WO2015046474A1 - Hot spring mist suction facility - Google Patents

Hot spring mist suction facility Download PDF

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Publication number
WO2015046474A1
WO2015046474A1 PCT/JP2014/075742 JP2014075742W WO2015046474A1 WO 2015046474 A1 WO2015046474 A1 WO 2015046474A1 JP 2014075742 W JP2014075742 W JP 2014075742W WO 2015046474 A1 WO2015046474 A1 WO 2015046474A1
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WO
WIPO (PCT)
Prior art keywords
mist
mineral
bathroom
hot spring
suction facility
Prior art date
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PCT/JP2014/075742
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French (fr)
Japanese (ja)
Inventor
三田 直樹
Original Assignee
株式会社LOD&Be
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Application filed by 株式会社LOD&Be filed Critical 株式会社LOD&Be
Priority to JP2015539402A priority Critical patent/JP6523960B2/en
Publication of WO2015046474A1 publication Critical patent/WO2015046474A1/en

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61HPHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
    • A61H33/00Bathing devices for special therapeutic or hygienic purposes
    • A61H33/06Artificial hot-air or cold-air baths; Steam or gas baths or douches, e.g. sauna or Finnish baths
    • A61H33/066Cabins therefor
    • A61H33/067Installations for the inside of such cabins, e.g. seats
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F7/00Heating or cooling appliances for medical or therapeutic treatment of the human body
    • A61F7/0053Cabins, rooms, chairs or units for treatment with a hot or cold circulating fluid
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61HPHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
    • A61H33/00Bathing devices for special therapeutic or hygienic purposes
    • A61H33/06Artificial hot-air or cold-air baths; Steam or gas baths or douches, e.g. sauna or Finnish baths
    • A61H33/063Heaters specifically designed therefor
    • A61H33/065Heaters specifically designed therefor with steam generators
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N5/00Radiation therapy
    • A61N5/06Radiation therapy using light
    • A61N5/0613Apparatus adapted for a specific treatment
    • A61N5/0625Warming the body, e.g. hyperthermia treatment
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F7/00Heating or cooling appliances for medical or therapeutic treatment of the human body
    • A61F7/007Heating or cooling appliances for medical or therapeutic treatment of the human body characterised by electric heating
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61HPHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
    • A61H33/00Bathing devices for special therapeutic or hygienic purposes
    • A61H33/06Artificial hot-air or cold-air baths; Steam or gas baths or douches, e.g. sauna or Finnish baths
    • A61H2033/068Steam baths
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61HPHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
    • A61H2201/00Characteristics of apparatus not provided for in the preceding codes
    • A61H2201/02Characteristics of apparatus not provided for in the preceding codes heated or cooled
    • A61H2201/0207Characteristics of apparatus not provided for in the preceding codes heated or cooled heated
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61HPHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
    • A61H2201/00Characteristics of apparatus not provided for in the preceding codes
    • A61H2201/02Characteristics of apparatus not provided for in the preceding codes heated or cooled
    • A61H2201/0221Mechanism for heating or cooling
    • A61H2201/0228Mechanism for heating or cooling heated by an electric resistance element
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61HPHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
    • A61H2201/00Characteristics of apparatus not provided for in the preceding codes
    • A61H2201/10Characteristics of apparatus not provided for in the preceding codes with further special therapeutic means, e.g. electrotherapy, magneto therapy or radiation therapy, chromo therapy, infrared or ultraviolet therapy
    • A61H2201/105Characteristics of apparatus not provided for in the preceding codes with further special therapeutic means, e.g. electrotherapy, magneto therapy or radiation therapy, chromo therapy, infrared or ultraviolet therapy with means for delivering media, e.g. drugs or cosmetics
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61HPHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
    • A61H2201/00Characteristics of apparatus not provided for in the preceding codes
    • A61H2201/50Control means thereof
    • A61H2201/5058Sensors or detectors
    • A61H2201/5082Temperature sensors
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N5/00Radiation therapy
    • A61N5/06Radiation therapy using light
    • A61N2005/0635Radiation therapy using light characterised by the body area to be irradiated
    • A61N2005/0636Irradiating the whole body
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N5/00Radiation therapy
    • A61N5/06Radiation therapy using light
    • A61N2005/0658Radiation therapy using light characterised by the wavelength of light used
    • A61N2005/0659Radiation therapy using light characterised by the wavelength of light used infrared
    • A61N2005/066Radiation therapy using light characterised by the wavelength of light used infrared far infrared

Definitions

  • the present invention relates to a hot spring mist suction facility for applying thermotherapy that warms the body from the core by far infrared rays and improves blood circulation, and in particular, a hot spring characterized by generating mist with water containing minerals The mist suction facility.
  • Thermotherapy is a therapy that warms the body with far-infrared rays and improves blood circulation.
  • Thermotherapy is performed in the form of integrated therapy and the accompanying hyperthermia.
  • 70% of the human body is composed of moisture.
  • the water molecules constituting the water have the ability to store energy. Therefore, using the thermal waves that react with water molecules, the body's body is warmed from the core by the vibrational energy of water molecules without warming only the surface.
  • thermotherapy is a therapy developed focusing on the nature of cancer that is vulnerable to heat, and is currently attracting attention all over the world. St. George Hospital, Germany's largest alternative therapy clinic, has reported clinical results demonstrating the superior effects of hyperthermia.
  • thermotherapy The basic concept of thermotherapy is as follows. Cellular energy decreases when a person is active for a day. The reduced energy is recovered by eating, sleeping, resting, etc. It is necessary to improve recovery ability to maintain health. Therefore, it is necessary to warm the body from the core, increase metabolism and improve blood circulation.
  • Patent Document 1 proposes a mist sauna private room using an ultrasonic mist generator for a bedrock bath.
  • a bed heater fan heater for blowing hot air is provided on the inlet side of the hot air passage space, and the ultrasonic mist generator is composed of a partition container having a mist generating tank and a water storage tank, and the mist generating tank.
  • Is provided with an ultrasonic oscillator, and fine mist-like mist generated by the ultrasonic oscillator is passed from a mist tank cover covering the upper part of the mist generating tank to the upper part of the simple assembly unit via a mist duct. It has been proposed that the product be discharged from the provided mist outlet into the room.
  • Patent Document 2 discloses a mist generating device as a facial device.
  • “at the time of mist generation, cooling in the cooling unit and electrolysis at the electrode are performed in parallel with respect to the liquid sterilized by the heating unit or the mist before being discharged from the discharge port. It is performed ”.
  • Patent Document 3 a mist is generated by using a sprayer or a sprayer in combination with an ultrasonic vibrator.
  • Patent Document 4 discloses an invention in which steam is generated by a boiler to generate mist.
  • Patent Document 5 a water supply container is attached to a wrinkle generator, the stored water is warmed to around 40 ° C. by a heater for heating, and the two ultrasonic vibrators 10 are operated to make the ultrasonic oscillator finer.
  • Patent Document 6 discloses a state in which the humidity of the circulating flow is increased in the form of a mist or steam using an ultrasonic device.
  • the bedrock bath as shown in Patent Document 1 is examined.
  • the bedrock is monolithic, so the waves are single.
  • the human body gets used to the single wave, and the human body will have antibodies against the single wave, and the far-infrared effect There was a problem of fading.
  • bacteria are likely to stay on the surface, and there have been problems in terms of hygiene. For this reason, it is necessary to provide a material that can radiate far-infrared rays having different wave motions and has less bacteria retention.
  • Patent Document 2 there is a need to clarify the control in the bathroom after discharging the mist into the bathroom.
  • Patent Document 3 needs to clarify the environment of the temperature and humidity in the bathroom where the mist is released and a method for controlling the mist.
  • Patent Literature 4 evaporates a mineral-containing solution at a high temperature and high pressure, and employs a method in which sufficient mineral evaporation cannot be expected. For this reason, it is necessary to solve the problem about the method of evaporation of a mineral.
  • Patent Document 5 discloses only a method for generating mist, and does not fully disclose a method for evaporating minerals.
  • Patent Document 6 also discloses only a method for generating mist, and does not fully disclose a method for evaporating minerals.
  • an object of the present invention is to provide a material that can radiate far-infrared rays having different waves and has less bacteria retention.
  • the far-infrared vibration waveform has a plurality of waves that overlap to obtain a resonance effect.
  • far-infrared rays whose penetrating power has been amplified by the resonance action are quickly conducted into the user's body to obtain an efficient far-infrared effect and its “far-infrared sympathetic effect”. It aims at realizing the effect to express.
  • the second object of the present invention is to provide a mineral solution formulated in a balanced manner.
  • a third object of the present invention is to enable bathing with steam containing minerals by sufficiently evaporating the minerals.
  • a fourth object of the present invention is to promote the diffusion of mist by introducing outside air when the mist diffusion is insufficient in the ultrasonic generator.
  • the fifth object of the present invention is to introduce gas from the bathroom in order to be influenced by the outside air temperature by introducing the outside air when the mist diffusion is insufficient in the ultrasonic generator. That is to do heat exchange.
  • a hot spring mist suction facility includes a mineral tank that generates a mineral solution, a mineral supply unit that transfers the mineral solution, and a mist generation that mists the transferred mineral solution. And a hot spring mist suction facility comprising a bathroom with a heating section and a gravel layer heated by the heating section,
  • the mineral solution is put into the bathroom from the upper part of the bathroom as a mist that is made into a mist containing minerals, and the marble gravel layer in the bathroom is moistened and heated by the heating unit, so that a mist atmosphere containing minerals is obtained. Maintain a constant temperature and humidity.
  • Mist may be supplied from the upper part of the bathroom by arranging the mineral supply part at the upper part of the bathroom.
  • mist may be supplied into the bathroom by the sending unit, or the air in the bathroom may be supplied into the bathroom by the sending unit.
  • a mineral tank that generates a mineral solution may be preheated by a heating unit. Subsequently, the mist discharge port in the bathroom may be near the floor in the bathroom.
  • the present invention it is possible to radiate far-infrared rays with different waves and provide a material with less bacteria retention.
  • the far-infrared vibration waveform has a plurality of waves that overlap to provide a resonance effect.
  • far-infrared rays whose penetrating power has been amplified by the resonance action are quickly conducted into the user's body to obtain an efficient far-infrared effect and its “far-infrared sympathetic effect”. The effect to play is realizable.
  • the ultrasonic generator introduces the outside air when the mist is not sufficiently diffused, and thus introduces the gas from the bathroom to be affected by the outside air temperature.
  • Heat exchange can be performed at
  • FIG. 1 shows the block diagram which shows the outline of the hot spring mist suction facility 2 of the 1st Embodiment of this invention.
  • a mineral tank 4 for storing a mineral solution sprayed as mist is disposed in the hot spring mist suction facility 2.
  • This mineral tank 4 is connected to a faucet 8 via a pipe 6.
  • the faucet 8 may be connected to the water supply, but may be a hot water faucet.
  • the mineral tank 4 is provided with an opening 10 into which a mineral stock solution is injected.
  • stock solution and a tap water is extracted as a mineral containing aqueous solution directly from a mineral, and it is desirable to contain the mineral considered good for a body in good balance.
  • the mineral solution (hot spring) to be used is a mineral group solution obtained by dissolving and extracting 20 or more kinds of minerals with inorganic acid from vermiculite, which is a weathered body of biotite, and does not contain organic matter.
  • the applicant has determined that the corroded granite produced from the Abukumazan system in Fukushima Prefecture contains dozens of mineral components in a well-balanced manner, and the minerals contained are extracted in the form of ions that are easily absorbed by the body. Yes.
  • the mineral solution used in the hot spring mist suction facility according to the present invention is a single substance, and the chemical classification is sulfate of various minerals. Its component and standard content (g / L) are as follows: Fe is 10.5 (g / L) (provided as Fe 2 (SO 4 ) 3 ), Al is 9.2 (g / L) (provided that Al 2 (As SO 4 ) 3 , Mg is 3.7 (g / L) (as MgSO 4 ), K is 1.9 (g / L) (however, as K 2 SO 4 ), H 2 SO 4 is 51. 1 (g / L) and containing several tens of other minerals.
  • Statistical item number 3824 / 90-900 (chemical industry product), standard international product classification (SITC): 523-19 (inorganic chemical product), UN number: Item No.66 UNNo.2796 (Low concentration sulfuric acid-containing substance).
  • the physical / chemical property is a brownish liquid in appearance.
  • the specific gravity is 1.15 to 1.16
  • the pH is 0.5 to 1.0
  • the boiling point is 100 ° C.
  • the freezing point is ⁇ 10 ° C.
  • the solubility (water) is 100% (10 ° C.).
