JP2010022624A - Footbath device and footbath water manufacturing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a footbath device capable of further improving the bloodstream of feet and suppressing costs. <P>SOLUTION: Disclosed is the footbath device, wherein a micro-nanobubble generator 19 generates radon carbon dioxide micro-nanobubbles by radon and carbon dioxide introduced from a carbon dioxide gas storing and adjusting part 22 in footbath water inside a footbath tub 3 from a micro-nanobubble generation nozzle 2. Thus, by the footbath water containing the radon carbon dioxide micro-nanobubbles, in addition to the effect of micro-nanobubbles, the effect of radioactive gaseous radon and the effect of the carbon dioxide made into the micro-nanobubbles are demonstrated. Also, since an underwater stirrer 35 finely vibrates the footbath water inside the footbath tub, a massage effect to the feet is demonstrated. They act on the feet of a human body synergistically to increase the bloodstream of the feet. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a footbath apparatus and a footbath water manufacturing method for a patient whose blood flow in a foot part of a human body has deteriorated, such as a diabetic patient or an elderly person.

  Conventionally, there has been a footbath using a micro / nano bubble generator, but the amount of generated micro / nano bubbles is small, and the size range of micro / nano bubbles is narrow, which affects the human foot, especially against blood flow. The degree of influence was small.

  In particular, there are many diabetic patients in Japan, and in diabetic patients there are cases of amputation of the foot due to gangrene due to blood flow deterioration near the end of the foot. As a device for improving blood flow in a human foot, a footbath system that generates micro-nano bubbles can be considered.

  However, in order to exert the effect of improving blood flow, it is necessary to install a large number of swirl flow micro-nano bubble generators. Specifically, there is a system in which several swirl flow micro-nano bubble generators are installed. This system leads to an increase in the cost of the system that constitutes the entire footbath, such as the electricity bill for operating several micro / nano bubble generators and the initial cost of several micro / nano bubble generators, which is an unrealistic system It is.

  That is, in order to improve the blood flow of a human foot, there is a demand for a wide variety of micro-nano bubbles and a footbath device that can economically produce a wide variety of micro-nano bubbles in large quantities.

  By the way, the utilization method and apparatus of the nanobubble as a prior art are disclosed by patent document 1 (Unexamined-Japanese-Patent No. 2004-121962). This prior art utilizes characteristics such as a reduction in buoyancy, an increase in surface area, an increase in surface activity, generation of a local high-pressure field, and a surface active action and a bactericidal action by realizing electrostatic polarization. More specifically, by interlinking them, various objects can be washed with high functionality and low environmental load by the adsorption function of dirt components, the high-speed washing function of the object surface, and the sterilization function. Patent Document 1 discloses that purification can be performed.

  Another method for manufacturing an artificial carbonated spring is disclosed in Patent Document 2 (Japanese Patent Laid-Open No. 2008-63236). In this conventional technology, carbon dioxide gas is dissolved in water or warm water with a nano or micro bubble generator that entrains fine air into water and generates a bubble size of nano to micro order, and the concentration of dissolved carbon dioxide gas is changed to hot springs. It is disclosed that the standard of carbonated spring of law is 250 ppm or more, preferably the standard of therapeutic spring is 1000 ppm or more.

  As another conventional technique, Patent Document 3 (Japanese Patent Laid-Open No. 2008-43906) discloses a technique for producing functional microbubbles and functional microbubble water. In this technique, a gas-liquid two-phase fluid composed of a mixture of gas and liquid is rotated 20,000 to 40,000 per minute in a cylindrical or conical container, and a liquid and a gas are placed in the center of the container. The two-phase swirl flow is formed. A gas negative pressure cavity is formed along the rotational axis of the two-phase swirl flow to form a swirling gas cavity, and the gas is shredded and pulverized by the swirling of the gas cavity. Thus, functional microbubbles or functional microbubble water containing fine bubbles having a diameter of 10 to 40 μm and an electric potential of −40 to −100 mV at the time of generation are supplied to the organism (for example, the organism is immersed in the microbubble water). It is disclosed.

By the way, in the conventional medical fountain and foot bath, there are technologies using micro-nano bubbles and carbon dioxide micro-nano bubbles, but it is desired to further improve the blood flow of human feet and to reduce costs.
JP 2004-121962 A JP 2008-63236 A JP 2008-43906 A

  Then, the subject of this invention is providing the footbath apparatus which can implement | achieve the further improvement of the blood flow improvement of a leg, and cost reduction.

In order to solve the above problems, a footbath apparatus of the present invention comprises a footbath,
An underwater stirrer that is disposed in the footbath and generates vibration in the footbath water in the footbath;
A gas generator for generating radon and carbon dioxide,
A micro-nano bubble generating unit that is disposed in the foot bath and is supplied with radon and carbon dioxide from the gas generating unit to generate radon carbon dioxide micro-nano bubbles by the radon and carbon dioxide in the foot bath water in the foot bath; and ,
A footbath water pump that supplies footbath water in the footbath tank to the micro / nano bubble generating unit is provided.

  According to the present invention, the micro / nano bubble generation unit generates radon carbon dioxide micro / nano bubbles by radon and carbon dioxide supplied from the gas generation unit in the foot bath water in the foot bath. Therefore, according to the footbath water containing the radon carbon dioxide gas micro-nano bubbles, in addition to the effect of the micro-nano bubbles, the effect of the radioactive gas radon converted into micro-nano bubbles and the effect of carbon dioxide gas can be exhibited. In addition, the above-mentioned underwater stirrer causes a slight vibration in the footbath water in the footbath, so that it can exert a massage effect on the foot, synergistically acting on the human foot, and increasing the blood flow of the foot. Can demonstrate.

Moreover, in the footbath apparatus of one embodiment, the gas generation unit is
A carbon dioxide storage regulating container that contains radium ore and generates radon and carbon dioxide in the stored water;
The radon from the carbon dioxide storage control container and a gas pipe for guiding the carbon dioxide gas to the micro / nano bubble generation unit, the footbath water pump is a high head pump, and the micro / nano bubble generation unit generates micro / nano bubbles Nozzle.

  According to this embodiment, a mixture of radon and carbon dioxide gas adjusted and stored in a carbon dioxide storage regulating container is supplied or supplied to the micro / nano bubble generation unit to produce fine radon carbon dioxide micro / nano bubbles in the micro / nano bubble generation unit. Then, it can be discharged into the footbath, and at the same time, a water flow can be caused by the underwater stirrer to massage the foot. In addition, since the fine radon carbon dioxide micro-nano bubbles are discharged into the footbath, the fine radon carbon dioxide micro-nano bubbles can be contained in the footbath water and used for foot treatment and the like.

  Moreover, in the footbath apparatus of one embodiment, the carbon dioxide gas storage adjustment container generates carbon dioxide with a solid bath agent that generates carbon dioxide charged into the inside.

