JP2013146369A - Device for retarding aging - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device for retarding aging which suppresses deterioration (aging) in a function of a cerebral cortex by transmitting a stimulation caused by a low-frequency electric signal to the cerebral cortex through nerves.SOLUTION: A device for retarding aging includes: one or two sole director electrode parts to be abutted onto a sole; a grip part in which a pin director electrode part is arranged, the pin director electrode part being formed by planting a plurality of pin director electrodes capable of being used by being abutted onto an optional portion of skin other than the sole; and a low-frequency electric signal generation means which generates a low-frequency electric signal between the sole director electrode part and the pin director electrode part and applies the low-frequency electric signal between them. The low-frequency electric signal generation means includes a low-frequency electric signal superposition means which superposes a second low-frequency signal of 1 Hz-200 Hz or a rectangular waveform third low-frequency signal of 400 Hz-600 Hz on a rectangular waveform first low-frequency signal synchronized with a human breathing cycle and which is configured to output the low-frequency electric signal as a low-frequency signal in which a peak value of minus potential of the low-frequency signal to be superposed is greater than a peak value of plus potential.

Description

  The present invention relates to an aging delay device by superimposing two low-frequency signals on a low-frequency signal synchronized with a person's breathing cycle to stimulate the human body.

  The human body has crucibles closely related to organs and other organs. By stimulating these crucibles, the corresponding organs are indirectly stimulated to treat or prevent various diseases, recover from fatigue, etc. It is known that an effect can be obtained, and for this purpose, a lot of techniques relating to massage devices that stimulate a pot with a low-frequency electrical signal have been disclosed.

For example, Japanese Patent Application Laid-Open No. 2005-131260 discloses a patent document 1 in which “a high-voltage generating circuit that boosts the voltage of a commercial power source to a maximum of approximately 250 volts, a rectifying / smoothing circuit that rectifies and smoothes after boosting,” The voltage generated by the rectifying / smoothing circuit is automatically changed in response to fluctuations in the resistance of the body, and is connected to the main body with a current control circuit that generates a fixed amount of direct current, And, comprising a pistol type probe having a related electrode pressed against the stimulation site of the body or its vicinity, and an indifferent electrode connected to the main body and attached to other than the stimulation site of the body,
The pistol type probe includes a switch shaft housed in a barrel simulating portion with a tip protruding from a muzzle simulating portion, a water absorbing sponge of a related electrode attached to a cup provided at the tip, A spring that constantly urges the switch shaft in the direction of the muzzle simulation portion, an energization switch that energizes the base shaft when the switch shaft is pushed against the spring, and shuts off the energization An electrical stimulation apparatus comprising: a cut-off switch arranged in the trigger simulation unit for performing the adjustment; and a volume arranged in the barrel simulation unit for finely adjusting energization. Is disclosed.

JP 2005-131260 A

  The invention of the above-mentioned Patent Document 1 is provided with a current control circuit that generates a fixed amount of direct current in consideration of safety, but the patient's sole is placed on the indifferent electrode, and the protruding tip of the pistol probe Pressing the Seki electrode of the part to the stimulation site, the treatment current flows from the indifferent electrode to the Seki electrode from 0 to about 6 mA (electrons move negatively from the Seki electrode toward the indifferent electrode), pain, muscle Pain, muscle fatigue, peripheral numbness, and stiff shoulders are alleviated.

On the other hand, when a low-frequency signal current is applied to the human body, it is said that the signal current flows between the electrodes in the order of the low electrical resistance in the body, and in particular, it acts on the blood flow having a low electrical resistance.
Blood includes red blood cells, white blood cells, plasma plates, etc.Especially, red blood cells take up the oxygen obtained from the lungs, play a role in supplying cells to every corner of the body, and are involved in the discharge of carbon dioxide. There is a large amount of sugar chains in the part that comes out, and there is sialic acid at the tip of this sugar chain, and since sialic acid has a COOH group, it is negatively charged, so the same negatively charged red blood cells It also prevents adhesion of vascular endothelium and adhesion of negatively charged bacteria that are also covered with sialic acid.

However, Patent Document 1 has a high-voltage generating circuit that boosts the voltage of the commercial power source to a maximum of approximately 250 volts, and a rectifying / smoothing circuit that rectifies and smoothes the voltage after boosting. It is applied between Seki electrodes.
From the circuit diagram and the direction of the electron flow between the electrodes, the indifferent electrode is given a boosted voltage of approximately +250 volts at the maximum, and the negative voltage is applied to the erythrocytes. It is not possible.

  The present invention pays attention to such a point, and generates and applies a low-frequency electric signal between the sole conductor electrode portion that abuts on the sole and a plurality of pin conductor electrode portions that can be used in contact with any part of the skin. A structure in which a negative potential is positively applied to the plurality of pin conductor electrode portions, oxygen is supplied to about 60 trillion cells of the human body, and negative charges are given to red blood cells that discharge carbon dioxide. It is intended to provide an aging delay device.