  • hazard data include no explosion point (per aqueous solution), no flammability (per aqueous solution), no flammability (per aqueous solution), none explosive (per aqueous solution), no dust explosive ( Per aqueous solution).
  • toxicity data there is no corrosiveness to skin, and irritation stimulates damaged skin.
  • there is no sensitivity no acute toxicity, no subacute toxicity, no chronic toxicity, no carcinogenicity, no mutation, no teratogenicity.
  • Table 1 shows the content of each component.
  • the analytical methods employed are atomic absorption spectrometry for K, Na, Li, BaSO 4 weight method after oxidation with bromine for S, and high frequency inductively coupled plasma optical emission spectrometry (ICP). It has been.
  • the mineral tank 4 containing the mineral solution is connected to the mineral supply unit 14 via the connecting pipe 12.
  • the mineral supply unit 14 is a normal pump, and is a device that supplies the mineral solution in the mineral tank 4 to the mist generating unit 18.
  • the mist generating unit 18 is connected to the mineral supply unit 14 via the connecting pipe 16.
  • the mist generating unit 18 is connected to the bathroom 30 via a mist pipe 28.
  • the mist generating part 18 is arranged on the upper part of the bathroom 30, the mist can be supplied in the shortest distance. Further, mist can be discharged from the upper part of the bathroom 30.
  • the mist generating unit 18 includes a mineral solution bottle 20 therein.
  • the mineral solution bottle 20 stores a mineral solution sent via the connecting pipe 16.
  • the amount of the mineral solution stored in the mineral solution tank 20 is controlled by the float switch 22.
  • the float switch 22 When the float switch 22 is floated in the mineral solution tank 20 and the mineral solution falls below a predetermined amount, the float switch 22 is turned on, and is transmitted to the mineral supply unit 14 connected by the signal line 24, and the mineral of the mineral solution Supply to the solution tank 20 is started. Conversely, when the mineral solution exceeds a predetermined amount, the float switch 22 is turned off and transmitted to the mineral supply unit 14 connected by the signal line 24, and the supply of the mineral solution to the mineral solution bottle 20 is stopped.
  • the vibrator 26 is disposed at the bottom of the mineral solution bottle 20.
  • the vibrator 26 incorporates a piezoelectric ceramic element or the like therein and is set so as to vibrate around 2 MHz, whereby the mineral solution can be misted while containing the mineral.
  • the mist mineral solution is supplied to the bathroom 30 through the mist pipe 28.
  • the applicant developed a technology that refines the mineral solution to a few microns by applying the principle of ultrasonic humidification and sends it directly into the room using a fan.
  • the optimum conditions such as the size, thickness, frequency, sound pressure, water depth, etc. of the piezoelectric vibrator are determined, and the piezoelectric vibrator is set to be atomized rather than horizontal so that the atomization efficiency is maximized. Yes.
  • the mineral solution supplied from the mineral tank 4 to the mist generating unit 18 is maintained at a constant water level by the float switch 22, and a vibrator 26 is installed at the bottom of the mineral solution tank 20.
  • the piezoelectric vibrator functions as an ultrasonic vibrator, and the vibration energy concentrates on the water surface and the water column stands, and the surface of the water column is greatly reduced. Is scattered. This is sent out as mineral mist by the airflow of a blower fan (not shown). Since the mist of the mist generating part 18 is as fine as several microns ( ⁇ m), the thermal effect of the present application has made it possible to effectively infiltrate the capillaries and the body with active metabolism by opening the pores. .
  • the bathroom 30 is provided with an opening of a mist pipe 28 at the top so that a mist containing mineral is discharged.
  • a heating unit 34 is provided on the floor portion which is the lowest end of the bathroom 30.
  • the heating unit 34 is provided with an electric heater or a pipe for hot water, and is configured so that the inside of the bathroom 30 can be heated so that the room temperature is 40 ° C. to 50 ° C., and preferably 45 ° C.
  • the boulder gravel layer 32 is provided on the upper layer of the heating unit 34.
  • a faucet 36 is provided in a part of the bathroom 30, and water is evaporated from the surface of the gravel layer 32 by spraying water to such an extent that the surface of the gravel layer 32 gets wet. Is set to be 70% to 90%, more preferably 80%.
  • the bathroom 30 is provided with a temperature sensor 38 on its inner wall.
  • the temperature sensor 38 is connected to the heating source unit 42 and the wiring 40.
  • the heating part 34 and the heat source part 42 are connected by a connecting part 44. If the heating unit 34 is an electric heater, the heating source unit 42 is a power source, and the connecting unit 44 is a conductive wire.
  • the heating part 34 is a hot water pipe, the heating source part 42 is a water heater, and the connecting part 44 is a pipe.
  • the heating source unit 42 is set to heat the heating unit 34 when the temperature is lower than the room temperature 45 ° C.
  • the heating unit 34 is set. Stop heating. That is, when the heating unit 34 is an electric heater, the power supply is controlled to be driven and stopped by the value of the temperature sensor.
  • the heating unit 34 is a hot water pipe, the water heater is heated by the value of the temperature sensor. And controlled stop.
  • the conventional bedrock bath using monoliths has the problem that the body becomes accustomed to the waves because of the far-infrared rays produced by a single wave-like stone, and antibodies are produced and the far-infrared effect is diminished. Was. There was also concern about hygiene from the tendency of bacteria to stay on the bedrock.
  • the applicants were able to prevent habituation to the body by radiating far-infrared rays of different waves by blending different stones according to their characteristics by converting the bedrock into gravel.
  • the whole gravel can be washed with a high-pressure washer, it is possible to exert excellent effects from the viewpoint of hygiene.
  • the bather lies with his gravel gravel lying down, so it has a moderate pressure on the body and is comfortable.
  • Far infrared rays are a type of electromagnetic wave and are defined as having a wavelength in the range of 4.0 to 25 ⁇ m (micrometers).
  • Far infrared is not heat.
  • Far-infrared rays are easily absorbed by organic substances by radiative transmission, and are heated by giving vibration energy to the molecules of the organic substances and moving the molecules themselves to generate heat.
  • Far-infrared rays are also called “growth rays”, and have the feature of warming the body mildly and making it difficult to cool by penetrating deep into the skin and resonating cells. As body temperature rises, capillaries are dilated, blood circulation is improved, and the natural healing power of the human body, such as cell metabolism and increased immunity, is increased.
  • boulder gravel layer 32 is a boulder, or any one of barleystone, radium ore, tourmaline, Ioishi, basalt volcanic rock, germanium ore, Takachihoishi / Amaterite, Tianju stone, Chiakiishi and fossil ocher. Alternatively, all combinations are used.
  • barley stone is formed from minerals that have been affected by the energy of large crustal movements about 70 million to 50 million years ago, with the addition of ultra-high pressure and ultra-high temperature. Due to the special formation of barleystone, it is mined only in a few places around the world and is a very rare natural ore. Since barley stone is porous, it adsorbs the chlorine component (chlorine) and various germs of tap water, elutes abundant mineral components, and has strong far-infrared radiation intensity.
  • chlorine chlorine
  • Radium ore is a rock containing radium, which is an alkaline earth metal that was discovered by Curie and his wife in 1898. There is no stable isotope, and all four isotopes are radioactive elements, of which radium 226 with the longest half-life is alpha decayed to radon 222 (gas).
  • the color of radium ore is silver white and is included in rocks and hot springs.
  • Hot springs that contain radioactive elements such as radium, radon, and thoron are called radioactive springs.
  • radioactive springs Depending on the radioactive element content of the hot spring, it is called radium hot spring, radon hot spring, etc.
  • Tourmaline is called the electric stone, and weak electricity flows when heat and pressure are applied from the outside. Unlike tourmaline, which has lost its shape, tourmaline that maintains its crystalline form is called a polar crystal, and has a negative electrode on one side and a positive electrode on the other.
  • Io-Oishi is a natural ore that has been generated on the ground due to crustal movements after a long period of time, when seabed sediments are generated while containing marine components. It is rich in porosity and contains good quality mineral components in a balanced manner. Among them, 33% soluble silicic acid is contained, and when this silicic acid is dissolved, the mineral content is also dissolved. It is ideal for improving water quality and making reduced water, and is used as a raw material in water purifiers of various companies. In recent years, far-infrared radiation, mineral elution and reduction are expected.
  • Basalt volcanic rock is excellent in moisture conditioning, harmful substance adsorption, odor adsorption, soundproofing and heat resistance.
  • germanium In germanium ore, germanium is a semiconductor located between metal and non-metal, and becomes a conductor that conducts electricity at 32 ° C or higher due to the influence of energy such as light and heat.
  • the germanium electrons that have become conductors become free electrons and become active.
  • the opponent When the opponent is positive electricity, it acts negatively, and when the opponent is negative electricity, it acts positively.
  • a very weak current called a bioelectric current flows to humans, but germanium works efficiently on this bioelectric current.
  • Takachihoishi / Amaterite the radiant energy of Takachihoishi is an electromagnetic wave of 4 to 14 microns, which is a kind of far infrared ray. This has been shown to work very effectively for the growth of animals and plants and the physiological activity of life.
  • the content of silicon dioxide is large, causing quartz (vibration) like quartz and quartz, resonating resonance of water molecules in our body, improving metabolic function by promoting blood circulation and strengthening immunity by raising body temperature It is said to be illustrated. Furthermore, it is widely used to treat atopic dermatitis, improve coldness, and bath materials.
  • Tenju stone is a natural stone from Korea, and the region with the mountain of Mt.Gorak in Korea has a valley and a lake, and is a region full of musical charm of nature. In addition to being excellent in components, it has a high far-infrared emissivity, and is particularly useful in various fields because of its exceptionally superior wave value.
  • Chiakishi is a natural stone produced from the soil at the foot of Peacock in Korea, and is known as an ore with excellent far-infrared emissivity and wave values.
  • the water that springs through this rock is used as water with excellent mineral balance.
  • Fossil loess is a natural ore that is most commonly used in far-infrared saunas because of its excellent humidity control and harmful substance absorption and far-infrared action.
  • Water fed from the faucet 8 is introduced into the mineral tank 4 via the pipe 6 and mixed with the mineral stock solution injected from the opening 10 at a predetermined blending ratio to generate a mineral solution.
  • the mineral solution is introduced into the mist generation unit 18 by the mineral supply unit 14.
  • the mineral supply unit 14 introduces a mineral solution into the mineral solution bottle 20, but supplies the mineral solution according to a signal from a float switch 22 provided in the mineral solution bottle 20.
  • the float switch 22 transmits a supply required signal to the mineral supply unit 14 when the amount of the mineral solution in the mineral solution basket 20 falls below a predetermined amount, and the mineral supply unit 14 transmits the mineral solution.
  • the mineral solution introduced into the mineral solution tank 20 is misted by the vibrator 26.
  • the generated mist is introduced into the bathroom 30 via the mist pipe 28.
  • the gravel layer 32 is heated by the heating unit 34 and is heated by thermal radiation by far infrared rays.
  • the temperature adjustment is adjusted by feedback of the temperature sensor 38 and the signal to the heating source unit 42.
  • the humidity is controlled so that the water from the faucet 36 wets the gravel layer 32 and, as a result, the water is humidified and the humidity is 80%.
  • FIG. 2 is a block diagram showing an outline of the hot spring mist suction facility 102 according to the second embodiment of the present invention.
  • the second embodiment will be described focusing on the differences from the first embodiment.
  • the mineral tank 104, the mineral supply unit 114, and the mist generation unit 118 are not the upper part of the bathroom 130, but are arranged in adjacent locations or the like. In this case, since the mist is transported over a long distance, a certain pressure is required to generate the mist flow. Therefore, in the second embodiment, the blast pipe 150 is joined to the mist pipe 128, and the mist flow is sent out from the opening end 129 provided on the upper wall of the bathroom 130.
  • the outside air introduction pipe 146 is connected to the blower 148, and the blower 148 is connected to the blower pipe 150.
  • the blower pipe 150 is connected to the mist pipe 128 using a Y-shaped joint, so that pressure loss can be reduced.
  • the pressure of the blower 148 can be used, the mist generated by the mist generator 118 can be transferred to the bathroom 130.
  • FIG. 3 is a block diagram showing an outline of a hot spring mist suction facility 202 according to the third embodiment of the present invention.
  • the third embodiment is different in that the air blown from the outside air in the second embodiment is introduced from the windbreak chamber 252 adjacent to the bathroom 230. If the mist is blown using the outside air when the outside air temperature decreases in winter, two problems arise due to the mist temperature being lowered. The first problem is a decrease in the temperature of the bathroom 230. This hinders the maintenance of room temperature at 45 ° C. The second point is an increase in steam components in the mist. Since the saturated water vapor amount decreases due to a decrease in temperature, the steam component increases.
