JPH11146896A - Device for adjusting electric conduction in skin conductive route by using sonic wave and magnetic field or the like - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wave generating device where a frequency for generating wave is a variable type and high precision for frequency is not required in the device for generating wave by which skin conductive route electric conduction is adjusted. SOLUTION: Medicine cases 4-7 having a tunnel part, their lids, cotton, filters, a lens, a cylinder and glass wool are fixed inside the cylinder consisting of the three-layer structure of the cylinder 1, a wave adjusting substance layer 2 and the cylinder 3. A disk with a hole is fixed to the upper part of glass wool. A sonic wave generator is fixed on a circular bottom plate. A signal with a variable frequency from an oscillator is amplified and inputted to the electrode of the sonic wave generator and sonic wave is generated so as to pass through the tunnel parts of the medicine cases. A coil is wound around the cylinder 1, the cylinder 2 and one or some of the medicine cases and the direction of its magnetic field is adopted as the sonic wave propagating direction.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a therapeutic device. More specifically, the present invention relates to a device for irradiating a human body to adjust electric conduction of ryodoraku of skin to perform treatment.

[0002]

2. Description of the Related Art According to the Ryodoraku theory, the electrical conduction of Ryodoraku on the skin reflects the degree of excitement of the autonomic nerves [1-3].
It is considered that the higher the electric conductivity (the lower the electric resistance), the higher the excitement of the autonomic nerve related to the ryodoraku, and the lower the electric conductivity, the more the excitement is suppressed. In Ryodoraku autonomic nervous modulating therapy [Refs. 1-3], which focuses on this point, first, the electrical conduction of the skin at a specific part of the 24 meridians based on the Ryodoraku theory is measured (neurometry). . In this method, a current value when a constant voltage is applied is measured, and the measured value is charted in a dedicated diagnostic chart, and the chart is analyzed to perform diagnosis. The treatment is performed by adjusting the current value of the unbalanced (in other words, abnormally high or abnormally low electric conduction) meridian.

[0003] For this adjustment, electric acupuncture, acupuncture, moxibustion,
Hot moxibustion, ion corn, moxibustion head acupuncture, intradermal acupuncture, low frequency acupuncture, laser and other light beams, far infrared rays, ultrasound, ultrashort waves, etc. have been used [Refs. 1-3]. Also, one of the present inventors,
A device called an EQR device was provided as an adjustment device for skin meridian electrical conduction based on a principle different from the above various devices [Ref.
6, 16, 19, Japanese Patent Application No. 4-322616]. In addition, MEIL equipment [Reference 15, or Japanese Patent Application No. 9-39632] was provided. The above is the prior art.

[0004]

Most of the active medicines that we are currently benefiting from are largely based on Western medicine from Western science. While this has made tremendous progress and has helped mankind, it is currently causing a variety of harms and harms, and there is no good measure for many so-called intractable diseases. In addition, there is still a considerable number of people complaining of symptoms, even if no disease is found by modern medical examination equipment and there is no problem in Western medicine. In such a case, acupuncture and moxibustion, manipulative treatment Oriental medical treatment such as, may be successful.

[0005] Western medicine is characterized in that it attempts to analyze the human body analytically by dividing it into parts of each organ. On the other hand, Oriental medicine is characterized by the harmonious function of the whole body rather than by each part.
Although emphasis has been placed on the recovery treatment of an integrated system to keep the whole living body working smoothly, it is well known that these ideas of Oriental medicine have recently been reviewed and applied to clinical practice. is there. Scientific review of Oriental medicine has been made especially for chronic disease, geriatric disease, health maintenance and geriatrics
[References 7, 8]. In recent years, the need for preventive medicine has also been strongly recognized in Western medicine, but in terms of preventive medicine, it can be said that Oriental medicine, which aims to maintain the balance of the body, has also produced results. In the future, integrated medicine that takes advantage of the advantages of Western medicine and Eastern medicine will be needed.

[0006] Ryodoraku autonomic nervous system adjustment treatment, which emphasizes maintaining the balance of the living body, has achieved many achievements and is being scientifically elucidated [Refs. 7, 8]. However, there are many cases in which the skin meridian electrical resistance cannot be easily adjusted in the Ryodoraku autonomic nerve adjustment treatment. Under such circumstances, the development of a more excellent skin meridian electrical resistance adjusting device is an important issue, and one of the present inventors has already provided an EQR device as a new skin meridian electric resistance adjusting device. Has already reported in detail along with its biological effects [Ref. 4-
6, 16-19, Japanese Patent Application No. 4-322616].

The EQR device generates a special wave (or wave field) having an effect of adjusting the skin meridian electric conduction by using piezoelectric resonance of quartz. There is a property that the resonance frequency of the crystal is determined by the dimensions of the crystal. Therefore, if the frequency is to be changed, it must be replaced with a crystal having a different size each time, which is troublesome. It is desirable to develop such a device because changing the frequency at which a wave is generated can change the generated wave. However, the problem is that the frequency cannot be easily changed as described above. is there. In addition, since the Q value of the crystal is high, the resonance frequency accuracy needs to be approximately 5 digits or more. In addition, the resonance frequency changes with temperature, but there is a problem that it is necessary to cope with a temperature change with this frequency accuracy.

[0008] Therefore, an object of the present invention is to solve such a problem that a frequency for generating a wave is variable, and a high frequency accuracy is not required and it is not necessary to cope with a temperature change. (Or wave field) generator. As a wave generator,
There is a need to add more variability to the waves to accommodate various symptoms. Therefore, it is necessary to develop a wave irradiator for adjusting the excitation current of the skin ryori that operates on a principle different from that of the conventional device. Therefore, it is also an object of the present invention to generate a different type of wave by operating by a different mechanism.

