JPH05162U - Far infrared radiation patch - Google Patents

Abstract

(57) [Summary] [Purpose] It can be attached to any place on the external surface of the human body very easily, and even if the place to be attached is a joint such as an elbow, waist, knee, or ankle, its movement. Without hindering sex
It is to provide a far-infrared radiation pad that can be expanded and contracted and deformed according to body movements. [Constitution] Base material (12) of far infrared radiation pad (10)
Is formed of a non-woven fabric, and the far-infrared radiation adhesive layer (14) is applied to the upper surface of the base material (12). The far infrared radiation adhesive layer (14) is formed into a paste by mixing the far infrared radiation agent (16) and the adhesive (18). Further, a peelable separator (20) is attached to the upper surface of the far infrared radiation adhesive layer (14).

Description

[Detailed description of the device]

[0001]

[Industrial applications]

  The present invention is applied directly on the surface of human skin and uses the body temperature generated by the human body as a heat source. Far infrared rays are radiated, and the radiant heat warms the human body from the inside, activating cell tissues. The present invention relates to a far-infrared radiation pad that exhibits a therapeutic effect such as improving blood circulation.

[0002]

[Prior art]

  Conventionally, the far infrared rays are always kept in close contact with the outer surface of the human body and the body temperature generated by the human body is used as a heat source. The applicant of the present invention described in Jpn. Proposed far infrared radiation fabric.   The invention is based on a reflective thin plate such as aluminum having flexibility and flexibility and a ceramic such as alumina. Mick thin plate is layered on top, and far infrared radiation paint is applied on top of the ceramic thin plate. It is composed by covering the front and back with a gauze cover, When using, insert it into a part of clothing or insert it in a pocket, or It was used by wrapping it around and sticking it directly with a bandage.

[0003]   In the above-mentioned prior art, a flexible flexible sheet for handling far-infrared radiators is used. Since it is possible to use it by keeping it in close contact with the human body, Far infrared rays are radiated using only the body temperature generated by the body as a heat source, and this is taken into the human body. It is possible to put on and treat shoulder stiffness etc., and irradiate far infrared rays locally on the human body. It becomes easier for users to do what they want.

[0004]   However, the far-infrared radiation material according to the above-mentioned prior art has a certain degree of flexible bending. However, if the area to be adhered to the outer surface of the human body is wide by an appropriate method, In that case, depending on the body movement, it may be stretched or bent, Far infrared radiation that adheres to a thin reflective plate such as aluminum peels off, and it also has elasticity. However, it is less flexible than cotton and other fabric materials, which hinders body movements. was there. Especially, it is used by directly adhering to the joints such as elbows, hips, knees and ankles with tape. If you do, follow the complicated movement of the joint, expand and contract the far-infrared radiation fabric, Deformation is less likely to occur, resulting in impediment to the motility of the affected area. There was also a drawback that the tape was peeled off due to excessive force.   Furthermore, in order to make it adhere to the outer surface of the human body, it is internally sewn on a part of the clothing. Or, by using a string or adhesive tape, fix it in the state of directly contacting the human body. However, there is also a problem that the work is troublesome.

[0005]

[Problems to be solved by the device]

  The present invention was developed to solve the above-mentioned problems, and it It can be attached to any place very easily, and the attached place is elbow, waist, knee, foot. Even if it is a joint such as the neck, it does not interfere with its motility and adapts to body movements. It provides a far-infrared radiation pad that can be expanded and contracted and deformed.

[0006]

[Means for Solving the Problems]

  The invention as set forth in claim 1 is a substrate formed by mixing a far-infrared radiation agent and an adhesive. Far-infrared radiation adhesive that is applied to one side and the upper surface of this far-infrared radiation adhesive And a releasable separator that is applied.

[0007]   According to a second aspect of the present invention, one of a base material containing a far-infrared radiation agent and the base material is provided. Adhesive applied to the surface of the adhesive and a peelable separator to be applied to the upper surface of the adhesive It is characterized in that it has

[0008]   According to a third aspect of the invention, the other surface of the base material is made of aluminum material or waterproof or oilproof. It is characterized in that it is coated with a reflection sheet made of ceramic paper.

[0009]

[Action]

  According to the invention of claim 1, when the separator is peeled off from the base material, the upper surface of the base material is exposed The infrared radiation adhesive layer is exposed. Therefore, the adhesive of the far infrared radiation adhesive layer is Since it adheres to any part of the surface, it is possible to attach a pad. The far-infrared radiation adhesive layer directly contacts the external surface of the human body, receives the body temperature and It radiates far infrared rays to the outer surface.