  According to this embodiment, in the carbon dioxide storage adjustment container, carbon dioxide gas is easily generated by the charged solid bathing agent, and is self-supplied or supplied to the micro / nano bubble generating nozzle, and the carbon dioxide gas is generated by the micro / nano bubble generating nozzle. It can be used by generating micro-nano bubbles.

  Moreover, in the footbath apparatus of one Embodiment, the input amount of the said solid bath agent was 0.04-0.05% in conversion of weight with respect to the footbath water in the said footbath tank.

  Moreover, in the footbath apparatus of one Embodiment, the solid bath agent which generate | occur | produces the said carbon dioxide gas contains the component of a medicinal plant.

  According to this embodiment, since the solid bath agent that generates carbon dioxide contains medicinal plant components, carbon dioxide micro-nano bubbles that also contain medicinal plant components are contained in footbath water, The foot bath water can exert the pharmacological effect of the ingredients.

  Moreover, in the footbath apparatus of one Embodiment, the solid bath agent which generate | occur | produces the said carbon dioxide gas contains the component which has a therapeutic effect with respect to the foot disease in a human body.

  According to this embodiment, the therapeutic effect with respect to the disease of a human foot can be expected by putting a foot into the footbath of the footbath apparatus. For example, by using octylphthalide as the above-mentioned component, it can be used as a disease countermeasure related to gangrene in diabetic patients.

  In one embodiment of the footbath apparatus, the medicinal plant may be one of ginseng, ginger, ginger, chamomile, aloe, pokeweed, or ginseng, ginger, ginger, chamomile, aloe, ginger. It is a mixture of any two or more of them.

  According to this embodiment, by putting a foot into the footbath of the footbath device, an effect of any one or more of ginseng, ginger, ginger, chamomile, aloe, and pokeweed can be expected.

  Moreover, in the footbath apparatus of one embodiment, the amount of carbon dioxide gas generated in the gas generating unit is automatically reduced from about 60 ml / min to about 1 ml / min.

  According to this embodiment, since the amount of carbon dioxide gas generated in the gas generating unit is automatically reduced, the size of the micro / nano bubbles generated by the micro / nano bubble generating nozzle is automatically reduced, so that the micro / nano bubbles of a smaller size can be obtained. New effects can be expected.

  Moreover, in the footbath apparatus of one Embodiment, the weight of the radium ore accommodated in the inside of the said carbon dioxide storage adjustment container is 70 to 100% of the weight of the footbath water in the said footbath tank.

  According to this embodiment, the radioactive radon as a gas generated from the radium ore in the carbon dioxide storage adjustment container is used as the gas of the micro / nano bubbles, and the effective action of the radioactive radon can be expected.

  In one embodiment of the footbath apparatus, the radium ore accommodated in the carbon dioxide storage regulating container emits radiation of 0.1 to 2.0 microsievert (μSV) per hour.

  According to this embodiment, the effect of radium of 0.1 microsievert (μSV) or more can be expected.

Moreover, in the footbath apparatus of one embodiment, the carbon dioxide gas storage adjustment container accommodates tourmaline ore inside, and the weight of the tourmaline ore is set to 0.1 m ³ of the footbath water in the footbath tank. 50 to 100 g.

According to this embodiment, since the two types of ores of radium ore and tourmaline ore are filled in the carbon dioxide storage and adjustment container, a synergistic effect of radium ore and tourmaline ore can be expected. Specifically, the hormesis effect, which is an action of stimulating body cells little by little, can be enhanced. Tourmaline (0.05 to 0.1% by weight is) 50 to 100 g of (tourmaline) against footbath water volume 0.1 m ³ can be filled, important from the viewpoint of the perspiration of the foot and the whole body by footbath become.

Moreover, in the footbath apparatus of one embodiment, the carbon dioxide storage reservoir is
300-400 g of magnesium sulfate is introduced into the foot bath water volume of 0.1 m ³ in the foot bath.

  According to this embodiment, the effect of carbon dioxide and magnesium sulfate can be expected. That is, it has an effect of increasing blood flow by carbon dioxide and a moisturizing bale effect on the skin surface by magnesium sulfate.

Moreover, in the footbath apparatus of one embodiment, the carbon dioxide storage reservoir is
300 to 400 g of calcium carbonate is introduced into the foot bath water volume of 0.1 m ³ in the foot bath.

According to this embodiment, the effect of carbon dioxide and calcium carbonate can be expected.
That is, the effect of increasing blood flow of carbon dioxide and the effect of promoting blood circulation of calcium carbonate can be expected.

Further, in the foot bath apparatus of one embodiment, the carbon dioxide storage adjusting vessel, sodium chloride 300~400g is turned inside the volume 0.1 m ³ footbath water of the footbath tank.

  According to this embodiment, the effect of carbon dioxide and sodium chloride can be expected. That is, the blood flow increase effect action of carbon dioxide and the heat effect action of sodium chloride can be expected.

Moreover, in the footbath apparatus of one embodiment, the carbon dioxide storage reservoir is
300-400 g of sodium hydrogen carbonate is charged into the foot bath water volume of 0.1 m ³ in the foot bath.

  According to this embodiment, the effect of carbon dioxide and sodium hydrogen carbonate can be expected. That is, an effect of increasing blood flow by carbon dioxide and an effect of opening pores by sodium hydrogen carbonate and removing excess sebum dirt can be expected.

  Moreover, in the footbath apparatus of one Embodiment, the said submerged stirrer has a horizontal blade | wing and a vertical blade.

  According to this embodiment, since the underwater agitator has a horizontal wing and a vertical wing, it is possible to cause ultra-vibration and to expect a massage effect on the foot.

Moreover, in the footbath water manufacturing method of one embodiment, a liquid containing a mixture of radon and carbon dioxide gas and an active ingredient as gas is supplied to the micro / nano bubble generator,
Radon carbon dioxide micro-nano bubbles containing radon, carbon dioxide gas and the active ingredient are generated from the micro-nano bubble generator in the foot bath water in the foot bath.

  According to the footbath water production method of this embodiment, the footbath containing the active ingredient-containing radon carbon dioxide micronanobubbles that can exhibit the action and effect of the active ingredient in addition to the effect of the micronano bubbled radioactive gas radon and the effect of carbon dioxide Can produce water. Examples of the active ingredient include medicinal plant ingredients and ingredients having a therapeutic effect on foot diseases.

Further, in the footbath water manufacturing method of one embodiment, after supplying a mixture of radon and carbon dioxide as a gas to the micro-nano bubble generator, a liquid containing an active ingredient is supplied to the micro-nano bubble generator,
Radon carbon dioxide micro-nano bubbles containing radon, carbon dioxide gas and the active ingredient are generated from the micro-nano bubble generator in the foot bath water in the foot bath.

  According to the footbath water production method of this embodiment, in addition to the effect of micro-nano bubbles, the effect of radon carbon dioxide micro-nano bubbles that can exhibit the effect of radioactive gas radon and carbon dioxide gas converted to micro-nano bubbles, and then In addition, footbath water can be produced in which the effect of the active ingredient is further added.

