JP2021029716A - Blood flow rate increase promotion device - Google Patents

Abstract

To provide a blood flow rate increase promotion device capable of increasing a blood flow rate in a specific site of a human body easily and effectively with a simple configuration, and exhibiting effects for the treatment of various diseases, mental and physical relaxation, etc.SOLUTION: A blood flow rate increase promotion device 1 includes a pair of electrodes (a first electrode 3,3 and a second electrode 4,4) for applying a voltage to a human body, and an equipment body 2, which is a pulse voltage generation device for generating a pulse voltage of a predetermined frequency between the pair of electrodes. The equipment body 2 is provided with a first circuit 11, which is first generation means for generating a pulse voltage of a first frequency, and a second circuit 12, which is second generation means for generating a pulse voltage of a second frequency the same as or different from the first frequency.SELECTED DRAWING: Figure 1

Description

The present invention relates to a blood flow increase promoting device capable of promoting an increase in blood flow at a specific part of the human body.

By improving the blood flow of the human body, it is possible to improve symptoms such as stiff shoulders and prevent various diseases. As a device for improving the blood flow of the human body in this way, as in Patent Document 1, a moxa member in which a temperature regulating member that keeps the temperature of the body surface within a certain numerical range for a predetermined time is embedded is used. A moxibustion device having a heat-insulating support base provided with ventilation holes for transmitting the heat combustion of the moxa member to the skin surface is known.

Japanese Unexamined Patent Publication No. 2016-39849

However, although the moxibustion device of Patent Document 1 has a certain effect on increasing the blood flow on the surface of the body, the effect is extremely limited, and it is difficult to increase the blood flow inside the human body. ..

An object of the present invention is to solve the problem of the conventional device for increasing the blood flow rate, and to easily and effectively improve the blood flow rate in a specific part (particularly in the brain) including the inside of the human body by a simple configuration. It is an object of the present invention to provide a blood flow rate increase promoting device which can be effectively increased and is effective for treatment of various diseases, relaxation of mind and body, and the like.

The invention according to claim 1 of the present invention is a pair of electrodes for applying a voltage to a human body and a pulse voltage generation for generating a pulse voltage of a predetermined frequency between the pair of electrodes. It is characterized in that it is equipped with a device. The pulse voltage of a predetermined frequency is a pulse voltage of 400 Hz or more and less than 1,000 Hz.

The invention according to claim 2 is the invention according to claim 1, wherein the pulse voltage generator is the same as or the same as the first frequency with the first generating means for generating the pulse voltage of the first frequency. It is characterized by having a second generating means for generating pulse voltages having different second frequencies.

The invention according to claim 3 is the invention according to claim 1 or 2, wherein the electrode uses a pulse voltage of a first frequency generated by the first generation means to be the first of the human body. It has a pair of first electrodes for applying to a part and a pair of second electrodes for applying a pulse voltage of a second frequency generated by the second generating means to a second part of the human body. It is characterized by being.

The invention according to claim 4 is the invention according to any one of claims 1 to 3, wherein the first electrode and / or the second electrode has an aluminum layer laminated inside a base material layer. It is characterized in that a heater layer that generates far infrared rays is laminated inside an aluminum layer.

According to the blood flow rate increase promoting device according to claim 1, it is possible to easily and effectively increase the blood flow rate of a specific part (particularly in the brain) of the human body (user) with a simple configuration, and various types of devices can be used. It is possible to exert a great effect on the treatment of diseases, relaxation of mind and body, and the like. In addition, it becomes possible to improve the symptoms of dementia. Furthermore, according to the device for promoting blood flow increase according to claim 1, α waves (particularly α2 waves) among the brain waves emitted from the brain can be increased, so that the mind and body can be relaxed, and mental illness and sleep can be achieved. It becomes possible to improve the obstacle.

According to the blood flow increase promoting device according to claim 2, the pulse voltage of the first frequency generated from the first generating means and the pulse voltage of the second frequency generated from the second generating means are simultaneously generated. Since it can be applied to the user, it is possible to more effectively increase the blood flow in a specific part of the human body (particularly in the brain).

