JP2000140133A - Tool acting vector potential field or the like on the body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device of a lightweight and small-sized type which enables the treatment by regulation of the excitation level of the autonomic nerves by irradiation with wave motion, such as vector potential field, which is infeasible with the conventional devices since these devices are too heavy and bulky and are not usable by applying the devices to the body. SOLUTION: When an annular magnetic material is magnetized in such a manner that the magnetic field therein constitutes an annularly closed magnetic circuit, the magnetic field does not leak outside the magnetic material but the vector potential field exists therein. In actuality, the slight leaking magnetic field exists to a negligible level. The tool imparts the stimulus, such as vector potential field, to the body by sticking such magnetic material magnet onto the skin or shirts. If an ordinary permanent magnet having N-S poles, a lens or material (chemical, etc.), is put into the hole 2 of a magnetic material ring 1, the stimulation of the skin with the magnetic field, rays or wave motion intrinsic to the material, respectively in addition to the vector potential field is made possible.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a therapeutic device. More specifically, the present invention relates to a tool for performing treatment by irradiating a human body with a vector potential field or the like and adjusting the electrical conduction of the ryodoraku of the skin to adjust the excitation level of the autonomic nerve of the ryodoraku.

[0002]

2. Description of the Related Art It is known that when the electric conductivity of the skin between the palm and an arbitrary part of the skin of a human body is measured under a constant voltage, the electric conductivity is large at the acupoint.
1,2]. The connection of several acupuncture points is called a meridian, and there are several meridians related to the lungs, heart, small intestine, gonorrhea, stomach, and so on. Table 1 gives some examples of meridians.

[0003]

[Table 1]

[0004] Meridians are called Ryodoraku because of their high electrical conductivity. According to Ryodoraku theory, the electrical conduction of Ryodoraku in the skin reflects the degree of excitability of the autonomic nerves [1, 2]. It is considered that the higher the electric conduction (the lower the electric resistance), the higher the degree of excitement of the autonomic nervous system related to the Ryodoraku. The electrical conductivity of the meridian at the lesion site or incongruent site is abnormally high (excitation too large) or conversely low (suppression is suppressed). Ryodoraku autonomic nervous control therapy that focuses on this point [1-3]
First, the electrical conduction of the skin at a specific site based on the Ryodoraku theory is measured by applying a constant voltage (neurometry).
The measured values are charted in a dedicated diagnostic chart, and the chart is analyzed to determine whether it is within the normal (healthy) current range statistically derived from the data of a large number of healthy people. Done. The treatment is performed by adjusting the current value of the unbalanced (in other words, relatively abnormally high or abnormally low electric conduction) meridian.

Conventionally, light rays such as electric acupuncture, acupuncture, moxibustion, hot moxibustion, and laser, far infrared rays, ultrasonic waves, ultrashort waves, magnetism, and the like have been used for adjustment [1 to 3]. In addition, the present inventors have previously provided EQR devices, MEIL devices, MEIS devices,
An OF device can also be used for this adjustment [References 4 to 13].
The above is the prior art.

[0006]

The majority of active medicine is based on Western medicine. While this has made tremendous progress and has helped humanity, it has various problems. For example, there are often cases where the latest medical testing equipment does not find any disease and there is no problem in Western medicine, but it still complains. Also,
It causes various harms and evils, and there is no good measure for many so-called intractable diseases.

[0007] The western medical technique is characterized by the fact that the human body is divided into parts of each organ, which is further subdivided and analytically clarified. This is, of course, important, but adds the idea of oriental medicine, ie, the harmonious functioning of the whole body rather than each part, or the recovery treatment of an integrated system to keep the workings of the whole living body running smoothly. Would need to. It is well known that these ideas of Oriental medicine have recently been reviewed and applied to clinical practice. In particular, scientific review of Oriental medicine has been made from the aspect of chronic disease, geriatric disease, health maintenance and preventive medicine [1-3, 14, 15].

[0008] Among these, Ryodoraku autonomic nervous modulating therapy, which is a kind of Oriental medicine, has achieved many achievements, many academic papers have been published, and scientific elucidation is being made.
[Refs. 14, 15].

Under such circumstances, the present inventor has recently provided an EOF device as a new device for adjusting the skin meridian electrical resistance [9, 10]. The apparatus uses a vector potential field or the like due to a magnetic field. Irradiation of the human body with a vector potential field or the like caused analgesic effects and changes in skin meridian electrical resistance [9, 10].