As a result of intensive studies in view of the above, the present inventor has solved this problem by the following means.
(1) A device that transmits stimulation by a low-frequency electrical signal to the cerebral cortex via a nerve, and suppresses functional deterioration (aging) of the cerebral cortex,
The apparatus includes a low-frequency signal generating unit that generates the low-frequency electrical signal, an electrode unit that applies a negative potential by contacting a part of the body connected to the low-frequency signal generating unit, and the other side of the body. An electrode part that abuts and applies a positive potential;
The aging delay device, wherein the low-frequency signal generating means is configured to generate a low-frequency electric signal in which the peak value of the negative potential is larger than the peak value of the positive potential.
(2) A device that transmits a stimulation by a low-frequency electric signal to the cerebral cortex via a nerve, and suppresses a decrease in function (aging) of the cerebral cortex,
One or two sole conductor electrode portions that contact the sole,
A grip portion provided with a pin conductor electrode portion formed by implanting a plurality of pin conductor electrodes that can be used in contact with any part of the skin other than the sole,
Low frequency signal generating means for generating and applying the low frequency electrical signal between the sole conductor electrode portion and the pin conductor electrode portion;
The low-frequency signal generating means is a rectangular-shaped first low-frequency signal synchronized with a human respiratory cycle, and
Generating one or both of a rectangular wave-like second low frequency signal of 1 Hz to 200 Hz and a rectangular wave-like third low frequency signal of 400 Hz to 600 Hz;
A low-frequency signal superimposing unit that superimposes the second low-frequency signal or the third low-frequency signal on the first low-frequency signal and outputs it as a low-frequency electrical signal;
(1) The low-frequency signal superimposing means is configured to generate a low-frequency electric signal in which the negative potential peak value of the superimposed low-frequency signal is larger than the positive potential peak value. The aging delay device according to 1.
(3) A device that transmits a stimulation by a low-frequency electric signal to the cerebral cortex via a nerve, and suppresses a decrease in function (aging) of the cerebral cortex,
A pin conductor electrode portion formed by implanting a plurality of pin conductor electrodes that can be used in contact with any part of the skin other than the sole, and a grip portion provided with a grip electrode portion that contacts the gripped hand; ,
Low frequency signal generating means for generating and applying the low frequency electrical signal between the pin conductor electrode portion and the gripping electrode portion;
The low-frequency signal generating means is a rectangular-shaped first low-frequency signal synchronized with a human respiratory cycle, and
Generating one or both of a rectangular wave-like second low frequency signal of 1 Hz to 200 Hz and a rectangular wave-like third low frequency signal of 400 Hz to 600 Hz;
A low-frequency signal superimposing unit that superimposes the second low-frequency signal or the third low-frequency signal on the first low-frequency signal and outputs it as a low-frequency electrical signal;
(1) The low-frequency signal superimposing means is configured to generate a low-frequency electric signal in which the negative potential peak value of the superimposed low-frequency signal is larger than the positive potential peak value. The aging delay device according to 1.
(4) The low frequency signal generating means includes a minus potential generating means and a plus potential generating means each having the low frequency signal superimposing means,
The low frequency electrical signal output from the minus potential generating means is applied to the pin conductor electrode portion, and the low frequency electrical signal output from the plus potential generating means is applied to the sole conductor electrode portion. The aging delay device according to item (1) or (2), wherein
(5) The low frequency signal generating means includes a minus potential generating means and a plus potential generating means each having the low frequency signal superimposing means,
The low-frequency electric signal output from the minus potential generating means is applied to the pin conductor electrode portion, and the low-frequency electric signal output from the plus potential generating means is applied to the gripping electrode portion. The aging delay device according to item (1) or (3), wherein
(6) The low-frequency signal superimposing unit superimposes the first low-frequency signal on the second low-frequency signal or any one of the third low-frequency signals or a combination of a plurality of frequencies. 6. The aging delay device according to any one of (1) to (5) above, wherein
(7) The low frequency signal superimposing means is configured to alternately superimpose a second low frequency signal and a third low frequency signal on the first low frequency signal (1) The aging delay apparatus according to any one of (1) to (5). The aging delay device according to 1.
(8) The low frequency signal superimposing means outputs a low frequency electric signal whose level is controlled while maintaining a predetermined ratio between the peak value of the negative potential and the peak value of the positive potential of the superimposed low frequency signal. The aging delay device according to any one of the above items (1) to (7), wherein
(9) The low-frequency signal superimposing means outputs a low-frequency electric signal whose level is controlled while maintaining the ratio of the peak value of the negative potential to the peak value of the positive potential at 7: 3. The aging delay device according to any one of (1) to (7), wherein the aging delay device is configured as described above.
(10) The aging delay device according to any one of (1) to (9) above,
Balance control means for controlling the balance of the potential of the low frequency electric signal applied between the sole conductor electrode part and the pin conductor electrode part or between the pin conductor electrode part and the gripping electrode part With
The balance control means is configured to output a low-frequency electrical signal that controls the respective output signal levels output from the minus potential generation means and the plus potential generation means to obtain a balanced electrical stimulus. An aging delay device characterized by comprising:
(11) The aging delay device according to any one of (1) to (10) above,
A lighting unit that can select one color or a plurality of colors of light emitters that emit red, green, and blue and control the luminance thereof,
The aging delay device characterized in that the illuminating means can control the luminance of the light emitter in accordance with the output level of the first low-frequency signal.
(12) The aging delay device according to any one of (1) to (11) above,
Reproduction means as a sound source means, or recording / reproduction means, and a loudspeaker means,
The reproduction output signal of the sound source means is superimposed on the first low frequency signal to form an audio output signal, and the audio output level of the superimposed audio output signal is controlled according to the output level of the first low frequency signal. An aging delay device characterized by being made possible.
(13) In any one of the above items (1) to (12), the grip portion includes vibration wave generating means for applying a low-frequency mechanical vibration to the pin conductor electrode portion. The aging delay device as described.

According to the aging delay device of the present invention, the following effects are exhibited.
<1> A device that transmits a stimulation by a low-frequency electrical signal to the cerebral cortex via a nerve and suppresses a decrease in function (aging) of the cerebral cortex
A low-frequency signal generating means for generating the low-frequency electrical signal; an electrode part for applying a negative potential by contacting one part of the body connected to the low-frequency signal generating means; An electrode portion for applying a potential,
The low-frequency signal generating means is configured to generate a low-frequency electric signal in which the peak value of the negative potential is larger than the peak value of the positive potential. The red blood cells in the blood vessels flowing under the skin are forcibly negatively charged by using the electrode portion, which is in contact with the back and applied with the negative potential, in contact with an arbitrary portion of the skin.
As a result, erythrocytes have a large amount of sugar chains on the outer surface, sialic acid is present at the tip of the sugar chain, and sialic acid is negatively charged because it has a COOH group. Therefore, the negatively charged red blood cells and the blood vessel endothelium are prevented from adhering to each other, and the so-called smooth blood flow goes around the human body, carrying oxygen from the lungs to every cell in the body, and dioxide. By evacuating carbon, cells in the cerebral cortex are activated, so that aging can be delayed.

  Conventionally, when a current flows in only one direction such as 0 to +250 V as a low-frequency electric signal for a long time, there is a risk of causing irritation to the skin in contact with the electrode portion. As a result of the negative potential peak value being applied to both electrode portions at a potential greater than the positive potential peak value, there is very little possibility of causing inflammation on the skin.

<2> In addition to the effect of <1> above,
An aging delay device that transmits stimulation by low-frequency electrical signals to the cerebral cortex via nerves and suppresses cerebral cortex function deterioration (aging)
A pin conductor electrode portion formed by implanting one or two sole conductor electrode portions that are in contact with the sole and a plurality of pin conductor electrodes that can be used in contact with any part of the skin other than the sole. A grip portion disposed; a low frequency signal generating means for generating and applying the low frequency electric signal between the sole conductor electrode portion and the pin conductor electrode portion; and the low frequency signal generating means. Any one of a rectangular-wave-shaped first low-frequency signal synchronized with a human respiratory cycle, a rectangular-wave-shaped second low-frequency signal of 1 Hz to 200 Hz, and a rectangular-wave-shaped third low-frequency signal of 400 Hz to 600 Hz Low frequency signal superimposing means for generating one or both and superimposing a second low frequency signal or a third low frequency signal on the first low frequency signal and outputting it as a low frequency electrical signal; The frequency signal superimposing means transmits a negative potential peak of the superimposed low frequency signal. Which is configured so that the value is generated as a large low-frequency electrical signal from the peak value of the positive potential,
Since the pin conductor electrode portion attached to the grip portion is provided with a plurality of pin conductor electrodes, if the grip portion is held and the pin conductor electrode portion is pressure-contacted to any part of the skin, the body will naturally become a pot. Abdominal breathing induced by the first low-frequency signal synchronized with the human respiratory cycle, and a second low-frequency signal superimposed on the first low-frequency signal, Alternatively, since the electrical stimulation is applied to the pot with low electrical resistance due to the synergistic effect with the stimulation by the third low-frequency signal, a comfortable bodily stimulation by the electrical pulse signal can be given along with the improvement of blood flow, It is transmitted to approximately 14 billion cells in the cerebral cortex through the cells, and it activates higher brain functions such as perception, voluntary movement, thinking, reasoning, and memory, and helps to delay aging.