  According to the footbath apparatus of the present invention, the micro / nano bubble generating unit generates radon carbon dioxide micro / nano bubbles by radon and carbon dioxide supplied from the gas generating unit in the footbath water in the footbath. Therefore, according to the footbath water containing the radon carbon dioxide gas micro-nano bubbles, in addition to the effect of the micro-nano bubbles, the effect of the radioactive gas radon converted into micro-nano bubbles and the effect of carbon dioxide gas can be exhibited. In addition, since the underwater agitator causes slight vibrations in the footbath water in the footbath, it can exert a massage effect on the foot and synergistically act on the human foot to increase the blood flow of the foot it can.

  Hereinafter, the present invention will be described in detail with reference to the illustrated embodiments.

(First embodiment)
FIG. 1 is a diagram schematically showing a footbath apparatus 1 according to the first embodiment of the present invention. The footbath apparatus 1 is generally composed of a footbath tank 3, a micro / nano bubble generator 19, and a carbon dioxide gas storage adjustment unit 22. The micro / nano bubble generator 19 includes a micro / nano bubble generation nozzle 2 as a micro / nano bubble generation unit, a high head pump 7 and a strainer 4.

  In this footbath apparatus 1, when using in the bathtub room, since the safety measure with respect to the electric leakage of the micro / nano bubble generator 19 is particularly important, a high-sensitivity electric leakage breaker is installed, although not shown. In consideration of an emergency, the bottom portion of the container 9 is made of an insulating rubber 8 as an electric shock prevention measure. Further, the storage container 9 stores a carbon dioxide storage adjustment container 10 in the upper part and a high head pump 7 in the lower part.

  The upper part of the carbon dioxide storage adjustment container 10 has a screw structure, and when the screw type lid 14 is tightened, the gas generated in the carbon dioxide storage adjustment container 10 is configured not to leak to the outside. In addition, in this 1st Embodiment, although the lid | cover of the carbon dioxide storage adjustment container 10 was made into the screw structure, if the gas generated inside does not leak outside, it will not specifically limit to a screw structure. For example, as the lid of the adjustment container 10, there are several methods such as a packing method and a lid fixing method in addition to a screw method. Therefore, the structure of the lid may be determined based on the purpose and operability and the optimum method may be selected.

  The material of the storage container 9 is not particularly limited, but when the solid bathing agent 12 that generates carbon dioxide to be fed into the carbon dioxide storage adjustment container 10 is dissolved in the warm water 13 that is a liquid, the warm water 13 that is a liquid. Any material that does not corrode by the pH of the solution or generated carbon dioxide gas may be used. In the first embodiment, plastic is selected as the material of the storage container 9, but there is no particular problem with metallic aluminum, stainless steel, or hard wood.

  In addition, since the weight per one of the commercially available solid bath agent 12 is 40 g to 50 g as an example, the input amount of the solid bath agent 12 is in the range of 40 g to 50 g. Further, as an example, when the amount of hot water charged into the storage container 9 is 30 liters, the concentration in terms of weight of the solid bath 12 with respect to 30 liters of warm water is set to 0.13 to 0.17%. Further, as an example, the amount of the solid bath 12 added is set to 0.04 to 0.05% in terms of weight with respect to the footbath water in the footbath tank 3.

  Next, a radium ore 11 is filled in a lower part of the carbon dioxide storage adjustment container 10. The radium ore 11 is an ore that emits natural radiation underground in a specific place in nature. In the natural world, radium ore 11 exists, groundwater passes near the radioactive ore, and the water that contains a lot of radium springs up in Radon hot springs. In Japan, Tamagawa hot spring in Akita prefecture and Misasa hot spring in Tottori prefecture It is famous. The radium ore 11 emits alpha, beta and gamma rays. When a liquid is injected into the radium ore 11, radon is generated as a radioactive gas. And when radioactive radon touches air, air will ionize. The effect of radon is that when a suitable amount of radon is absorbed into the blood directly from the lungs by breathing of the human body in a warm bath and into the tissue through the skin, the strong ionization effect of radon is absorbed into the human blood and tissue. It works to purify blood. In addition, the filling weight of the radium ore 11 was set to 20 g to 30 g in order to obtain a remarkable effect. As an example, the filling weight of the radium ore 11 was 70 to 100% of the weight of the footbath water in the footbath.

  The radium ore 11 in the carbon dioxide gas storage adjustment container 10 does not need to be replaced every time, and may be replaced on the basis of frequent use, for example, around one year, for example.

  Next, an example of specific handling will be described.

  First, the screw-type lid 14 of the carbon dioxide storage adjustment container 10 is opened, the radium ore 11 is accommodated in the carbon dioxide storage adjustment container 10, and hot water as a liquid is injected. When hot water is injected, radon gas 26 is generated as a gas.

  In addition, as the radium ore 11, specifically, a radium ball (trade name) from Koshido was adopted. This yellow ball (trade name) of Koshido can emit radiation of 0.601 microsievert / hour per 10 radium balls. Here, in the first embodiment, as an example, since 28 radium ores 11 are accommodated in the carbon dioxide storage and regulation container 10, radiation of 1.683 microsievert / hour is emitted.

  Next, the radiation dose will be described. When the radiation dose is less than 0.1 microsievert / hour, the body's homeostasis (generally called the hormesis effect in the industry) is increased by stimulating the body's cells little by little. On the other hand, when the radiation dose exceeds 2.0 microsieverts / hour, it is said that the probability of occurrence of lung cancer increases. In particular, it has been reported that the exposure to radium in smokers increases the probability of lung cancer.

  Moreover, the hot water as the liquid in the carbon dioxide gas storage adjustment container 10 is finally pulled out every time with the drain valve 28 opened. The reason is that radium gas is generated when the radium ore 11 is present in the liquid, and therefore it is desirable to store the radium ore 11 in the air when not in use.

  Next, a solid bath agent 12 that generates carbon dioxide gas is introduced above the radium ore 11. As the solid bathing agent 12 that generates carbon dioxide gas, Kabu Co., Ltd. Bab concentrated carbonated hot water (trade name) was adopted. When the solid bath agent 12 is charged, radon gas 26 is generated from the radium ore 11, carbon dioxide gas 25 is generated from the solid bath agent 12, and a gas flow 27 by a mixture of the radon gas 26 and carbon dioxide gas 25 is generated. Will be formed in the carbon dioxide storage regulating container 10.

  And the high lift pump 7 accommodated in the lower part of the storage container 9 is operated, and the high lift pump 7 supplies the footbath water of the footbath tub 3 into which the footbath tub water has been previously poured into the strainer 4 and the suction side. It takes in the high head pump 7 via the hose 6. Further, the impeller of the high head pump 7 rotates at a high speed, and the footbath water is sent to the micro / nano bubble generating nozzle 2 via the discharge side hose 5, and the micro / nano bubble generating nozzle 2 is composed of radon and carbonic acid as gas. The gas is swirled at high speed while sucking in the gas mixture. In the micro-nano bubble generating nozzle 2, the mixture of radon and carbon dioxide is further sheared to generate radon carbon dioxide micro-nano bubbles.