[0010] However, the above-mentioned EOF apparatus is so heavy and bulky that it cannot be used by attaching it to the body. Therefore, it is necessary to develop a lightweight and compact tool that generates a vector potential field that can be used on the body. Therefore, the problem to be solved by the present invention is to replace the EOF device, which is a wave irradiation device such as a vector potential field, which adjusts the excitation level of the autonomic nervous system for treatment, and is a lightweight and compact device that can be used on the body. It is to provide a tool-like thing.

[0011]

[Means for Solving the Problem] As a means for solving the problem, any one or several of the following (a) to (d) are used in a composite manner.

(A) Vector potential field (VPF: Vector
(potential field) When the ring-shaped magnetic body is magnetized so that the magnetic circuit inside the magnetic body is closed in an annular shape, no magnetic field B is generated in the space around it. However, a vector potential field is created. Here, the relational expression between the vector potential field A and the magnetic field B is defined as B = rotA (1). The present inventor has found that when a living body is irradiated with the vector potential field generated from the ring-shaped magnetic material magnetized as described above, a physiological change occurs in the living body in the same manner as the vector potential field of the EOF device. The present invention is an application of this phenomenon, which is used as a main means for solving the problem.

(B) Field in which a magnetic field is superimposed on a vector potential field (VPMF) The present inventor has found that a field in which a magnetic field is superimposed on a vector potential field has a stronger effect on a living body. In this case, a magnetic flux density much lower than the magnetic flux density used in a conventional magnetic therapy device (about 500 Gs or more, but usually 800 Gs to 1500 Gs is commercially available) is sufficient. The present invention utilizes this phenomenon, and uses this phenomenon as a means for solving the problem. VPMF (Vector Potential with
Magnetic Fields). Although a conventional magnetic therapy device generates a vector potential by its magnetic field, the intensity A of the vector potential is small because the structure does not mainly use the vector potential. / B is extremely small.

(C) Field where light is superimposed on VPF or VPMF The present inventor has found that a field where light is superimposed on VPF or VPMF also has a physiological effect on the human body. The present invention utilizes this phenomenon, and uses this phenomenon as a means for solving the problem.

(D) A wave field (HMF) in which a wave field specific to a substance is superimposed on the above (c). The inventor of the present invention states that “a substance forms a wave field specific to the substance around it. When a VPF or VPMF acts on a wave field specific to a substance or the substance, the wave field specific to the substance is induced in the space of the VPF or VPMF. ”[Refs. 9, 10]. Here, this substance is accommodated in the hole of the annular magnetic body. The wave field generated in this way is a wave field in which either the VPF or the VPMF and the material-specific wave field are superimposed. Hereinafter, this wave field is referred to as HMF (Hybr
id Material Field). The present inventor has discovered a phenomenon in which a physiological change occurs in a living body when the living body is irradiated with HMF.
The present invention utilizes this phenomenon, and uses this phenomenon as a means for solving the problem. HMF gives the living body a little different feeling than VPF and VPMF.

[0016] The most primitive treatment method using a wave field inherent to a substance is a treatment method called a foreign treatment method performed by a Chinese medicine doctor. In this method, instead of taking Chinese herbal medicine, it is applied externally to the affected area, unaffected area, and related meridians and acupoints. This is considered to be the most primitive treatment that irradiates the living body with the wave field peculiar to the substance formed around the Chinese medicine. By the way, Chinese medicine doctors called the natural wave field of medicinal herbs a concern.

As described above, the present inventors have found that when any of the above (a) to (d) is irradiated on a living body, a change in the electrical conduction of the skin related to the excitation of the autonomic nerve of the meridian occurs.
That is, they have the effect of adjusting the abnormal excitation level of the autonomic nerves of the meridians. Therefore, a therapeutic effect will occur.
The present invention uses the above findings (phenomena) as means for solving the problem.

[0018]

[Action] Maxwel describing basic laws in electromagnetics
The equation for l is usually rot E = -μ (∂H / ∂t) (2) rot H = _ic + ε (∂E / ∂t) (3) div E = ρ / ε (4) div H = 0 (5). These equations are based on E and H, and do not include the vector potential given by equation (1). Equations (2)-(5) do not include vector potentials because E and H have physical meaning, whereas vector potentials are simply born from mathematical convenience and This was because it was not considered meaningful.