Further, when the plurality of pin conductor electrode portions to which a negative potential is applied are brought into contact with an arbitrary portion of the skin, red blood cells in blood vessels flowing under the skin are forcibly negatively charged.
As a result, erythrocytes have a large amount of sugar chains on the outer surface, sialic acid is present at the tip of the sugar chain, and sialic acid is negatively charged because it has a COOH group. Therefore, the negatively charged red blood cells and the blood vessel endothelium are prevented from adhering to each other, and the so-called smooth blood flow goes around the human body, carrying oxygen from the lungs to every cell in the body, and dioxide. By evacuating carbon, cells in the cerebral cortex are activated, so that aging can be delayed.

  Furthermore, in the sialic acid, a part of red blood cells changes to a positive potential due to diet, aging, illness, etc., and when the positive charge increases, the red blood cells bind to each other to form a chain, forming a so-called mudous blood flow. When the plurality of pin conductor electrode parts provided with a contact with any part of the skin is used, the red blood cells in the blood vessels flowing under the skin are forcibly negatively charged, thereby changing the blood flow more smoothly. Health is maintained, resulting in delayed aging.

  Since the red blood cells are forcibly negatively charged, they have the function of preventing the entry of negatively charged bacteria that are also covered with sialic acid, and thus are effective in preventing diseases and plagues.

The low-frequency electrical signal is applied between the sole conductor electrode portion and the pin conductor electrode portion. The low-frequency signal superimposing means adds the second low-frequency signal to the first low-frequency signal or the first low-frequency signal. Since the low-frequency electrical signal generated by superimposing the 3 low-frequency signals is generated as a low-frequency electrical signal in which the negative potential peak value is larger than the positive potential peak value,
Conventionally, when a current flows only in one direction such as 0 to +250 V as a low-frequency electric signal for a long time, there is a risk of irritation on the skin in contact with the electrode. As a result, the peak value of the negative potential and the peak value of the positive potential are applied at an appropriate ratio, and as a result, there is very little possibility of causing inflammation on the skin.

  The human body has many crucibles closely related to organs and other organs, and even if the exact position of the crucible for treatment is unknown, the pin conductor electrode part attached to the grip part has multiple pins. Since the conductor electrode is implanted, it is possible to stimulate naturally including the target crucible by grasping the grip portion and pressing any part of the skin.

Since the low-frequency signal generating means generates the first low-frequency signal in the form of a rectangular wave synchronized with the human respiratory cycle,
The sensory stimulation by the first low-frequency electrical signal applied between the sole conductor electrode part and the pin conductor electrode part induces abdominal breathing synchronized with the breathing cycle naturally and is not conscious. As a result of abdominal breathing, the transverse abdominal muscles that surround the abdomen, the multifidus muscles that connect from the lateral processes of the spine to the top of the spine, the diaphragm that controls the breathing, and the pelvic floor muscles that are at the bottom of the pelvis around the anus The four muscles of the group can be stimulated simultaneously, and strength training can be performed to delay aging.

  Since the low-frequency signal generating means generates a rectangular-wave-shaped low-frequency electrical signal of 1 Hz to 200 Hz, between the sole conductor electrode portion contacting the sole and the pin conductor electrode portion attached to the grip portion By applying to the pin conductor electrode part attached to the grip part, the muscles and nerves under the surface of the human body such as the back of the hand, head, face, neck, shoulders, and feet can be stimulated and treated at the same time. It is possible to promote blood circulation by a negative potential and relieve pain.

Since the low frequency signal superimposing means generates a superimposed wave signal of 400 Hz to 600 Hz,
Treatment of deep muscles in the body, such as the abdomen of the human body, which is in pressure contact with the pin conductor electrode part attached to the grip part, and at the same time, blood circulation can be promoted by a negative potential and pain can be eased.

<3> In addition to the effect of <1> above,
An aging delay device that transmits stimulation by low-frequency electrical signals to the cerebral cortex via nerves and suppresses cerebral cortex function deterioration (aging)
A pin conductor electrode portion formed by implanting a plurality of pin conductor electrodes that can be used in contact with any part of the skin other than the sole, and a grip portion provided with a grip electrode portion that contacts the gripped hand; ,
Low frequency signal generating means for generating and applying the low frequency electrical signal between the pin conductor electrode portion and the gripping electrode portion;
The low-frequency signal generating means is a rectangular-shaped first low-frequency signal synchronized with a human respiratory cycle, and
Generating one or both of a rectangular wave-like second low frequency signal of 1 Hz to 200 Hz and a rectangular wave-like third low frequency signal of 400 Hz to 600 Hz;
A low-frequency signal superimposing unit that superimposes the second low-frequency signal or the third low-frequency signal on the first low-frequency signal and outputs it as a low-frequency electrical signal;
Since the low frequency signal superimposing means is configured to be generated as a low frequency electrical signal in which the peak value of the negative potential of the superimposed low frequency signal is larger than the peak value of the positive potential,
Since the pin conductor electrode portion attached to the grip portion is provided with a plurality of pin conductor electrodes, if the grip portion is held and the pin conductor electrode portion is pressure-contacted to any part of the skin, the body will naturally become a pot. Abdominal breathing induced by the first low-frequency signal synchronized with the human respiratory cycle, and a second low-frequency signal superimposed on the first low-frequency signal, Alternatively, since the electrical stimulation is applied to the pot with low electrical resistance due to the synergistic effect with the stimulation by the third low-frequency signal, a comfortable bodily stimulation by the electrical pulse signal can be given along with the improvement of blood flow, It is transmitted to approximately 14 billion cells in the cerebral cortex through the cells, and it activates higher brain functions such as perception, voluntary movement, thinking, reasoning, and memory, and helps to delay aging.

Further, when the plurality of pin conductor electrode portions to which a negative potential is applied are brought into contact with an arbitrary portion of the skin, red blood cells in blood vessels flowing under the skin are forcibly negatively charged.
As a result, erythrocytes have a large amount of sugar chains on the outer surface, sialic acid is present at the tip of the sugar chain, and sialic acid is negatively charged because it has a COOH group. Therefore, the same negatively charged red blood cells and blood vessel endothelium are prevented from adhering to each other, so that it becomes a so-called smooth blood flow, travels around the human body, and can carry and supply oxygen obtained from the lungs to cells in the body, In addition, by discharging carbon dioxide, cells in the cerebral cortex are activated, so that aging can be delayed.

  Furthermore, the sialic acid changes to a positive potential due to meals, aging, illness, etc., and when the positive charge increases, the red blood cells bind to each other to form a chain, forming a so-called mudous blood flow, but the negative potential is applied. When multiple pin conductor electrodes are used in contact with any part of the skin, red blood cells in the blood vessels flowing under the skin are forcibly negatively charged, which further changes to blood flow and maintains health. And results in delayed aging.