[0010]   According to the invention of claim 2, when the separator is peeled off from the base material, the upper surface of the base material is The adhesive is exposed. Therefore, the adhesive adheres to any part of the external surface of the human body, It becomes possible to attach a far infrared ray emitting agent The material directly contacts the external surface of the human body, receives the body temperature, and radiates far infrared rays to the external surface of the human body. It will be shot.

[0011]   The invention of claim 3 achieves the operation according to the invention of claims 1 and 2 described above. In addition to playing, far infrared rays radiated from the far infrared radiation adhesive layer to the side opposite to the external surface of the human body Since it is reflected by the reflection sheet, the far-infrared rays go to the outer surface of the human body without waste. Is radiated.

[0012]

[First embodiment]   1 and 2 show a first embodiment of a far infrared radiation pad (10) according to the present invention. Has been done.   The base material (12) of the far infrared radiation pad (10) is formed of a non-woven fabric. This The non-woven fabric applied to the base material (12) is cotton, rayon, polyester, It is a known non-woven fabric produced by bonding and drying synthetic fibers such as nylon.   A far-infrared radiation adhesive layer (14) is coated on the upper surface of the base material (12). This far infrared radiation adhesive layer (14) comprises a far infrared radiation agent (16) and an adhesive (18). It is formed into a paste by mixing.   The far-infrared radiation agent (16) is mainly composed of alumina, zirconia, silica, Titanium, silicon carbide, etc. are mixed to produce a ceramic powder, and further, magnetite powder or Is a mixture of helite, fired, and once hardened, then processed into fine powder. , A far-infrared radiation adhesive layer (1) in which an appropriate binder is mixed as a binder 4) is formed. The mixture of magnetite powder or helite is far infrared. In addition to radiating magnetic field lines, it activates the resonance effect of molecular activity of human body cells, This is for producing a synergistic effect such as improving the condition.   A known adhesive is applied as the adhesive (18).   A peelable separator (20) on the upper surface of the far infrared radiation adhesive layer (14) And the adhesive (18) of the far infrared radiation adhesive layer (14) is inadvertently adhered. It prevents you from wearing it.

[0013]   Next, the operation of the first embodiment will be described.   When using the far infrared radiation pad (10), first, the separator (20) From the far infrared radiation adhesive layer (14) to expose the far infrared radiation adhesive layer (14). Let out. Therefore, the adhesive which is one of the constituent members of the far infrared radiation adhesive layer (14) The far-infrared radiation pad ( 10) can be adhered to the outer surface of the human body.   As a result, the far-infrared radiation adhesive layer (14) directly contacts the outer surface of the human body and keeps the body temperature. It receives heat and radiates far infrared rays to the outer surface of the human body.

[0014]

[Second embodiment]   FIG. 3 shows a second embodiment of the far infrared radiation pad (10) according to the present invention. It   The same components as those in the first embodiment are designated by the same reference numerals and their description is omitted. It   As shown in FIG. 3, on the surface of the substrate (12) opposite to the separator (20), By applying ceramic particles to the surface of aluminum sheet or paper An appropriate attachment method such as adhesion of the reflection sheet (22) made of processed ceramic paper Installed by.   Therefore, radiation from the far infrared radiation adhesive layer (14) is directed in the direction opposite to the external surface of the human body. Since the far infrared rays emitted are reflected by the reflection sheet (22), the far infrared rays are emitted. Far infrared rays emitted from the adhesive layer (14) radiate to the side opposite to the reflection sheet (22). To be done.   Therefore, all far infrared rays radiated from the far infrared radiation adhesive layer (14) are outside the human body. Since it is radiated toward the surface (upward in FIG. 2), there is no waste of far infrared rays.   The rest of the configuration and operation are similar to those of the first embodiment, so the description thereof is omitted. .

[0015]

[Third embodiment]   FIG. 4 shows a far infrared radiation pad (10) according to a third embodiment of the present invention. It   The same components as those in the first embodiment are designated by the same reference numerals and their description is omitted. It   Far-infrared radiation is used for the nonwoven fabric that constitutes the base material (12) of the far-infrared radiation pad (10). Contains a propellant (16). Far-infrared radiation agent (16) is added to the base material (12). As a method of incorporating the material, when the nonwoven fabric is manufactured, the cotton Far-infrared radiation agent in synthetic fibers such as rui rayon, polyester, and nylon ( Far-infrared radiation agent (16) in which 16) has been put in and dried or in liquid form A method is considered in which a non-woven fabric is put into the inside to impregnate the non-woven fabric with a far-infrared radiation agent. To be Thereby, the far-infrared radiation agent (16) is contained in the base material (12). You can   The far-infrared radiation agent (16) is alumina as described in the first embodiment. Ceramic powder mainly composed of zirconia, silica, titanium, silicon carbide, etc. Form a body, and further mix with magnetite powder or helite and bake to cure once. After that, it is processed into a fine powder. What mixed the powder of magnetite is In addition to far-infrared rays, magnetic lines of force are emitted to activate the resonance action of molecular activity of human body cells. This is for producing a synergistic effect such as improving blood circulation.   An adhesive (18) is applied to one surface of the base material (12). In the example The adhesive (18) is applied to the entire area of one side of the base material (12). The adhesive (18) is applied only to the outer periphery of the base material (12). You may make it cloth.   A peelable separator (20) is attached to the upper surface of the adhesive (18). And prevents the adhesive (18) from adhering carelessly.   The rest of the configuration and operation are similar to those of the first embodiment, so the description thereof is omitted. .