  Here, the mixture of radon and carbon dioxide is confirmed in an accurate amount by the gas flow meter 17 through the gas pipe 15 with the gas valve 23 opened and the liquid valve 24 closed. Further, fine adjustment is performed with the valve 16 and the micro-nano bubble generating nozzle 2 is automatically supplied (self-supplied). When the solid bath agent 12 contains an active ingredient and the active ingredient is present in the liquid, the liquid valve 24 is opened, the valve 23 is closed, the liquid pipe 31, the valve 29, and the liquid flow meter. It is also possible to automatically supply (self-supply) the liquid containing the active ingredient to the micro / nano bubble generating nozzle 2 through 30. In this case, the liquid flow meter 30 is used. Examples of the active ingredient include medicinal plant ingredients and ingredients having a therapeutic effect on foot diseases. As the above medicinal plant, any one of ginseng, ginger, ginger, chamomile, aloe, and pokeweed, or a mixture of ginseng, ginger, ginger, chamomile, aloe, and pokeweed. Is mentioned. In addition, examples of a component having a therapeutic effect on the above foot disease include magnesium sulfate.

  For the gas flow meter 17 and the liquid flow meter 30, products of Tokyo Instrumentation Co., Ltd. were selected as an example. Moreover, as a liquid bathing agent 20 thrown into the footbath 3, LUX Spamoist (trade name) manufactured by Nippon Riva Co., Ltd. sold at a drug store was selected as an example. The role of the liquid bath agent 20 is to produce a large amount of radon carbon dioxide micro-nano bubbles, and the role of the solid bath agent 10 is to generate carbon dioxide gas in the carbon dioxide storage adjustment container 10 to generate micro-nano bubble generating nozzles. 2, the foot bath water contains radon carbon dioxide micro-nano bubbles mixed with radon. And, as a solid bath agent 12 that generates carbon dioxide gas, bubb concentrated carbonated hot water (trade name) is blended with an oily component in which carbon dioxide gas is easy to dissolve, and as its effect, carbon dioxide gas dissolves in hot water at a high concentration, It is said that it enhances the warm bath effect and promotes blood circulation, and is effective for coldness, fatigue, and stiff shoulders.

  In this way, a micro-nano bubble flow 18 is formed by the radon carbon dioxide micro-nano bubbles discharged from the micro-nano bubble generating nozzle 2.

  Here, in the micro-nano bubble generator 19, the solid bath agent 12 that generates the carbon dioxide gas is charged into the carbon dioxide gas storage adjustment container 10, while the liquid bath agent 20 is not charged into the footbath 3, The amount of micro / nano bubbles generated was compared between the second case where both the solid bath agent 12 and the liquid bath agent 20 were added. The amount of micro-nano bubbles generated was measured with a Multisizer manufactured by BECKMAN COULTER.

  As a result, in the first case, the number of microbubbles per unit volume with a diameter of 1 μm was 290 (number / ml), and the number of nanobubbles per unit volume with a diameter of 500 nm was 6400 (number / ml). In the second case, the number of microbubbles per unit volume with a diameter of 1 μm was 2450 (number / ml), and the number of nanobubbles per unit volume with a diameter of 500 nm was 39400 (number / ml).

  The micro / nano bubble generator 19 is mainly composed of four parts. These four parts are the high head pump 7, the micro / nano bubble generating nozzle 2, the strainer 4, and the flow meter 17, the discharge side hose 5, the suction side hose 6, and piping. The reason why the micro / nano bubble generator 19 includes the discharge side hose 5 and the suction side hose 6 is that the footbath apparatus 1 can be easily realized for any existing footbath tank 3. In other words, when the pipes are replaced with the hoses 5 and 6, since the pipe dimensions are determined, the pipe replacement work is required each time depending on the size, shape, etc. of the footbath 3, which is troublesome. It will also incur costs. On the other hand, if the hoses 5 and 6 are employed, it can be adapted to the footbath 3 of any shape.

Moreover, the footbath water in the footbath 3 can be used as a therapeutic spring if conditions are satisfied. Recreational springs are described as hot springs that meet the standard values specified by the Environmental Agency Mineral Springs Analysis Guidelines as being particularly useful for therapeutic purposes. This reference value is defined as carbon dioxide (CO ₂ ) 1000 ppm or more. And if radon is contained, it can be set as a preferable footbath water, ie, a medical treatment spring, by containing radon which is radioactive with carbon dioxide gas and is ionized.

Further, according to the guidelines of the Mineral Springs Analysis Method of the Environment Agency, the definition of a treatment spring can be expressed as a treatment spring if the hot water has any of the following conditions. That is,
(1) Temperature (temperature when collected from a source): 25 degrees Celsius or more
(2) Substance: If any one of the substances listed below is contained, it will be called “medical fountain”. Radiation radon is generated from radium ore in the following radioactive springs.
Record
(No.) (Substance name) Content (in 1 kg) (Remarks)
1 Free carbon dioxide (CO ₂ ) 1000 mg or more Carbon dioxide spring 2 Total iron ion 20 mg or more Iron-containing spring 3 Aluminum ion 100 mg or more Aluminum-containing spring 4 Radon (Rn) 8.25 m2

  In the first embodiment, the solid bath agent 12 that generates carbon dioxide gas is introduced into the carbon dioxide gas storage adjustment container 10 so that the carbon dioxide gas concentration is 1000 ppm or more, and a large amount of micro / nano bubbles are generated in the footbath 3. The liquid bathing agent 20 was added as described.

  In a normal footbath 3 to which the micro / nano bubble generator 19 is not connected, the carbon dioxide concentration cannot be made 1000 ppm even if a plurality of solid bathing agents 12 are added. In contrast, the combination of the micro / nano bubble generator 19, the solid bath agent 12 introduced into the carbon dioxide storage adjustment container 10, and the liquid bath agent 20 introduced into the footbath 3, the carbon dioxide gas concentration should be 1000 ppm or more. I was able to.

  That is, as one measurement example, when the micro-nano bubble generator 19 is not connected to the footbath 3 and neither the solid bath 12 nor the liquid bath 20 is charged, the footbath 3 The carbon dioxide gas concentration was 10 ppm or less. When the micro / nano bubble generator 19 is not connected to the footbath 3 and the solid bath agent 12 is charged but the liquid bath agent 20 is not charged, the concentration of carbon dioxide in the foot bath 3 Was 720 ppm or less. In this embodiment in which the micro / nano bubble generator 19 is connected to the footbath 3 and both the solid bath 12 and the liquid bath 20 are charged, the carbon dioxide concentration in the footbath 3 is 1040 ppm. In the above measurement example, the carbon dioxide concentration was measured with a carbon dioxide concentration meter CGP1 of Toa DKK Corporation.