  Since the red blood cells are forcibly negatively charged, they have the function of preventing the entry of negatively charged bacteria that are also covered with sialic acid, and thus are effective in preventing diseases and plagues.

The low-frequency electrical signal is applied between the gripping electrode portion and the pin conductor electrode portion. The low-frequency signal superimposing means adds the second low-frequency signal or the third low-frequency signal to the first low-frequency signal. Since the peak value of the negative potential of the low frequency electrical signal that is output by superimposing the low frequency signal is generated as a low frequency electrical signal that is larger than the peak value of the positive potential,
Conventionally, when a current flows only in one direction such as 0 to +250 V as a low-frequency electric signal for a long time, there is a risk of irritation on the skin in contact with the electrode. As a result, the peak value of the negative potential and the peak value of the positive potential are applied at an appropriate ratio, and as a result, there is very little possibility of causing inflammation on the skin.

  The human body has many crucibles closely related to organs and other organs, and even if the exact position of the crucible for treatment is unknown, the pin conductor electrode part attached to the grip part has multiple pins. Since the conductor electrode is implanted, it is possible to stimulate naturally including the target crucible by grasping the grip portion and pressing any part of the skin.

Since the low-frequency signal generating means generates the first low-frequency signal in the form of a rectangular wave synchronized with the human respiratory cycle,
The abdominal respiration synchronized with the breathing cycle is naturally induced by the bodily sensation stimulation by the first low-frequency electric signal applied between the gripping electrode part and the pin conductor electrode part, and the abdominal breathing without being conscious is induced. As a result of breathing, the lateral abdominal muscles that surround the abdomen, the multifidus muscles that connect from the lateral processes of the spine to the top of the spine, the diaphragm that controls the breathing, and the pelvic floor muscles around the anus at the bottom of the pelvis Four muscles are stimulated at the same time, and strength training is performed to delay aging.

  Since the low-frequency signal generating means generates a rectangular-wave-shaped low-frequency electrical signal of 1 Hz to 200 Hz, it is applied to the grip portion by applying between the grip electrode portion and the pin conductor electrode portion of the grip portion. Stimulates muscles and nerves under the surface of the human body, such as the back of the hand, head, face, neck, shoulders, and feet, and nerves by pressing the attached pin conductor electrode, and promotes blood circulation by negative potential. It is designed and can relieve pain.

Since the low frequency signal superimposing means generates a superimposed wave signal of 400 Hz to 600 Hz,
Treatment of deep muscles in the body, such as the abdomen of the human body, which is in pressure contact with the pin conductor electrode part attached to the grip part, and at the same time, blood circulation can be promoted by a negative potential and pain can be eased.

Furthermore, since the grip electrode part that comes into contact with the hand held by the pin conductor electrode part and the grip part is disposed,
If the low-frequency electrical signal is applied between the gripping electrode part and the pin conductor electrode part disposed on the same grip part, the grip part is gripped with the right hand, and the pin on the back of the left hand or any part of the skin If the conductor electrode part is pressure-contacted, it can stimulate including the target crucible without using the sole conductor electrode part.

  Of course, if the grip part is gripped with the left hand, the target crucible of the back of the right hand can be stimulated without using the sole conductor electrode part.

<4> In addition to the effects of <1> and <2>,
The low frequency signal generating means comprises a negative potential generating means each having the low frequency signal superimposing means, and a positive potential generating means;
The low frequency electrical signal output from the minus potential generating means is applied to the pin conductor electrode part, and the low frequency electrical signal output from the plus potential generating means is applied to the sole conductor electrode part. So
When a negative charge is applied from the pin conductor electrode part pressed against an arbitrary part of the human skin, the red blood cells in the blood vessels flowing under the skin are forcibly negatively charged. A pleasant bodily sensation stimulus can be given by a signal, and this sense of sensation is transmitted to cells of the cerebral cortex through nerve cells, and is activated to help delay aging.

<5> In addition to the effects of <1> and <3> above,
The low frequency signal generating means comprises a negative potential generating means each having the low frequency signal superimposing means, and a positive potential generating means;
Since the low-frequency electrical signal output from the negative potential generating means is applied to the pin conductor electrode portion, and the low-frequency electrical signal output from the positive potential generating means is applied to the gripping electrode portion,
Without using the sole conductor electrode part, just grip the grip part with one hand and apply the pin conductor electrode part to any part of the body to improve blood flow and give a comfortable bodily sensation by electric pulse signal This feeling of stimulation is transmitted to cells in the cerebral cortex through nerve cells, and is activated to help delay aging.

<6> In addition to the effects of <1> to <5> above,
Since the low-frequency signal superimposing means superimposes the first low-frequency signal on the second low-frequency signal, or any one frequency of the third low-frequency signal, or a combination of a plurality of frequencies,
Treatment of the human body under the surface of the human body that is in pressure contact with the pin conductor electrode part attached to the grip part, or the deep part of the body such as the abdomen of the human body, or by low frequency electrical signals that are alternately superimposed at arbitrary intervals by selecting multiple frequencies Combined treatments can be performed, and blood circulation is promoted by a negative potential as a whole, and pain can be relieved.

<7> In addition to the effects of <1> to <5> above,
Since the low frequency signal superimposing means is configured to alternately superimpose the second low frequency signal and the third low frequency signal on the first low frequency signal,
Treatments can be performed simultaneously on the body surface, such as the human body abdomen and deep inside the body, where the pin conductor electrode part attached to the grip part is pressed, and overall blood circulation can be promoted, further reducing pain. .

<8> In addition to the effects of <1> to <7>,
The low frequency signal superimposing means is configured to output a low frequency electric signal in which the peak value of the minus potential and the peak value of the plus potential of the superimposed low frequency signal are level-controlled while maintaining a predetermined ratio. So
When the current flows in only one direction such as 0 to +250 V as a low-frequency electric signal for a long time as in the past, there is a possibility that the skin in contact with the electrode may be inflamed. As a result of applying an appropriate negative potential peak value to a positive potential peak ratio on both electrodes, there is very little risk of causing inflammation on the skin.

<9> In addition to the effects of <1> to <7>,
The low-frequency signal superimposing means is configured to output a low-frequency electric signal whose level is controlled while maintaining a ratio of a negative potential peak value and a positive potential peak value of the superimposed low-frequency signal to 7: 3. Because
When the current flows in only one direction such as 0 to +250 V as a low-frequency electric signal for a long time as in the past, there is a possibility that the skin in contact with the electrode may be inflamed. As a result of applying a negative potential peak value and a positive potential peak value in a ratio of 7: 3 to both electrodes, there is very little possibility of causing inflammation on the skin.

<10> The aging delay device includes a balance control means for controlling the balance of the potential of the low-frequency electric signal applied between the sole conductor electrode portion and the pin conductor electrode portion,
Since the low frequency signal superimposing means is configured to control and output the output signal level of each low frequency electric signal by the balance control means,
When the low frequency electrical signal is applied between the sole conductor electrode part and the pin conductor electrode part or between the grip electrode part and the pin conductor electrode part, it is applied to the contact part of either electrode When the electrical stimulation is felt strong or weak, the electrical stimulation degree can be controlled to the same level by the balance controller of the balance control means.