According to the blood flow increase promoting device according to claim 3, the pulse voltage of the first frequency generated from the first generating means is applied to the first part of the user (for example, the left and right side necks) at the same time. , A second frequency pulse voltage generated by the second generator to the user's second site (eg, above and below the back (around the spine below the neck and around the spine above the coccyx)). Since it can be applied, it is possible to increase the blood flow at a specific site (particularly in the brain) of the user very efficiently.

According to the blood flow rate increase promoting device according to claim 4, a specific part of the user (for example, left and right side necks, upper and lower back) in a state where far infrared rays are generated from the first electrode and / or the second electrode. ) Can be applied while warming), so that the blood flow rate at a specific site (particularly in the brain) of the user can be increased extremely efficiently.

It is explanatory drawing which shows the blood flow rate increase promotion apparatus (a is a perspective view, b is a plan view). It is explanatory drawing which shows the electric circuit of the blood flow rate increase promotion apparatus. It is explanatory drawing which shows the electrode enlarged (a is a sectional view in a vertical direction, b is a front view of the inside). It is explanatory drawing which shows the modification example of an electrode (a is a sectional view in a vertical direction, b is a front view of the inside).

Hereinafter, an embodiment of the blood flow rate increase promoting device according to the present invention will be described in detail with reference to the drawings. In the following description, "~" regarding the frequency range and the like means, in principle, not more than the value on the left side and less than the value on the right side.

<Structure of blood flow increase promoting device>
FIG. 1 shows an example of the blood flow increase promoting device according to the present invention, in which the blood flow increase promotion 1 uses the device main body 2 for generating a pulse voltage and the pulse voltage emitted from the device main body 2. First electrodes 3 and 3 for applying to the left and right side necks of the human body (user), and second electrodes 4 and 4 for applying pulse voltage emitted from the main body of the device to the top and bottom of the back of the human body. And so on.

FIG. 2 shows the electric circuit of the blood flow increase promoting device 1, and the device main body 2 of the blood flow increasing promoting device 1 is a first to generate a pulse voltage output from the first electrodes 3 and 3. It has one circuit 11 (first generating means) and a second circuit 12 (second generating means) for generating pulse voltage output from the second electrodes 4 and 4. Then, in the first circuit 11 and the second circuit 12, a power supply circuit 13 for supplying an external power supply or an internal power supply, and a power supply circuit 13 for receiving power supply from the power supply circuit 13 to generate a low frequency pulse voltage. The oscillator 14, the booster circuit 15 for boosting the pulse voltage generated by the oscillator 14 by the transformer, and when transmitting the boosted pulse voltage to the electrodes (first electrodes 3, 3, second electrodes 4, 4). CPU 17 for individually controlling each device, circuit, etc. (that is, power supply circuit 13, oscillator 14, booster circuit 15, relay board 16, etc.) of the relay board 16, the first circuit 11 and the second circuit 12 that function as an interface. , A storage means (RAM, ROM, etc.) 18 for storing the output pattern of the pulse voltage output from the first electrodes 3, 3 and the second electrodes 4, 4, and a switch, a timer, etc. (not shown) are provided. There is. Then, the first electrodes 3 and 3 are connected to the relay board 16 of the first circuit 11, and the second electrodes 4 and 4 are connected to the relay board 16 of the second circuit 12. There is.

On the other hand, in the device main body 2 of the blood flow increase promoting device 1, in order to adjust the height (magnitude) of the pulse voltage generated from the power switch 21 for turning on / off the power and the first electrodes 3 and 3. The pulse voltage generated from the second output adjusting means 23 and the first electrodes 3 and 3 for adjusting the height (magnitude) of the pulse voltage generated from the first output adjusting means 22 and the second electrodes 4 and 4 of the above. Mode of pulse voltage (frequency, output cycle, output time, output) generated from the first output mode adjusting means 24 and the second electrodes 4 and 4 for adjusting the mode (frequency, output cycle, output time, output pattern, etc.) Second output mode adjusting means 25 for adjusting (pattern, etc.), ON / OFF switch 26 for executing or stopping the output of pulse voltage from the first electrodes 3 and 3 and the second electrodes 4 and 4. , Timer operating means 27 for executing or stopping the output of the pulse voltage from the first electrodes 3, 3 and the second electrodes 4, 4 after an arbitrary time, the electrodes (first electrodes 3, 3, second A monitor 28 or the like for displaying the output state of the pulse voltage from the electrodes 4 and 4) is installed. Then, the power switch 21, the first output adjusting means 22, the second output adjusting means 23, the first output mode adjusting means 24, the second output mode adjusting means 25, the ON / OFF switch 26, the timer operating means 27, and the monitor. 28 and the like are connected to the CPU 17 via an interface (not shown).