  Thus, in this embodiment, the carbon dioxide concentration of the footbath water in the footbath tank 3 is set to 1000 ppm or more.

  In addition, if the said micro nano bubble generator 19 is a commercially available thing, it will not limit a manufacturer, Specifically, the product M2 type | mold of Nano Planet Research Laboratories was adopted. As other products as the micro-nano bubble generator 19, many products from other manufacturers such as Nomura Electronics Co., Ltd. are sold.

  Next, the mechanism as the micro / nano bubble generator 19 will be described in detail. As described above, the micro / nano bubble generator 19 is mainly composed of four parts. These four parts are a high head pump 7, a micro / nano bubble generating nozzle 2, a strainer 4, a flow meter 17, a valve 16, a pipe to be connected, a discharge side hose 5, and a suction side hose 6.

  In the above-mentioned micro / nano bubble generating nozzle 2, the pressure is controlled hydrodynamically, gas is sucked from the negative pressure forming portion, and the high pressure fluid motion is performed to form the negative pressure portion to generate micro / nano bubbles. To make it easier to understand, the micro-nano bubble cloudy water can be produced by effectively self-sufficiency, mixing, dissolving and pumping water and air.

  More specifically, in order to generate micro / nano bubbles in the micro / nano bubble generation nozzle 2, a gas hollow portion that generates a mixed phase swirl of liquid and gas and rotates at the center of the micro / nano bubble generation nozzle 2 at high speed is provided. Let it form. Next, the hollow portion is thinned into a tornado shape with pressure to generate a rotating shear flow that swirls at a higher speed. Carbon dioxide gas and radon gas as gases are automatically supplied to the hollow portion using a negative pressure (negative pressure). Further, the multiphase flow is rotated while cutting and crushing the cavity. This cutting and pulverization occurs due to the difference in the swirling speed of the gas-liquid two-phase fluid inside and outside near the outlet of the micro / nano bubble generating nozzle 2. The rotation speed at this time is 500 to 600 rotations / second. That is, in the micro / nano bubble generating nozzle 2, the pressure is hydrodynamically controlled so that gas is sucked from the negative pressure forming portion, and the high pressure pump 7 moves the fluid at high speed to form the negative pressure portion. Generate micro-nano bubbles. To make it easier to understand, radon carbon dioxide micro-nano bubble cloudy water can be produced by effectively self-sufficiating, mixing, dissolving and pumping water and air with the high-lift pump 7.

  Here, four types of bubbles will be described.

  (1) A normal bubble (bubble) rises in the water and finally disappears by popping on the surface.

  (2) Microbubbles have a bubble diameter of 10 to several tens of microns (μm) at the time of generation, and become micronanobubbles by contraction movement after generation.

  (3) Micro-nano bubbles are bubbles having a diameter of about 10 μm to several 100 nm.

  (4) Nanobubbles are bubbles having a diameter of several hundred nm or less.

  The footbath 3 is provided with a base 34 for supporting the feet. A plurality of the stands 34 are installed, and a gap having a constant interval is provided between the stands 34 and 34. The “micro-nano bubble-containing super-vibration water flow” generated from the underwater stirrer 35 installed in the lower part of the footbath 3 rises from the gap between the table 34 and the table 34 to massage the foot or blood of the foot. Increase the flow rate. The micro / nano bubbles are discharged from the micro / nano bubble generation nozzle 2 to the last, but are combined with the ultra-vibration water flow generated from the underwater stirrer 35 to form a “micro-nano bubble-containing super-vibration water flow”.

  Since the underwater agitator 35 has both the vertical blades 36 and the horizontal blades 37 that are rotated by the motor 38, an ultrafine vibration water flow 39 is generated. Thereby, the water surface in the footbath 3 becomes a wave-shaped water surface 33. As a configuration of the underwater agitator 35, a highly flexible vertical blade 36 and a horizontal blade 37 are arranged in each symmetrical direction at the four ends of the horizontal main wing arranged in four directions around the rotation axis. Due to the arrangement of the upright blades 36 and the horizontal blades 37, an ultrafine vibration water flow 39 is generated. More precisely, the submerged stirrer 35 gives a high rotational motion to the vertical blades 36 and the horizontal blades 37, so that each of the vertical blades 36 and the horizontal blades 37 arranged in the four directions causes a “flagging motion”. An ultrafine vibration water flow 39 is generated therein. The massage effect on the foot 32 by generating the ultrafine vibration water flow 39 becomes a synergistic effect with the effect of the micro / nano bubble, and the blood flow to the foot 32 is greatly increased.

  Next, the result of an experimental example of blood flow measurement will be described. In this experimental example, an FLO type measuring device manufactured by OMEGA FLOW was used as a blood flow rate measuring device. In this experimental example, as a preliminary experiment, the foot blood flow volume Q0 after the foot 32 is immersed in the footbath water in the footbath tank 3 and the micronano bubble generator 19 and the underwater agitator 35 are not operated is used. Keep measuring.

  Next, in the first experiment of the measurement experiment, the foot blood flow Q1 after using the footbath in which microbubbles were generated was measured. As a result, the blood flow ratio (Q1 / Q0) was 1.2. Next, in the second experiment, the micro-nano bubble generator 19 is operated to generate radon carbon dioxide micro-nano bubbles in the foot bath 3 but the foot bath 3 is used without the underwater stirrer 35 being operated. The blood flow Q2 was measured. As a result, the blood flow ratio (Q2 / Q0) was 1.3. Next, in the third experiment, the foot bath 3 is operated in a state where both the micro / nano bubble generator 19 and the underwater stirrer 35 are operated to generate an ultrafine vibration water flow containing radon carbon dioxide micro nano bubbles in the foot bath 3. The foot blood flow Q3 after use was measured. As a result, the blood flow ratio (Q3 / Q0) was 1.4.

  As can be seen from the measurement results in the first experiment, the presence of microbubbles improves the foot blood flow by 20%. From the second experiment results, the presence of radon carbon dioxide micro-nano bubbles results in a foot blood flow of 3%. From the results of the third experiment, the foot blood flow was improved by 40% due to the presence of the ultrafine vibration water flow 39 containing radon carbon dioxide micro-nano bubbles. The above experimental results are average values for four subjects. In each experiment, the time for which the foot was immersed in the footbath 3 was 0.5 hour, and the temperature of the footbath water was 38 ° C.

  Next, the results of an experimental example of measuring the body surface temperature of the foot will be described. In this measurement experiment, first, as a preliminary experiment, the body surface of the foot after using the footbath tank 3 by immersing the foot in the footbath water in the footbath tank 3 without operating the micro-nano bubble generator 19 and the underwater agitator 35. The temperature T0 is measured in advance. Next, in the first experiment of the measurement experiment, the body surface temperature T1 of the foot after using the footbath in which the microbubbles were generated was measured. As a result, the body surface temperature ratio (T1 / T0) of the foot was 1.1. Next, in the second experiment, the micro-nano bubble generator 19 is operated to generate radon carbon dioxide micro-nano bubbles in the foot bath 3 but the foot bath 3 is used without the underwater stirrer 35 being operated. The body surface temperature T2 was measured. As a result, the body surface temperature ratio (T2 / T0) was 1.2. Next, in the third experiment, the foot bath 3 is operated in a state where both the micro / nano bubble generator 19 and the underwater stirrer 35 are operated to generate an ultrafine vibration water flow containing radon carbon dioxide micro nano bubbles in the foot bath 3. The body surface temperature T3 of the foot after use was measured. As a result, the body surface temperature ratio (T3 / T0) was 1.3.