However, Aharanov and Baum in 1959,
Derived the importance of vector potential theoretically
[Refs. 16, 17]. When a current is applied to a very long solenoid coil, a magnetic field is generated inside the coil, but the magnetic field becomes zero because the magnetic field is canceled outside the coil. However, there is a vector potential (gauge field). Therefore, they theoretically argued that electrons passing through such a field without a magnetic field undergo phase changes due to the presence of vector potentials [Refs. 16 to 21]. This was later called the Aharonov-Bohm effect or the AB effect.

Totomura conducted an experiment on the existence of the AB effect and succeeded in perfect proof [References 18, 20]. He surrounded the ring-shaped magnetic body with a superconductor and used the Meissner effect to prevent the magnetic field from leaking out. That is, the magnetic field creates a completely closed magnetic circuit that rotates within the magnetic ring. A plane electron wave was incident on this, and interference fringes of the electron wave passing inside and outside the ring were observed.

As a result, the interference fringes before the superconductor is brought into the superconducting state and the interference fringes when the superconducting current flows when the ring-shaped superconductor is gradually cooled are completely in accordance with the theory. The result was. Like this
It was proved from experiments that the AB effect exists [Reference 1]
8,20]. In other words, the vector potential is real and has physical significance.

If the space of the vector potential affects electrons, it is considered that a living body having a large amount of electrons and having an electron transfer system and a complicated information system is also affected.
According to Aharanov and Baum, in quantum mechanics, it is not magnetic fields that interact with electrons, but vector potentials.
I argue that vector potential is real. Therefore, it is not surprising that the vector potential acts on the living body.

In fact, as will be described later, the present inventor has found that when a living body is exposed to the above-described vector potential space, a biomedical effect appears on the living body. In this case, they also discovered that the external leakage magnetic field does not have to be a completely zero magnetic field as obtained with the superconducting magnet in the above-mentioned Tomura experiment. That is, a normal temperature ring magnet may be used.

When the living body is exposed not only to the space VPF in which the vector potential exists but also to the above-mentioned wave space (b), (c) or (d), the electric conduction of the skin related to the excitation of the autonomic nerves of the meridians. The present inventor has discovered a phenomenon that changes in physiology (= changes in the level of excitation of the autonomic nervous system) and other physiological changes occur. The present invention is an apparatus utilizing this phenomenon. The vector potential is called a gauge field and is a very important physical quantity [Ref. 21].

[0025]

FIG. 1 is a diagram showing one embodiment of the present invention. FIG. 1A is a plan view of a ring-shaped magnetic body in which a magnetic field B is magnetized in a direction indicated by an arrow. FIG. 1B is a sectional view taken along the line AA of FIG. B forms an annularly closed magnetic circuit. Therefore, the magnetic field becomes zero outside the ring-shaped magnetic body. However, when actually magnetized, there is often a slight leakage magnetic field that does not become exactly zero. This does not substantially hinder the practice of the present invention. A vector potential field is generated outside the ring-shaped magnetic body. Hereinafter, this magnet is called a VP magnet.

The magnitude of the leakage magnetic field will be described here. Here, the results of measurement using a slightly larger magnetic material are described. When a coil was wound around a ring-shaped ferrite with an outer diameter of 40 mm, an inner diameter of 20 mm, and a thickness of 10 mm and magnetized, the leakage magnetic field on the surface was 20 to 80 Gs. A small cut was made in a part of this ring with a diamond cutter to create an air gap, and the magnetic field measured there was 1.7 kGs. Therefore, the leakage magnetic field is from 0.012 to 0.047 with an internal magnetic field of 1.7 kGs
It is twice. Conventionally, the value of a magnetic field used for a magnetic therapy device is 500 Gs or more as described above, and 800 to 1500 Gs is actually used for a commercially available device. That is, the above stray magnetic field of 20
A therapeutic effect can hardly be expected with a magnetic field of about 80 Gs itself.