Then, the blood flow rate increase promoting device 1 configured as described above stores various low-frequency pulse voltages of 100 Hz to 1,200 Hz in the storage means 18 from the first circuit 11 and / or the second circuit 12. It is possible to output according to the output pattern of. Further, if necessary, the first circuit 11 and the second circuit 12 can output a low frequency pulse voltage of 100 Hz to 1,200 Hz according to different output patterns. Further, in order to effectively increase the blood flow of the user (particularly, the blood flow in the brain) by using the blood flow increase promoting device 1, 400 Hz to 1 from the first circuit 11 and the second circuit 12 It is necessary to output a low frequency pulse voltage of 000 Hz, more preferably a low frequency pulse voltage of 600 Hz to 800 Hz, and particularly preferably a low frequency pulse voltage of 650 Hz to 750 Hz. .. In addition, in order to effectively increase the α wave (particularly the α2 wave) among the brain waves emitted from the user's brain, a low frequency of 400 Hz to 1,000 Hz is transmitted from the first circuit 11 and the second circuit 12. It is preferable to output a pulse voltage of 600 Hz to 800 Hz, more preferably to output a low frequency pulse voltage of 600 Hz to 800 Hz, and particularly preferably to output a low frequency pulse voltage of 650 Hz to 750 Hz.

<Electrode structure>
FIG. 3 is an enlarged view of the electrodes (first electrode 3, 3, second electrode 4, 4) of the blood flow increase promoting device 1, and each electrode has a thickness of 2.0 mm and a predetermined size. A rectangular (square), adhesive silicone resin of the same size (length x width = 50 mm x 50 mm) on a rectangular (square) substrate (carbon layer) 31 of the same size (length x width = 50 mm x 50 mm). A base portion 33 formed by laminating a gel layer 32 made of the same material is provided on the outside (the side opposite to the user when attached to the user). A far-infrared ray generating portion 37 for generating far-infrared rays is laminated at substantially the center of the base portion 33.

That is, a rectangular (square) aluminum layer 34 having a thickness of 0.3 mm and a predetermined size (length x width = 25 mm x 25 mm) is attached to substantially the center of the base portion 33, and the aluminum layer 34 is attached. A heater layer 35 capable of generating far-infrared rays is laminated by a coating on the inside of the aluminum (on the user side when attached to the user). The heater layer 35 is formed of a resin composition obtained by mixing a heat-resistant paint made of graphite and a silicone resin in a predetermined weight ratio (graphite: heat-resistant paint = 5: 95 to 15:85), and has a thickness. It is 0.2 mm and is formed in a rectangular shape having a predetermined size (length x width = 22 mm x 22 mm). A cover layer 36 made of an epoxy resin having a thickness of about 0.15 mm and a predetermined size (length x width = 40 mm x 40 mm) formed in a rectangular shape is laminated on the inside of the heater layer 35. The cover layer 36 covers the inner surface and the outer circumference of the heater layer 35. The far-infrared ray generating portion 37 is formed by the aluminum layer 34, the heater layer 35, and the cover layer 36. Further, the outer peripheral portion of the gel layer 32 is thicker than the central portion, and the thick portion covers the outer periphery of the far infrared ray generating portion 37. Further, in the gel layer 32, the thickness of the central portion (far infrared ray generating portion 37) is about 0.7 mm, and the thickness of the outer peripheral thick portion is about 1.35 mm. The surface of the far-infrared ray generating portion 37 and the surface of the surrounding gel layer 32 are flush with each other.

<How to use the blood flow increase promotion device>
FIG. 3 shows an example of how to use the blood flow rate increase promoting device 1 configured as described above. In the blood flow rate increase promoting device 1, a pair of first electrodes 3 and 3 are used by the user. It is used in a state where it is attached to one specific part (for example, the left and right lateral necks) and a pair of second electrodes 4 and 4 are attached to the user's second specific part (for example, above and below the back). .. As described above, since the adhesive gel layer 32 is exposed on the inner surfaces of the first electrodes 3 and 3 and the second electrodes 4 and 4, the user's first specific site and the first It is fixed so that it does not move just by contacting it with two specific parts. Then, when the ON / OFF switch 26 is turned ON while the power switch 21 is ON, a pulse voltage having a predetermined frequency is determined from the first electrodes 3 and 3 and the second electrodes 4 and 4. It is output as a pattern (cycle, size, duration).

