JPH119653A - In-living body activating tool - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a tool for activating the inside of a living body by filling a hollow ring where the outer diameter of a horizontal cross section is gradually changed between a min. part and a max. part with a coolant fluid and providing a heat radiating part in a part of a surface. SOLUTION: An in-living body activating ring 1 is constituted of a ring part 10 and the heat radiating part 20 mounted on a part of it. The ring part 10 is constituted of a hollow body with a fixed thickness, its horizontal cross section shape is a complete circle and the diameter is gradually increased from the front end min. part 11 to the rear end max. part 12 by a fixed rate. The outer diameter of the max. part 12 is set to be within the range of 1.5-2.0 times of that of the min. part 11. The min. part 11 and the max. part 12 are positioned separately by 180 deg. in the peripheral direction of the ring part 10 so as to be symmetrical as against the center C of an inner periphery 13 and a center line CL passing the min. part 11 and the max. part 12. The ring part 10 is filled with the coolant fluid. When the ring part 10 is mounted on the head, the coolant is permitted to flow to the min. part 11 by the heat radiation of the heat radiating part 20. Therefore, particulate electrons generated by a brain pulse are circulated together so as to stimulate and activate the cerebrum.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for stimulating and activating a body, especially a human brain.

[0002]

2. Description of the Related Art The act of attaching a ring-shaped object to the head has been practiced by many historical sages, beginning with Caesar in the Roman era. In Japan, as a similar act, there is an example of a so-called twisting headband when thinking deeply. In fact, it has been statistically proven that twisting the headband improves thinking. It is also empirically known that when a student cools his / her head during study, his / her thinking and concentration are enhanced. Furthermore, it is said that most of drowsiness caused by studying or driving for a long time is caused by fever in the brain.

[0003]

SUMMARY OF THE INVENTION An object of the present invention is to provide a device capable of activating the body based on the above facts and rules of thumb.

[0004]

Hereinafter, the present invention will be described with reference to the drawings showing embodiments of the present invention. However, the present invention is not limited to the illustrated embodiment.

[0005] The human brain is composed of a plurality of parts, each of which shares a different function. Then, various functions are realized by exchanging signal waves between the respective parts. In the present invention, the activity of the body, particularly the brain, is activated by activating the transmission of this signal wave to enable early signal transmission.

In order to achieve the above object, the bioactive device 1 of the present invention has a cross section whose outer diameter has a minimum portion 11 and a maximum portion 12.
And a refrigerant fluid 30 filled in the ring portion 10 and a heat radiating portion 20 provided on a part of the surface of the ring portion 10.

According to the present invention, when the ring 10 is mounted on the human head H or the like, the ring 10
Heat is transferred to the refrigerant fluid 30 in the inside. Here, all waves, electrons, heat, etc. are transmitted along the surface of the object,
The amount of heat transmitted to the refrigerant fluid 30 changes according to the outer diameter of the ring section 10 on the cross section. The maximum portion 12 has the maximum amount of transmission and the minimum portion 11 has the minimum amount of transmission. Due to this difference in the amount of heat transfer, a temperature gradient occurs in the ring portion 10 and natural circulation occurs in the refrigerant fluid 30. Then, the heat of the refrigerant fluid 30 is sequentially released from the radiator 20. Thereby, heat in the body is efficiently released to the outside.

Further, fine electrons generated in the body due to brain waves and the like enter the inside of the ring portion 10 and circulate together with the refrigerant fluid 30, so that the fine electrons and the refrigerant fluid 3
The atoms constituting 0 collide with each other and a plasma phenomenon occurs in the ring portion 10. With the occurrence of the plasma phenomenon, a plasma wave is transmitted from the ring portion 10 toward the body.
Plasma waves are smaller than normal electromagnetic waves and reach deep inside the body to effectively stimulate body tissue. As described above, the present invention provides the refrigerant fluid 3 in the ring portion 10.
The body tissue such as the cerebrum is activated by heat radiation and cooling using natural circulation of 0 and stimulation of the body tissue by plasma waves.