As described above, the VP magnet 1 generates a weak level of leakage magnetic field. However, it is necessary to make the VP magnet 1 more aggressively leak, as shown in FIG. This is made possible by the magnet 3. FIG. 2A is a perspective view of a VP magnet 3 made of a ring-shaped magnetic material with a part cut away.
FIG. 2B is a sectional view taken along the line AA of FIG. The magnetic material having such a shape generates a leakage magnetic field B _L as shown in FIG. Also in this case, a magnetic flux density much lower than the magnetic flux density (= about 500 Gs or more) of the magnet used in the conventional magnetic therapy device is sufficient. The VP magnet 3 generates a vector potential field on which a magnetic field is superimposed.

As a method for generating a vector potential field in which a magnetic field is superimposed, a method shown in FIG. 3 may be used. That is, FIG. 3 (a) shows a structure in which a normal permanent magnet 6 having an NS pole is fitted into the hole of the VP magnet 1 and bonded. Fig. 3 (b)
Has a structure in which a normal permanent magnet 7 is bonded to the outside of the VP magnet 1. FIG. 3C shows a structure in which a ring-shaped normal permanent magnet 8 is bonded to the outside of the VP magnet 1. FIG. 3D shows a structure in which a ring-shaped normal permanent magnet 9 is bonded to the outer circumferential surface of the VP magnet 1. In FIG. 3, B indicates the direction of the magnetic field. The arrow may be in the opposite direction of this figure. The normal permanent magnet is a magnet having an N pole and an S pole.

As a method of generating a vector potential field in which a magnetic field is superimposed, a VP magnet 10 as shown in FIG.
You may use FIG. 4A is a plan view of the ring-shaped magnetic body, and FIG. 4B is a side view of FIG. 4A. Here, the magnetic field B is magnetized so as to rotate spirally. Therefore, the magnetic field leaks to the outside.

In order to create a field in which light rays are superimposed on VPF or VPMF, a method shown in FIG. 5 may be used. FIG. 5A is a sectional view taken along the line AA of FIG. 5B. FIG. 5B is a plan view. Figure
As shown in FIGS. 5A and 5B, the lens 12 is fixed in the hole of the VP magnet 1. Natural light is sufficient as the light ray, but using an artificial light ray does not hinder the practice of the present invention.
The light condensing action of the lens 12 also allows light rays to irradiate the skin. The VP magnet 1 shown in FIG. 5 is the VP magnet 3 in FIG.
Instead of the magnet 10, it may be replaced with (c) and (d) shown in FIG.

As described above, "a substance forms a wave field peculiar to the substance around the substance. When the wave field peculiar to the substance or VPF or VPMF acts on the substance, the wave peculiar to the substance is generated. The field is induced in the space of VPF or VPMF "[9, 10]. This wave field HMF
To make, one or more substances such as ceramics, pottery, zirconia, crystal, glass, mineral, gypsum, herbal medicine, chemicals, etc. should be fixed in the holes of the VP magnet. It is desirable to mix various substances, such as chemicals and minerals, in the pottery. This makes it possible to superimpose the wave field peculiar to the substance on the space of VPF or VPMF. The sensations and reactions that occur in the living body differ depending on the type of substance. This is because the eigenwave field differs depending on the material.

This also means that the waves vary depending on what material is used for the magnetic material. For example, ferrite gives a slightly rough feeling to a living body.
Alnico (alloy of Al, Ni, Co) and iron neodymium are expensive, but have a soft feel to the living body.

A tool (ring-shaped magnetic material, ring-shaped magnetic material combined with a permanent magnet having an NS pole, ring-shaped magnetic material combined with a lens, ceramics, ceramics, zirconia, etc.)・ It is convenient to use when a ring-shaped magnetic material combined with one or more kinds of substances such as quartz, glass, mineral, gypsum, herbal medicine, medicine, etc. is peeled off from the adhesive sheet and sandwiched between the sheets. is there.

FIG. 5 shows a state in which a ring-shaped magnetic body combined with a lens is peeled off from an adhesive sheet and sandwiched between sheets. When using the tool of the present invention as shown in FIG. 5, the peeling sheet 15 is pulled off and peeled, and the adhesive surface of the adhesive sheet 13 is exposed, and this is adhered to the skin or clothing such as a shirt. In the case of a ring-shaped magnetic material combined with a lens, the holes 14 in the adhesive sheet are unnecessary if the adhesive sheet 13 is thin and relatively easily transmits light.