  • a windbreak room 252 is provided in the passage to the bathroom 230 adjacent to each other in the same waterproof state as the bathroom 230, and is separated by the door 254. For this reason, the inside of the windbreak room 252 is very close to the room temperature of the bathroom 230. For this reason, the fall of the temperature of mist can be minimized and an unnecessary steam component can be reduced.
  • FIG. 4 shows a top view of the hot spring mist suction facility in the third embodiment. In particular, details of the heating unit 234 will be described.
  • the heating unit 234 includes a water heater 242, a pipe 2342 and a pipe 2344, and is arranged in a bellows shape at the bottom of the bathroom 230.
  • a water supply pipe 2322 and a gas pipe 2324 are disposed in the water heater 242.
  • FIG. 4 shows a state in which the windbreak chamber 252 adjacent to the bathroom 230 is connected to the blower 248 by the introduction pipe 246 and the blower pipe 250 is connected to the mist pipe 228.
  • FIG. 5 shows a longitudinal sectional view of the hot spring mist suction facility of the third embodiment.
  • the FRP plate 259 is disposed in the lowermost layer, and the urethane 258 is disposed in the upper layer to insulate.
  • Reinforcing bars 2352 are arranged in a lattice pattern on the upper layer of urethane 258.
  • the pipe 2346 and the pipe 2342 are arranged on the upper part along the reinforcing bar 2352 and are fixed by the van bun 2350 at each lattice point. All of these are fixed with concrete. After producing the concrete floor, a gravel layer 232 is placed thereon.
  • the urethane layer 244 is provided inside the outermost layer, the stud layer 249 is provided inside thereof, the plywood 247 is arranged inside thereof, and the kitchen panel is arranged inside thereof.
  • reinforcing bar 2352 and the pipes 2354, 2346, 2348, 2342, and 2344 are arranged in the same manner as the grid, while the reinforcing bars 2352 are arranged in a grid pattern, but the pipes are arranged with only one pipe. Instead, it can be seen that a plurality of pipes form a grid-like arrangement.
  • FIG. 7 is a block diagram showing an outline of a hot spring mist suction facility 302 according to a seventh embodiment of the present invention.
  • the difference from the third embodiment is that the mineral tank 304, the mineral supply unit 314, and the mist generating unit 318 are embedded in the gravel layer 332.
  • the mineral tank 304, the mineral supply unit 314, and the mist generation unit 318 are all arranged outside, and a decrease in temperature is expected in winter. Therefore, by arranging the mineral tank 304, the mineral supply unit 314, and the mist generating unit 318 in the gravel layer 332, the temperature drop of the mineral solution can be minimized.
  • FIG. 8 is a block diagram showing an outline of a hot spring mist suction facility 402 according to the fifth embodiment of the present invention.
  • the difference from the fifth embodiment is the position of the opening end 456 of the bathroom 430.
  • One end is opened near the floor of the bathroom 430. For this reason, a customer etc. can take a mist containing a mineral directly.
  • a waterproof speaker is provided in the bathroom, and connected to an amplifier and a music media playback device to play music or any sound generated in the forest that is recorded in the actual forest.
  • the healing effect may be enhanced.
  • further effects can be obtained by listening to the sound of the forest live while lying on the bathroom floor with reference to German Kneipp therapy.
  • stress hormones are reduced primarily by forest baths that listen to forest sounds live.
  • parasympathetic activity is increased.
  • sympathetic nerve activity is suppressed.
  • systolic / diastolic blood pressure and pulse rate decrease.
  • the psychological tension is eased and vitality is increased.
  • NK activity increases and immunity increases.
  • FIG. 9 shows a side view of a hot spring mist suction facility 502 according to the sixth embodiment of the present invention.
  • the pillar 508 supports the beam 506 on the base 504.
  • a heat insulating material 512 inclined toward the two-stage drain port 510 is placed on the base 504.
  • a waterproof processed surface (FRP) 514 is formed, a relay drain 516 of a two-stage drain port 510 is provided, and drainage collected by the waterproof processed surface (FRP) 514. Is configured to flow to the relay drain 516.
  • a heat insulating material 518 in which an admixture and a concrete are mixed is further provided above the waterproof surface (FRP) 514.
  • a rebar 520 (not shown) is provided on the upper surface of the heat insulating material 518, and a pipe 522 (not shown) is also provided. Details will be described separately.
  • Use of heat insulating material can reduce the escape of heat from the floor.
  • the waterproof function is enhanced by combining the FRP waterproofing and the mixed waterproofing. It also serves as a countermeasure against cracks in concrete.
  • a concrete layer 524 is further placed on the heat insulating material 518, the reinforcing bar 520, and the pipe 522.
  • the thickness of the concrete layer is preferably about 7 to 10 cm.
  • the top surface of the concrete layer 524 is also provided with a waterproof surface (FRP) 526, an upper drain 528 of the two-stage drainage port 510 is provided, and the drainage collected at the waterproof surface (FRP) 526 is collected in the upper drain 528. Discarded with water.
  • the waterproof surface (FRP) 526, the concrete layer 524, the reinforcing bar 520, the heat insulating material 518, and the waterproof surface (FRP) 514 are all about 0.1% to 5%, preferably about 0.5% to 3%. Has an inclination.
  • Functional ball gravel 530 is mounted on a waterproof surface (FRP) 526, but the upper surface is mounted so as to be flat. It is also possible to improve the flow of sebum dirt by placing a saw or wire net under the functional ball gravel 530.
  • FRP waterproof surface
  • the wall surface of the hot spring mist suction facility 502 is provided with a heat insulating material 532 on the indoor side from the pillar 508, and further, two panels 534 are laminated on the indoor side so that the joints do not overlap each other.
  • a hot water mist machine 536 is disposed on the lower side of the upper side wall of the two-stage drain 510.
  • a high concentration mineral mist machine 538 is disposed immediately above the hot water mist machine 536.
  • the hot water mist machine 536 is a mist machine whose temperature can be controlled by hot water supplied and supplied constantly. In order to maintain room temperature, it is preferable that supply capability is higher than the high concentration mineral mist machine 538. By supplying hot water directly, a drop in room temperature can be prevented. Moreover, since hot water can be supplied, piping can be shared with a faucet for maintenance and the like. Moreover, since a high concentration mineral is not used, deterioration of a warm water mist machine can be reduced and the frequency of maintenance can also be reduced.
  • the high-concentration mineral mist machine 538 is a mist machine dedicated to high-concentration minerals at room temperature, and always generates high-concentration mineral mist by supplying high-concentration mineral water adjusted to an appropriate concentration.
  • the hot water mist machine 536 can be freely adjusted and replaced with respect to corrosion and deterioration of the mist machine due to the high-concentration mineral.
  • mist machines are connected to a maintenance faucet 544 from an external water source 540 through a pipe 542. Further, the external water source 540 is connected to a water heater 548 through a pipe 546. The water heater 548 is further connected to a maintenance hot water tap 552 and a hot water mist machine 536 through a pipe 550. That is, a single hot water heater 548 can supply the hot water bottle 552 for maintenance and the hot water mist machine 536. In addition to the external faucet, a high-pressure washing device may be provided to improve maintenance efficiency.
  • the air supply vent 554 and the exhaust vent 556 are provided at the same height with a certain interval at a position higher than the mist machine on a wall surface different from the two mist machines.
  • the air supply vent 554 supplies outside air, and the exhaust vent 556 exhausts indoor air.
  • the motor of the eyes of the fan for ventilation can be easily replaced when it is deteriorated by high-concentration minerals by providing it in a pipe communicating with the ventilation port.
  • the ventilation fan can be controlled independently by supplying and exhausting air, thereby preventing a temperature drop during supply and exhaust.
  • heat exchange may be performed instead of supply and exhaust.
  • the ceiling 558 is configured to be inclined to the opposite side to the mist machine, contrary to the waterproof surface (FRP) 526.
  • the outer surface of the ceiling 558 is also a waterproof surface 560 that has been waterproofed.
  • a panel 562 is provided on the beam side, and a heat insulating material 564 is provided inside the panel 562.
  • FIG. 10 shows a configuration of the reinforcing bar 520 and the pipe 522, and the reinforcing bar 520 is arranged on the heat insulating agent 518 in a lattice shape.
  • the pipe 522 is a pipe for heating gravel, and has a function of heating the gravel by being connected to a hot water heater (not shown).
  • the pipes 522 are arranged in a bellows shape, provided that the pipes do not intersect each other. By arranging in this way, the minimum necessary piping for maintaining the temperature can be obtained. For this reason, the hot water supplied to piping can be made into the minimum required level, and the fuel cost can be reduced.
  • FIG. 11 is a cross-sectional view taken along the line AA ′′ in FIG. 10, in which the pipe 522 and the reinforcing bar 520 are arranged above and below, a waterproof surface (FRP) 514 is provided on the heat insulating material 512, and the mixture with the admixture Is provided with a heat-insulating material 518 and a reinforcing bar 520, and a pipe 522 is disposed in the concrete layer 524.
  • a waterproof surface (FRP) 526 is provided on the upper layer, and a functional gravel 530 is provided thereon. Is placed.
  • FIG. 12 is a top view of the hot spring mist suction facility 502.
  • a windbreak room 566 is provided adjacent to the bathroom 501.
  • the bathroom 501 is provided with a high-concentration mineral mist machine 538 on one side, and an air supply vent 554 and an exhaust vent 556 on a different side.
  • the outside air supplied from the air supply vent 554 circulates in the bathroom 501 and is exhausted from the exhaust vent 556 as indicated by the arrow.
  • an internal port 568 that communicates with the bathroom 501 and an external port 570 that communicates with the outside are provided in the windbreak chamber. Release of high-concentration mineral mist from the windbreak room and condensation can be prevented.
  • FIG. 13 is a top view of the hot spring mist suction facility 502. It is the figure shown especially about the gravel and the partition.
  • the customer space can be clarified by providing a partition 572 such as a plate. Furthermore, by dividing by the partition 572, a plurality of types of gravel 574, 576 can be arranged, and the gravel according to the customer's preference can be arranged. Marine marine, medicinal stones, and radium balls can be used as functional gravel. Furthermore, the personal space can be made clearer by providing a panel 578 such as a lattice on the partition. Degradation measures can be taken by painting the partition with glass paint.
  • the partitioning space can be divided into personal use of about 1.8 square meters, two people of about 3.3 square meters, and family of about 7 square meters.
  • FIG. 14 is a cross-sectional view of the two-stage drain port 510.
  • the two-stage drain port 510 includes a relay drain 516 and an upper drain 528.
  • the relay drain 516 has a drop port 580 of the upper drain 528 inserted in the center, and a donut-shaped relay drain cap 584 in which a plurality of relay drain holes 582 are opened.
  • a relay drain port 586 is provided below the relay drain cap 584, and a relay drop port 588 is opened below the relay drain port 586 to communicate with the sewer port.
  • the level of the relay drain cap 584 matches the waterproof surface (FRP) 514.
  • the upper drain 528 is provided with a circular upper drain cap 592 in which a plurality of upper drain holes 590 are opened, and an upper drain port 594 is provided below the upper drain cap 592.
  • a drop port 580 connected to the relay drain 516 is provided at the center of the upper drain port 594.
  • the level of the upper drain cap 592 matches the waterproof surface (FRP) 526. By forming the waterproof layer in two stages, it becomes a countermeasure against condensation that occurs in the heat insulating layer.
  • the operation of the sixth embodiment will be described with the above configuration.
  • the bathroom 501 heats the functional gravel 530 with hot water circulating in the pipe 522.
  • the mist generated by the hot water mist machine 536 is also generated from the hot water to heat the inside of the bathroom 501.
  • the high concentration mineral mist containing the high concentration mineral is generated from the high concentration mineral mist machine 538. Since the high-concentration mineral mist machine 538 is disposed on the hot water mist machine 536, the hot water mist generated by the hot water mist machine 536 and the high-concentration mineral mist are mixed and filled in the room. By doing this, the room temperature can be raised without supplying hot water directly to the high concentration mineral mist machine 538, so even if the outside temperature falls in the winter, the high concentration mineral does not decrease. Mist can be supplied. Further, by separating the high-concentration mineral mist machine 538 and the hot water mist machine 536, the load on the mist machine can be reduced and the maintenance load can be reduced.
  • the room temperature and humidity can be lowered by ventilating with the air supply vent 554 and the exhaust vent 556.