[0009]

[Means for Solving the Problems] In order to solve the above problems, the following (a), (b) or (c) is used. (a) Waves of sound waves such as ultrasonic waves and audible sounds (B
S place). Since this is a field in which the magnetic field B and the sound wave S such as an ultrasonic wave are overlapped, the field is hereinafter called a BS field. The present inventor has discovered that exposing a living body to a BS field causes a change in skin meridian electrical conduction. This allows adjustment of the skin meridian electrical conduction.

(B) The wave (M) induced by a sound wave such as an ultrasonic wave
EIS). Since ancient times, there has been a method of treating a patient by placing herbal medicine in a cloth bag and attaching it to the side of a sick person who suffers from illness, or by using a pillow containing herbs. This is a method of treating without taking it, so it has been called foreign law. In the current foreign law, the method of sticking Chinese medicine on acupuncture points is mainly used. This is considered to be a treatment method in which the inherent wave (or wave field) of the Chinese medicine is applied to the living body. However, herbal pillows, herbal sachets, and herbal medicines have the disadvantage that the therapeutic effect is too low to rely on because the vibration is too weak. For this reason, there is a drawback that it is difficult to adapt to the medical system of modern science.

The present invention has been completed with inspiration from the above-mentioned external law. In other words, make the waves stronger than these,
Means for achieving a scientific device with a therapeutic effect that can withstand practical use, as well as for solving the above problems, include improving physical condition, relieving pain, and having a therapeutic effect. Around the passage where the sound wave travels (a medicine box described later) or a passage (a wave adjustment plate described later), such as Chinese herbal medicines, herbs, food, and other substances that form
When a sound wave is applied to the body, a wave peculiar to a substance such as Chinese herbal medicine is induced in that direction, and when the living body is exposed to this wave field, a change in the skin meridian electrical conduction occurs. ) Is used. This allows adjustment of the skin meridian electrical conduction.

(C) Wave induced by a sound wave such as an ultrasonic wave on which a magnetic field is superimposed (MEIS (B)). The present inventor has found that when a magnetic field is superimposed on the wave of the above (b), the biological action force increases. In this case, a weak magnetic field of about several gauss is sufficient. The present inventor has discovered that exposure of a living body to a wave field in which a magnetic field is superimposed on the wave of (b) causes a change in skin meridian electrical conduction. This allows adjustment of the skin meridian electrical conduction.

The wave obtained by the method using a light beam instead of the sound wave already provided [Ref. 15] is different from the wave obtained by the method using the sound wave according to the present invention. The method using a light beam [Ref. 15] cannot produce the same wave as that obtained by the apparatus of the present invention.
This seems to be due to the difference between light waves and sound waves.

[0014]

The present inventor creates a BS field by the structure shown in the following embodiment, and when a living body is exposed to this field, the phenomenon that physiological changes such as heart rate, pulse waveform, skin meridian electrical conduction, etc. occur. Found (experimental facts). Therefore, the skin meridian electric conduction can be adjusted using this exposure effect.

Further, the inventor of the present invention has a structure as shown in the following embodiment, in which the sound wave S is cut off by a material other than metal, such as ceramics, at the wave exit of the cylinder of the BS field generator. We have discovered that when placed in front of a wave exit, physiological changes such as heart rate, pulse waveform, and skin meridian electrical conduction occur (experimental fact). Therefore, some waves are appearing, and such a wave field is
(Material's emission induced by sound). A device that emits a wave MEIS is called a MEIS device. In this way, the skin meridian electrical conduction can be adjusted using MEIS.

Further, in this case, when the effect on the living body was investigated without supplying B, it was found that a physiological change such as a heart rate, a pulse waveform, and a skin meridian electrical conduction occurred (experimental facts). ). Therefore, the skin meridian electrical conduction can be adjusted using this phenomenon effect. This wave field that does not supply B will also be referred to as MEIS below. When the MEIS supplying B is to be distinguished from the MEIS not supplying B, the former is referred to as MEIS (B).

The experimental fact of the biological effect by irradiation of MEIS mentioned above is that a substance forms a wave field peculiar to the substance around the substance, and that a sound wave is applied to the wave field. Means that a wave (or a wave field) inherent to a substance can be guided in the direction of travel. That is, if a substance such as Chinese herbal medicine that improves physical condition, relieves pain, and forms a wave having a therapeutic effect is disposed around or along the path of sound waves, the waves from these substances are mixed. A wave having a therapeutic effect can be derived as a wave having directivity in a specific direction, and this wave can be irradiated on a human body. This wave is EQ
It has a similar biological effect as the R device. Ultrasonic waves have an excellent effect among the sound waves.

As will be described later, the electric conductivity of the skin related to the excitation of the autonomic nerves of the meridians before and after the irradiation of the living body with the BS field or MEIS is examined and compared. It can be seen that the change has occurred. Therefore, the BS field or MEIS has the effect of adjusting the abnormal excitation level of the autonomic nerves of the meridians. As described above, the BS field or MEIS can act on the autonomic nervous system, so that a therapeutic effect occurs.

[0019]

FIG. 1 is a perspective view of one embodiment of the present invention. FIG. 2 is a sectional view taken along line AA of FIG. FIG. 3 is a schematic perspective view of the solenoid coil 4 shown in FIG. First, figure
The basics of the method for implementing the present invention will be described based on 2. A sound wave generator 7 is arranged in a cylinder 5 around which a solenoid coil 4 is wound, and an AC current is supplied to current introduction terminals 8 and 9 of the sound wave generator 7 and a DC or AC current is supplied to the solenoid coil 4 This is an essential requirement of the present invention. However,
These power supplies are not shown. The drawing of the internal structure of the sound wave generator 7 is omitted. The frequency of AC supplied to the current introduction terminals 8 and 9 of the sound wave generator 7 is several tens Hz to 100 kHz.
Is enough. The signal of the variable frequency oscillator is amplified and input to the current introduction terminals 8, 9 of the sound wave generator 7 to generate sound waves. As the sound wave generator, any of a piezoelectric element, an ultrasonic wave generating element, a buzzer, a vibrator and a speaker may be used. In the present embodiment shown in FIG. 2, a diagram using a commercially available ultrasonic transducer as the sound wave generator 7 is illustrated.
When a current is supplied to the current introduction terminals 8 and 9, a sound wave from the sound wave generator travels upward in the tube 5. When a current flows through the solenoid coil 4, the magnetic field B
Occurs. Therefore, it is possible to position the living body above the apparatus in FIG. 2 and irradiate the living body with a sound wave in which a magnetic field is superimposed, that is, a BS field.