The better the VP magnet does not touch the skin, the better the touch. The cloth 19 in FIG. 6 has a function to prevent the VP magnet from directly touching the skin.

Although the above-described magnetic members (FIGS. 1 to 6) are all shown as circular ring-shaped magnetic members, an elliptical or polygonal annular magnetic member may be used.

The magnetic body may be constructed by combining permanent magnets having magnetic poles (N and S) as shown in FIGS. 7 (a) to 7 (c). Although 24 and 25 in FIG. 7C are shown as non-magnetized magnetic materials, they may be magnetized.

FIG. 7 (d) does not have a hole at the center as shown in FIGS. 7 (a) to 7 (c). Such a hole is used alone as a tool for applying a vector potential field or the like to a living body. be able to.

[0039]

When the tool for applying the vector potential field of the present invention to the living body is adhered to the skin or clothes, the effect of the vector potential field or the like on the electric conduction of the acupuncture point skin (autonomic nerve excitation current of the meridian). Was examined. The measurement acupoint was taken at the position normally used, that is, the position shown in FIG. A constant voltage was applied between each acupoint shown in FIG. 8 and the palm, and the current flowing therethrough was measured before and after irradiation. Here, a neurometer (Neuro Medical Industry, 5-Toyosaki, Kita-ku, Osaka-shi)
7-31) was used to measure the current [1, 2].

As described above, the current value measured under the constant voltage condition on the skin surface of the acupuncture point on the meridian as described above has a strong correlation with the excitability of the sympathetic nerve of the meridian, and the electric conduction of the skin It has been reported that gender is controlled by the center of the autonomic nerve [1, 2]. It is considered that the higher the electric conduction (in other words, the lower the electric resistance), the higher the excitement of the autonomic nerve. Diagnosis in therapies to correct abnormal levels of autonomic nervous system (Ryodoraku autonomic nervous system therapy) is based on the theory of Ryodoraku, where the electrical conductivity of the left 12 meridians and the right 12 meridians is measured with a neurometer. The measured values are plotted in the chart for Nakatani diagnosis, and the chart is used for diagnosis [1, 2].

The adjustment of the level of the current value of the meridian indicating abnormal electrical conduction of too high or too low is performed using biological stimulation such as electric acupuncture, acupuncture, moxibustion, hot moxibustion, laser, magnetism, etc., as described above. ing. Here, this is performed using a tool for applying the vector potential field or the like of the present invention to a living body. An irradiation method using a tool for applying a vector potential field or the like to a living body according to the present invention is as follows. First, the subject is subjected to neurometry before irradiation, and the measured values are recorded on a Nakatani chart. Then, a meridian showing abnormal electrical conduction was derived from this chart, and a method of irradiating several abnormal parts and acupoints corresponding to the meridian was adopted. This abnormal meridian usually corresponds to a part where the subject feels heavy, uncomfortable, or uncomfortable.

As a VP magnet having the shape shown in FIG.
The effect of an example using a 4mm, 30.5mm inside diameter, and 10mm high magnetic material of iron neodymium is described. Of course, in practicing the present invention, it is by no means limited to this size and this magnetic material. A high-voltage covered conductor was wound around this ring in the form of a toroidal coil, and a high current was applied to magnetize it so that the magnetic field became annular as shown in Fig. 1. After magnetization, the leakage magnetic field was measured to be about 70 Gs on the surface of the magnetic material. After the biological effect experiment with this VP magnet, it was cut at one place and the magnetic field in the gap was measured.
It was 2.4 kGs (= magnetic flux density inside the magnetic material). This VP
The magnet was structured as shown in FIG. 6, and the adhesive sheet 18 and the cloth 17 were made of a material through which the VP magnet inside could not be seen.

9 shows the autonomic nerve excitation current I (μA) of each meridian H ₁ L to H ₆ L and H ₁ R to H ₆ R before irradiation of the subject A. I have. The graph is saw-toothed. When the current value of L (left) and the current value of R (right) in each meridian are compared, the current value of R (right) is abnormally higher than the current value of L (left). In other words, the current value of L is abnormally lower than the current value of R. That is, the imbalance between the left and right of the degree of excitement of the autonomic nerve is too large. In such an imbalanced state, the physical condition is not good. In fact, the subject A had pain near the left scapula, and was in a condition that his physical condition was not good overall.