  • Hot spring mist suction facility 4
  • Mineral tank 6 Piping 8 Water faucet 10 Opening portion 12 Connecting tube 14
  • Mineral supply portion 16 Connecting tube 18 Mist generating portion 20
  • Mineral solution tank 22 Float switch 24
  • Signal line 26
  • Mist tube 30
  • Bathroom 32
  • Gravel Layer 34
  • Heating part 36
  • Water faucet 38
  • Temperature sensor 40
  • Heating source part 44
  • Connection part 102
  • Hot spring mist suction facility 104
  • Mineral tank 114
  • Mineral supply part 118 Mist generating part 128 Mist pipe 129 Open end 130 Bathroom 146 Introducing pipe 148 Blower part 150 Blow pipe 202
  • Hot spring mist suction facility 228 Mist pipe 230 232
  • Gravel layer 234 Heating part 242
  • Water heater 246 Introducing pipe 244 Stud layer 247 Plywood 248 Blowing part 250 Blowing pipe 252 Windbreak room 254
  • Door 259 FRP board 258 Urethane 2 42
  • Piping 2344 Piping 23

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Abstract

 To provide a hot spring mist suction facility in which a material that is capable of emitting far-infrared light having different wave motions and that does not result in a large amount of bacteria retention is used. A hot spring mist suction facility provided with a mineral tank for producing a mineral solution, a mineral supply unit for transporting the mineral solution, a mist generator for converting the transported mineral solution into a mist, and a bath chamber provided with a heating unit and a pebble layer heated by the heating unit, wherein a mist obtained by converting a mineral solution containing a mineral into a mist is introduced into the bath chamber from the upper part of the bath chamber, and the pebble layer in the bath chamber is moisturized and then heated by the heating unit, whereby the mist atmosphere containing the mineral is maintained at a uniform temperature and a uniform humidity.

Description

温泉ミスト吸引施設Hot spring mist suction facility
 本発明は、遠赤外線により身体を芯から温め、血液の循環を良くする温熱療法を適用するための温泉ミスト吸引施設に係り、特にミネラルを含んだ水分でミストを生成することを特徴とする温泉ミスト吸引施設に関する。 The present invention relates to a hot spring mist suction facility for applying thermotherapy that warms the body from the core by far infrared rays and improves blood circulation, and in particular, a hot spring characterized by generating mist with water containing minerals The mist suction facility.
 温熱療法とは、遠赤外線により体を温め、血液の循環を良くする療法である。温熱療法は、統合治療やそれに伴う温熱療法という形で行われている。人間の身体の70%は水分で構成されている。この水分を構成する水分子は、エネルギーを蓄える力を有している。そこで、水分子に反応する温熱波動を使い、身体をただ表面のみを温めることなく、水分子の振動エネルギーによって芯から温めることで回復能力が格段に向上する。 Thermotherapy is a therapy that warms the body with far-infrared rays and improves blood circulation. Thermotherapy is performed in the form of integrated therapy and the accompanying hyperthermia. 70% of the human body is composed of moisture. The water molecules constituting the water have the ability to store energy. Therefore, using the thermal waves that react with water molecules, the body's body is warmed from the core by the vibrational energy of water molecules without warming only the surface.
 もともと温熱療法は、熱に弱い癌の性質に着目して開発された療法であり、現在世界中で注目されている。ドイツ最大の代替療法クリニックであるセント・ジョージ・ホスピタルからは、温熱療法の優れた効果を証明する臨床結果が報告されている。 Originally, thermotherapy is a therapy developed focusing on the nature of cancer that is vulnerable to heat, and is currently attracting attention all over the world. St. George Hospital, Germany's largest alternative therapy clinic, has reported clinical results demonstrating the superior effects of hyperthermia.
 温熱療法の基本的な考え方は、次の通りである。人が1日活動すると細胞エネルギーが低下する。その低下したエネルギーを、食事・睡眠・休息・などによって回復させている。健康を維持するには回復能力を高めることが必要である。そのために、身体を芯から温め、代謝を上げて血液の循環を向上させる必要がある。 The basic concept of thermotherapy is as follows. Cellular energy decreases when a person is active for a day. The reduced energy is recovered by eating, sleeping, resting, etc. It is necessary to improve recovery ability to maintain health. Therefore, it is necessary to warm the body from the core, increase metabolism and improve blood circulation.
 これまで、ミストを用いた装置として、幾つかの提案がなされている。 So far, several proposals have been made as devices using mist.
 特許文献1は、岩盤浴に超音波ミスト発生器を用いたミストサウナ個室が提案されている。「温風通路空間の入口側に温風を送風する岩盤浴用ファンヒーターを設けており、また前記超音波ミスト発生器は、ミスト発生槽と貯水タンクとを有する仕切容器からなり、前記ミスト発生槽には超音波発振子が設けられ、該超音波発振子により発生した細かい霧状のミストは、前記ミスト発生槽の上部を覆うミスト槽カバーからミストダクトを介して前記簡易組立式ユニットの上部に設けたミスト出口から室内に放出させる」ことが提案されている。 Patent Document 1 proposes a mist sauna private room using an ultrasonic mist generator for a bedrock bath. “A bed heater fan heater for blowing hot air is provided on the inlet side of the hot air passage space, and the ultrasonic mist generator is composed of a partition container having a mist generating tank and a water storage tank, and the mist generating tank. Is provided with an ultrasonic oscillator, and fine mist-like mist generated by the ultrasonic oscillator is passed from a mist tank cover covering the upper part of the mist generating tank to the upper part of the simple assembly unit via a mist duct. It has been proposed that the product be discharged from the provided mist outlet into the room.
 また、特許文献2では、美顔器としてのミスト発生装置が開示されている。特許文献2では、「ミスト生成時には、前記加熱部により加熱殺菌された液体または前記放出口から放出される前のミストに対して、前記冷却部での冷却と前記電極での電気分解とが並行して行われる」という特徴を有している。 Further, Patent Document 2 discloses a mist generating device as a facial device. In Patent Document 2, “at the time of mist generation, cooling in the cooling unit and electrolysis at the electrode are performed in parallel with respect to the liquid sterilized by the heating unit or the mist before being discharged from the discharge port. It is performed ”.
 さらに、特許文献3では、噴霧器または噴霧器と超音波振動子を併用してミストを生成している。続いて、特許文献4は、ボイラーで蒸気を生成させてミストを生成する発明が開示されている。一方、特許文献5は、給水容器を靄発生装置に装着し、加熱用ヒータにより貯留水を40℃前後に温め、2個の超音波振動子10を作動させて、前記超音波発振子により細かい霧状のミストが生成される。他方、特許文献6は、超音波装置を用いて、霧状のまま又は蒸気となって循環流の湿度を高める様子が開示されている。 Furthermore, in Patent Document 3, a mist is generated by using a sprayer or a sprayer in combination with an ultrasonic vibrator. Subsequently, Patent Document 4 discloses an invention in which steam is generated by a boiler to generate mist. On the other hand, in Patent Document 5, a water supply container is attached to a wrinkle generator, the stored water is warmed to around 40 ° C. by a heater for heating, and the two ultrasonic vibrators 10 are operated to make the ultrasonic oscillator finer. A mist-like mist is generated. On the other hand, Patent Document 6 discloses a state in which the humidity of the circulating flow is increased in the form of a mist or steam using an ultrasonic device.
特許第3872501号公報Japanese Patent No. 3872501 特許第4915582号公報Japanese Patent No. 4915582 特許第5064581号公報Japanese Patent No. 5064581 特許第3987502号公報Japanese Patent No. 3987502 実用新案登録第3124724号公報Utility Model Registration No. 3124724 特許出願公告平3-49468号公報Japanese Patent Application Publication No. 3-49468
 ところで、特許文献1で示されるような岩盤浴について検討する。一枚岩を用いた岩盤浴では、岩盤が一枚岩であるため波動が単一となる。このため、この岩盤を加熱したとしても、岩盤の波動が単一であるため、人体が単一の波動に慣れてしまうことで人体に単一の波動に対する抗体ができてしまい、遠赤外線効果が薄れてしまうという課題があった。また、岩盤上には、細菌がその表面に滞留しやすく衛生面でも課題が生じていた。このため、波動の異なる遠赤外線を放射することができ、細菌の滞留の少ない素材の提供が必要である。 By the way, the bedrock bath as shown in Patent Document 1 is examined. In a bedrock bath using monoliths, the bedrock is monolithic, so the waves are single. For this reason, even if this bedrock is heated, since the rock wave is single, the human body gets used to the single wave, and the human body will have antibodies against the single wave, and the far-infrared effect There was a problem of fading. In addition, on the bedrock, bacteria are likely to stay on the surface, and there have been problems in terms of hygiene. For this reason, it is necessary to provide a material that can radiate far-infrared rays having different wave motions and has less bacteria retention.
 また、温熱療法において遠赤外線の効果のみならず、ミネラルの提供は皮膚に対して保湿効果を有するなど美容の面で大きな効果を有するものとなっている。しかしながら、例えば天然温泉では成分配合は目的に応じて配合されたのではなく、自然界にたまたま存在する配合比で存在しており、温泉によってミネラルの成分にばらつきが生じており、温泉におけるミネラルの濃度は薄く、ミネラルの吸引という目的に対して効率的ではなかった。このため、体に良いミネラルが適切な濃度でバランス良く配合されたミネラル溶液が必要とされていた。 Moreover, not only the effect of far infrared rays in thermotherapy, but also the provision of minerals has a great effect in terms of beauty, such as having a moisturizing effect on the skin. However, in natural hot springs, for example, the ingredients are not blended according to the purpose, but they are present at a blend ratio that happens to exist in nature. Was thin and not efficient for the purpose of sucking minerals. For this reason, the mineral solution in which the mineral good for a body was mix | blended with the appropriate density | concentration with sufficient balance was required.
 ところで、従来の温熱療法では、岩盤等に直接温泉水をホースなどで撒き、床暖房の熱等を利用して蒸発させて室内の湿度を上昇させていた。出願人らは、この方法で温泉水を蒸発させて調査したところ、ミネラルの質量が水と比較して重く、蒸発せず、地下に沈殿してしまい、発生している蒸気の成分は水であり、ミネラルが一切含まれていなかった。そこで、出願人らはミネラル成分も同時に蒸発させることのできる方法の開発が必要であった。また、特許文献においても課題があり、例えば、特許文献1では、岩盤浴における遠赤外線の波動について課題と細菌の滞留についての課題を解決する必要がある。 By the way, in the conventional thermotherapy, hot spring water is directly sprinkled on the bedrock with a hose, and the indoor humidity is increased by evaporating using the heat of the floor heating. The applicants investigated by evaporating hot spring water using this method, and the mass of minerals was heavier than water, did not evaporate, settled underground, and the generated steam component was water. Yes, it did not contain any minerals. Therefore, the applicants needed to develop a method capable of simultaneously evaporating mineral components. Also, there is a problem in the patent literature. For example, in Patent Literature 1, it is necessary to solve the problem of far-infrared wave in a rock bath and the problem of bacteria retention.
 特許文献2では、ミストを浴室に放出した後の浴室内の制御について明確にする必要性がある。 In Patent Document 2, there is a need to clarify the control in the bathroom after discharging the mist into the bathroom.
 特許文献3は、ミストが放出された浴室内の温度と湿度の環境とミストを制御する方法について明確にする必要がある。 Patent Document 3 needs to clarify the environment of the temperature and humidity in the bathroom where the mist is released and a method for controlling the mist.
 特許文献4は、ミネラルを含んだ溶液を高温、高圧とすることで蒸発させるものであり、十分なミネラルの蒸発が期待できない方法が採用されている。このため、ミネラルの蒸発の方法についての課題を解決する必要がある。 Patent Literature 4 evaporates a mineral-containing solution at a high temperature and high pressure, and employs a method in which sufficient mineral evaporation cannot be expected. For this reason, it is necessary to solve the problem about the method of evaporation of a mineral.
 特許文献5は、ミストの発生方法のみが開示されており、ミネラルの蒸発方法については十分な開示がなされていない。 Patent Document 5 discloses only a method for generating mist, and does not fully disclose a method for evaporating minerals.
 特許文献6も、ミストの発生方法のみが開示されており、ミネラルの蒸発方法については十分な開示がなされていない。 Patent Document 6 also discloses only a method for generating mist, and does not fully disclose a method for evaporating minerals.
 そこで、本発明の目的は、第一に波動の異なる遠赤外線を放射することができ、細菌の滞留の少ない素材を提供することである。特に、任意の遠赤外線放射物質を複数配合して使用する事により、遠赤外線の振動波形は、複数の波動が重なり、共鳴作用効果が得られる事となる。その結果、共鳴作用により、浸透力を増幅された遠赤外線は、利用者の身体の内部へ迅速に伝導され、効率的な遠赤外線効果が得られる技術と、その『遠赤外線の交響効果』を表する効果を実現することを目的とする。 Therefore, an object of the present invention is to provide a material that can radiate far-infrared rays having different waves and has less bacteria retention. In particular, by using a mixture of a plurality of arbitrary far-infrared emitting materials, the far-infrared vibration waveform has a plurality of waves that overlap to obtain a resonance effect. As a result, far-infrared rays whose penetrating power has been amplified by the resonance action are quickly conducted into the user's body to obtain an efficient far-infrared effect and its “far-infrared sympathetic effect”. It aims at realizing the effect to express.
