JPH0367427B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a far-infrared therapy device that is applied to so-called acupuncture points on the human body or animals to irradiate far-infrared rays to desired areas.

[Summary of the invention]

In this invention, a fixing means is disposed on the side opposite to the holding member of a plate-like member that is removably engaged with a holding member that holds a far-infrared ray emitting member that emits far-infrared rays by heating, and the far-infrared ray emitting member is By fixing the far infrared rays so as to face a predetermined treatment area, it is possible to make the far infrared rays treatment device more compact and consume less power, and to ease the behavioral restrictions of the recipient. It is designed so that it can be used repeatedly.

[Conventional technology]

Conventionally, in order to treat muscle pain caused by bruises, sprains, etc., infrared rays are irradiated onto the affected area using an infrared lamp.
It enhances natural healing power by alleviating pain and improving blood circulation.

[Problem to be solved by the invention]

However, in order to irradiate a relatively large area of the human body with infrared rays, conventional infrared lamps are relatively large and require a large amount of electric power. Therefore, with conventional infrared lamps, although it is possible to irradiate infrared rays within a very small area such as so-called acupuncture points by using an optical mask, there are drawbacks such as a large loss of power. Another drawback was that it was impossible to move during infrared rays.

In addition, an adhesive layer such as double-sided tape is formed on the lower surface of the plastic molded body containing a laser diode as an infrared light source, and the lower part of the plastic molded body is adhered and fixed to the treatment area, as described above. There is something that has been designed to solve this problem.

However, in the case of adhesive-type optical therapy devices,
Since the treatment area is directly touched, there is a problem from a hygienic standpoint that it is necessary to sterilize and replace the instruments for each treatment area.

[Means to solve the problem]

A far-infrared treatment device according to the present invention includes a far-infrared radiation member 1 that emits far-infrared rays by heating, and a fixing means for fixing the far-infrared radiation member facing a predetermined treatment area. , a holding member 12 that holds a far-infrared ray emitting member, a plate-like member 13 that removably engages with this holding member, and a fixing means 14 on the opposite side of the plate-like member from the holding member. It is configured as follows.

[Effect]

The far infrared rays emitted from the far infrared ray emitting member 1 by appropriate heating irradiate a predetermined treatment area. As a result, the far-infrared therapy device can be made smaller and consume less power, and the behavioral restrictions of the recipient can be relaxed.
Further, each time the treatment instrument is used, the disk-shaped member can be separated and replaced with a clean one, and the far-infrared ray emitting member and the holding member can be repeatedly used hygienically.

〔Example〕

Hereinafter, various embodiments of the present invention will be described in detail based on FIGS. 1 to 4.

FIG. 1 shows a first embodiment of this invention.
Reference numeral 1 denotes a far-infrared radiation member made of, for example, ceramic, metal oxide, or a mixture thereof, which emits far-infrared rays when humidified.

This far-infrared radiation member 1 is provided on a substrate 10, and terminal pins 11a, 1 are connected to the far-infrared radiation member 1.
1b is led out through the substrate 10 to the side opposite to the far-infrared radiating member 1. The far-infrared radiating member 1 having such a structure is fixed to the bottom or the inner surface of the closed end 12a of a cylindrical cap 12 made of a resin material, for example. In this case, as shown in FIG. 1, the far-infrared radiation member 1 is located on the open end side of the cap 12,
The pins 11a and 11b are connected to the closed end 12 of the cap 12.
Do it as if you are rushing into a.

Reference numeral 13 denotes a ring-shaped seat made of, for example, a resin material, and a ring-shaped engagement portion 13a protrudes above the seat.
Then, the open end 12b of the cap 12 is engaged, and the cap 12 and the seat 13 are combined. The seat 13 is provided with a through hole 13b that communicates with the cavity of the ring-shaped engagement portion 13a. One surface of an adhesive member 14 such as adhesive tape, for example, so-called double-sided tape, is adhered to the free end surface of the seat 13 as a fixing means. This adhesive member 14 has a through hole 14 of the same shape in a portion corresponding to the through hole 13b of the seat 13.
Provide a.

A pin 11a derived from the far-infrared radiation member 1,
11b through lead wires 8a and 8b, respectively.
A power source 9 is connected.

When in use, the entire treatment instrument is adhesively fixed to a desired location on the human body, for example, a so-called "acupoint", using the adhesive member 14. Next, when a power switch (not shown) is turned on, power is supplied from the power source 9 to the far-infrared radiation member 1 via the lead wires 8a, 8b and the pins 11a, 11b. Then, the far infrared rays emitting member 1 has a temperature of, for example, 36°C to 40°C.
When heated to a temperature of about As shown by arrow A in FIG. 1, this far-infrared rays are radiated to the outside through the inside of the ring-shaped engaging portion 13a of the catch seat 13, its through hole 13b, and the through hole 14a of the adhesive member 14. be done. In other words, the desired location (affected area)
is irradiated with far-infrared rays from the far-infrared radiation member 1, and desired far-infrared treatments such as heating and sterilization are performed. At this time, since the far-infrared radiation member 1 is fixed to the human body, the patient may move or exercise as appropriate during this energization.

Furthermore, each time the instrument is used, the seat 13 is separated from the cap 12 and replaced with a sterilized and clean seat, thereby maintaining the sanitary condition of the treatment instrument.

In addition, if a reflective plate is provided on the inner surface of the through hole 13b of the catch seat 13, or metal plating is applied, the far infrared rays from the far infrared ray emitting member 1 can be used more effectively.