It is convenient to add a sound wave adjusting plate 3 to the above essential requirements. The sound wave generated from the sound wave generator travels upward in FIG. 2 through the inside of the cylinder 5 and reaches the sound wave adjusting plate 3, but at this time, the sound wave adjusting plate 3 attenuates the sound pressure to an appropriate level, and Released to the outside. Figure 2
In the figure, the sound wave adjusting plate 3 is drawn as a concave lens,
In this case, since the ultrasonic beam converges, it is convenient to irradiate a specific part of the living body. Therefore, the sound wave adjusting plate has a function of adjusting the beam intensity and the spread. As the sound wave adjusting plate, a convex lens type or a flat type is used as necessary. Although not shown in detail in FIG. 2, it is convenient to remove the sound wave adjusting plate at any time and replace it with a replaceable structure (a conventional technology such as an interchangeable lens for a camera may be used).

In FIG. 2, a permanent magnet 14 may be used as a solenoid coil for generating a magnetic field as shown in FIG. This magnet may be a ring-shaped permanent magnet 15, a bar-shaped permanent magnet 16, or a bar-shaped permanent magnet 17 as shown in FIG.
It is. The inner diameter of the ring-shaped permanent magnet 15 is made substantially equal to the outer diameter of the cylinder 5 (FIG. 4). Since these permanent magnets generate a magnetic field, a sound wave with a superposed magnetic field, that is, a BS field can be generated.

As described above, the inventor of the present invention has proposed that ultrasonic waves other than metal,
For example, they discovered that when irradiated with a ceramic shield and no magnetic field, physiological changes such as heart rate, pulse waveform, and skin meridian electrical conduction occur. In this case, the emitted wave is called MEIS. This MEIS applies the sound wave to the unique wave field of the material constituting the cylinder 5, the cylinder 1, or the sound wave adjusting plate 3, so that the sound wave travels. The wave (or wave field) inherent to the substance is induced in the direction.

Accordingly, when various substances are introduced into the material constituting the cylinder 5, the cylinder 1, or the sound wave adjusting plate 3, not only the wave of the material but also the wave of the introduced substance can be used. For example, a cylinder or a sound adjusting plate may be made of one or more of plants, cloth, cotton, non-woven fabric, glass wool, expanded quartz, acrylic resin, plastic, glass, ceramics, minerals, gypsum, herbal medicine, medicine, herbs, and food With a cylinder or plate made of a material, these waves can be used. Such a sound wave adjusting plate also has a role as a wave adjusting plate. There is a method of baking mixed pottery and ceramics with tourmaline and other elements. Since this is strong, it is convenient in manufacturing. 1,2,5
If metal or vinyl chloride is used, a wave which is not desirable for a living body is generated, so that these are avoided. However, FIG.
As a housing for accommodating the entire structure described above, a metal or vinyl chloride housing may be used outside the cylinder 1.

Further, as a method of utilizing the wave peculiar to the substance, it is more effective to dispose a medicine box as shown in FIG. 6 inside the cylinder 5 and store a Chinese medicine or the like in this medicine box. Figure 6
Numeral 18 is a medicine box consisting of eight small rooms (not limited to eight, but shown as an example in the figure, eight), each of which contains various kinds of medicines such as Chinese herbal medicines, herbs, and food. , Containing other substances. Here, other substances include, for example, cloth, cotton, water, salt, calcium, shells, zirconia, quartz, crystal, unglazed, pottery, porcelain, plants, ceramics, acrylic, glass, glass wool, rock (for example, Stone, obsidian, granite, tourmaline, etc.), minerals, gypsum, plant seeds (eg, morning glory seeds, radish seeds, plum seeds, sunflower seeds, etc.). Food is, for example, rice, barley, wheat, barley, buckwheat, cereals such as beans, dried fruits such as dried plums, dried apricots, dried noodles, processed foods such as udon, and dried fruits and vegetables. is there. Numerals 19 and 20 shown in FIG. 6 are medicine box lids, which are adhered to 18 and used. A tunnel 21 is opened in the center of the medicine box.

It is preferable to use materials such as ceramics, unglazed ceramics, glass, acrylic, etc. for the material of the medicine box, and it is necessary to avoid using metal materials to prevent wave motion. Items in medicine boxes are more effective when prescribed according to symptoms.

FIG. 7 is a cross-sectional view of an example showing a method of disposing a medicine box inside a cylinder. As described above, a substance (drug, etc.) forms a wave field peculiar to the substance around it, and by applying a sound wave to this wave field, the wave (or wave field) peculiar to the substance in the direction of the sound wave travels Can be induced,
Now, the sound waves such as the ultrasonic waves emitted from the sound wave generator 7 are directed upward in FIG. 7, but the tunnels 21 and 2 at the center of the medicine boxes 18, 18, 18 and 18 are shown.
It sequentially passes through 1,21,21, and at this time, the wave of a substance such as a medicine in the medicine box is guided upward. In this case, it goes without saying that the wave of the material of the medicine box itself is also guided by sound waves such as ultrasonic waves.

In addition to the medicine box, as shown in FIG. 7, it is also advantageous to provide a wave adjusting layer 28 formed by mixing a Chinese medicine or the like between the cylinder 27 and the cylinder 29. Cylinder 29 is a wave adjustment layer
Since 28 supports this when it is soft, the adjustment layer
The cylinder 29 is unnecessary if the strength is provided in the cylinder 28.