Hereinafter, the blood flow rate increase promoting device according to the present invention will be described in detail by way of examples, but the present invention is not limited to the aspects of such examples and is appropriately used as long as it does not deviate from the gist of the present invention. It is possible to change. The methods for evaluating physical properties and characteristics in each of the examples and comparative examples are as follows.

<Changes in blood flow>
It is known that when blood flow in the brain increases, oxyhemoglobin (hemoglobin bound to oxygen) increases and deoxyhemoglobin (hemoglobin dissociated from oxygen) decreases. Therefore, using a multi-channel tissue oxygen meter (model number: Hb14-2) manufactured by Astem Co., Ltd., the concentration of various hemoglobins of the subject before and after applying the pulse voltage using the above-mentioned blood flow increase promoting device 1 ( The change in blood flow in the brain was examined mainly by measuring the concentration of oxyhemoglobin). The change in blood flow was calculated as an average value of 10 subjects.

<Changes in brain waves (θ wave and α2 wave)>
Using "Brain Pro FM-929" manufactured by Futech Electronics Co., Ltd., the brain wave of a specific frequency (3.0 to 30 Hz) of the subject before and after applying the pulse voltage using the blood flow increase promoting device. The intensity (voltage) was measured every 0.5 Hz at 1 second intervals for 15 minutes. Then, the average value (A) of the 4 to 7.5 Hz brain wave (θ (theta) wave) over 15 minutes and the average value (α2 (alpha two) wave) of the 9 to 11 Hz brain wave (α2 (alpha two) wave) over 15 minutes ( B) was obtained, and the ratio (increase rate) before and after applying the pulse voltage was calculated by the following equations (1) and (2). Theta wave is a brain wave that is often emitted when the head is blurred, and the α2 wave is a brain wave that is frequently emitted when the consciousness is concentrated. The change in the electroencephalogram was calculated as an average value of 10 subjects.
・ Increase rate of theta wave = mean value of theta wave after applying pulse voltage (A) / mean value of theta wave before applying pulse voltage (A) ・ ・ (1)
・ Increase rate of α2 wave = Mean value of α2 wave after applying pulse voltage (B) / Mean value of α2 wave before applying pulse voltage (B) ・ ・ (2)

[Example 1]
Using the above-mentioned blood flow increase promoting device 1, a pair of first electrodes 3 and 3 are attached to the left and right side necks of the user (subject), and a pair of second electrodes 4 and 4 are attached to the user's back. It was attached to the top and bottom (around the spine on the lower side of the neck and around the spine on the upper side of the coccyx) (adhesive using the gel layer 32 of each electrode). Then, in that state, a pulse voltage having a frequency of 580 to 620 Hz generated by the first circuit 11 (that is, a pulse voltage that periodically increases or decreases between 580 to 620 Hz for a fixed time (1 minute)) is applied. A pulse voltage having a frequency of 580 to 620 Hz (generated by the first circuit 11) generated by the second circuit 12 while being applied to the left and right side necks of the user via the electrodes 3 and 3 for 15 minutes. (Similar to the pulse voltage) was applied to the top and bottom of the user's back for 15 minutes via the second electrodes 4 and 4. Then, the blood flow rate of the user and the brain wave of the user before applying the pulse voltage and after applying the pulse voltage were evaluated by the above-mentioned method. The changes in the blood flow rate and the electroencephalogram of the user in Example 1 are shown in Table 1 together with the usage conditions of the blood flow rate increase promoting device 1.

[Examples 2 to 6]
The frequency of the pulse voltage applied to the user via the first electrodes 3 and 3 and the frequency of the pulse voltage applied to the user via the second electrodes 4 and 4 were changed as shown in Table 1, respectively. Then, the blood flow rate of the user and the brain wave of the user before applying the pulse voltage and after applying the pulse voltage were evaluated by the above-mentioned method. The changes in the blood flow rate and the brain waves of the users in Examples 2 to 6 are shown in Table 1 together with the usage conditions of the blood flow rate increase promoting device 1.