 また、本発明の第二の目的は、バランス良く配合されたミネラル溶液を提供することにある。 The second object of the present invention is to provide a mineral solution formulated in a balanced manner.
 さらに、本発明の第三の目的は、ミネラルを十分蒸発させることでミネラルを含んだ蒸気による入浴を可能にすることにある。 Furthermore, a third object of the present invention is to enable bathing with steam containing minerals by sufficiently evaporating the minerals.
 次に、本発明の第四の目的は、超音波発生装置ではミストの拡散が不十分な場合に外気を導入することでミストの拡散を促進することにある。 Next, a fourth object of the present invention is to promote the diffusion of mist by introducing outside air when the mist diffusion is insufficient in the ultrasonic generator.
 続いて、本発明の第五の目的は、超音波発生装置ではミストの拡散が不十分な場合に外気を導入することで、外気温の影響を受けるために、浴室内からの気体を導入することで熱交換を行うことにある。 Subsequently, the fifth object of the present invention is to introduce gas from the bathroom in order to be influenced by the outside air temperature by introducing the outside air when the mist diffusion is insufficient in the ultrasonic generator. That is to do heat exchange.
 本発明の目的を解決する為に、本発明に係る温泉ミスト吸引施設は、ミネラル溶液を生成するミネラルタンクと、ミネラル溶液を移送するミネラル供給部と、移送されたミネラル溶液をミスト化するミスト発生部と、加熱部と加熱部に加熱される玉砂利層とを備える浴室を備える温泉ミスト吸引施設であって、 In order to solve the object of the present invention, a hot spring mist suction facility according to the present invention includes a mineral tank that generates a mineral solution, a mineral supply unit that transfers the mineral solution, and a mist generation that mists the transferred mineral solution. And a hot spring mist suction facility comprising a bathroom with a heating section and a gravel layer heated by the heating section,
 ミネラル溶液をミネラルが含まれた状態でミスト化されたミストとして浴室上部から浴室内に投入し、浴室内の玉砂利層を湿潤させた上で加熱部により加熱することで、ミネラル入りのミスト雰囲気を一定の温度と一定の湿度に維持する。 The mineral solution is put into the bathroom from the upper part of the bathroom as a mist that is made into a mist containing minerals, and the marble gravel layer in the bathroom is moistened and heated by the heating unit, so that a mist atmosphere containing minerals is obtained. Maintain a constant temperature and humidity.
 ミネラル供給部を浴室上部に配置することでミストを浴室上部から供給してもよい。 Mist may be supplied from the upper part of the bathroom by arranging the mineral supply part at the upper part of the bathroom.
 また、ミストを送付部により浴室内に供給しても良く、ミストを浴室内の空気を送付部により浴室内に供給してもよい。 Further, the mist may be supplied into the bathroom by the sending unit, or the air in the bathroom may be supplied into the bathroom by the sending unit.
 さらに、ミネラル溶液を生成するミネラルタンクを加熱部であらかじめ加熱しても良い。続いて、浴室内のミスト放出口を、浴室内の床近傍としてもよい。 Furthermore, a mineral tank that generates a mineral solution may be preheated by a heating unit. Subsequently, the mist discharge port in the bathroom may be near the floor in the bathroom.
 本発明を適用することで、波動の異なる遠赤外線を放射することができ、細菌の滞留の少ない素材を提供することができる。任意の遠赤外線放射物質を複数配合して使用する事により、遠赤外線の振動波形は、複数の波動が重なり、共鳴作用効果が得られる事となる。その結果、共鳴作用により、浸透力を増幅された遠赤外線は、利用者の身体の内部へ迅速に伝導され、効率的な遠赤外線効果が得られる技術と、その『遠赤外線の交響効果』を奏する効果を実現できる。 By applying the present invention, it is possible to radiate far-infrared rays with different waves and provide a material with less bacteria retention. By using a combination of a plurality of arbitrary far-infrared radiation materials, the far-infrared vibration waveform has a plurality of waves that overlap to provide a resonance effect. As a result, far-infrared rays whose penetrating power has been amplified by the resonance action are quickly conducted into the user's body to obtain an efficient far-infrared effect and its “far-infrared sympathetic effect”. The effect to play is realizable.
 また、本発明を適用することで、バランス良く配合されたミネラル溶液を提供することができる。 In addition, by applying the present invention, a well-balanced mineral solution can be provided.
 さらに、本発明を適用することで、ミネラルを十分蒸発させることでミネラルを含んだ蒸気による入浴を可能にすることができる。 Furthermore, by applying the present invention, it is possible to allow bathing with steam containing minerals by sufficiently evaporating the minerals.
 次に、本発明を適用することで、超音波発生装置ではミストの拡散が不十分な場合に外気を導入することでミストの拡散を促進することができる。 Next, by applying the present invention, it is possible to promote the diffusion of mist by introducing outside air when the mist diffusion is insufficient in the ultrasonic generator.
 続いて、本発明を適用することで、超音波発生装置ではミストの拡散が不十分な場合に外気を導入することで、外気温の影響を受けるために、浴室内からの気体を導入することで熱交換を行うことができる。 Subsequently, by applying the present invention, the ultrasonic generator introduces the outside air when the mist is not sufficiently diffused, and thus introduces the gas from the bathroom to be affected by the outside air temperature. Heat exchange can be performed at
本発明の第1の実施形態の温泉ミスト吸引施設の概略を示すブロック図である。It is a block diagram which shows the outline of the hot spring mist suction facility of the 1st Embodiment of this invention. 本発明の第2の実施形態の温泉ミスト吸引施設の概略を示すブロック図である。It is a block diagram which shows the outline of the hot spring mist suction facility of the 2nd Embodiment of this invention. 本発明の第3の実施形態の温泉ミスト吸引施設の概略を示すブロック図である。It is a block diagram which shows the outline of the hot spring mist suction facility of the 3rd Embodiment of this invention. 本発明の第3の実施形態の温泉ミスト吸引施設の上面図である。It is a top view of the hot spring mist suction facility of the 3rd Embodiment of this invention. 本発明の第3の実施形態の温泉ミスト吸引施設の縦断面図である。It is a longitudinal cross-sectional view of the hot spring mist suction facility of the 3rd Embodiment of this invention. 本発明の第3の実施形態の温泉ミスト吸引施設の加熱手段の配置図である。It is a layout of the heating means of the hot spring mist suction facility of the third embodiment of the present invention. 本発明の第4の実施形態の温泉ミスト吸引施設の概略を示すブロック図である。It is a block diagram which shows the outline of the hot spring mist suction facility of the 4th Embodiment of this invention. 本発明の第5の実施形態の温泉ミスト吸引施設の概略を示すブロック図である。It is a block diagram which shows the outline of the hot spring mist suction facility of the 5th Embodiment of this invention. 本発明の第6の実施形態の温泉ミスト吸引施設502の側面図である。It is a side view of the hot spring mist suction facility 502 of the 6th Embodiment of this invention. 本発明の第6の実施形態の温泉ミスト吸引施設502の鉄筋520と配管522の構成図である。It is a block diagram of the reinforcing bar 520 and the piping 522 of the hot spring mist suction facility 502 of the 6th Embodiment of this invention. 本発明の第6の実施形態の温泉ミスト吸引施設502のAA‘の断面図である。It is sectional drawing of AA 'of the hot spring mist suction facility 502 of the 6th Embodiment of this invention. 本発明の第6の実施形態の温泉ミスト吸引施設502の上面図である。It is a top view of the hot spring mist suction facility 502 of the 6th Embodiment of this invention. 本発明の第6の実施形態の温泉ミスト吸引施設502の上面図である。It is a top view of the hot spring mist suction facility 502 of the 6th Embodiment of this invention. 本発明の第6の実施形態の温泉ミスト吸引施設502の2段式排水口510の断面図である。It is sectional drawing of the two-stage type drainage port 510 of the hot spring mist suction facility 502 of the 6th Embodiment of this invention.
 次に、本発明に係る温泉ミスト吸引施設の実施の形態について図面を参照して詳細に説明する。 Next, an embodiment of the hot spring mist suction facility according to the present invention will be described in detail with reference to the drawings.
(第1の実施形態)
 図1は、本発明の第1の実施形態の温泉ミスト吸引施設2の概略を示すブロック図を示したものである。
(First embodiment)
FIG. 1: shows the block diagram which shows the outline of the hot spring mist suction facility 2 of the 1st Embodiment of this invention.
 温泉ミスト吸引施設2では、ミストとして噴霧されるミネラル溶液を格納するミネラルタンク4が配置される。このミネラルタンク4は、配管6を経由して水栓8と連結される。水栓8は、水道と連結するもので良いが、温水栓であってもよい。 In the hot spring mist suction facility 2, a mineral tank 4 for storing a mineral solution sprayed as mist is disposed. This mineral tank 4 is connected to a faucet 8 via a pipe 6. The faucet 8 may be connected to the water supply, but may be a hot water faucet.
 ミネラルタンク4は、ミネラル原液が注入される開口部10が設けられる。ミネラルタンク4内で、ミネラル原液と水道水から精製されるミネラル溶液は、鉱物から直接ミネラル含有水溶液として抽出されるものであり、体に良いとされるミネラルをバランス良く含むことが望ましい。使用するミネラル溶液(温泉)は黒雲母の風化体である蛭石(VERMICULITE)から無機酸によって20数種類のミネラル分を溶解抽出したミネラル群溶液であり、有機物は含有されない。 The mineral tank 4 is provided with an opening 10 into which a mineral stock solution is injected. In the mineral tank 4, the mineral solution refine | purified from mineral undiluted | stock solution and a tap water is extracted as a mineral containing aqueous solution directly from a mineral, and it is desirable to contain the mineral considered good for a body in good balance. The mineral solution (hot spring) to be used is a mineral group solution obtained by dissolving and extracting 20 or more kinds of minerals with inorganic acid from vermiculite, which is a weathered body of biotite, and does not contain organic matter.
 出願人は福島県阿武隈山系より産出する腐食花崗岩に数十種類のミネラル成分がバランスよく含まれることを突き止め、含有されるミネラルが生体に吸収されやすいイオンの形で抽出されたミネラル溶液となっている。 The applicant has determined that the corroded granite produced from the Abukumazan system in Fukushima Prefecture contains dozens of mineral components in a well-balanced manner, and the minerals contained are extracted in the form of ions that are easily absorbed by the body. Yes.
 本発明に係る温泉ミスト吸引施設に用いるミネラル溶液は、単体であり、化学的分類は、各種ミネラルの硫酸化物である。その成分および標準含有量(g/L)は、Feは10.5(g/L)(但し、Fe(SOとして)、Alは9.2(g/L)(但しAl(SOとして)、Mgは3.7(g/L)(MgSOとして)、Kは1.9(g/L)(但しKSOとして)、HSOは51.1(g/L)であり、その他数十種類のミネラルを含む。 The mineral solution used in the hot spring mist suction facility according to the present invention is a single substance, and the chemical classification is sulfate of various minerals. Its component and standard content (g / L) are as follows: Fe is 10.5 (g / L) (provided as Fe 2 (SO 4 ) 3 ), Al is 9.2 (g / L) (provided that Al 2 (As SO 4 ) 3 , Mg is 3.7 (g / L) (as MgSO 4 ), K is 1.9 (g / L) (however, as K 2 SO 4 ), H 2 SO 4 is 51. 1 (g / L) and containing several tens of other minerals.
 また、その他数十種類のミネラルを含む(成分分析表参照)。統計品目番号(HSNo.):3824・90-900(化学工業製品)であり、標準国際商品分類(SITC):523-19(無機化学製品)であり、国連番号:Item No.66 UNNo.2796(低濃度硫酸含有物質)である。 In addition, dozens of other minerals are included (see ingredient analysis table). Statistical item number (HSNo.): 3824 / 90-900 (chemical industry product), standard international product classification (SITC): 523-19 (inorganic chemical product), UN number: Item No.66 UNNo.2796 (Low concentration sulfuric acid-containing substance).
 また、ミネラルは、分類は、酸性ミネラル含有水溶液であり、危険性は、遊離硫酸分が低いため(約5%)人間の皮膚に対する腐食性はない。有害性は、無害である。有害な重金属を含有していない(成分分析表参照)。環境におよぼす影響は、水質浄化剤であり、いかなる自然環境にも影響を及ぼさない。この事はヒメダカに対する毒性試験で証明されている。 Also, minerals are classified as acidic mineral-containing aqueous solutions, and the danger is low corrosiveness to human skin due to low free sulfuric acid content (about 5%). Hazard is harmless. Does not contain harmful heavy metals (see component analysis table). The effect on the environment is a water purification agent and does not affect any natural environment. This has been proved in toxicity tests on medaka.