Further, as shown in FIG. 7, a wave adjusting layer 23 formed by mixing a Chinese medicine or the like may be enclosed in lids 23, 25 and a ring 26 of the wave adjusting layer made of a material such as ceramics. That is, these 23 to 26 constitute a wave adjustment plate. As the wave adjusting layer 23, one or more kinds of plant, cloth, cotton, non-woven fabric, glass wool, expanded quartz, acrylic resin, plastic, glass, ceramics, minerals, gypsum, herbal medicine, medicine, herbs, and food Is used. The materials of the adjustment layer lids 24 and 25 are wood, unglazed pottery,
Ceramics, acrylic, glass, etc. 23,24,25,2
The emitted wave differs depending on what is used for the material of 6. Do not use metal materials for these. This is because the metal does not easily transmit the wave.

As shown in FIG. 7, when the cotton 22 is disposed around the sound wave generator, the cotton 22 not only functions to give a wave of the cotton but also the tunnel portion 21 of the sound wave emitted from the sound wave generator.
It also has the function of absorbing sound waves traveling in directions other than.
Now, the sound wave such as the ultrasonic wave emitted from the sound wave generator 7 goes upward in FIG. 7, but at that time, the wave of the cotton 22 is guided upward. Further, sound waves such as ultrasonic waves sequentially pass through the tunnels 21, 21, 21, 21 at the center of the medicine boxes 18, 18, 18, 18, and at this time, the waves of substances such as medicines in the medicine boxes rise upward. Guide to. In this case, it goes without saying that the wave of the material of the medicine box itself is also guided by sound waves such as ultrasonic waves. Furthermore,
Sound waves such as ultrasonic waves are absorbed to some extent by the cotton 30, but the remaining acoustic power not absorbed passes through 23, 24, and 25 and is emitted to the outside of the cylinder together with the MEIS.

In this case, the MEIS is emitted even if a wave adjusting plate which does not emit a sound wave such as an ultrasonic wave through the wave adjusting plate is used. In other words, the wave MEIS, in which waves from various substances are mixed, is guided by sound waves such as ultrasonic waves and reaches the upper part of the medicine box 18, and further passes through the cotton 30 and the wave adjustment plate even if there is no sound wave any longer. Phenomenon that is released to the upper part occurs. Here, the wave adjustment plate serves to add the wave and finally adjust the wave. In addition, the cotton 30 has a function of absorbing sound waves such as ultrasonic waves and also has a purpose of utilizing the wave of the cotton.

The inventor of the present invention has found that the transmission characteristics of a wave MEIS emitted and guided by sound waves are similar to the characteristics of light rays, and this phenomenon is applied to the embodiment of FIG. . That is, the lens 32 has the effect of converging and releasing the wave MEIS emitted and guided by the sound wave so as not to diffuse.

In FIG. 8, reference numeral 34 denotes glass wool (or quartz wool), and reference numeral 35 denotes a perforated disk. As described above, when the sound wave rises through the tunnel, the wave of the substance such as the medicine box is induced and rises in the tunnel, and the wave of the substance such as the wave adjusting plate and cotton 30 is also mixed, and the lens is moved. Penetrates,
A phenomenon occurs in which a part is raised and released through the glass wool 34. In order to be able to use this as well, the peripheral parts (34, 35) of this lens are prepared.

The lens shown in FIG. 8 may use a larger lens. An example is shown in FIG. Larger lenses cost more, but are easier to manufacture than the structure in Figure 8.

The inventor of the present invention has found that when a magnetic field B is applied in a direction as shown in FIG. 10 to a wave MEIS induced by a sound wave from a medicine box or the like, the action force causing a physiological change of a living body increases. I discovered that. Therefore, the superposition of the magnetic field has an advantage that the irradiation distance (the distance between the irradiated portion and the apparatus) can be increased. In FIG. 10, an arrow S indicates the direction of sound wave propagation, 41 is a power supply, and 42 is a solenoid coil. A few milligauss is sufficient for the magnitude of the magnetic flux density at the irradiation position. FIG. 10 shows a case where a direct current is used. However, if an alternating current is used, the direction in which the material wave is induced is reversed every half cycle. A permanent magnet as shown in FIG. 5 may be used in place of the solenoid coil.

In FIGS. 8 and 9, a solenoid coil for generating a magnetic field may be wound around a cylinder 27 or 29, for example. Alternatively, medicine boxes 18, 18, 1 in which four solenoid coils 43 as shown in FIG. 11 (a) are connected as shown in FIG. 11 (d).
The upper and lower medicine box lids 19, 20 of the upper and lower parts 8, 18 may be fixed to each other. FIGS. 11B and 11C are a side view and a plan view, respectively, of FIG. 11A. 44 and 45 are terminals for introducing current to the solenoid coil.

When enclosing an aqueous solution or a damp substance in the medicine box, the medicine box can be easily manufactured by adopting a structure like a medicine box 46 shown in FIG. An aqueous solution or a damp thing is put in the medicine bottle 47 and covered with a cap 48 so as to prevent leakage. The sound wave from the sound wave generator 7 is caused to pass through the tunnel 49. Here, the medicine box is made of glass, acrylic,
Pottery, fine ceramics, etc. are preferred. Metallic materials must be avoided because waves are difficult to transmit. FIG.
The arrow S indicates the propagation direction of the sound wave, and the arrow MEIS indicates the direction of the wave MEIS.

[0037]

The effects of the apparatus of the present invention will be described. Regarding the electrical conduction of the ryodoraku of the skin, a constant voltage was applied between each acupoint and the palm, and the current flowing therethrough was measured. Here, the measuring instrument LC-M type neurometer (Neuro Medical Industry, 5-7-21 Toyosaki, Kita-ku, Osaka-shi) by the established measuring method
The current was measured using [1] and [2].