Therefore, in this case, in order to perform a treatment for adjusting the right and left imbalance of the autonomic nervous excitation current, one for each of the curved wall of the small intestine and extra-shoulder healing, and the soul of the heart and the blue spirit and the village. Four VP magnets were adhered from above the shirt and irradiated with a vector potential field. These sites are shown in FIG. Fig. 9 shows the current value about 2 minutes after irradiation.
n). It can be seen that the degree of imbalance between R and L for each meridian has been significantly improved. In addition, 4,6,8,10,12
The current value after one minute is shown in FIG.

The average current value of R at each stage before irradiation and after 2, 4, 6, 8, 10, and 12 minutes was plotted in FIG. 12 as I _R and the average current value of _L as IL. Before irradiation (=
The difference between I _R and I _L at the 0 minute position on the horizontal axis in FIG.
It is as large as 8 μA. The value of I _R -I _L becomes 0 after about 4 minutes. Conversely, after 4 minutes, the value of I _R -I _L becomes negative (the value is about 5 μA, which is considerably smaller than about 28 μA before irradiation). As described above, the irradiation for 12 minutes is slightly excessive, but the effect afterward tends to be better if the irradiation is slightly excessive.

It can be seen that the imbalance state where the difference between the left and right autonomic nerve excitation currents is too large before irradiation can be recovered by irradiation with the present VP magnet as shown in FIG. Therefore, the autonomic nerve excitation current can be adjusted using the VP magnet. In fact, this irradiation alleviated the stiffness near the left scapula and the general physical condition of the subject A.

Next, a VP magnet having the shape shown in FIG.
An example of the effect of using a magnetic material of iron neodymium with m, inner diameter of 13.5 mm and height of 6 mm will be described. The VP magnet was structured as shown in FIG. 6, and the adhesive sheet 18 and the cloth 17 were made of a material through which the VP magnet inside could not be seen.

As a result of the neurometry, the subject B showed abnormalities in the autonomic nervous excitation currents of the renal and hepatic meridians. Therefore, two VP magnets were used to cure the right kidney, two to the left kidney, and two to the top of the liver. The pieces were attached to stimulate the vector potential field. The result is shown in FIG. Here, the horizontal axis is the elapsed time from the start of stimulation. I _a / I _{b on the} vertical axis is a value obtained by dividing the current I _a after stimulation by the current I _b before starting stimulation, that is, the current change ratio. Figure
As shown in Fig. 13, a change of about 0.3 to 0.5 occurs in a short time of 6 minutes. In natural fluctuations, such a large change is unlikely to occur in such a short time. Therefore, this VP magnet can change the autonomic nervous excitation current, and therefore has the ability to regulate the autonomic nervous excitation current. In the above two examples, the result of the false VP magnet performed before the irradiation of the VP magnet was a change of a natural fluctuation degree.

As described above, the tool of the present invention is smaller and lighter than the previously provided EOF device (a device for irradiating a living body with a wave such as a vector potential field for adjusting an autonomic nervous excitation current). It has the advantage that it can be used by attaching it to In addition, since the magnetic field of the magnet in the conventional magnetic therapy device is about 800 Gs, it may damage precious magnetic recording when carelessly approaching a floppy disk or video disk, but VP magnets are several tens of gauss. There is an advantage that such a danger is considerably reduced due to the weak leakage magnetic field. In addition, conventional magnets sometimes stuck to the surrounding iron products without knowing it, which was sometimes unsightly, but VP magnets have the advantage that they do not.

Since the VP magnet is magnetized in the circumferential direction of the ring and the magnetic circuit is closed, the magnetic field inside the magnetic material becomes much stronger and deteriorates (demagnetization) as compared with the conventional type magnet having the NS pole. ) Has the advantage of being difficult to perform. This means that a strong vector potential field A and a large A / B ratio value can be obtained over a relatively long period.

The tool of the present invention works well on clothes such as shirts without directly applying an adhesive tape to the skin. Therefore, it has the advantage that it can be used by people with skin allergies.