 なお、物理的/化学的性質は、外観は、茶褐色の液体である。その比重は、1.15~1.16であり、pHは、0.5~1.0であり、沸点は、100℃であり、氷点は、-10℃であり、溶解度(水)は、100%(10℃)である。 In addition, the physical / chemical property is a brownish liquid in appearance. The specific gravity is 1.15 to 1.16, the pH is 0.5 to 1.0, the boiling point is 100 ° C., the freezing point is −10 ° C., and the solubility (water) is 100% (10 ° C.).
 さらに、危険性データとして、爆発点はなし(水溶液につき)、引火性は、なし(水溶液につき)、燃焼性は、なし(水溶液につき)、爆発性は、なし(水溶液につき)、粉塵爆発性はなし(水溶液につき)である。 In addition, hazard data include no explosion point (per aqueous solution), no flammability (per aqueous solution), no flammability (per aqueous solution), none explosive (per aqueous solution), no dust explosive ( Per aqueous solution).
 また、有害性データとして、皮膚に対する腐食性は、なし、刺激性は、傷ついた皮膚を刺激する。一方、感受性は、なし、急性毒性は、なし、準急性毒性は、なし、慢性毒性は、なし、発癌性は、なし、突然変異性は、なし、奇形誘発性は、なしである。 Also, as toxicity data, there is no corrosiveness to skin, and irritation stimulates damaged skin. On the other hand, there is no sensitivity, no acute toxicity, no subacute toxicity, no chronic toxicity, no carcinogenicity, no mutation, no teratogenicity.
 さらに、環境データでは、分解性は、なし、蓄積性は、なしである。次に表1に成分ごとの含有量を示す。 Furthermore, in environmental data, there is no degradability and no accumulation. Next, Table 1 shows the content of each component.
Figure JPOXMLDOC01-appb-T000001
Figure JPOXMLDOC01-appb-T000001
 また、魚に対する毒性は、なしである(但し酸性につきpHに注意する必要がある)。 Also, there is no toxicity to fish (however, it is necessary to pay attention to pH for acidity).
 採用された分析方法は、K,Na,Liについては原子吸光分析法であり、Sについては臭素で酸化後BaSO重量法であり、他、高周波誘導結合プラズマ発光分光分析法(ICP)が用いられている。 The analytical methods employed are atomic absorption spectrometry for K, Na, Li, BaSO 4 weight method after oxidation with bromine for S, and high frequency inductively coupled plasma optical emission spectrometry (ICP). It has been.
 加えて、有害重金属の含有量(東京都食品衛生協会の検査結果)では、砒素は、検出しない結果であり、鉛についても検出しない。また、カドミウムは、検出しない状態である。その他、総水銀は、検出しない。 In addition, the content of toxic heavy metals (inspection results of the Tokyo Food Sanitation Association) does not detect arsenic, nor does it detect lead. Cadmium is not detected. In addition, total mercury is not detected.
 ミネラル溶液の入ったミネラルタンク4は、連結管12を介してミネラル供給部14と連結される。 The mineral tank 4 containing the mineral solution is connected to the mineral supply unit 14 via the connecting pipe 12.
 ミネラル供給部14は、通常のポンプであり、ミネラルタンク4内のミネラル溶液をミスト発生部18に供給する装置である。 The mineral supply unit 14 is a normal pump, and is a device that supplies the mineral solution in the mineral tank 4 to the mist generating unit 18.
 ミスト発生部18は、ミネラル供給部14と連結管16を介して連結される。ミスト発生部18は、ミスト管28を介して浴室30と連結される。ここで、ミスト発生部18を浴室30の上部に配置するとミストの供給を最短距離で行うことができる。また、ミストを浴室30の上部から放出することができる。 The mist generating unit 18 is connected to the mineral supply unit 14 via the connecting pipe 16. The mist generating unit 18 is connected to the bathroom 30 via a mist pipe 28. Here, if the mist generating part 18 is arranged on the upper part of the bathroom 30, the mist can be supplied in the shortest distance. Further, mist can be discharged from the upper part of the bathroom 30.
 ミスト発生部18は、その内部にミネラル溶液漕20を備える。 The mist generating unit 18 includes a mineral solution bottle 20 therein.
 ミネラル溶液漕20は、連結管16経由で送出されるミネラル溶液が貯液される。そのミネラル溶液漕20のミネラル溶液の貯液量は、フロートスイッチ22で制御される。ミネラル溶液漕20の中にフロートスイッチ22が浮かべられ、ミネラル溶液が所定の量を下回るとフロートスイッチ22がONとなり、信号線24で連結されるミネラル供給部14に伝達されて、ミネラル溶液のミネラル溶液漕20への供給が開始される。逆にミネラル溶液が所定の量を上回るとフロートスイッチ22がOFFとなり、信号線24で連結されるミネラル供給部14に伝達されて、ミネラル溶液のミネラル溶液漕20への供給が停止される。 The mineral solution bottle 20 stores a mineral solution sent via the connecting pipe 16. The amount of the mineral solution stored in the mineral solution tank 20 is controlled by the float switch 22. When the float switch 22 is floated in the mineral solution tank 20 and the mineral solution falls below a predetermined amount, the float switch 22 is turned on, and is transmitted to the mineral supply unit 14 connected by the signal line 24, and the mineral of the mineral solution Supply to the solution tank 20 is started. Conversely, when the mineral solution exceeds a predetermined amount, the float switch 22 is turned off and transmitted to the mineral supply unit 14 connected by the signal line 24, and the supply of the mineral solution to the mineral solution bottle 20 is stopped.
 ミネラル溶液漕20は、その底部に振動子26が配置される。振動子26は、その内部に圧電セラミック素子等を内蔵し、2MHz前後の振動が行われるように設定することで、ミネラル溶液をミネラルを含んだままミスト化することができる。ミスト化したミネラル溶液はミスト管28を通して浴室30に供給される。 The vibrator 26 is disposed at the bottom of the mineral solution bottle 20. The vibrator 26 incorporates a piezoelectric ceramic element or the like therein and is set so as to vibrate around 2 MHz, whereby the mineral solution can be misted while containing the mineral. The mist mineral solution is supplied to the bathroom 30 through the mist pipe 28.
 従来の施設では砂利の上に直接ミネラルを含んだ温泉水をホースで撒き、床暖房の熱を利用して蒸発させることで室内の湿度を上げていたが、ミネラルの質量が水に比べ重いため地下に沈殿し、蒸気の成分の大半は水であった。 In conventional facilities, hot spring water containing minerals directly on gravel was hosed and evaporated using the heat of floor heating, but the indoor humidity was raised, but the mass of minerals is heavier than water It settled underground, and most of the components of the vapor were water.
 この問題を解決するため、出願人は超音波加湿の原理を応用してミネラル溶液を数ミクロンまで微細化し、それをファンにより直接室内に送り込む技術を開発した。 In order to solve this problem, the applicant developed a technology that refines the mineral solution to a few microns by applying the principle of ultrasonic humidification and sends it directly into the room using a fan.
 ミネラル溶液漕20の底に圧電セラミックスの振動子を設置し、これに高周波の交流電圧を加えると、発生した超音波の振動エネルギーは水面に伝わり、ある条件下では水面の一部が隆起して、そこから微細な霧が発生する。本願のミスト発生部18は共振周波数がきわめて高いので霧が発生する。 When a piezoelectric ceramic vibrator is installed at the bottom of the mineral solution bowl 20 and a high-frequency AC voltage is applied to it, the vibration energy of the generated ultrasonic waves is transmitted to the water surface, and under certain conditions, part of the water surface rises. From there, a fine fog is generated. Since the mist generating unit 18 of the present application has a very high resonance frequency, fog is generated.
 圧電振動子の大きさや厚み、周波数、音圧、水深などの最適条件を割り出すとともに、圧電振動子を水平ではなく、少し傾けて設置することで、霧化効率を最大化するように設定されている。 The optimum conditions such as the size, thickness, frequency, sound pressure, water depth, etc. of the piezoelectric vibrator are determined, and the piezoelectric vibrator is set to be atomized rather than horizontal so that the atomization efficiency is maximized. Yes.
 ミネラルタンク4からミスト発生部18に供給されるミネラル溶液は、フロートスイッチ22により一定水位を保つようになっていて、ミネラル溶液漕20の底には振動子26が設置されている。駆動回路から高周波の電圧が加わると、圧電振動子は超音波振動子として機能し、その振動エネルギーは水面に集中して水柱が立ち、表面張力が大幅に低下した水柱の先端部から水の微粒子が飛散する。これを図示しない送風ファンのエアフローによって、ミネラルの霧として送り出している。ミスト発生部18の霧粒は数ミクロン(μm)程度ときわめて微細なため、本願の温熱効果で毛穴が開き毛細血管および代謝が活発になった体に効果的に浸透させることが可能になった。 The mineral solution supplied from the mineral tank 4 to the mist generating unit 18 is maintained at a constant water level by the float switch 22, and a vibrator 26 is installed at the bottom of the mineral solution tank 20. When a high-frequency voltage is applied from the drive circuit, the piezoelectric vibrator functions as an ultrasonic vibrator, and the vibration energy concentrates on the water surface and the water column stands, and the surface of the water column is greatly reduced. Is scattered. This is sent out as mineral mist by the airflow of a blower fan (not shown). Since the mist of the mist generating part 18 is as fine as several microns (μm), the thermal effect of the present application has made it possible to effectively infiltrate the capillaries and the body with active metabolism by opening the pores. .
 浴室30は、上部にミスト管28の開口部が設けられ、ミネラルを含んだミストが放出されるように設けられている。一方、浴室30の最下端である床部分には加熱部34が設けられる。加熱部34は、電気ヒータまたは、温水用の配管が設けられ、浴室30内を室温が40℃から50℃であり、好適には45℃となるように加熱ができるように構成される。 The bathroom 30 is provided with an opening of a mist pipe 28 at the top so that a mist containing mineral is discharged. On the other hand, a heating unit 34 is provided on the floor portion which is the lowest end of the bathroom 30. The heating unit 34 is provided with an electric heater or a pipe for hot water, and is configured so that the inside of the bathroom 30 can be heated so that the room temperature is 40 ° C. to 50 ° C., and preferably 45 ° C.
 加熱部34の上層には玉砂利層32が設けられる。浴室30の一部には水栓36が設けられ、そこから玉砂利層32の表面が濡れる程度に散水することで、玉砂利層32の表面から水分が蒸発し、ミネラルを含んだミストと併せて湿度が70%から90%、より好適には80%となるように設定される。 The boulder gravel layer 32 is provided on the upper layer of the heating unit 34. A faucet 36 is provided in a part of the bathroom 30, and water is evaporated from the surface of the gravel layer 32 by spraying water to such an extent that the surface of the gravel layer 32 gets wet. Is set to be 70% to 90%, more preferably 80%.
 また、浴室30には、その内壁に温度センサ38が設けられる。温度センサ38は、加熱源部42と配線40で連結される。加熱部34と加熱源部42は連結部44で連結される。加熱部34が電熱ヒータであれば、加熱源部42は電源であり、連結部44は導電線である。一方、加熱部34が温水管であれば、加熱源部42は湯沸装置であり、連結部44は配管である。ここで加熱源部42は、設定温度を45℃とすると、室温45℃に対して低い場合は、加熱部34を加熱するように設定され、室温45℃に対して高い場合は、加熱部34の加熱を停止する。すなわち、加熱部34が電熱ヒータである場合は、温度センサの値で電源がその駆動と停止とを制御され、加熱部34が温水管であれば、温度センサの値で湯沸装置がその加熱と停止を制御される。 Also, the bathroom 30 is provided with a temperature sensor 38 on its inner wall. The temperature sensor 38 is connected to the heating source unit 42 and the wiring 40. The heating part 34 and the heat source part 42 are connected by a connecting part 44. If the heating unit 34 is an electric heater, the heating source unit 42 is a power source, and the connecting unit 44 is a conductive wire. On the other hand, if the heating part 34 is a hot water pipe, the heating source part 42 is a water heater, and the connecting part 44 is a pipe. Here, when the set temperature is 45 ° C., the heating source unit 42 is set to heat the heating unit 34 when the temperature is lower than the room temperature 45 ° C., and when the set temperature is higher than the room temperature 45 ° C., the heating unit 34 is set. Stop heating. That is, when the heating unit 34 is an electric heater, the power supply is controlled to be driven and stopped by the value of the temperature sensor. When the heating unit 34 is a hot water pipe, the water heater is heated by the value of the temperature sensor. And controlled stop.