<11> The aging delay device includes illumination means that can select any one color or a plurality of colors of light emitters that emit red, green, and blue, and control the luminance thereof, respectively.
Since the illumination means can control the luminance of the light emitter according to the output level of the first low frequency signal,
In the human nervous system, visible light is encoded in the retina and processed in the cerebral cortex via the outer knee, so that each color of red, green, and blue illuminants alone or a mixed color is emitted as visual information. And this visual information can be changed according to the level of the first low-frequency pulse stimulation and transmitted to the visual cells in the back of the cerebral cortex so that the cells are active in combination with the stimulation by the low-frequency electrical signal. And abdominal breathing is induced, so that muscle treatment can be performed to delay aging.

<12> The aging delay device includes a reproduction unit as a sound source unit, or a recording / reproduction unit, and a loudspeaker unit.
The reproduction output signal of the sound source means is superimposed on the first low frequency signal to form an audio output signal, and the audio output level of the superimposed audio output signal is controlled according to the output level of the first low frequency signal. Because it is possible
As sound waves emitted in nature, sound of waves, sound of wind, voice of insects, heartbeat, etc. are said to give pleasure to the living body, recording healing sounds etc. applying this technique, using low frequency electric signals At the same time that the stimulus is given to the body, the healing sound is reproduced as auditory information, and the sound effect that changes the auditory information according to the level of the first low-frequency pulse stimulus is in the temporal region of the cerebral cortex Since it can be transmitted and stimulated to cells in the auditory cortex, cells in the cerebral cortex are activated in combination with stimulation by low frequency electrical signals, and abdominal breathing is induced, so muscle treatment is also performed and delays aging Can be made.

<13> Since the grip portion includes vibration wave generating means for applying low-frequency mechanical vibration to the pin conductor electrode portion,
Skin is activated by applying low-frequency mechanical vibration to the pin conductor electrode part of the grip part in combination with the activation of cells of the cerebral cortex part by stimulation by low-frequency electrical signals, auditory information and visual information. Treatment can be performed by massaging the surface and the pot of each part.

Circuit diagram of the aging delay device embodiment of the present invention Mode 1 low-frequency electric signal output waveform diagram in which the second low-frequency signal and the third low-frequency signal are superimposed on the first low-frequency signal of the present aging delay device embodiment at a predetermined interval Output signal and low-frequency electrical signal output waveform diagram of each means of the aging delay device embodiment of the present invention Illumination signal output and acoustic signal output waveform diagram of the aging delay device embodiment of the present invention External perspective view of an embodiment of the present invention aging delay device Grip section sectional view of an embodiment of the present invention aging delay device

  In FIG. 1, 1 is an aging delay device, 2 is a low-frequency signal generating means, 3 is a first low-frequency signal generating means, 4 is a second low-frequency signal generating means, and 5 is a third low-frequency signal generating means. , 6 is a mode changeover switch, 7 is a negative potential generating means, 8 is a positive potential generating means, 9 is a DC voltage control means, 10 is a low frequency signal superimposing means, 11 is an output level adjuster, and 12 and 13 are output connectors. , 14 is a pin conductor electrode, 15 is a pin conductor electrode portion, 16 is a grip portion, 17 is a micromotor, 18 is a gripping electrode portion, 19 is a sole conductor electrode portion, 20 is an illumination means, and 21 is an acoustic device. Means 22, balance control means 22 ′ balance controller 23, vibration control means 24, diffuser plate, 25 pyramid diffuser plate, 26 cotton, 27 cotton attachment frame, 28 elastic material, 29 Spring, 30 is swing , 31 is a cord, 32 is a speaker, 33 is a power switch, 34 is a color light selector switch, 35 is a volume adjuster, 36 is a vibration adjuster, C and C are electrolytic capacitors, T1 and T2 are low frequency transformers, TR1, TR2 is a power transistor.

  In FIG. 1, the aging delay device 1 is provided with a pin conductor electrode portion 15 formed by implanting a plurality of pin conductor electrodes 14 connected by a connection cord from the output connector 12 of the low frequency signal generating means 2. In the present embodiment diagram, which is connected to the grip portion 16 by the connecting cord from the output plug 13 in the same manner, low-frequency electric signals are generated and supplied to the two foot conductor electrode portions 19 and both electrode portions. The low-frequency signal generation means 2, the illumination means 20 that emits light as visual information, and the sound source means 21 that provides auditory information.

In the figure, the low-frequency signal generating means 2 of the aging delay device 1 is
First low frequency signal generating means 3 for generating a low frequency signal synchronized with the breathing cycle of a person, and second low frequency signal generating means 4 for selecting and generating 15 Hz, 40 Hz and 100 Hz from a low frequency signal of 1 Hz to 200 Hz. And the third low frequency signal generating means 5 for selecting and generating 500 Hz from the low frequency signals of 400 Hz to 600 Hz, the second low frequency signal generating means 4 and the third low frequency signal generating means 5. A mode changeover switch 6 for switching and outputting a low-frequency signal obtained by mixing the low-frequency signals individually or at arbitrary intervals, DC voltage control means 9 and 9 incorporated therein, and low-frequency transformers T1 and T2, respectively. Two circuits of a minus potential generating means 7 and a plus potential generating means 8 having low frequency signal superimposing means 10 and 10 including the low frequency transformers T1 and T, respectively. The output level adjuster 11 connected to the secondary side of the output level, the pin conductor electrode portion 15 connected to the slider of the output level adjuster 11 via a plug, and the gripping electrode in contact with the gripped hand It is composed of one grip portion 16 provided with a portion 18, two sole conductor electrode portions 19, and a CPU portion for controlling the first to third low frequency signal generating means and others. Yes.

  The first low-frequency signal generating means 3 receives a low-frequency pulse signal from the CPU unit and generates a first low-frequency signal having a rectangular wave shape synchronized with a human respiratory cycle. Input to the DC voltage control means 9.

  Similarly, the first low frequency signal in the form of a rectangular wave synchronized with the breathing cycle of the person generated by the first low frequency signal generation means 3 is input to the DC voltage control means 9 of the plus potential generation means 8.

  The rectangular low-frequency first low-frequency signal is applied to a power transistor circuit (not shown) that switches the DC voltage input to each of the DC voltage control means 9 with the first low-frequency signal, and its output is low. It is added at the beginning of the primary side winding of the frequency transformers T1 and T2. On the load side of the power transistor circuit, appropriate electrolytic capacitors C and C are connected between the grounds, and the rising edge of the pulse is an integrated upward arc shape, and the falling edge of the pulse is shaped into a downward arc shape. Is done.