The above literature is described in [1] Ryodoraku Autonomic Nervous Modulation Therapy-Basic Edition, Academic Section of the Japanese Society of Acupuncture and Moxibustion, Kansai Acupuncture and Moxibustion Junior College, 1995. [2] Yoshio Nakatani, "The clinical practice of the latest Ryodoraku" Ryodori Institute (Neuro Medical Industry, 5-7-21 Toyosaki, Kita-ku, Osaka, Tel. 06-371
-0415). [3] Toshihiko Kamano, "Learn from the basics, the practice of Hari Kampo therapy", Nihonsha of Ido. [4] Takashi Aoki: Japanese Patent Application No. 4432626. [5] Takashi Aoki, Yoshinori Adachi: Effect of EQR device on bioelectrical impedance, pharmacology and clinic-Medical engineering treatment (Japan Society for Medical Engineering Therapy) Vol7, No.8, [6] Yoshinori Adachi, Takashi Aoki, Yasuhiro Yoshifuku, Katsushi Yoshida: Influence of Waves Generated by 80kHz Quartz Resonant System on Pulse, Human Body Science, 6 (1), pp.51 -58.1997. [7] Takashi Aoki, Yoshinori Adachi, Yasuhiro Yoshifuku, Katsushi Yoshida: Thermographic analysis of biological effects of waves generated by an 80kHz crystal resonance system, Human Science, 6 (1), pp.93-101.1997. [8] Takashi Aoki, Yoshinori Adachi, Yasuhiro Yoshifuku, Katsushi Yoshida: Calming and recovery effect of autonomic nervous excitation current of unhealthy person by wave of 80kHz crystal resonance system, Human Body Science, 7 (1), pp.1-12.1998. [9] Takashi Aoki: Japanese Patent Application 10-249194. [10] Takashi Aoki: Influence of Gauge Field and We
ak Magnetic Field on Electrical Conductivity
of Skin Surface. Journal of. Int. Soc. of
Life Information Science. Vol.16, No.2, pp.32
4-331. [11] Takashi Aoki, Wakako Aoki: Material's Emission In
duced by Light andIts Effect on Bio-impedanc
e, Journal of. Int. Soc. of Life Informatio
n Science. Vol.15, No.1, pp.235-252. [12] Takashi Aoki, Wakako Aoki: MEIS = Japanese Patent Application 9-260973. [13] Takashi Aoki, Wakako Aoki: MEIL = Japanese Patent Application 9 -39632. [14] For example, the Journal of the Ryodoraku Autonomic Neurology Society of Japan, the Journal of the Japanese Society of Acupuncture and Ryodoraku Medicine, etc. [15] Bunichi Takashima, Junichi Kawamata: Invitation to Acupuncture and Moxibustion, Shokabo, 199
Four. [16] Y. Aharanov and D. Bohm: Phys. Rev., 115,
485 (1959), 130, 1625 (1963). [17] Akira Tohmura: Aharanov-Bohm effect and its verification experiment,
Journal of the Physical Society of Japan, 42,7, pp. 616-624 (1987). [18] Akira Sotomura: Looking at the gauge field, Kodansha (Tokyo) 1997. [19] Yoshiro Onuki: Aharonov-Bohm effect, pp.1 -64, Frontiers of Physics 9, Kyoritsu Shuppan (Tokyo) 1987. [20] A. Tonomura et al: Proof of Aharanov-Bohm
Effect with Completely Shielded Magnetic Fi
eld, Proc. 2nd Int. Symp. Foundations of Qu
antum Mechanics, Tokyo, 1986, pp97-105. [21] Feynman et al .: Feynman physics 3 (Miyajima translation), pp.173-200, Iwanami Shoten, 1969.

[Brief description of the drawings]

FIG. 1 shows a VP magnet according to an embodiment of the present invention. (a) is a plan view. B is a magnetic field, and an arrow indicates the direction of the magnetic field. (b) is an AA sectional view of FIG. 1 (a).

FIG. 2 (a) is a perspective view of a VP magnet made of a ring-shaped magnetic body with a part cut away. (b) AA sectional view of FIG. 2 (a).

FIG. 3 is a longitudinal sectional view of four examples (a) to (d) of an embodiment combined with a normal permanent magnet.

FIG. 4 is a diagram showing another embodiment of the present invention. (a) A plan view of a VP magnet made of a ring-shaped magnetic material. (b) The side view of (a). B is a magnetic field, and an arrow indicates the direction of the magnetic field. The direction of the magnetic field is spiral.