As described above, the current value measured at the constant voltage condition on the skin surface of the acupoint on the meridian point as described above has a strong correlation with the excitability of the sympathetic nerve of the meridian point, and the electrical 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 treatment to correct abnormal levels of autonomic nervous system (Ryodoraku autonomic nervous system adjustment therapy) is based on the Ryodoraku theory based on the left 12 meridians and the right 12 meridians in a total of 24 points (see Table 1). The electric conduction is measured by a neurometer, and the measured values are plotted on the chart for Nakatani diagnosis, and the chart is used for diagnosis [Ref. 1,
2].

Adjustment of the level of the current value of the meridian indicating abnormal electrical conduction of too high or too low is usually performed using biological stimulation such as acupuncture and moxibustion. Here, the irradiation is performed by the apparatus of the present invention. In the irradiation method, the subject is first 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. In this case, the subject was also irradiated with a part where he felt severe, uncomfortable, or uncomfortable. Although the irradiation distance is effective even if it is about 1 m away, in this experiment, it was set to about 10 to 15 cm so that positioning with respect to the irradiation part was easy.

FIG. 13 shows the result of irradiating the subject A using the apparatus shown in FIG. In this case, a commercially available airborne ultrasonic generator (MA80A1, manufactured by Murata Manufacturing) was used as the acoustic wave generator. This is the center frequency 75 ± 5kHz, transmission and reception sensitivity -4
5dB, maximum input voltage 120Vp-p, external dimensions 47 (mm) φ × 24.5 (m
m) h. This impedance / frequency characteristic is shown in FIG. Here, a frequency of about 70 kHz was used. Figure 2 cylinder
5 was made of gypsum plaster containing gauze having an inner diameter of 57 mm, an outer diameter of 77 mm and a length of 145 mm, and the cylinder 1 was made of hard vinyl chloride having an inner diameter of 84 mm, an outer diameter of 89 mm and a length of 172 mm. Disk 10 is 57mm in diameter, thickness 10
Cast plaster with mm gauze was used. Sound wave adjustment plate 3
Is a disk-shaped flat plate in which several cloths are stacked. A position about 15 cm away from the end of the apparatus was defined as an irradiation distance d. d = 15cm
The sound pressure at the position is about 93 dB, and the magnetic flux density B is about 2 Gs. The numerical values and materials such as dimensions, sound pressure, and magnetic field described here are examples used in the experiment of FIG. 13, and the present invention is not limited to these numerical values and materials. This device is hereinafter referred to as a BS device.

The abscissa of FIG. 13 shows each meridian shown in Table 1.
s), the vertical axis represents the autonomic nerve excitation current. Io (□) is the current value before irradiation, and Ib (●) is the current value after irradiation by the placebo BS device. Here, the placebo BS device is a device which does not include the sound wave generator 7, the solenoid coil 4, the cylinder 5, etc., but has the same appearance as the real BS device. Before the irradiation, the subject A felt loose due to fatigue and felt heavy to pain near the kidney, liver, and spleen. In the meridian spectrum of Io (□) shown in FIG. 13, the currents of the spleen (F1), kidney (F3), liver (F2), and bladder (F4) are relatively small. The left and right spleen, kidney, liver and bladder were irradiated for a total of 30 minutes. The result is Ib (●), but Io
There is not much change compared to (□). Subject A did not recover from fatigue or pain.

Next, the left and right spleen, kidney, liver and bladder were irradiated with the BS device for a total of 30 minutes in the same manner as described above. The result is Ia (○) shown in FIG. The currents in the spleen, kidney, liver, and bladder that were too low have recovered. But Ia
In the case of (左右), the balance between left and right (L and R) is poor and a saw-like graph is formed. This is a phenomenon that appears when the irradiation time and position on the left and right are not uniform, or when there is a difference between the left and right effects. Therefore, in order to improve the sawtooth spectrum, the kidney healing (left) and spleen healing (left) were irradiated for a total of 10 minutes. The resulting spectrum is Ic (△). Ic (△) has a better left / right imbalance than Ia (○). After this irradiation, the subjects recovered.
It should be noted that the current values of the lungs and the heart have also increased, but such a tendency tends to occur because the irradiation of the above-mentioned sites has been affected.

Next, the effect of the MEIS device will be described. MEIS
When examining changes in skin electrical conduction related to the excitation of the autonomic nerves of the meridians when the human body is irradiated by the wave MEIS generated from the device, another fake MEIS device with exactly the same appearance and weight as the above MEIS device was added. Made. Since this is for a placebo effect experiment, it does not generate wave MEIS.

[0044] Figure 15 is Nakatani chart (= Ryodoraku diagnostic graph, [Document 2]) shows the current value I _b before irradiation by MEIS apparatus of the subject B shown in. Subject A before irradiation
Had a severe stomach and fatigue. It is considered that the health is good if the current shows a flat characteristic in the horizontal axis direction, but the plot before irradiation (black circle) shows the gastric (F6) and gallbladder
The current of (F5) is too small and lacks the balance of the autonomic nerve excitation level as a whole. Next, the current level of the liver meridian (F2) is also low.

Ia in FIG. 15 is the current value after irradiating mainly the stomach, gallbladder and their meridians for a total of about 40 minutes. Irradiation was performed using the MEIS device having the structure shown in FIG. FIG. 17 shows the impedance / frequency characteristics of the sound wave generator used in this MEIS device. The current change rate R due to this irradiation is defined as R = ( _{Ia- Ib} ) / _Ib , and is shown in FIG. The stomach and gallbladder at the treated site have changed significantly. Then Systeme As can be seen from FIG. 16, has improved low too before irradiation current value I _b was is better balanced as a whole when the current value I _a comparison of post-irradiation is (= flatness gallbladder through ). It is considered that the greater the current, the greater the vitality (the lower the degree of fatigue) [Refs. 1, 2]. Comparing the average value of _{Ia and} the average value of _Ib , it can be seen that _Ia is larger and the degree of energy is improved (recovers from fatigue). ME
It is considered that IS irradiation has a function of adjusting the level of excitation of the autonomic nerves related to the irradiated site and of maintaining an overall balance between the autonomic nerves. By this treatment, the severe stomach of the subject B was healed, and the fatigue was recovered. Sham MEIS did not cause significant changes.