  The power transistors TR1 and TR2 are connected between the primary winding end of the low frequency transformer and the ground to form the low frequency signal superimposing means 10 and 10. The second low frequency signal is provided at the bases of the power transistors TR1 and TR2. A rectangular wave-shaped low frequency signal is added from the generating means 4 and the third low frequency signal generating means 5 via the mode changeover switch 6 to perform a switching operation, whereby the second low frequency signal and the third low frequency signal are added to the first low frequency signal. A low frequency electrical signal on which the low frequency signal is superimposed is obtained as an output waveform.

  The winding ratio of the input side to the output side of the low frequency transformer T1 of the negative potential generating means 7 is 10: 7, and the low frequency superimposed signal generated on the secondary side of the low frequency transformer T1 is at a level of -70%. It is applied to the pin conductor electrode 14 as a low frequency electrical signal.

  Further, the winding ratio of the input side to the output side of the low frequency transformer T2 of the plus potential generating means 8 is 10: 3, and the low frequency superimposed signal generated on the secondary side of the low frequency transformer T2 is + 30% level. Is applied to the sole conductor electrode portion 19 as a low frequency electrical signal.

  The voltage between the sole conductor electrode portion 19 and the pin conductor electrode portion 15 has a variable range of 0 to 150V, and the output level adjuster 11 adjusts the electrical stimulation degree to the strength of the user's preference. To do.

  The second and third low-frequency signals applied to the bases of the power transistors TR1 and TR2 of the low-frequency signal superimposing means 10 and 10 are each independently or arbitrarily selected by the mode switch 6 according to the stimulation method applied to the human body. The low-frequency electrical signals are alternately superimposed at intervals, and are applied to the output plug 12 and the output plug 13, respectively.

  The second low-frequency signal is a low-frequency electrical signal according to the stimulation method applied to the human body, 15 Hz, which is effective for treatment of the back, head, face, neck, shoulders, etc. of the human hand, 40Hz, which is considered to be effective for treatment of feet, hands, etc., and 15Hz or 40Hz when the electrical stimulation is weak. It is also possible to provide a low-frequency electrical signal that is alternately superimposed at an arbitrary interval.

  Furthermore, the third low frequency signal of 500 Hz, which is considered to be effective for the treatment of the deep muscles of the human body, is added alone or alternately with the second low frequency signal at an arbitrary interval to form a low frequency electric signal.

From the above, the operation of the mode switch 6 has mode 1 and mode 2, and mode 1 has three modes of Low, Middle, and High.
Mode 1 (Low) is 15Hz = 1.3sec / 150V,
500Hz = 0.3sec / 100V alternate output,
Mode 1 (Middle) is 40Hz = 1.3sec / 150V,
500Hz = 0.3sec / 100V alternate output,
Mode 1 (High) is 100 Hz = 1.3 sec / 150 V,
500Hz = 0.3 seconds / 100V alternate output,
Mode 2 is 500Hz = 0.2sec / 150V,
Alternating output of 500 Hz = 0.4 sec / 100 V, that is, the frequency is constant, and the output voltage changes alternately.

FIG. 2 shows a low-frequency electric signal output waveform diagram of mode 1 in which the second low-frequency signal and the third low-frequency signal are superimposed on the first low-frequency signal of the aging delay device embodiment at a predetermined interval.
That is, the second low-frequency signal of 15 Hz, 40 Hz, or 100 Hz and the third low-frequency signal of 500 Hz are superimposed on the first low-frequency signal synchronized with the human respiratory cycle at a predetermined interval. The electrical signal output level is 30% on the plus side and 70% on the minus side with 0V as a reference.
Each of the above frequency values is an example, and any frequency may be selected and combined to form a low frequency electric signal.

FIG. 3 shows the output signals and low-frequency electric signal output waveforms of the low-frequency signal generating means, DC voltage control means of the aging delay device embodiment of the present invention.
(A) in the figure is a first low-frequency signal waveform synchronized with the respiratory cycle, and (b) in the figure is a second low-frequency signal that generates a low-frequency signal such as 15 Hz, 40 Hz, 100 Hz, or 500 Hz, and The third low-frequency signal output waveform is shown in FIG. 3C, which is the output signal waveform of the DC voltage control means 9, and in FIG. 4D is the low-frequency signal superimposing means 10 to the pin conductor electrode 14 and the sole. The low frequency electric signal waveform output to the conductor electrode part 19 is shown.
Here, the low-frequency electric signal waveform diagram of FIG. 9D shows a waveform when the superimposed second low-frequency signal or third low-frequency signal is differentiated.

The output level of the low frequency electrical signal can be controlled by sliding the slider of the output level adjuster 11 connected to both ends of the secondary windings of the low frequency transformers T1 and T2.
The output level adjuster 11 can simultaneously control voltage values applied to the pin conductor electrode portion 15 and the foot conductor electrode portion 19 with a double volume.

  In order to control the balance of the potential of the low frequency electric signal applied between the sole conductor electrode portion 19 and the pin conductor electrode portion 15 or between the gripping electrode portion 18 and the pin conductor electrode portion 15. The balance control means 22 controls the DC voltage value inputted to each of the DC voltage control means 9 so that the negative potential value and the positive potential value of the low-frequency electrical signal that is finally output are -70%: It is possible to control at an appropriate ratio without being limited to + 30%.

  That is, when the low frequency electrical signal is applied between the sole conductor electrode portion 19 and the pin conductor electrode portion 15 or between the gripping electrode portion 18 and the pin conductor electrode portion 15, When the electrical stimulation applied to the contact portion of the human body is felt strong or weak, the degree of electrical stimulation can be controlled to the same level by a balance controller 22 '(not shown) of the balance control means 22.

  The illuminating means 20 may be any one of a light emitting body that emits red, green, and blue light by a low-frequency signal synchronized with the breathing cycle of the person input from the first low-frequency signal generating means 3, or a plurality of colors. The brightness can be controlled by selecting a color, and the brightness of the light emitter is changed in accordance with the output level of the low-frequency electrical signal.

That is, in the abdominal breathing method, it is preferable to gradually increase the luminance of the luminous body when a person inhales air and gradually decrease the luminance when exhaling.
Specifically, the luminance is gradually increased over about 3 seconds when sucking, and the luminance is gradually decreased over about 4.5 seconds when exhaling.

  In the human nervous system, visible light is encoded in the retina and processed in the cerebral cortex via the outer knee, so that each color of red, green, and blue illuminants alone or a mixed color is emitted as visual information. And this visual information can be changed according to the level of the first low-frequency pulse stimulation and transmitted to the visual cells in the back of the cerebral cortex so that the cells are active in combination with the stimulation by the low-frequency electrical signal. And abdominal breathing is induced, so that muscle treatment can be performed to delay aging.

The sound source means 21 includes a reproducing means using a semiconductor memory, or a recording / reproducing means, and a loudspeaker means using a speaker.
Similar to the illuminating means 20, the intensity of the reproduced sound is changed by a low frequency signal synchronized with the breathing cycle of the person inputted from the first low frequency signal generating means 3.

That is, in the abdominal breathing method, the strength of the reproduced sound is gradually increased when a person inhales air, and the reproduced sound is gradually decreased when exhaling.
Specifically, the sound is gradually strengthened over about 3 seconds when sucking, and the sound is gradually lowered over about 4.5 seconds when exhaling.