[Example 7]
The first electrodes 3 and 3 that apply the pulse voltage to the user have been changed to those having the structure as shown in FIG. 4 (that is, the one in which the far infrared ray generating portion 37 is not laminated). Other than that, in the same manner as in the first embodiment, the pulse voltage having a frequency of 580 to 620 Hz generated by the first circuit 11 is applied to the left and right of the user for 15 minutes via the first electrodes 3 and 3. A pulse voltage having a frequency of 580 to 620 Hz generated by the second circuit 12 was applied to the upper and lower parts of the user's back for 15 minutes via the second electrodes 4 and 4. .. Then, the blood flow rate of the user and the brain wave of the user before applying the pulse voltage and after applying the pulse voltage were evaluated by the above-mentioned method. The changes in the blood flow rate and the brain waves of the user in Example 7 are shown in Table 1 together with the usage conditions of the blood flow rate increase promoting device 1.

[Example 8]
The second electrodes 4 and 4 that apply the pulse voltage to the user have been changed to those having the structure as shown in FIG. 4 (that is, the one in which the far infrared ray generating portion 37 is not laminated). Other than that, in the same manner as in the first embodiment, the pulse voltage having a frequency of 580 to 620 Hz generated by the first circuit 11 is applied to the left and right of the user for 15 minutes via the first electrodes 3 and 3. A pulse voltage having a frequency of 580 to 620 Hz generated by the second circuit 12 was applied to the upper and lower parts of the user's back for 15 minutes via the second electrodes 4 and 4. .. Then, the blood flow rate of the user and the brain wave of the user before applying the pulse voltage and after applying the pulse voltage were evaluated by the above-mentioned method. The changes in the blood flow rate and the brain waves of the user in Example 8 are shown in Table 1 together with the usage conditions of the blood flow rate increase promoting device 1.

[Example 9]
The first electrodes 3 and 3 and the second electrodes 4 and 4 that apply the pulse voltage to the user have been changed to those having the structure as shown in FIG. 4 (that is, the one in which the far infrared ray generating portion 37 is not laminated). Other than that, in the same manner as in the first embodiment, the pulse voltage having a frequency of 580 to 620 Hz generated by the first circuit 11 is applied to the left and right of the user for 15 minutes via the first electrodes 3 and 3. A pulse voltage having a frequency of 580 to 620 Hz generated by the second circuit 12 was applied to the upper and lower parts of the user's back for 15 minutes via the second electrodes 4 and 4. .. Then, the blood flow rate of the user and the brain wave of the user before applying the pulse voltage and after applying the pulse voltage were evaluated by the above-mentioned method. The changes in the blood flow rate and the brain waves of the user in Example 9 are shown in Table 1 together with the usage conditions of the blood flow rate increase promoting device 1.

[Comparative Example 1]
Moxibustion was applied to the left and right necks and upper and lower backs of the user (the same sites as the attachment sites of the first electrodes 3 and 3 and the second electrodes 4 and 4 in Example 1) for 15 minutes (Senefa Co., Ltd.). ) Senefa moxibustion). Then, the blood flow rate of the user and the brain wave of the user before and after the moxibustion were evaluated were evaluated by the above-mentioned method. Table 1 shows changes in the blood flow rate and changes in the electroencephalogram of the user in Comparative Example 1.

[Comparative Example 2]
The frequency of the pulse voltage applied to the user via the first electrodes 3 and 3 and the frequency of the pulse voltage applied to the user via the second electrodes 4 and 4 were changed to 180 to 220 Hz, respectively. Other than that, the pulse voltage generated by the first circuit 11 can be applied to the left and right side necks of the user for 15 minutes via the first electrodes 3 and 3 in the same manner as in the first embodiment. At the same time, the pulse voltage generated by the second circuit 12 was applied to the upper and lower parts of the user's back for 15 minutes via the second electrodes 4 and 4. Then, the blood flow rate of the user and the brain wave of the user before applying the pulse voltage and after applying the pulse voltage were evaluated by the above-mentioned method. Table 1 shows changes in the blood flow rate and brain waves of the user in Comparative Example 2 together with the conditions for using the blood flow rate increase promoting device 1.