Further, by reducing the diameter of the through hole 13b, the far infrared rays emitted from the far infrared ray emitting member 1 can be made into a beam shape.

Further, the seat 13 may be transparent or colored.

FIG. 2 shows a second embodiment of this invention.
In this figure, parts corresponding to those in FIG. 1 are denoted by the same reference numerals, and detailed explanation thereof will be omitted.

In the embodiment shown in FIG. 2, the seat 13 is made of, for example, a resin material that transmits the far infrared rays emitted from the far-infrared radiation member 1, so it is necessary to provide the seat 13 with a through hole 13b as shown in FIG. There isn't.

However, the adhesive member 14 does not have the catch 1 of the example shown in FIG.
A through hole 14 having a size and shape corresponding to the through hole 13b of No. 3
Provide a. Therefore, the adhesive member 14 is ring-shaped, similar to the example shown in FIG.

FIG. 3 shows a third embodiment of the present invention, in which only the relevant main parts, ie, the seat 13 and the adhesive member 14 are shown.

In the example of FIG. 3, like the example of the seat 13 of FIG. 2, it is made of a resin material that transmits far infrared rays from the far infrared radiation member 1, so the through hole 13b of the example of FIG. Although not provided, in this example, a portion 13c of the catch seat 13 corresponding to the through hole 13b is provided.
A concave portion 13d is formed to provide a far-infrared divergence effect similar to that of a concave lens to the far-infrared rays emitted from the far-infrared radiation member 1.

In the example of FIG. 3, instead of the recess 13d,
By forming a convex portion, it is possible to provide a far-infrared convergence effect similar to that of a convex lens to the far-infrared rays emitted from the far-infrared radiation member 1.

Although not shown in FIG. 3, it is of course possible to use the same far-infrared radiation member 1, cap 12, etc. as shown in FIG. 1 or 2.

FIG. 4 shows a fourth embodiment of this invention.
In this figure, parts corresponding to those in FIGS. 1 and 2 are designated by the same reference numerals, and detailed explanation thereof will be omitted.

In this example, a heating material 15 that is heated by a chemical reaction between water and coal, etc. and a far-infrared ray generating member 1 are placed on the inner surface of the closed end 12a of the cap 12 to prevent high-temperature heating so that the temperature does not rise above, for example, 40°C. While fixing the agent 16, the far-infrared radiating member 1 is fitted into the open end 12b of the cap 12 so that its irradiation surface is located on the open end side.

In this way, the heating material 15, the high temperature heating inhibitor 16
When the open end 12b of the cap 12 having the far-infrared radiation member 1 is engaged with the engaging portion 13a of the catch seat 13 as shown in FIG. 1, for example, as shown in FIG. The heating material 15 and the high-temperature heating inhibitor 1 are arranged so that energy is supplied to the far-infrared radiating member 1 via the high-temperature heating inhibitor 16.
6 and a far-infrared radiating member 1 are attached to the cap 12.

Therefore, in this way, the cap 12 and the catch 1
If 3 is engaged, heating material 1 will be heated due to chemical reaction etc.
The far infrared rays emitted from the far infrared radiation member 1 heated by the thermal energy supplied from 5 are:
As shown by arrow A, the light is emitted to the outside through the through hole 13b of the seat 13 and the through hole 14a of the adhesive member 14, and produces the same effect as the above example.

In addition, in the examples shown in FIGS. 1 to 4, the adhesive member 14
If a material is used that can transmit the far infrared rays from the far infrared rays emitting member 1 and the adhesive effect is not inhibited by this far infrared rays, the through hole 14
Since it is not necessary to provide a, the adhesive effect is further increased. Further, if a so-called double-sided tape is used as the adhesive member 14, for example, its replacement is extremely easy.

Further, although the above-described embodiment is a case in which the present invention is applied to a human body, it can be similarly applied to other animals and the like.

〔Effect of the invention〕

As described above, according to the present invention, the fixing means is disposed on the side opposite to the holding member of the plate-like member that is removably engaged with the holding member that holds the far-infrared ray emitting member that emits far-infrared rays by heating. Since the far-infrared radiation member is fixed facing a predetermined treatment area, the far-infrared treatment device can be made smaller and consume less power, and the behavioral restrictions of the recipient can be reduced.

In addition, the cap (therapeutic device main body) that holds the far-infrared ray emitting member and the seat are formed separately and engaged removably, so the seat can be kept clean for each area to be treated (for example, a patient). By replacing the main body with a new one, the main body of the therapeutic instrument can be used repeatedly while maintaining good hygiene of the therapeutic instrument.

Furthermore, since the catch is extremely inexpensive, it can be made disposable and sterilization treatment, etc. associated with reuse can be omitted.

[Brief explanation of drawings]

FIG. 1 is a sectional view showing the structure of one embodiment of the invention, and FIGS. 2 to 4 are sectional views showing the structure of other embodiments of the invention. 1 is a far-infrared radiation member, 9 is a power source, 12 is a cap, 13 is a seat, 14 is an adhesive member, 15 is a heating material, and 16 is a high-temperature heating inhibitor.

Claims (1)

[Scope of Claims] 1. A far-infrared treatment device comprising a far-infrared radiation member that emits far-infrared rays by heating, and a fixing means for fixing the far-infrared radiation member facing a predetermined treatment area, comprising: A holding member that holds an infrared ray emitting member, a plate-like member that removably engages with the holding member, and the fixing means is provided on the opposite side of the plate-like member from the holding member. Far infrared therapy equipment.