  As sound waves emitted in nature, sound of waves, sound of wind, voice of insects, heartbeat, etc. are said to give pleasure to the living body, recording healing sounds etc. applying this technique, using low frequency electric signals At the same time that the stimulus is given to the body, the healing sound is reproduced as auditory information, and the sound effect that changes the auditory information according to the level of the first low-frequency pulse stimulus is in the temporal region of the cerebral cortex Since it can be transmitted to and stimulated by auditory cortex cells, cells in the cerebral cortex are activated in combination with skin stimulation by low-frequency electrical signals, and abdominal breathing is induced, so muscle treatment is also performed and aging Can be delayed.

FIG. 4 is an embodiment diagram of an illumination signal waveform and an acoustic signal waveform. FIG. 4A is a first low-frequency signal waveform synchronized with the respiratory cycle, and FIG. The low-frequency electric signal waveform output to the conductor electrode 14 and the sole conductor electrode portion 19 is shown in FIG. 5C, after gradually increasing from the low level output in synchronization with the low-frequency electric signal. Similarly, FIG. (D) shows an acoustic signal waveform on which an audio signal output in synchronism with the low-frequency electric signal is superimposed.
These are used for controlling the illumination means 20 and the sound source means 21, respectively.

A method of using the aging delay device 1 will be described based on the external perspective view of FIG.
After connecting the plug of the grip portion 16 on which the pin conductor electrode portion 15 is disposed to the output connector 12, and connecting the plug of the sole conductor electrode portion 19 to the output connector 13, the mode is adjusted in accordance with the treatment purpose. One of L (Low), M (Middle), and H (High) in mode 1 is selected with the changeover switch 6 to perform treatment.

  The purpose of this is to perform the operation in mode 1 as a preparation in advance to get accustomed to a low level of 500 Hz and to store 500 Hz in the brain.

  After confirming that the power switch 33 of the aging delay device 1 is turned on and the power indicator lamp is lit, through one or two sole conductor electrode portions 19 that are appropriately moistened with cotton or the like (not shown). The soles of the feet are placed, the grip portion 16 is held by hand, and the pin conductor electrode portion 15 is pressed against an arbitrary position on the human body surface.

  Thereafter, the output level adjuster 11 on the front face of the main body is slowly turned clockwise to adjust the electrical stimulation degree of the electrode parts in contact with the body to a desired level, and at the same time, the electrical level of both electrode parts. The balance controller 22 ′ balance is adjusted so that the stimulation level is the same level of bodily sensation stimulation.

If necessary, the color light switch 34 is set to a preferred position of red, green, or blue.
Since the diffusion plate 24 is disposed on the upper portion of the aging delay device 1, the selected illumination light of red, green, or blue is illuminated so as to be seen almost evenly.

  The illumination light changes the luminance of the illuminant according to the output level of the first low-frequency signal synchronized with the breathing cycle of the person, but when the person breathes in air according to the abdominal breathing method The strength of the reproduction sound may be gradually increased, and the reproduction sound may be gradually decreased when vomiting.

  The color light switch 34 of the illumination unit 20 may add yellow, cyan, or magenta in addition to the primary colors of red, green and blue.

  Further, a detachable pyramid-shaped diffusion plate 25 may be placed on the aging delay device 1 instead of the diffusion plate 24.

  Further, when the volume adjuster 35 volume of the sound source means 21 is turned clockwise, a quiet sound recorded in a semiconductor memory or the like, or a reproduced sound such as music flows from the speaker 32.

  The reproduced sound flowing from the speaker 32 varies in volume according to the output level of the first low-frequency signal, but when a person breathes in air according to the abdominal breathing method, The strength may be gradually increased, and the playback sound may be gradually lowered when vomiting.

  As for the treatment time by the pin conductor electrode portion 15, a timer set at an arbitrary time works simultaneously with turning on the power switch, and the power is automatically turned off when reaching the set time after the timer is started.

  6, the resin-molded grip 16 connected to the aging delay device 1 is provided with a plurality of pin conductor electrodes 14 arranged at the tip thereof toward the lower side. A pin conductor electrode portion 15, a removable cotton 26 and a cotton mounting frame 27 so as to cover the plurality of pin conductor electrodes 14, and a micromotor 17 fixed to the upper portion of the pin conductor electrode portion 15. The gripping electrode 18 is attached to the upper outer periphery of the grip portion 16.

  After the cotton 26 is moistened with water, the cotton mounting frame 27 is pressed against the pin conductor electrode 14 to reduce the conduction impedance between the skin surface and the pin conductor electrode 14 to improve the electrical contact and to make any skin surface. Skin treatment can be done by touching.

The pin conductor electrode portion 15 has an elastic material 28 such as rubber disposed between the lower surface of the pin conductor electrode portion 15 and the grip portion 16 and the lower inner surface of the case, and the upper surface of the pin conductor electrode portion 15. A spring 29 is fitted into the four pillars that are planted, and the spring 29 is supported between the upper surface of the pin conductor electrode portion 15 and the inner wall surface of the grip portion 16 case.
Therefore, the pin conductor electrode portion 15 is not fixed to the grip portion 16 case and is in a floating state, and is always urged by the spring 29 toward the lower inner surface of the grip portion 16 case.

  The vibration of the pin conductor electrode portion 15 is caused by a substantially semicircular vibrator 30 (heavy metal weight) attached to the tip of the rotating shaft of the micromotor 17 fixed to the upper surface of the pin conductor electrode portion 15. Is obtained by rotating at a high speed.

  The pin conductor electrode portion 15 is always urged toward the lower inner surface of the case 16 by the spring 29, so that the pin conductor electrode portion 15 of the grip portion 16 is vibrated by high-speed rotation of the micromotor 17. The vibration effect by doing is obtained.

  The rotational speed of the vibrator 30 is changed by controlling the DC voltage supplied to the micromotor 17 by the knob vibration 36 of the vibration adjuster of the vibration control means 23.

  The gripping electrode 18 attached to the upper surface of the grip portion 16 is supplied from the sliding terminal of the output level adjuster 11 of the positive potential generating means 8 of the aging delay device 1 through the plug 12 and is supplied with the cord 31. It is charged to the same positive potential as the sole conductor electrode 19.

  Therefore, by applying a low-frequency electric signal between the pin conductor electrode portion 15 and the gripping electrode 18 by using only the grip portion 16 without using the sole conductor electrode portion 19, a massage effect, an aging delay effect, and a treatment are performed. The effect can be demonstrated.

  A pin conductor electrode portion formed by implanting one or two sole conductor electrode portions that are in contact with the sole and a plurality of pin conductor electrodes that can be used in contact with any part of the skin other than the sole. A first low-frequency signal having a rectangular wave shape synchronized with a human respiratory cycle between the grip portion disposed, the sole conductor electrode portion and the pin conductor electrode portion, and the first low-frequency signal. A second low-frequency signal or a third low-frequency signal is superimposed to form a low-frequency electrical signal, and a negative potential peak value of the superimposed low-frequency signal is generated as a low-frequency electrical signal greater than the positive potential peak value. Because it is output, the aging delay device that negatively charges red blood cells to promote blood flow and simultaneously transmits stimulation by low-frequency electrical signals to the cerebral cortex via nerves to suppress the deterioration (aging) of the cerebral cortex Can provide.