 ここで、従来の1枚岩を用いた岩盤浴は、単一の波動を持つ石による遠赤外線のため体がその波動に慣れてしまい抗体が出来て遠赤外線効果が薄れてしまうという課題を有していた。また岩盤上に細菌が滞留しやすく衛生面からも懸念があった。 Here, the conventional bedrock bath using monoliths has the problem that the body becomes accustomed to the waves because of the far-infrared rays produced by a single wave-like stone, and antibodies are produced and the far-infrared effect is diminished. Was. There was also concern about hygiene from the tendency of bacteria to stay on the bedrock.
 そこで出願人らは、岩盤を玉砂利化しそれぞれの特徴にあわせて異なる石をブレンドすることで異なる波動の遠赤外線を放射させることで体への慣れを防止することが出来るようにした。また玉砂利を丸ごと高圧洗浄器で洗えるため衛生面からも優れた効果を発揮できる。入浴者は更に玉砂利に体を埋もれて横たわるため、適度な体へのツボ押し効果もあり寝心地の良さもあわせて実現された。 Therefore, the applicants were able to prevent habituation to the body by radiating far-infrared rays of different waves by blending different stones according to their characteristics by converting the bedrock into gravel. In addition, since the whole gravel can be washed with a high-pressure washer, it is possible to exert excellent effects from the viewpoint of hygiene. The bather lies with his gravel gravel lying down, so it has a moderate pressure on the body and is comfortable.
 遠赤外線は電磁波の一種で、波長が4.0~25μm(マイクロメートル)の範囲と定義されている。 Far infrared rays are a type of electromagnetic wave and are defined as having a wavelength in the range of 4.0 to 25 μm (micrometers).
 遠赤外線は熱ではない。遠赤外線は放射伝達により有機物に吸収しやすく、その有機物の分子に振動エネルギーを与えて運動し分子自体が発熱することで暖かくなる。遠赤外線は別名、「育成光線」とも呼ばれ、人体の皮下深層に浸透し細胞を共振させることでマイルドに体を温め、また冷めにくいという特長を有する。体温が上昇すると、毛細血管が拡張され、血液循環がよくなり、細胞の新陳代謝、免疫力増加など、人体が本来持っている自然治癒力を高めていく。 Far infrared is not heat. Far-infrared rays are easily absorbed by organic substances by radiative transmission, and are heated by giving vibration energy to the molecules of the organic substances and moving the molecules themselves to generate heat. Far-infrared rays are also called “growth rays”, and have the feature of warming the body mildly and making it difficult to cool by penetrating deep into the skin and resonating cells. As body temperature rises, capillaries are dilated, blood circulation is improved, and the natural healing power of the human body, such as cell metabolism and increased immunity, is increased.
 また、玉砂利層32は、玉砂利として、麦飯石、ラジウム鉱石、トルマリン、医王石、玄武火山岩、ゲルマニウム鉱石、高千穂石/天照石、天寿石、千明石および化石黄土のいずれかまたはそれらの一部あるいは全部の組み合わせを用いる。 Further, the boulder gravel layer 32 is a boulder, or any one of barleystone, radium ore, tourmaline, Ioishi, basalt volcanic rock, germanium ore, Takachihoishi / Amaterite, Tianju stone, Chiakiishi and fossil ocher. Alternatively, all combinations are used.
 具体的には、麦飯石は、約7000万年~5000万年前に地殻変動の大きなエネルギーの影響を受けた鉱物が、超高圧・超高温の力が加わり麦飯石は成形される。麦飯石の形成は特殊であるため、世界中でも数箇所でしか採掘されず、大変希少価値の高い天然鉱石である。麦飯石は、多孔質であるため水道水のカルキ成分(塩素)や雑菌を吸着し、また豊富なミネラル成分が溶出し、遠赤外線の放射強度も強い石である。 More specifically, barley stone is formed from minerals that have been affected by the energy of large crustal movements about 70 million to 50 million years ago, with the addition of ultra-high pressure and ultra-high temperature. Due to the special formation of barleystone, it is mined only in a few places around the world and is a very rare natural ore. Since barley stone is porous, it adsorbs the chlorine component (chlorine) and various germs of tap water, elutes abundant mineral components, and has strong far-infrared radiation intensity.
 ラジウム鉱石は、ラジウムを含有した岩石であり、このラジウムとは、アルカリ土類金属であって、1898年にキュリー夫妻が発見したものである。安定した同位体はなく、4つの同位体のいずれも放射性元素であり、そのうち半減期の最も長いラジウム226がアルファ崩壊してラドン222(ガス)になる。 Radium ore is a rock containing radium, which is an alkaline earth metal that was discovered by Curie and his wife in 1898. There is no stable isotope, and all four isotopes are radioactive elements, of which radium 226 with the longest half-life is alpha decayed to radon 222 (gas).
 ラジウム鉱石の色彩は銀白色で、岩石・温泉などに含まれる。温泉成分にラジウム、ラドン、トロンなどの放射性元素が含まれている温泉を放射能泉と言う。温泉の放射性元素含有量によって、ラジウム温泉、ラドン温泉などと呼ばれている。 The color of radium ore is silver white and is included in rocks and hot springs. Hot springs that contain radioactive elements such as radium, radon, and thoron are called radioactive springs. Depending on the radioactive element content of the hot spring, it is called radium hot spring, radon hot spring, etc.
 トルマリンは、日本名を電気石と言い外部から熱や圧力が加わることにより、微弱な電気が流れる。形の崩れたトルマリンと違い、結晶体の形を保ったトルマリンは、極性結晶体といわれ、一方にマイナスの電極、もう一方にプラスの電極を備えている。 Tourmaline is called the electric stone, and weak electricity flows when heat and pressure are applied from the outside. Unlike tourmaline, which has lost its shape, tourmaline that maintains its crystalline form is called a polar crystal, and has a negative electrode on one side and a positive electrode on the other.
 つまりこの電極を備えた結晶体であるからこそ、電気作用に効率的な働きをする。 In other words, because it is a crystal body equipped with this electrode, it works efficiently for electric action.
 医王石は、海底堆積物が海中の成分を含んだまま生成され、長い時を経て地殻変動により地上に現れた天然鉱石です。多孔性に富み、良質のミネラル成分をバランスよく含んでおり、中でも可溶性の珪酸が33%含まれており、この珪酸が溶ける時にミネラル分も一緒に溶け出す。水質改善や還元水作りには最適で、各社の浄水器にも原料として使用されている。また近年では、遠赤外線放射・ミネラル溶出・還元作用が期待されている。 Io-Oishi is a natural ore that has been generated on the ground due to crustal movements after a long period of time, when seabed sediments are generated while containing marine components. It is rich in porosity and contains good quality mineral components in a balanced manner. Among them, 33% soluble silicic acid is contained, and when this silicic acid is dissolved, the mineral content is also dissolved. It is ideal for improving water quality and making reduced water, and is used as a raw material in water purifiers of various companies. In recent years, far-infrared radiation, mineral elution and reduction are expected.
 玄武火山岩は、調湿生・有害物質の吸着や臭気の吸着、防音・耐熱性に優れている。 Basalt volcanic rock is excellent in moisture conditioning, harmful substance adsorption, odor adsorption, soundproofing and heat resistance.
 ゲルマニウム鉱石において、ゲルマニウムは金属と非金属の中間に位置する半導体であり、光や熱などのエネルギーの影響により、32℃以上になると電気を通す導体となる。導体となったゲルマニウムの電子は、自由電子となって活発に活動するようになり、相手がプラスの電気の場合はマイナスの働きをし、相手がマイナスの電気の場合はプラスの働きをする。人間には、生体電流という極微弱な電流が流れているが、この生体電流に効率良く働くのがゲルマニウムである。 In germanium ore, germanium is a semiconductor located between metal and non-metal, and becomes a conductor that conducts electricity at 32 ° C or higher due to the influence of energy such as light and heat. The germanium electrons that have become conductors become free electrons and become active. When the opponent is positive electricity, it acts negatively, and when the opponent is negative electricity, it acts positively. A very weak current called a bioelectric current flows to humans, but germanium works efficiently on this bioelectric current.
 高千穂石/天照石において、高千穂石の放射エネルギーは、4~14ミクロンの電磁波で遠赤外線の一種である。これは動植物の育成や、生命の生理活性のために非常に有効に作用することが明らかになっている。 In Takachihoishi / Amaterite, the radiant energy of Takachihoishi is an electromagnetic wave of 4 to 14 microns, which is a kind of far infrared ray. This has been shown to work very effectively for the growth of animals and plants and the physiological activity of life.
 特に、二酸化ケイ素の含有量が多く、石英、水晶と同様にクオーツ(振動)を起こし、私達の体内の水分子を共振共鳴させ、血行促進による代謝機能の向上と共に体温上昇で免疫力強化が図られると言われている。さらにはアトピー性皮膚炎の治療や冷えの改善、入浴材等幅広く活用されている。 In particular, the content of silicon dioxide is large, causing quartz (vibration) like quartz and quartz, resonating resonance of water molecules in our body, improving metabolic function by promoting blood circulation and strengthening immunity by raising body temperature It is said to be illustrated. Furthermore, it is widely used to treat atopic dermatitis, improve coldness, and bath materials.
 天寿石は、韓国産の天然石であり、韓国の月岳山を有する地域は、渓谷や湖を有し、大自然の雄大な魅力あふれる地域であり、天寿石はこの地域の地層から産出され、ミネラル成分に優れるだけでなく、遠赤外線放射率が高く、特に波動数値が他に類を見ないほど優れていることから様々な分野で利用される。 Tenju stone is a natural stone from Korea, and the region with the mountain of Mt.Gorak in Korea has a valley and a lake, and is a region full of majestic charm of nature. In addition to being excellent in components, it has a high far-infrared emissivity, and is particularly useful in various fields because of its exceptionally superior wave value.
 千明石は、韓国の孔雀山麓の土壌から産出される天然石であり、遠赤外線放射率や波動数値が非常に優れた鉱石として知られています。また、この岩石をくぐり抜けて湧き出た水はミネラルバランスに優れた水として利用されている。 Chiakishi is a natural stone produced from the soil at the foot of Peacock in Korea, and is known as an ore with excellent far-infrared emissivity and wave values. In addition, the water that springs through this rock is used as water with excellent mineral balance.
 化石黄土は、調湿性・有害物質の吸着や遠赤外線作用に優れ、遠赤外線サウナに最も多く使用されている天然鉱石である。 Fossil loess is a natural ore that is most commonly used in far-infrared saunas because of its excellent humidity control and harmful substance absorption and far-infrared action.
 以上の構成において本発明の動作について説明する。 The operation of the present invention in the above configuration will be described.
 水栓8から送水された水が、配管6を経由してミネラルタンク4内に導入されて、開口部10から注入されたミネラル原液と予め定められた配合比で混合されてミネラル溶液が生成される。 Water fed from the faucet 8 is introduced into the mineral tank 4 via the pipe 6 and mixed with the mineral stock solution injected from the opening 10 at a predetermined blending ratio to generate a mineral solution. The
 ミネラル溶液は、ミネラル供給部14によってミスト発生部18に導入される。ミネラル供給部14は、詳細にはミネラル溶液をミネラル溶液漕20に導入するが、ミネラル溶液漕20内に設けられたフロートスイッチ22からの信号に従って供給する。フロートスイッチ22は、ミネラル溶液漕20内のミネラル溶液の量が所定量を下回った場合にミネラル供給部14に要供給信号を送信し、ミネラル供給部14はミネラル溶液を送出する。 The mineral solution is introduced into the mist generation unit 18 by the mineral supply unit 14. Specifically, the mineral supply unit 14 introduces a mineral solution into the mineral solution bottle 20, but supplies the mineral solution according to a signal from a float switch 22 provided in the mineral solution bottle 20. The float switch 22 transmits a supply required signal to the mineral supply unit 14 when the amount of the mineral solution in the mineral solution basket 20 falls below a predetermined amount, and the mineral supply unit 14 transmits the mineral solution.
 ミネラル溶液漕20内に導入されたミネラル溶液は、振動子26によりミスト化される。 The mineral solution introduced into the mineral solution tank 20 is misted by the vibrator 26.
 生成されたミストはミスト管28を経由して浴室30に導入される。浴室30は、加熱部34で玉砂利層32が加熱されて遠赤外線による熱放射で加熱される。その温度調整は、温度センサ38とその信号の加熱源部42へのフィードバックによって調整される。 The generated mist is introduced into the bathroom 30 via the mist pipe 28. In the bathroom 30, the gravel layer 32 is heated by the heating unit 34 and is heated by thermal radiation by far infrared rays. The temperature adjustment is adjusted by feedback of the temperature sensor 38 and the signal to the heating source unit 42.