  As can be seen from the measurement results of the first experiment, the presence of microbubbles improves the body surface temperature of the foot by 10%. The surface temperature increased by 20%, and from the results of the third experiment, the body surface temperature of the foot increased by 30% due to the presence of the ultra-vibration water stream containing radon carbon dioxide micro-nano bubbles. The above experimental results are average values for four subjects. In each experiment, the time for which the foot was immersed in the footbath 3 was 0.5 hour, and the temperature of the footbath water was 38 ° C.

(Reference example)
Next, FIG. 2 shows a reference example of the footbath apparatus of the present invention. This reference example is different from the first embodiment described above only in that the radium ore 11 is not filled in the carbon dioxide storage adjustment container 10 of FIG. Therefore, in this reference example, the same parts as those in the first embodiment are denoted by the same reference numerals and detailed description thereof is omitted, and parts different from those in the first embodiment are described.

  In this reference example, the carbon dioxide storage adjustment container 10 is not filled with the radium ore 11. Therefore, unlike the first embodiment, the effect of radioactive radon, which is a gas generated from the radium ore 11, cannot be expected. That is, in this reference example, when an appropriate amount of radon is absorbed directly into the blood from the lungs and into the tissue through the skin during the warm bath, the strong ionization action is absorbed into the blood and tissues of the human foot. I can not expect the action that works to purify the blood.

  In this reference example, Kao Co., Ltd. Babu concentrated carbonated hot water (trade name) as a solid bath agent 12 charged into the carbon dioxide storage adjustment container 10 is blended with an oily component in which carbon dioxide is easily dissolved. It dissolves in high concentration in hot water, enhances the bathing effect, promotes blood circulation in the foot, increases blood flow, and can be expected to have effects such as coldness, fatigue, and stiff shoulders.

(Second embodiment)
Next, FIG. 3 shows a second embodiment of the footbath apparatus of the present invention. The second embodiment is different from the first embodiment only in that magnesium sulfate is newly added to the carbon dioxide gas storage adjustment container 10 in the first embodiment. Therefore, in the second embodiment, the same parts as those in the first embodiment are denoted by the same reference numerals, detailed description thereof is omitted, and different parts from the first embodiment are mainly described.

In the second embodiment, magnesium sulfate is newly added to the carbon dioxide storage adjustment container 10. The amount of magnesium sulfate added to the carbon dioxide gas storage adjustment container 10 is 300 to 400 g (0.3 to 0.4% in terms of weight) with respect to the foot bath volume of 0.1 m ³ . The reason for adding the amount of magnesium sulfate as 300 to 400 g (0.3 to 0.4% in terms of weight) is that there is a product of that weight and the effect of the product has been found. Because.

  Thereby, in this 2nd Embodiment, the micro nano bubble containing magnesium sulfate discharges from the micro nano bubble generation nozzle 2, and also improves the warm bath effect with respect to a foot, creates a moisturizing veil on the skin surface of the human foot, To last. More specifically, under conditions where magnesium sulfate is dissolved in warm water, which is the liquid in the carbon dioxide storage adjustment container 10, the liquid valve 24 is opened and the gas valve 23 is closed, the valve 29 and the liquid flow rate are set. The flow rate is adjusted by a total of 30 to automatically supply (self-supply) hot water, which is a liquid in which magnesium sulfate is dissolved, to the micro / nano bubble generating nozzle 2.

  As described above, when magnesium sulfate is added, the amount of ions in the warm water, which is a liquid, increases, the electrical conductivity increases, and a large amount of micro-nano bubbles are generated. This is similar to a phenomenon in which a large amount of microbubbles are generated in seawater having a larger amount of ions than fresh water.

(Third embodiment)
Next, FIG. 4 shows a third embodiment of the footbath apparatus of the present invention. This third embodiment is different from the first embodiment only in that calcium carbonate is newly added to the carbon dioxide storage adjustment container 10 in the first embodiment. Therefore, in the third embodiment, the same parts as those in the first embodiment described above are denoted by the same reference numerals, detailed description thereof will be omitted, and different parts from those in the first embodiment will be mainly described.

In the third embodiment, calcium carbonate is newly added to the carbon dioxide storage reservoir 10 in the first embodiment described above. The amount of calcium carbonate added to the carbon dioxide storage adjustment container 10 is 300 to 400 g (0.3 to 0.4% in terms of weight) with respect to a foot bath volume of 0.1 m ³ . The reason for adding the amount of calcium carbonate as 300 to 400 g (0.3 to 0.4% in terms of weight) is that there is a product of that weight and the effect of the product has been found. Because.

  Thereby, in this 3rd Embodiment, the micro nano bubble containing calcium carbonate is discharged from the micro nano bubble generation | occurrence | production nozzle 2, Furthermore, the warm bath effect with respect to a leg | foot is heightened and it acts on the symptom which arises by a blood circulation disorder. More specifically, the calcium carbonate is dissolved in warm water, which is the liquid in the carbon dioxide storage adjustment container 10, the valve 24 is opened, and the valve 23 is closed. The content is such that hot water in which calcium carbonate is dissolved is automatically supplied (self-supplied) to the micro / nano bubble generating nozzle 2 by adjusting the flow rate.

  Thus, when calcium carbonate is added, the amount of ions in the warm water that is a liquid increases, the electrical conductivity increases, and a large amount of micro-nano bubbles are generated. This is similar to a phenomenon in which a large amount of microbubbles are generated in seawater having a larger amount of ions than fresh water.

(Fourth embodiment)
Next, FIG. 5 shows a fourth embodiment of the footbath apparatus of the present invention. The fourth embodiment is different from the first embodiment only in that sodium chloride is newly added to the carbon dioxide storage adjustment container 10 in the first embodiment. Therefore, in the fourth embodiment, the same parts as those in the first embodiment are denoted by the same reference numerals, detailed description thereof is omitted, and different parts from the first embodiment are mainly described.

In the fourth embodiment, sodium chloride is newly added to the carbon dioxide storage reservoir 10 in the first embodiment described above. The amount of sodium chloride added to the carbon dioxide storage adjustment container 10 is 300 to 400 g (0.3 to 0.4% in terms of weight) with respect to a foot bath volume of 0.1 m ³ . The reason for adding the amount of sodium chloride as 300 to 400 g (0.3 to 0.4% in terms of weight) is that there is a product of that weight and the effect of the product has been found. Because.