1: Aging delay device 2: Low-frequency signal generating means 3: First low-frequency signal generating means 4: Second low-frequency signal generating means 5: Third low-frequency signal generating means 6: Mode switch 7: Minus Potential generating means 8: Positive potential generating means 9: DC voltage control means 10: Low frequency signal superimposing means 11: Output level adjuster 12, 13: Output connector 14: Pin conductor electrode 15: Pin conductor electrode section 16: Grip part 17: Micro motor 18: Grasping electrode part 19: Sole conductor electrode part 20: Illumination means 21: Acoustic means 22: Balance control means 23: Vibration control means 24: Diffusion plate 25: Pyramid diffusion plate 26: Cotton 27: Cotton mounting frame 28: Elastic material 29: Spring 30: Vibrator 31: Cord 32: Speaker 33: Power switch 34: Color light switch 35: Volume adjuster 36: Bar Ablation regulator C, C: electrolytic capacitor T1, T2: the low-frequency transformer TR1, TR2: transistor

Claims (13)

A device that transmits stimulation by a low-frequency electrical signal to the cerebral cortex through nerves, and suppresses functional deterioration (aging) of the cerebral cortex,
The apparatus includes a low-frequency signal generating unit that generates the low-frequency electrical signal, an electrode unit that applies a negative potential by contacting a part of the body connected to the low-frequency signal generating unit, and the other side of the body. An electrode part that abuts and applies a positive potential;
The aging delay device, wherein the low-frequency signal generating means is configured to generate a low-frequency electric signal in which the peak value of the negative potential is larger than the peak value of the positive potential. A device that transmits stimulation by a low-frequency electrical signal to the cerebral cortex through nerves, and suppresses functional deterioration (aging) of the cerebral cortex,
One or two sole conductor electrode portions that contact the sole,
A grip portion provided with a pin conductor electrode portion formed by implanting a plurality of pin conductor electrodes that can be used in contact with any part of the skin other than the sole,
Low frequency signal generating means for generating and applying the low frequency electrical signal between the sole conductor electrode portion and the pin conductor electrode portion;
The low-frequency signal generating means is a rectangular-shaped first low-frequency signal synchronized with a human respiratory cycle, and
Generating one or both of a rectangular wave-like second low frequency signal of 1 Hz to 200 Hz and a rectangular wave-like third low frequency signal of 400 Hz to 600 Hz;
A low-frequency signal superimposing unit that superimposes the second low-frequency signal or the third low-frequency signal on the first low-frequency signal and outputs it as a low-frequency electrical signal;
The low-frequency signal superimposing means is configured to generate a low-frequency electric signal in which a negative potential peak value of the superimposed low-frequency signal is larger than a positive potential peak value. The aging delay device as described. A device that transmits stimulation by a low-frequency electrical signal to the cerebral cortex through nerves, and suppresses functional deterioration (aging) of the cerebral cortex,
A pin conductor electrode portion formed by implanting a plurality of pin conductor electrodes that can be used in contact with any part of the skin other than the sole, and a grip portion provided with a grip electrode portion that contacts the gripped hand; ,
Low frequency signal generating means for generating and applying the low frequency electrical signal between the pin conductor electrode portion and the gripping electrode portion;
The low-frequency signal generating means is a rectangular-shaped first low-frequency signal synchronized with a human respiratory cycle, and
Generating one or both of a rectangular wave-like second low frequency signal of 1 Hz to 200 Hz and a rectangular wave-like third low frequency signal of 400 Hz to 600 Hz;
A low-frequency signal superimposing unit that superimposes the second low-frequency signal or the third low-frequency signal on the first low-frequency signal and outputs it as a low-frequency electrical signal;
The low-frequency signal superimposing means is configured to generate a low-frequency electric signal in which a negative potential peak value of the superimposed low-frequency signal is larger than a positive potential peak value. The aging delay device as described. The low frequency signal generating means comprises a negative potential generating means each having the low frequency signal superimposing means, and a positive potential generating means;
The low frequency electrical signal output from the minus potential generating means is applied to the pin conductor electrode portion, and the low frequency electrical signal output from the plus potential generating means is applied to the sole conductor electrode portion. The aging delay apparatus according to claim 1 or 2, wherein The low frequency signal generating means comprises a negative potential generating means each having the low frequency signal superimposing means, and a positive potential generating means;
The low-frequency electric signal output from the minus potential generating means is applied to the pin conductor electrode portion, and the low-frequency electric signal output from the plus potential generating means is applied to the gripping electrode portion. The aging delay apparatus according to claim 1 or 3, wherein   The low-frequency signal superimposing means superimposes the first low-frequency signal on a second low-frequency signal, an arbitrary one of the third low-frequency signals, or a combination of a plurality of frequencies. The aging delay apparatus according to any one of claims 1 to 5.   6. The low frequency signal superimposing means is configured to alternately superimpose a second low frequency signal and a third low frequency signal on the first low frequency signal. The aging delay apparatus according to any one of the above.   The low-frequency signal superimposing means is configured to output a low-frequency electric signal whose level is controlled while maintaining a predetermined ratio between the peak value of the minus potential and the peak value of the plus potential of the superimposed low-frequency signal. The aging delay device according to any one of claims 1 to 7, wherein   The low-frequency signal superimposing means is configured to output a low-frequency electric signal whose level is controlled while maintaining a ratio of a negative potential peak value and a positive potential peak value of the superimposed low-frequency signal to 7: 3. The aging delay device according to any one of claims 1 to 7, wherein The aging delay device according to any one of claims 1 to 9,
Balance control means for controlling the balance of the potential of the low frequency electric signal applied between the sole conductor electrode part and the pin conductor electrode part or between the pin conductor electrode part and the gripping electrode part With
The balance control means is configured to output a low-frequency electrical signal that controls the respective output signal levels output from the minus potential generation means and the plus potential generation means to obtain a balanced electrical stimulus. An aging delay device characterized by comprising: The aging delay device according to any one of claims 1 to 10,
A lighting unit that can select one color or a plurality of colors of light emitters that emit red, green, and blue and control the luminance thereof,
The aging delay device characterized in that the illuminating means can control the luminance of the light emitter in accordance with the output level of the first low-frequency signal. The aging delay device according to any one of claims 1 to 11, comprising a reproducing means as a sound source means, or a recording / reproducing means, and a loudspeaking means,
The reproduction output signal of the sound source means is superimposed on the first low frequency signal to form an audio output signal, and the audio output level of the superimposed audio output signal is controlled according to the output level of the first low frequency signal. An aging delay device characterized by being made possible. The aging delay device according to any one of claims 1 to 12, wherein the grip portion includes vibration wave generating means for applying a low-frequency mechanical vibration to the pin conductor electrode portion.

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