FIGS. 18 and 19 show an apparatus in which the cotton 40 is replaced with a ceramic plate in the apparatus of FIG.
The result of irradiating the subject C with the MEIS device) and the placebo device is shown. In FIG. 18, Ib (●) indicates the meridian autonomic nerve excitation current before irradiation. The current is too low overall, but especially the spleen (F
1) The current of the kidney (F3) and bladder (F4R) is too low. In this case, the blood vessels (H2) and hearts (H3) are low, but
Spleen healing, renal healing, and bladder healing were irradiated at the acupuncture points, such as the renal and bladder, using a MEIS device for a total of about 20 minutes. The result is Ia (○).
The current value of the irradiated meridian has risen considerably.

FIG. 19 shows data three days before the irradiation in FIG. 18 and shows the result of irradiation with a placebo MEIS device. In FIG. 19, Ib (●) indicates the meridian autonomic nerve excitation current before irradiation. In particular, the current in the spleen, kidney, and bladder is too low. In this case, the blood vessels and the heart were low, but the spleen, kidney, and bladder were first irradiated with a MEIS device for about 20 minutes through the acupuncture points such as the spleen, kidney, and bladder. The result is Ia (○). No significant change has occurred compared to Ib (●). Compare MEIS with Fig. 18 and Fig. 19
It can be seen that the device has a regulating effect on the meridian autonomic nerve excitation current.

A having substantially the same function as a neurometer
A diagnostic device called MI or Precare Naday is commercially available [sold by Kanaken Corporation or the like. Literature 13,1
Four]. This is also a device that measures the electrical conductivity of each meridian and diagnoses it. The impedance of each meridian of the living body, the pre-polarization current value BP (corresponding to information on the body fluid circulation function), and the post-polarization current value AP (autonomic nervous function) , And IQ values (corresponding to information on defense functions). With this, MEIS
Examination of the irradiation effect showed that the defense function and body fluid circulation function were generally improved.

Although the device of the present invention has a relatively simple structure, the fact that subjects A, B, and C have recovered and the defense function
Considering the improvement of the body fluid circulation function, it is clear that the wave BS and MEIS of this device are not virtual but actual ones that can perform practical treatments that exert the above-mentioned effects on the living body. In addition, since this wave penetrates clothing, it can be irradiated with clothing.

When the living body was irradiated with the wave BS and the MEIS, the following (1) to (9) occurred as in the case of the EQR previously reported [4, 5, 6].

(1) When the human body is irradiated with BS and MEIS,
The affected part, the imbalanced part of the living body and the undiseased part
(a) warm feeling (the body warms up warmly), (b) pressing feeling (the feeling of being hit by the touch of some fine particles), (c) cooling feeling (the feeling of blowing cool wind), (d) numbness ( Vibration runs, sometimes the meridians resound or feel like glued),
Six sensations (sounds) appeared, such as (e) a feeling of wind flowing as if the wind flows through the body, and (f) an ant running feeling (especially when irradiating the head) as an ant crawling on the skin. In addition, (g) even a healthy person may have a feeling of ease (slumberiness) that makes him feel comfortable at last. Which of the above seven sensations occurs depends on the irradiation site, the condition of the human body at that time, and individual differences.

(2) When the human body is irradiated with BS and MEIS,
Pulse, heart rate, muscular strength, sweat gland activity, bioelectrical impedance, EEG, changes in fluid circulation, recovery and analgesic effects occurred. Irradiation to an injured or affected area may cause a painful sound at first, but as the healing progresses, the sound becomes smaller and disappears as the healing approaches.

(3) When a heavy part of the body is irradiated, for example, when the stomach is heavy and the abdomen is irradiated, a feeling that something flows into the abdomen, a feeling that the gastrointestinal tract moves in the abdomen, or the above (1) After the sensation shown,
Stomach may be light.

(4) In the treatment of acupuncture and moxibustion, a meditation response (also referred to as an upturn response) may appear, but in some cases, a similar response appears when the device is subjected to wave irradiation.

(5) When wave irradiation is applied to the abdomen, the abdomen may start to gurgling or eventually fart, and the intestinal activity may be improved. May be lighter when irradiated when stomach is heavy due to overeating.

(6) Regardless of which part of the body is irradiated, depending on the amount of irradiation, there are some people whose irradiated part becomes warm (or hot) some time after irradiation.

(7) When irradiating the body somewhere, a slowing action of the brain wave occurs, and when the body is kept quiet, an α wave is likely to be emitted. Some people sleep during the day. At night, the majority of people sleep better (effective for insomnia).

(8) There is a small number of people who cannot sleep when they irradiate before going to sleep, because of the excitatory action of the autonomic nervous system.

(9) When the water irradiated with MEIS is analyzed by NMR (nuclear magnetic resonance), a change in the half width of the spectrum of oxygen 17 is observed. That is, since the relaxation time changes, some structural change of water occurs.

The strength of the waves BS and MEIS can be changed by the power supplied to the sound wave generator, that is, the strength of the acoustic power. Then, for example, in the case of FIG. 17, the frequency at which the impedance becomes a maximum (the anti-resonance point, 41.1, 49.5,
Except around 54.6kHz), it can emit ultrasonic waves with frequencies of about 40kHz to about 90kHz. In this case, the frequency accuracy does not need to be as high as that of a quartz oscillator, but may be about two digits, so that a normal oscillator can be used. As described above, when the frequency of the ultrasonic wave is changed, the type of the emitted wave changes. For example, the lower the frequency, the more round the wave, and the higher the frequency, the more severe the wave. The present apparatus is characterized in that the frequency is variable and the type of emitted wave is variable without being bothered by the frequency accuracy and the temperature change.