  Thereby, in this 4th Embodiment, the micro nano bubble containing sodium chloride is discharged from the micro nano bubble generation | occurrence | production nozzle 2, and the warm bath effect with respect to a leg | foot is further heightened, and a thermal effect spreads to the end of the leg | foot of a human body. More specifically, sodium chloride is dissolved in warm water, which is the liquid in the carbon dioxide storage adjustment container 10, the valve 24 is opened, and the valve 23 is closed. The flow rate is adjusted so that hot water in which sodium chloride is dissolved is automatically supplied (self-supplied) to the micro / nano bubble generating nozzle 2.

  Thus, when sodium chloride is added, the amount of ions in the warm water that is a liquid increases, the electrical conductivity increases, and a large amount of micro-nano bubbles are generated. This is similar to a phenomenon in which a large amount of microbubbles are generated in seawater having a larger amount of ions than fresh water.

(Fifth embodiment)
Next, FIG. 6 shows a fifth embodiment of the footbath apparatus of the present invention. The fifth embodiment is different from the first embodiment only in that sodium hydrogen carbonate is newly added to the carbon dioxide storage adjustment container 10 in the first embodiment. Therefore, in the fifth embodiment, the same parts as those in the first embodiment are denoted by the same reference numerals, detailed description thereof is omitted, and different parts from the first embodiment are mainly described.

  In the fifth embodiment, sodium hydrogen carbonate is newly added to the carbon dioxide storage adjustment container 10 in the first embodiment. Therefore, in this fifth embodiment, micro-nano bubbles containing sodium hydrogen carbonate are discharged from the micro-nano bubble generating nozzle 2 to further enhance the warm bath effect of the foot, open pores on the skin surface of the human foot, and excess sebum dirt Makes it easier to remove. It also promotes metabolism and prepares the skin surface of the foot.

The amount of sodium hydrogen carbonate added to the carbon dioxide storage adjustment container 10 is 300 to 400 g (0.3 to 0.4% in terms of weight) with respect to the foot bath volume of 0.1 m ³ . The reason for adding the amount of sodium bicarbonate as 300 to 400 g (0.3 to 0.4% in terms of weight) is that there is a product of that weight and the effect of the product has been found. Because.

  More specifically, under the condition that sodium hydrogen carbonate is dissolved in warm water, which is the liquid of the carbon dioxide storage adjustment container 10, the valve 24 is opened, and the valve 23 is closed, the valve 29, the liquid flow meter 30, The flow rate is adjusted so that hot water in which sodium hydrogen carbonate is dissolved is automatically supplied (self-supplied) to the micro / nano bubble generating nozzle 2.

  Thus, when sodium hydrogencarbonate is added, the amount of ions in the warm water which is a liquid increases, the electrical conductivity increases, and a large amount of micro-nano bubbles are generated. This is similar to a phenomenon in which a large amount of microbubbles are generated in seawater having a larger amount of ions than fresh water.

(Sixth embodiment)
Next, FIG. 7 shows a sixth embodiment of the footbath apparatus of the present invention. The seventh embodiment is different from the first embodiment described above only in that the radium ore 11 and the tourmaline ore 21 filled thereunder are arranged in the carbon dioxide storage and adjustment container 10 in the first embodiment. It is different from the form. Therefore, in the sixth embodiment, the same portions as those in the first embodiment are denoted by the same reference numerals, detailed description thereof is omitted, and portions different from those in the first embodiment are mainly described.

In the sixth embodiment, the radium ore 11 and the tourmaline ore 21 filled thereunder are arranged in the carbon dioxide gas storage adjustment container 10 in the first embodiment described above. Therefore, the effect of radioactive radon which is a gas generated from the radium ore 11 and the effect of the tourmaline ore 21 can be expected. Here, as a specific example of the tourmaline ore 21, a tourmaline ball Z (trade name) was adopted. Further, this tourmaline ore (tourmaline) 21 was filled with 50 to 100 g (0.05 to 0.1% in terms of weight) with respect to a foot bath volume of 0.1 m ³ . The reason why the filling amount of the tourmaline ore 21 is set to 50 to 100 g is that there exists a product of about 50 to 100 g.

  In the sixth embodiment, first, as the action and effect of radon, an appropriate amount of radon is absorbed into the blood directly from the lungs by breathing of the human body during the warm bath of the foot, and also absorbed into the tissue through the skin. . Then, the strong ionization action works on the blood and tissues of the human body to purify the blood. Second, as an effect of the tourmaline ore 21, negative ions are released.

  Here, the tourmaline ore 21 will be further described. Tourmaline is also known as tourmaline, and it carries weak electricity by applying heat and pressure from the outside. Crystalline tourmaline is said to be a polar crystal, and has a negative electrode on one side and a positive electrode on the other side. Since it is a crystal having an electrode, it efficiently exhibits an electric action. The effects of the tourmaline ore 21 include a far-infrared effect, water electrolysis and ionization, a negative ion effect, and the like.

  Further, as a particularly noteworthy action of the tourmaline ore 21, there is a negative ion effect. Since the tourmaline ore 21 releases a large amount of negative ions, the water cluster is ionized and easily absorbed in the body, specifically, absorbed from the skin. Negative ions are said to have a mental and physical relaxation and refreshing effect on the human body.

  Next, an example of the negative ion generation amount will be described. That is, (1) As a result of measuring negative ions with a negative ion tester in a state where 100 g of general tourmaline was left standing, the amount of negative ions generated was 28 (pieces / cc). (2) Moreover, as a result of measuring negative ions with a negative ion tester in a state where 100 g of ion-generating tourmaline was left standing, the amount of negative ions generated was 460 (pieces / cc). (3) In addition, as a result of measuring negative ions with a negative ion tester in a state where 100 g of tourmaline ball Z (trade name) was left standing, the amount of negative ions generated was 1630 (pieces / cc).

(Experimental example)
A footbath apparatus corresponding to the footbath apparatus 1 of FIG. 1 was produced. In the footbath apparatus of this experiment, the capacity of the container 9 was about 0.1 m ³ and the capacity of the footbath 3 was 0.1 m ³ . Also, the solid bathing agent 12 that generates carbon dioxide gas is Bab concentrated carbonated hot water (trade name) of Kao Corporation, and the liquid bathing agent 20 added to the footbath 3 is LUX Spamoist (trade name) of Japan Riva Corporation. The micro-nano bubble generator 19 was selected as the M2 type of Nano Planet Co., Ltd. In addition, the high head pump 7 is composed of Iwaki's magnet pump MD type 0.2 kw, and the radium ore 11 employs a radium ball (trade name) of Huangdou, and is about 30 liters in the carbon dioxide storage regulating container 10. Filled.