In order to promote the release of heat in the ring portion 10 and to efficiently circulate the refrigerant fluid 30, the heat radiating portion 20
Is preferably provided at or near the minimum portion 11.
Also, the outer diameter dmax. Of the maximum part 12 on the cross section of the ring part 10 is 1.5 times the outer diameter dmin.
When it is set in the range of 2.0 times, the refrigerant fluid 30 can be circulated most efficiently. Outer diameter dma of local maximum 12
The maximum effect is obtained when x. is set to 1.614 times that of the minimum portion 11. The ring portion 10 is preferably made of a material as hard as possible and having a high heat transfer coefficient, and is preferably made of a palladium alloy or duralumin.

By arranging the ring portion 10 to have a size that can be mounted on the head H of the human body, the brain can be stimulated and activated particularly efficiently. By disposing the heat radiating portion 20 so that the center of gravity G of the entire in-vivo device 1 substantially coincides with the center point C of the inner periphery 13 of the ring portion 10, the ring portion 10 is prevented from shifting, and the posture is stable for a long period of time. The device 1 can be used. The heat radiating portion 20 needs to have a surface area as large as possible, and for that purpose, it is desirable to provide the heat radiating portion 20 with a sphere 21 protruding from the ring portion 10.

Unnecessary protrusions and steps are removed from the inner surface of the ring portion 10 so as not to hinder the flow of the refrigerant fluid 30 in the ring portion 10. In order to eliminate the pulsation of the refrigerant fluid 30,
It is desirable that the cross section of the ring portion 10 be circular.

[0012]

1 to 4 show an embodiment of the present invention. FIG. 1 is a plan view, FIG. 2 is a front view, FIG. 3 is a rear view, and FIG. It is. As shown in these figures, the body activation device 1 has a ring portion 10 and a heat radiating portion 20 attached to a part of the ring portion 10. In FIG. 4, the illustration of the heat radiator is omitted.

The ring portion 10 is formed of a hollow body having a constant thickness, and has a perfect circular cross section (see FIG. 4). The outer diameter of the ring portion 10 in the cross section gradually increases at a constant rate from the minimum portion 11 at the front end (upper end in FIG. 1) of the ring portion 10 to the maximum portion 12 at the rear end. The outer diameter dmax. Of the maximum part 12 is 1.5 times or more the outer diameter dmin.
It is set to a range of 2.0 times, more preferably 1.614.
Set to double. The minimum portion 11 and the maximum portion 12 are separated from each other by 180 ° in the circumferential direction of the ring portion 10.
0 is the center C of the inner circumference 13, the minimum portion 11 and the maximum portion 12
Are symmetric with respect to a center line CL passing through.

The ring portion 10 is made of a hard metal having a high heat transfer coefficient, and specifically, a palladium alloy or duralumin is used. The diameter of the inner circumference 13 of the ring portion 10 (hereinafter, referred to as a ring diameter) Din (see FIG. 1) is set to a size that can be mounted on a human head. However, since the size of the head differs depending on the gender and age of the user, a plurality of ring portions 10 having different ring diameters Din may be prepared.

An injection valve 14 and a discharge valve 15 are provided at the rear end of the ring portion 10, respectively. Discharge valve 1
The refrigerant is injected from the injection valve 14 while applying a suction force to the inside of the ring portion 10 through the inside 5, so that the inside of the ring portion 10 is filled with the refrigerant fluid 30 at a predetermined pressure. As the refrigerant fluid 30, various liquids or gases such as hydrofluorocarbon (HFC) can be used. A well-known valve can be used for the valves 14 and 15. However, in order not to block the flow of the fluid in the ring portion 10,
The one that protrudes into the ring portion 2 as little as possible is selected. Further, in order to prevent the pulsation of the refrigerant fluid 30, the ring portion 10 is formed so as to be curved in a circular shape in the circumferential direction.

The heat dissipating portion 20 includes a pair of heat dissipating spheres 21, 21 provided symmetrically with the minimum portion 11 interposed therebetween, and connects these spheres 21 and the ring portion 10 to form a sphere 21 from the ring portion 10. A pair of arms 22, 22 for transferring heat
And The sphere 21 and the arm 22 may be hollow or solid. With the addition of the radiator 20,
The mass and arrangement of the heat radiating portion 20 are determined so that the center C of the inner circumference 13 of the ring portion 10 and the center of gravity G of the entire bioactive device 1 substantially match. In addition, the heat radiation part 20 also has the effect of improving the decorativeness of the in-vivo device 1.