(Identification of released wave MEIS) When MEIS is irradiated to the human body, skin surface temperature, pulse, blood pressure, blood flow, brain wave,
The skin electrical resistance, etc., change, and the NMR spectrum of water changes. What is the identity of MEIS that gives such an effect? According to various research results, it is based on far-infrared rays, electromagnetic waves, Something else that is not a known physical quantity such as ultrasound, radiation, ions, etc.
It can be said that the wave is known in the future.

The present inventors have made the following hypothesis. That is, according to quantum mechanics, matter is a wave, so that the body is also composed of the wave. And each organ has its own characteristic wave of life, and it is thought that the whole body forms one ordered wave of life characteristic. When some disease occurs in some organs of an organism, it becomes an abnormal wave state. In that case, by irradiating the affected part with a special mechanical wave generated mechanically, the deteriorated wave field could be adjusted, and in this case, the organ would heal in some cases. It is. This wave must be able to act sufficiently on the biological characteristic wave, so it may be necessary to change the type of wave according to the symptoms.

When a device for generating such a wave is made using known physical quantities such as far-infrared rays, electromagnetic waves, ultrasonic waves, radiations, ions, and the like, the conventional physical therapy device and its effects are within the scope of its effect. Since we could only do something that stayed, we decided to use an unknown SF-like future wave. This may be dissatisfied, but looking back at the history of science, the identity of X-rays was unknown when they first appeared. In addition, measurement was not possible because the measuring instruments (GM tubes, etc.) had not yet appeared at that time. However, it has been known that excessive irradiation causes swelling of the hands and adversely affects the living body, and that platinum barium cyanide emits fluorescence with X-rays. However, it was 12 years after the discovery that the identity of X-rays was a type of electromagnetic wave. From this, it is unlikely that anything whose identity has not been clarified is unscientific.

As described above, the wave MEIS is different from the known physical quantity.
Can not be measured, but has the above effects on living organisms and water. This is considered science in the field of underdeveloped measuring instruments, as X-rays used to be.

For example, when Boyle's law regarding gas was discovered, the principle (mechanism) of why the law was established was unknown. It was only phenomenology, but it was helpful. Long after the discovery of Boyle's law, gas molecular kinetics was formed, and only then was the mechanism of Boyle's law understood. In the process of establishing science, phenomenology often first appears first. Similarly, MEIS is currently a phenomenology.

(Effects of the Invention, Summary) The above is summarized as follows. Invented a new wave generator. Examination of the skin meridian autonomic nerve excitation current using a neurometer showed that the current value of the person irradiated by this device was
It was found to show a significant change compared to that of the placebo device. This device has the effect of adjusting the abnormal autonomic nervous excitation current, and, like the EQR device, metabolism, endocrine,
Influences blood circulation promotion and has a therapeutic effect. And E
Compared to a QR device, it has the advantages that it is simpler to manufacture and inexpensive, because it does not bother with frequency accuracy, and that it can irradiate various types of waves at different frequencies. In addition, unlike acupuncture and moxibustion, noninvasive treatment is possible, so that it is easy to be accepted by the patient (it is hard to be rejected), and there is also an advantage that no side effect due to taking the drug occurs because the drug is not taken.

The above literature is described in [1] Ryodoraku Autonomic Nerve 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, "Biological effects of waves generated by piezoelectric resonance of quartz single crystals," Oriental Medicine and Pain Clinic (Osaka Medical University, Department of Anesthesiology) 23 (3), pp.111-122, 1993. [5] Takashi Aoki, "An Unusual Example of Biological Effects of Waves Generated from an 80kHz Quartz Resonant System" Human Science, Vol. 4, No. 1, pp. 11-
31 (1995). [6] Takashi Aoki, "Effects of Waves Generated from 80kHz Quartz Resonant System on Bioelectrical Impedance," Human Science,
Vol. 5, No. 1 (1996), pp. 75-82. [7] For example, the Journal of the Ryodoraku Autonomic Neurology Society of Japan, the Journal of the Japanese Society of Acupuncture and Ryodoraku Medicine [8] Bunichi Takashima, Junichi Kawamata: Invitation to acupuncture and moxibustion, Shokabo, 1994. [9] T. Yamamoto, T. Roh, T. Aoki, F. Kusaka, A. Seto, T. Guo, T. Sato, T. Kasahara, T. Hisamitsu: Magnetic and Quartz Single Crystal Excitation Waves Deteriorate Mouse and Macrophage Poor Efficiency Increase, magnetism and living body (ISBN-915501-01-8), 21 (1), pp.39-46,
1994. [10] Chifuge Takeshige, Takashi Aoki: Response of pineal gland and EEG by Qi Qi generator, Abstracts of the 71st Annual Meeting of the Physiological Society of Japan, p.
195, 1994. [11] Chiwashi Takeshige: EEG changes due to qigong appearing through the pineal gland, Abstracts of the 3rd Annual Meeting of the Japanese Society for Human Sciences, p.22, 1993. [12] Takeshige, T. and Aoki. T .: Effect of Artif
icial and Human External Qigong on Electroen
cephalograms in Rabbit and SpontaneousElectric
al Activity of the Rat Pineal Gland, Acupun
cture and Electrotherapeutics Res.Int.J.v
ol.19, pp.89-106,1994. [13] Hiroshi Motoyama: Measurement of Meridian Organ Function, Religion Shinri Shuppan, 1974. [14] Motoyama, Hiroshi: AMI and Qi Flow, Journal of the Ryodoraku Autonomic Neurology Society of Japan, 33 (6) .pp.22-30. [15] Takashi Aoki, Wakako Aoki: Material's Emission In
duced by Light andIts Effect on Bio-impedanc
e, Proc. Int. Soc. of Life Information Scie
nce. Vol.15, No.1, pp.235-252, 1997. [16] Takashi Aoki, Yoshinori Adachi: Effect of EQR device on bioelectrical impedance, pharmacology and clinic-medical engineering treatment (Japan Society for Medical Engineering and Treatment) Vol.7, No.8, (1997) pp.277-281. [17] Yoshinori Adachi, Takashi Aoki: Influence of the EQR device on the living body-pulsation and thermography analysis, pharmacology and clinical practice-medical engineering treatment (Nihon Medical Engineering) Therapeutic Society) Vol 7, No. 8, (1997) pp. 273-27
6. [18] Yoshinori Adachi, Takashi Aoki, Yasuo Yoshifuku, Katsushi Yoshida: 80kHz
Influence of the wave generated by the crystal resonance system on the pulse,
Human Body Science, 6 (1), pp.51-58.1997. [19] Takashi Aoki, Yoshinori Adachi, Yasuhiro Yoshifuku, Katsushi Yoshida: 80kHz
Thermographic analysis of biological effects of waves generated by a quartz resonator system, Human Science, 6 (1), pp.93-101.1997.

