearable device according to claim 3, wherein the far-infrared radiation layer is made of one of a carbon-based material, a graphene composite material, a carbon fiber, a ceramic material, and a metal material;

the carbon-based material is a carbon nanotube composite material.

5. A wearable device according to claim 3, characterized in that the radiation wavelength of the far-infrared radiation layer is λ,2 μm- λ -100 μm.

6. The wearable device according to claim 3, wherein the reflective layer is made of one of aluminum foil, tin foil, and ceramic composite material;

the heat insulating layer is made of one of chemical fiber, glass fiber and aerogel material.

7. A wearable device according to claim 3, wherein the body comprises a plurality of heating units comprising the protective layer and the far infrared radiation layer;

the heating units are connected in series or in parallel through wires;

and a plurality of heating units are connected with the controller.

8. A wearable device according to claim 3, wherein the body is provided with a first connector and the controller is provided with a second connector;

one end of the first connector is connected with the far infrared radiation layer, and the other end of the first connector is at least partially positioned outside the outer sleeve layer;

the body and the controller are detachably connected with the second connector through the first connector.

9. The wearable device according to claim 3, wherein the body further comprises a temperature sensor disposed between the protective layer and the far infrared radiation layer;

the temperature sensor is used for detecting the temperature of the far infrared radiation layer and can send a temperature signal to the controller.

10. The wearable device according to any of claims 3-9, wherein the power supply device is a mobile power supply or a power adapter.

11. The wearable device according to any of claims 3-9, wherein the body further comprises a storage bag disposed outside the outer casing layer for placing the power supply device.

12. The wearable device according to any of claims 3-9, wherein the outer sheath comprises an outer sleeve and a sheath, the outer sleeve being detachably sleeved outside the sheath.

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