FIG. 5A is a cross-sectional view showing a state in which a lens is fixed to a hole of a ring-shaped magnetic body, the whole is peeled off from an adhesive sheet and is sandwiched between sheets (AA cross-sectional view in FIG. 5B). (B) A plan view showing a state in which a lens is fixed in a hole of a ring-shaped magnetic body and the whole is peeled off from an adhesive sheet and sandwiched between sheets.

FIG. 6 is a cross-sectional view showing a state in which a cloth is applied so that the ring-shaped magnetic body does not directly touch the skin, and the adhesive sheet is peeled off and sandwiched between the sheets.

FIG. 7 (a) A ring-shaped VP magnet composed of two magnets having NS poles. (b) A rectangular VP magnet with holes composed of four magnets having NS poles. (c) A rectangular VP with a hole composed of two magnets having NS poles and two magnetic materials
magnet. (d) A rectangular VP magnet without holes composed of two magnets having NS poles and two magnetic materials.

FIG. 8: Autonomic nerve excitation current measurement positions at meridians H _{1 to} H ₆ and F _{1 to} F ₆ .

FIG. 9 is an autonomic nerve excitation current of each meridian before and 2 minutes after irradiation by the VP magnet of the subject A.

FIG. 10 shows acupoints with VP magnets attached.

FIG. 11 shows the autonomic nerve excitation current of each meridian at 4, 6, 8, 10, and 12 minutes after irradiation by the VP magnet of the subject A.

[12] change by the irradiation time t of the average current I _L and right of the average current I _R of the left obtained from the data shown in FIGS. 9 and 11.

FIG. 13 shows a change ratio I _a / I _{b of} an autonomic nerve excitation current with respect to a stimulation time t when a VP magnet is attached to a subject B and a stimulus such as a vector potential is applied.

[Explanation of symbols]

 1 VP magnet 2 holes 3 VP magnet made of ring-shaped magnetic material partially cut out 4 Notch 5 holes 6 Normal type NS pole permanent magnet 7 Normal type NS pole permanent magnet 8 Ring type normal type NS pole permanent magnet 9 Ring shape Normal NS pole permanent magnet 10 VP magnet 11 holes 12 Lens 13 Adhesive sheet 14 Hole 15 Peel sheet 16 VP magnet 17 Peel sheet 18 Adhesive sheet 19 Cloth 20-27 Normal NS pole permanent magnet 28,29 Magnetic material 30,31 Normal type NS pole permanent magnet 32,33 Magnetic material

Claims (11)

[Claims] 1. A tool for applying a vector potential field or the like to a living body by applying an annular magnetic body having a magnetic circuit in which a magnetic field inside the magnetic body is almost closed to skin or clothing. 2. The tool according to claim 1, wherein the ring-shaped magnetic body is a ring-shaped magnetic body having a notch. 3. The tool for applying a vector potential field or the like to a living body according to claim 1, wherein the ring-shaped magnetic body is a ring-shaped magnetic body in which a magnetic field inside is spirally rotated. 4. The tool for applying a vector potential field or the like to a living body according to claim 1, wherein a permanent magnet having an NS pole is fixed inside the hole of the annular magnetic body. 5. The tool for applying a vector potential field or the like to a living body according to claim 1, wherein a permanent magnet having an NS pole is fixed outside the hole of the annular magnetic body. 6. The tool for applying a vector potential field or the like to a living body according to claim 1, wherein a lens is fixed in a hole of the annular magnetic body. 7. One or more kinds of various materials such as ceramics, ceramics, zirconia, quartz, glass, minerals, gypsum, herbal medicine, chemicals, etc. are fixed in the holes of the ring-shaped magnetic body. A tool for applying the vector potential field or the like described in any one of 1, 2, 3, and 5 to a living body. 8. A tool for applying a vector potential field or the like according to claim 1 to a living body sandwiched between an adhesive sheet and a peeling sheet. 9. A tool for applying a vector potential field or the like to a living body according to claim 6, which is sandwiched between a peeling sheet and an adhesive sheet having a hole at a position of a lens. 10. The tool for applying a vector potential field or the like to a living body according to any one of claims 1 to 7, wherein the annular magnetic body has an annular shape, an elliptical shape, or a polygonal shape. 11. The vector potential field or the like according to claim 1, wherein the ring-shaped magnetic body is constituted by combining permanent magnets having a plurality of NS poles in an annular, elliptical or polygonal shape. tool.