[0016]   Next, the operation of the third embodiment will be described.   When using the far infrared radiation pad (10), first, the separator (20) Is peeled off from the pressure-sensitive adhesive (18) to expose the pressure-sensitive adhesive (18). Therefore, the The adhesive (18) adheres to any part of the outer surface of the human body.   As a result, the base material (12) containing the far-infrared radiation agent (16) directly contacts the human body. It abuts the outer surface, receives the body temperature, and radiates far infrared rays to the outer surface of the human body.

[0017]

[Fourth Embodiment]   FIG. 5 shows a far infrared radiation pad (10) according to a fourth embodiment of the present invention. It   The same components as those in the first embodiment are designated by the same reference numerals and their description is omitted. It   As shown in FIG. 5, the separator of the base material (12) of the far-infrared radiation pad (10) is separated. Ceramic particles on the surface of thin aluminum plate or paper on the side opposite the vibrator (20) A reflective sheet made of ceramic paper that is waterproof and oil-proofed by applying (22) is attached by an appropriate method such as adhesion. Therefore, the substrate (1 Far infrared rays radiated from 2) in the direction opposite to the external surface of the human body are reflected on the reflection sheet (22). Therefore, it is reflected. Therefore, far infrared rays radiated from the base material (12) are all outside the human body. Since it is radiated toward the surface (upward in FIG. 2), there is no waste of far infrared rays.   The rest of the configuration and operation are similar to those of the first embodiment, so the description thereof is omitted. .

[0018]   The far-infrared radiation agent (16) contains a poultice such as chili peppers and almonds. The crushed powder and the medicinal component are mixed in, and the compressing effect is imparted by the contact with the external surface of the human body. I can do it.   In addition, in the first and second embodiments, another cloth is used instead of the nonwoven fabric of the base material (12). Alternatively, a synthetic resin sheet, a rubber sheet, or the like may be used.   In addition, as the separator (20) described in the examples, a ceramic is used on the surface of paper. Apply ceramic paper that is waterproof and oilproof by applying particles of Good.

[0019]

[Effect of device]

  As described above, the far infrared radiation pad according to the present invention uses the separator as the base material. It is further peeled off, and it can be attached to any place on the external surface of the human body as it is with an adhesive, and far infrared rays The radiation layer can be kept in contact with the relevant part for a long time, and the far infrared radiator is installed extremely It has an excellent effect that it can be easily done.

[Brief description of drawings]

FIG. 1 is a partially cutaway perspective view of a far infrared radiation pad according to a first embodiment.

FIG. 2 is a cross-sectional view of a far-infrared radiation pad according to the first embodiment.

FIG. 3 is a partially cutaway perspective view of a far infrared radiation pad according to a second embodiment.

FIG. 4 is a partially cutaway perspective view of a far infrared radiation pad according to a third embodiment.

FIG. 5 is a partially cutaway perspective view of a far-infrared radiation pad according to a fourth embodiment.

[Explanation of symbols]

(10) Far infrared radiation pad (12) Base material (14) Far infrared radiation adhesive layer (18) Adhesive (20) Separator (22) Reflective sheet

Claims (3)

[Scope of utility model registration request] 1. A far-infrared radiation adhesive that is formed by mixing a far-infrared radiation agent and an adhesive and is applied to one surface of a substrate, and a peeling that is adhered to the upper surface of the far-infrared radiation adhesive. A far-infrared radiation pad, which comprises a possible separator. 2. A base material containing a far-infrared radiation agent, a pressure-sensitive adhesive applied to one surface of the base material, and a peelable separator attached to the upper surface of the pressure-sensitive adhesive. Far-infrared radiation pad that is characterized by 3. The far-infrared radiation pad according to claim 1 or 2, wherein the other surface of the base material is coated with a reflection sheet made of an aluminum material or a waterproof and oil-proof ceramic paper. .