[Brief description of the drawings]

FIG. 1 is a perspective view of one embodiment of the present invention.

FIG. 2 is a perspective view of an AA section in FIG.

FIG. 3 is a toroidal coil.

FIG. 4 is a sectional view of one embodiment of the present invention.

FIG. 5 is a permanent magnet.

FIG. 6 is a development view of a medicine box.

FIG. 7 is a sectional view of one embodiment of the present invention.

FIG. 8 is a sectional view of one embodiment of the present invention.

FIG. 9 is a sectional view of one embodiment of the present invention.

FIG. 10 shows a method of generating a magnetic field using a solenoid coil.

FIG. 11 is a sectional view of one embodiment of the present invention.

FIG. 12 is a perspective view of another embodiment of a medicine box.

FIG. 13 shows the autonomic nerve excitation current (I) of subject A for each meridians.

FIG. 14 shows a frequency characteristic of the impedance of the ultrasonic generator.

FIG. 15 shows the meridian autonomic nerve excitation current for each meridian of subject B.

FIG. 16 shows a current change rate (I _a -I _b ) for each meridian of subject B
/ I _b .

FIG. 17 shows a frequency characteristic of the impedance of the ultrasonic generator.

FIG. 18 shows the meridians' autonomic nerve excitation current for each meridians of subject C.

FIG. 19 shows the meridians' autonomic nerve excitation currents for each meridians of subject C.

[Explanation of symbols]

 1,2 cylinder 3 sound wave adjustment plate 4 solenoid coil 5 cylinder 6 spacer (cylindrical) 7 sound wave generator 8,9 current introduction terminal 10 disk 11,12 current introduction terminal 13 spacer (plaster) 14 permanent magnet 15 ring permanent Magnet 16 Bar-shaped permanent magnet 17 Bar-shaped permanent magnet 18 Medicine box 19 Medicine box lid 20 Medicine box lid 21 Tunnel 22 Cotton 23 Wave adjustment layer 24, 25 Wave adjustment layer lid 26 Ring 27 Cylinder 28 Wave adjustment layer 29 Cylinder 30 Cotton 31 Cotton fixing ring 32 Lens 33 Cylinder 34 Glass wool 35 Perforated disk 36 Lens 37-39 Ring 40 Cotton 41 Power supply 42 Solenoid coil 43 Solenoid coil 44 Current introduction terminal 45 Current introduction terminal 46 Medicine box 47 Medicine bottle 48 Cap 49 Tunnel part

[Table 1]

Claims (13)

[Claims] An apparatus in which a sound wave generator for generating a sound wave is fixed inside a cylinder and a solenoid coil for generating a magnetic field is attached to the cylinder, and a power supply for supplying a current to the sound wave generator and the solenoid coil And a skin conduction filter electric conduction adjusting device. 2. The apparatus according to claim 1, wherein the sound wave generator is one of a piezoelectric element, an ultrasonic wave generator, a buzzer, a vibrator and a speaker. 3. The apparatus according to claim 1, wherein the solenoid coil for generating a magnetic field is one of a ring-shaped permanent magnet 15, a rod-shaped permanent magnet 16, and a rod-shaped permanent magnet 17. 4. The apparatus for adjusting electric conduction in skin according to claim 1, wherein a sound wave adjusting plate having an action of attenuating, converging or diverging sound waves is provided at an end of the cylinder. 5. The sound wave adjusting plate is made of plants, cloth, cotton, non-woven fabric,
5. A plate made of one or more of glass wool, expanded quartz, acrylic resin, plastic, glass, ceramics, mineral, gypsum, herbal medicine, medicine, herbs, and food. Skin good lead electric conduction adjusting device. 6. The electric conduction adjusting device according to claim 1, wherein the sound wave adjusting plate has a shape of a flat plate, a concave lens, or a convex lens. 7. The electric conduction adjusting device according to claim 1, wherein a wave adjusting plate is attached to an end of the cylinder. 8. The wave adjusting plate is made of plants, cloth, cotton, non-woven fabric,
8. A plate made of one or more of glass wool, expanded quartz, acrylic resin, plastic, glass, ceramics, mineral, gypsum, herbal medicine, medicine, herbs, and food. Skin good lead electric conduction adjusting device. 9. The medicine box according to claim 1, wherein a medicine box having a tunnel section and containing medicine is fixed in the cylinder, and a sound wave is passed through the tunnel section of the medicine box. Skin good lead electric conduction adjusting device. 10. A medicine box containing Chinese medicine, medicine, herbs, plants, seeds, food, cloth, cotton, glass wool, glass,
10. The electric conduction adjusting device according to claim 1, wherein one or more of ceramics, gypsum, and minerals are accommodated. 11. The electric conduction adjusting device as set forth in claim 1, wherein the cylinder is a cylinder having a wave adjusting layer. 12. The method according to claim 1, wherein the wave adjusting layer is made of one or more of cloth, cotton, vegetation, non-woven fabric, glass wool, glass, acrylic resin, ceramics, gypsum, minerals, Chinese medicine, medicine, herbs, and food. Items 1 to 11
Ryodoraku electric conduction adjusting device described in any of the above. 13. The electric conduction adjusting device according to claim 1, wherein a lens is provided at an end of the cylinder.