  Then, the footbath apparatus 1 was operated to generate pure white radon carbon dioxide micro-nano bubbles, and the foot 32 was placed in the footbath 3. And when I looked at the feet, the feet turned red overall. Kao Co., Ltd.'s Babu concentrated carbonated water enhances the effect of warm bath and promotes blood circulation, coldness, fatigue recovery, shoulder stiffness, low back pain, neuralgia, rheumatism, hemorrhoids, ashmo, moistness, roughness, cracks, redheads , Effects on acne and acne are described. In addition, Kab Co., Ltd.'s Bab EX enhances the effect of warm bathing and promotes blood circulation, coldness, fatigue recovery, shoulder stiffness, low back pain, neuralgia, rheumatism, hemorrhoids, ashmo, moistness, roughness, cracks, scabs , Effects on acne and acne are described.

  Considering the experimental results of this experimental example comprehensively, the efficacy of Kabu Co., Ltd.'s Bab concentrated carbonated water (trade name) and Kao Corporation's Bab EX (trade name) was further enhanced by radon carbon dioxide micro-nano bubbles. It was found to have efficacy.

It is sectional drawing which shows 1st Embodiment of the footbath apparatus of this invention. It is sectional drawing which shows the reference example of the footbath apparatus of this invention. It is sectional drawing which shows 2nd Embodiment of the footbath apparatus of this invention. It is sectional drawing which shows 3rd Embodiment of the footbath apparatus of this invention. It is sectional drawing which shows 4th Embodiment of the footbath apparatus of this invention. It is sectional drawing which shows 5th Embodiment of the footbath apparatus of this invention. It is sectional drawing which shows 6th Embodiment of the footbath apparatus of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Footbath apparatus 2 Micro nano bubble generation nozzle 3 Footbath tank 4 Strainer 5 Discharge side hose 6 Suction side hose 7 High lift pump 8 Insulation rubber 9 Container 10 Carbon dioxide storage adjustment container 11 Radium ore 12 Solid bath agent 13 Liquid 14 Screw type lid 15 Gas Piping 16 Valve 17 Gas Flow Meter 18 Micro / Nano Bubble Flow 19 Micro / Nano Bubble Generator 20 Liquid Bath Agent 21 Tourmaline Ore 22 Carbon Dioxide Retention Control Unit 23 Gas Valve 24 Liquid Valve
25 Carbon dioxide gas 26 Radon gas 27 Gas flow 28 Drain valve 29 Valve 30 Liquid flow meter 31 Liquid pipe 32 Foot 33 Wave shape water surface 34 Stand 35 Submerged stirrer 36 Standing blade 37 Horizontal blade 38 Motor 39 Ultra-fine vibration water flow containing micro-nano bubbles

Claims (18)

A footbath,
An underwater stirrer that is disposed in the footbath and generates vibration in the footbath water in the footbath;
A gas generator for generating radon and carbon dioxide,
A micro-nano bubble generating unit that is disposed in the foot bath and is supplied with radon and carbon dioxide from the gas generating unit to generate radon carbon dioxide micro-nano bubbles by the radon and carbon dioxide in the foot bath water in the foot bath; and ,
A footbath apparatus comprising a footbath water pump that supplies footbath water in the footbath tank to the micro / nano bubble generating unit. The footbath device according to claim 1,
The gas generator is
A carbon dioxide storage regulating container that contains radium ore and generates radon and carbon dioxide in the stored water;
A gas pipe for guiding the radon from the carbon dioxide storage adjustment container and the carbon dioxide gas to the micro / nano bubble generation unit;
The footbath apparatus is characterized in that the footbath water pump is a high head pump, and the micro / nano bubble generation unit is a micro / nano bubble generation nozzle. The footbath device according to claim 2,
The foot bath device characterized in that the carbon dioxide storage adjustment container generates carbon dioxide with a solid bath agent that generates carbon dioxide charged therein. The footbath device according to claim 3,
The footbath apparatus characterized in that the amount of the solid bathing agent is 0.04 to 0.05% in terms of weight with respect to the footbath water in the footbath. The footbath device according to claim 3 or 4,
A footbath apparatus characterized in that the solid bath agent for generating carbon dioxide contains a medicinal plant component. The footbath device according to claim 3 or 4,
A footbath device characterized in that the solid bath agent that generates carbon dioxide contains a component having a therapeutic effect on foot diseases in the human body. The footbath device according to claim 5,
The medicinal plant may be any one of ginseng, ginger, ginger, chamomile, aloe, pokeweed, or a mixture of ginseng, ginger, ginger, chamomile, aloe, ginger. A footbath device characterized by being. In the footbath apparatus as described in any one of Claim 1 to 7,
A footbath apparatus characterized by automatically reducing the amount of carbon dioxide gas generated in the gas generating section from about 60 ml / min to about 1 ml / min. In the footbath apparatus as described in any one of Claim 2 to 8,
The footbath apparatus characterized in that the weight of the radium ore accommodated inside the carbon dioxide storage and regulation container is 70 to 100% of the weight of the footbath water in the footbath. The footbath device according to claim 9,
A footbath apparatus characterized in that the radium ore accommodated in the carbon dioxide storage and regulation container emits radiation of 0.1 to 2.0 microsievert (μSV) per hour. In the footbath apparatus as described in any one of Claim 3 to 10,
The carbon dioxide gas reserving conditioning vessel, the internal houses tourmaline ore, and wherein a weight of the tourmaline ore, was 50~100g the volume 0.1 m ³ footbath water of the footbath tank Footbath equipment to do. The footbath device according to any one of claims 2 to 11,
The carbon dioxide storage adjustment container is
A footbath apparatus characterized in that 300 to 400 g of magnesium sulfate is introduced into a foot bath water volume of 0.1 m ³ in the footbath. The footbath device according to any one of claims 2 to 11,
The carbon dioxide storage adjustment container is
A footbath apparatus characterized in that 300 to 400 g of calcium carbonate is introduced into a foot bath water volume of 0.1 m ³ in the footbath. The footbath device according to any one of claims 2 to 11,
The carbon dioxide storage adjustment container is
A footbath apparatus in which 300 to 400 g of sodium chloride is introduced into a foot bath water volume of 0.1 m ³ in the footbath. The footbath device according to any one of claims 2 to 11,
The carbon dioxide storage adjustment container is
A footbath apparatus characterized in that 300 to 400 g of sodium hydrogen carbonate is introduced into the footbath water in the footbath tub with a volume of 0.1 m ³ . The footbath device according to any one of claims 1 to 15,
The underwater stirrer has a horizontal wing and a vertical wing. Supply a mixture of radon and carbon dioxide and liquid containing active ingredients as gas to the micro / nano bubble generator,
A method for producing footbath water, comprising generating radon, carbon dioxide gas, and radon carbon dioxide micronanobubbles containing the active ingredient in footbath water in a footbath from the micro-nano bubble generator. After supplying a mixture of radon and carbon dioxide as gas to the micro-nano bubble generator, a liquid containing an active ingredient is supplied to the micro-nano bubble generator,
A method for producing footbath water, comprising generating radon, carbon dioxide gas, and radon carbon dioxide micronanobubbles containing the active ingredient in footbath water in a footbath from the micro-nano bubble generator.

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