From Table 1, in Examples 1 to 9 in which a pulse voltage of a predetermined frequency was applied to a predetermined part of the user by the blood flow rate increase promoting device 1, the blood flow rate (blood flow rate in the brain) increased. It can be estimated that it is. Further, in Example 4 in which a pulse voltage having a frequency around 700 Hz is applied from the first electrodes 3 and 3 and the second electrodes 4 and 4, it can be seen that the increase in blood flow rate (blood flow rate in the brain) is remarkable. .. Further, when both the first electrodes 3 and 3 and the second electrodes 4 and 4 have a heater layer 35 capable of generating far infrared rays, either the first electrodes 3 or 3 or the second electrodes 4 and 4 are used. It can be seen that the amount of increase in blood flow rate (blood flow rate in the brain) is larger than that in the case where the heater layer 35 is not provided.

On the other hand, when moxibustion is only applied to a predetermined part of the user, or when the frequency of the pulse voltage output from the first electrodes 3, 3 and the second electrodes 4, 4 is out of the range of the present invention. It can be seen that there is no increase in blood flow (blood flow in the brain).

<Effect of blood flow increase promoting device>
As described above, the blood flow increase promoting device 1 is predetermined between a pair of electrodes (first electrodes 3, 3 and second electrodes 4, 4) for applying a voltage to the human body and the pair of electrodes. Since it is equipped with a pulse voltage generator (device body 2) for generating a pulse voltage of frequency, it easily and effectively increases the blood flow in a specific part (in the brain, etc.) inside the human body with a simple configuration. It is possible to exert a great effect on the treatment of various diseases, relaxation of mind and body, and the like. Further, according to the blood flow rate increase promoting device 1, it is possible to increase the α wave (particularly, the α2 wave) among the brain waves emitted from the brain.

Further, in the blood flow increase promoting device 1, the device main body 2 which is a pulse voltage generating device has the same or the same as the first circuit 11 which is the first generating means for generating the pulse voltage of the first frequency. Since it has a second circuit 12 which is a second generating means for generating pulse voltages of different second frequencies, the pulse voltage of the first frequency generated from the first circuit 11 and the second circuit 12 Since the pulse voltage of the second frequency generated from the above can be applied to the user at the same time, it is possible to more effectively increase the blood flow in a specific part of the human body (particularly in the brain).

Further, in the blood flow increase promoting device 1, the electrodes include a pair of first electrodes 3 and 3 for applying the pulse voltage of the first frequency generated by the first circuit 11 to the first part of the human body, and the first electrode. Since it has a pair of second electrodes 4 and 4 for applying the pulse voltage of the second frequency generated by the second circuit 12 to the first part of the human body, the first circuit 11 is generated. The pulse voltage of one frequency is applied to the first part of the user (for example, the left and right side necks), and at the same time, the pulse voltage of the second frequency generated from the second circuit 12 is applied to the second part of the user. Since it can be applied to a site (for example, above and below the back), it is possible to increase the blood flow at a specific site (particularly in the brain) of the user very efficiently.

In addition, in the blood flow increase promoting device 1, the first electrodes 3 and 3 and the second electrodes 4 and 4 have an aluminum layer 34 laminated inside the base portion 33 which is a base material layer, and the inside of the aluminum layer 34. Since the heater layer 35 that generates far infrared rays is laminated on the surface, a specific part of the user (for example, left and right) is generated in a state where far infrared rays are generated from the first electrodes 3 and 3 and the second electrodes 4 and 4. Since the pulse voltage can be applied while warming the side neck and the upper and lower sides of the back, it is possible to increase the blood flow at a specific site (particularly in the brain) of the user extremely efficiently.

<Example of changing the blood flow increase promoting device>
The blood flow increase promoting device according to the present invention is not limited to the embodiment of the above-described embodiment, and the object of the present invention is the configuration of the material, shape, structure, size, etc. of the electrode and the pulse voltage generator. It can be changed as necessary within the range that does not deviate from.

For example, the blood flow rate increase promoting device according to the present invention is not limited to the device having two sets of electrodes as in the above embodiment, and the device having only one set of electrodes or having three or more sets of electrodes (that is,). It may have three or more sets of pulse voltage generating means). Further, the blood flow rate increase promoting device according to the present invention is not limited to the device having a rectangular electrode as in the above embodiment, and the shape of the electrode can be changed to a circular shape or an elliptical shape. In addition, the blood flow rate increase promoting device according to the present invention is not limited to those in which the two sets of electrodes have the same shape and structure as in the above embodiment, and the two sets of electrodes have different shapes and structures. It is also possible to change to one.