As shown in FIG. 1, bands 40 for preventing slippage are attached to the ring portion 10. These bands 40 may be provided so as to be adjustable in length in consideration of the difference in the physique of the user.

FIG. 5 shows a state of use of the bioactive device 1 of the present embodiment. As is clear from this figure, in the bioactive device 1, the minimal portion 11 of the ring portion 10 is
At f, the human body is mounted on the human head H such that the local maximum 11 is aligned with the occipital region Hb. From the occipital region Hb to the frontal region Hf
Since a larger amount of heat is generated, the large amount of heat is efficiently absorbed by the local maximum portion 12, so that a temperature gradient in which the local minimum portion 11 is on the low temperature side and the local maximum portion 12 is on the high temperature side inside the ring portion 2. Can be generated. Thereby, the refrigerant fluid 30 in the ring portion 10 flows toward the minimum portion 11 as shown by an arrow F in FIG. 1, and the heat of the refrigerant fluid 30 is sequentially released from the heat radiation portion 20 into the air and the head H Is cooled. Also, fine electrons generated by brain waves jump into the ring portion 10 and together with the refrigerant fluid 30
A plasma phenomenon is generated in the ring portion 10 due to circulation in the inside, and accordingly, a plasma wave is transmitted from the ring portion 10 deep into the brain, thereby stimulating the brain, especially the cerebrum.

The present invention is not limited to the embodiment described above, and various modifications are possible. For example, the heat radiating portion 20 may be provided at a location other than the minimal portion 11, and its shape can be variously changed. The ring portion 10 can be formed to draw various shapes such as an ellipse, an ellipse, and an oval shape along the circumferential direction. The in-vivo activity device 1 of the present invention can be worn other than on the head.

[0020]

As described above, in the present invention, the ring portion is filled with the refrigerant fluid, and the outer diameter of the ring portion on the cross section is gradually changed between the minimum portion and the maximum portion. Therefore, while the natural circulation of the refrigerant fluid is generated in the ring portion, the heat inside the body can be efficiently released,
Since plasma waves, which are smaller than normal electromagnetic waves, can be transmitted deep inside the body to stimulate internal tissues, the cerebrum etc. can be activated efficiently, increasing the user's thinking, concentration, or memory, and preventing drowsiness. An excellent function and effect is achieved.

[Brief description of the drawings]

FIG. 1 is a plan view of a bioactive device according to an embodiment of the present invention.

FIG. 2 is a front view of the bioactive device of FIG. 1;

FIG. 3 is a rear view of the body activation device of FIG. 1;

FIG. 4 is a partially cutaway side view of the bioactive device of FIG. 1;

FIG. 5 is a view showing a use state of the body activation device of FIG. 1;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 In-vivo apparatus 10 Ring part 11 Minimum part 12 Maximum part 20 Heat radiating part 21 Sphere 30 Refrigerant fluid 40 Band

Claims (7)

[Claims] 1. A hollow ring portion having an outer diameter of a cross section gradually changing between a minimum portion and a maximum portion, a refrigerant fluid filled in the ring portion, and a part of a surface of the ring portion. A body activating device, comprising: a heat radiating unit. 2. The bioactive device according to claim 1, wherein the heat radiating portion is provided at or near the minimum portion. 3. An outer diameter of the maximum portion on the cross section is set to be 1.5 times to 2.0 times an outer diameter of the minimum portion. A bioactive device as described. 4. The body activation device according to claim 1, wherein the ring portion is made of a palladium alloy or duralumin. 5. The body activation device according to claim 1, wherein the ring portion has a size that can be attached to a head of a human body. 6. The bioactive device according to claim 1, wherein the heat radiating portion is provided such that a center of gravity of the whole bioactive device substantially coincides with a center point of an inner periphery of the ring portion. 7. The bioactive device according to claim 1, wherein the heat radiating portion has a sphere projecting from the ring portion.