Further, the blood flow rate increase promoting device according to the present invention is not limited to the device having an electrode provided with a far infrared ray generating portion as in the above embodiment, and has an electrode only for a base material portion having no far infrared ray generating portion. It is also possible to change to. In addition, when the electrode of the blood flow increase promoting device has a far infrared generating portion as in the above embodiment, the heater layer is formed by mixing graphite and a heat-resistant paint (silicone resin or the like). The resin composition is not limited to the one made of, and it is also possible to change the resin composition to one made of a resin composition containing charcoal or ceramics. Further, when the electrode of the blood flow rate increase promoting device has a far-infrared ray generating portion as in the above embodiment, it is limited to an aluminum layer (or other metal layer) provided on the outside of the heater layer. Instead, the heater layer may be laminated as it is inside the base material layer. When the electrode of the blood flow rate increase promoting device is provided with an aluminum layer (or other metal layer) on the outside of the heater layer as in the above embodiment, far infrared rays are generated by the far infrared rays generating portion. There is an advantage that the efficiency can be increased and the blood flow rate at a specific site (particularly in the brain) of the user can be increased more efficiently.

Since the blood flow rate increase promoting device according to the present invention exerts an excellent effect as described above, it is possible to increase the blood flow rate of a specific part of the human body, and to treat various diseases, relax the mind and body, and the like. It can be suitably used as an instrument of the above.

1 ・ ・ Blood flow increase promotion device 2 ・ ・ Equipment body (pulse voltage generator)
3,3 ... 1st electrode 4,4 ... 2nd electrode 11 ... 1st circuit (1st generating means)
12 ... Second circuit (second generation means)
33 ... Base part (base material layer)
34 ... Aluminum layer 35 ... Heater layer 37 ... Far infrared ray generator

<Changes in brain waves (θ wave and α2 wave)>
Using "Brain Pro FM-929" manufactured by Futec Electronics Co., Ltd., the strength of brain waves at a specific frequency (3.0 to 30 Hz) of the subject before and after applying a pulse voltage using a blood flow increase promoting device. Blood (voltage) was measured every 0.5 Hz at 1 second intervals for 15 minutes. Then, the average value (A) of the 4 to 7.5 Hz brain wave (θ (theta) wave) over 15 minutes and the average value (α2 (alpha two) wave) of the 9 to 11 Hz brain wave (α2 (alpha two) wave) over 15 minutes ( B) was obtained, and the ratio (increase rate) before and after applying the pulse voltage was calculated by the following equations (1) and (2). Theta wave is a brain wave that is often emitted when the head is blurred, and the α2 wave is a brain wave that is frequently emitted when the consciousness is concentrated. The change in the electroencephalogram was calculated as an average value of 10 subjects.
・ Increase rate of theta wave = mean value of theta wave after applying pulse voltage (A) / mean value of theta wave before applying pulse voltage (A) ・ ・ (1)
・ Increase rate of α2 wave = Mean value of α2 wave after applying pulse voltage (B) / Mean value of α2 wave before applying pulse voltage (B) ・ ・ (2)

Claims (4)

A pair of electrodes for applying voltage to the human body,
A blood flow rate increase promoting device comprising a pulse voltage generator for generating a pulse voltage of a predetermined frequency between the pair of electrodes. The pulse voltage generator
A claim characterized by having a first generating means for generating a pulse voltage of a first frequency and a second generating means for generating a pulse voltage of a second frequency equal to or different from the first frequency. Item 2. The blood flow rate increase promoting device according to item 1. The electrode
A pair of first electrodes for applying a pulse voltage of the first frequency generated by the first generating means to the first part of the human body,
Claim 1 or claim, wherein the pulse voltage of the second frequency generated by the second generating means is provided with a pair of second electrodes for applying the pulse voltage to the second part of the human body. 2. The blood flow rate increase promoting device according to 2. The first electrode and / or the second electrode
The blood flow rate increase promoting device according to claim 3, wherein an aluminum layer is laminated inside the base material layer, and a heater layer that generates far infrared rays is laminated inside the aluminum layer.

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