 一方、湿度については、水栓36からの水が玉砂利層32を湿潤させ、その結果、水が蒸発することで加湿され、湿度が80%となるように管理される。 On the other hand, the humidity is controlled so that the water from the faucet 36 wets the gravel layer 32 and, as a result, the water is humidified and the humidity is 80%.
 以上のように動作することで、動力を使用せずとも、容易にミストを浴室30に導入することが可能となる。 By operating as described above, mist can be easily introduced into the bathroom 30 without using power.
(第2の実施形態)
 図2は、本発明に係る第2の実施形態の温泉ミスト吸引施設102の概略を示すブロック図を示したものである。
(Second Embodiment)
FIG. 2 is a block diagram showing an outline of the hot spring mist suction facility 102 according to the second embodiment of the present invention.
 指示番号は、第1の実施形態と同一のものについては下二桁を同一の数値とし、同一のものについては説明を省略する。 For the same instruction numbers as those in the first embodiment, the last two digits are set to the same numerical value, and the description of the same numbers is omitted.
 第2の実施形態について第1の実施形態との相違点を中心に説明する。第2の実施形態では、ミネラルタンク104とミネラル供給部114とミスト発生部118とが、浴室130の上部ではなく、隣接した場所等に配置された場合の実施形態である。この場合、ミストを長距離に渡って移送するため、ミスト流を発生させるために一定の圧力が必要となる。そこで、第2の実施形態ではミスト管128に送風管150を合流させて、浴室130の上部壁に設けた開口端129からミスト流を送出するものである。 The second embodiment will be described focusing on the differences from the first embodiment. In the second embodiment, the mineral tank 104, the mineral supply unit 114, and the mist generation unit 118 are not the upper part of the bathroom 130, but are arranged in adjacent locations or the like. In this case, since the mist is transported over a long distance, a certain pressure is required to generate the mist flow. Therefore, in the second embodiment, the blast pipe 150 is joined to the mist pipe 128, and the mist flow is sent out from the opening end 129 provided on the upper wall of the bathroom 130.
 このため、構成として外気の導入管146を送風部148に連結し、送風部148が送風管150と連結される。送風管150は、ミスト管128とY字継ぎ手を用いて連結され、このため圧力損失を減少させることができる。また、送風部148の圧力を用いることができるため、ミスト発生部118で生成したミストを浴室130へ移送できる。 Therefore, as a configuration, the outside air introduction pipe 146 is connected to the blower 148, and the blower 148 is connected to the blower pipe 150. The blower pipe 150 is connected to the mist pipe 128 using a Y-shaped joint, so that pressure loss can be reduced. In addition, since the pressure of the blower 148 can be used, the mist generated by the mist generator 118 can be transferred to the bathroom 130.
(第3の実施形態)
 図3は、本発明に係る第3の実施形態の温泉ミスト吸引施設202の概略を示すブロック図を示したものである。
(Third embodiment)
FIG. 3 is a block diagram showing an outline of a hot spring mist suction facility 202 according to the third embodiment of the present invention.
 指示番号は、第2の実施形態と同一のものについては下二桁を同一の数値とし、同一のものについては説明を省略する。 For the same instruction numbers as those in the second embodiment, the last two digits are the same numerical value, and the description of the same numbers is omitted.
 第3の実施形態は、第2の実施形態において外気から送風していたものを浴室230と隣接する風除け室252から導入する点で異なっている。冬季に外気温が低下した際に外気を用いてミストを送風すると、ミスト温度が低下することで2つの課題が生じる。第一の課題が、浴室230温度の低下である。室温を45℃で維持する妨げとなる。第二点が、ミスト中の湯気成分の増加が発生する。温度の低下により飽和水蒸気量が低下するため、湯気成分が増大する。 The third embodiment is different in that the air blown from the outside air in the second embodiment is introduced from the windbreak chamber 252 adjacent to the bathroom 230. If the mist is blown using the outside air when the outside air temperature decreases in winter, two problems arise due to the mist temperature being lowered. The first problem is a decrease in the temperature of the bathroom 230. This hinders the maintenance of room temperature at 45 ° C. The second point is an increase in steam components in the mist. Since the saturated water vapor amount decreases due to a decrease in temperature, the steam component increases.
 そこで、浴室230と同じ防水状態で隣接して浴室230への通路に風除け室252を設け、その扉254で区切る。このため、風除け室252内部は浴室230の室温に極めて近くなる。このため、ミストの温度の低下を最小限とすることができ、また不要な湯気成分を削減させることができる。 Therefore, a windbreak room 252 is provided in the passage to the bathroom 230 adjacent to each other in the same waterproof state as the bathroom 230, and is separated by the door 254. For this reason, the inside of the windbreak room 252 is very close to the room temperature of the bathroom 230. For this reason, the fall of the temperature of mist can be minimized and an unnecessary steam component can be reduced.
 図4に第3の実施形態における温泉ミスト吸引施設の上面図を示す。特に、加熱部234の詳細について説明する。 FIG. 4 shows a top view of the hot spring mist suction facility in the third embodiment. In particular, details of the heating unit 234 will be described.
 加熱部234は、湯沸器242と配管2342と配管2344から構成され、浴室230の底部に蛇腹状に配置される。湯沸器242に給水管2322とガス管2324が配設される。 The heating unit 234 includes a water heater 242, a pipe 2342 and a pipe 2344, and is arranged in a bellows shape at the bottom of the bathroom 230. A water supply pipe 2322 and a gas pipe 2324 are disposed in the water heater 242.
 また、図4に浴室230に隣接する風除け室252から導入管246で送風部248へ連結され、送風管250がミスト管228に連結される様子が示される。 FIG. 4 shows a state in which the windbreak chamber 252 adjacent to the bathroom 230 is connected to the blower 248 by the introduction pipe 246 and the blower pipe 250 is connected to the mist pipe 228.
 図5は、第3の実施形態の温泉ミスト吸引施設の縦断面図が示される。図5では、最下層にFRP板259、その上層にウレタン258が配置されて断熱される。ウレタン258の上層には鉄筋2352が格子状に配置される。配管2346と配管2342は、鉄筋2352に沿ってその上部に配置され、各格子点でバンセン2350で固定される。これらをいずれもコンクリートで全体を固定する。コンクリート床を生成後にその上に玉砂利層232を配置する。 FIG. 5 shows a longitudinal sectional view of the hot spring mist suction facility of the third embodiment. In FIG. 5, the FRP plate 259 is disposed in the lowermost layer, and the urethane 258 is disposed in the upper layer to insulate. Reinforcing bars 2352 are arranged in a lattice pattern on the upper layer of urethane 258. The pipe 2346 and the pipe 2342 are arranged on the upper part along the reinforcing bar 2352 and are fixed by the van bun 2350 at each lattice point. All of these are fixed with concrete. After producing the concrete floor, a gravel layer 232 is placed thereon.
 壁面については、最外層の内部にウレタン層244を設け、その内側にスタッド層249が設けられ、その内部に合板247が配置され、その内側にキッチンパネルが配置される。 As for the wall surface, the urethane layer 244 is provided inside the outermost layer, the stud layer 249 is provided inside thereof, the plywood 247 is arranged inside thereof, and the kitchen panel is arranged inside thereof.
 また、鉄筋2352と配管2354と2346,2348,2342,2344は、鉄筋2352が格子状に配置されるのに対して、配管は格子と同一に配置されるが1本の配管のみで配管するのではなく、複数の配管によって、格子状の配置を形成することがわかる。 In addition, the reinforcing bar 2352 and the pipes 2354, 2346, 2348, 2342, and 2344 are arranged in the same manner as the grid, while the reinforcing bars 2352 are arranged in a grid pattern, but the pipes are arranged with only one pipe. Instead, it can be seen that a plurality of pipes form a grid-like arrangement.
 (第4の実施形態)
 図7は、本発明に係る第7の実施形態の温泉ミスト吸引施設302の概略を示すブロック図を示したものである。
(Fourth embodiment)
FIG. 7 is a block diagram showing an outline of a hot spring mist suction facility 302 according to a seventh embodiment of the present invention.
 指示番号は、第3の実施形態と同一のものについては下二桁を同一の数値とし、同一のものについては説明を省略する。 For the same instruction numbers as those in the third embodiment, the last two digits are set to the same numerical value, and the description of the same numbers is omitted.
 第3の実施形態との違いは、ミネラルタンク304とミネラル供給部314とミスト発生部318とが、玉砂利層332内に埋め込まれている点である。先の実施の形態では、いずれもミネラルタンク304とミネラル供給部314とミスト発生部318が外部に配置され、冬季は温度の低下が見込まれている。そこで、ミネラルタンク304とミネラル供給部314とミスト発生部318を玉砂利層332内に配置することで、ミネラル溶液の温度低下を最小限にすることができる。 The difference from the third embodiment is that the mineral tank 304, the mineral supply unit 314, and the mist generating unit 318 are embedded in the gravel layer 332. In the previous embodiment, the mineral tank 304, the mineral supply unit 314, and the mist generation unit 318 are all arranged outside, and a decrease in temperature is expected in winter. Therefore, by arranging the mineral tank 304, the mineral supply unit 314, and the mist generating unit 318 in the gravel layer 332, the temperature drop of the mineral solution can be minimized.
 (第5の実施形態)
 図8は、本発明に係る第5の実施形態の温泉ミスト吸引施設402の概略を示すブロック図を示したものである。
(Fifth embodiment)
FIG. 8 is a block diagram showing an outline of a hot spring mist suction facility 402 according to the fifth embodiment of the present invention.
 指示番号は、第3の実施形態と同一のものについては下二桁を同一の数値とし、同一のものについては説明を省略する。 For the same instruction numbers as those in the third embodiment, the last two digits are set to the same numerical value, and the description of the same numbers is omitted.
 第5の実施形態との違いは、浴室430の開口端456の位置である。個の端部が浴室430の床近くに開口される。このため、顧客等はミネラルを含むミストを直接浴びることが可能となる。 The difference from the fifth embodiment is the position of the opening end 456 of the bathroom 430. One end is opened near the floor of the bathroom 430. For this reason, a customer etc. can take a mist containing a mineral directly.
 また、他の実施の形態として、浴室に防水型スピーカーを設け、アンプ、音楽メディア再生装置と連結し、音楽や実際の森林で録音された森林で発生するあらゆる音を再生することで浴室利用時のヒーリング効果を高めても良い。具体的には、聴覚によるヒーリング効果を高める事を目的にドイツのクナイプ療法を参考に浴室床に横たわりながら森林の音をライブで聴くことでさらなる効果を得ることができる。その結果、森林の音をライブで聴く森林浴によって、第一にストレスホルモンが減少する。さらに、副交感神経活動が高まる。また、交感神経活動が抑制される。その上、収縮期・拡張期血圧、脈拍数が低下する。加えて、心理的に緊張が緩和し活気が増すこととなる。続いて、NK活性が高まり免疫能が上がる。最後に、抗がんタンパク質が増加する。 As another embodiment, a waterproof speaker is provided in the bathroom, and connected to an amplifier and a music media playback device to play music or any sound generated in the forest that is recorded in the actual forest. The healing effect may be enhanced. Specifically, for the purpose of enhancing the healing effect by hearing, further effects can be obtained by listening to the sound of the forest live while lying on the bathroom floor with reference to German Kneipp therapy. As a result, stress hormones are reduced primarily by forest baths that listen to forest sounds live. In addition, parasympathetic activity is increased. In addition, sympathetic nerve activity is suppressed. In addition, systolic / diastolic blood pressure and pulse rate decrease. In addition, the psychological tension is eased and vitality is increased. Subsequently, NK activity increases and immunity increases. Finally, anticancer protein increases.
(第6の実施形態)
 図9は、本発明の第6の実施形態の温泉ミスト吸引施設502の側面図を示したものである。
(Sixth embodiment)
FIG. 9 shows a side view of a hot spring mist suction facility 502 according to the sixth embodiment of the present invention.
 温泉ミスト吸引施設502は、土台504の上で梁506を柱508が支える。土台504の上には、2段式排水口510に向けて傾斜させた断熱材512が打設される。断熱材512の上面は、防水加工された防水加工面(FRP)514が形成されており、2段式排水口510の中継ドレン516が設けられ、防水加工面(FRP)514で集められた排水は中継ドレン516に流れるように構成される。防水加工面(FRP)514の上側にさらに、混和剤とコンクリを混ぜた断熱材518が設けられる。断熱材518の上面には、図示されない鉄筋520が配設され、同じく図示されない配管522が設けられる。詳細は別途説明する。断熱材の利用により床から熱が逃げることを低減することができる。FRP防水と混和防水を組み合わせることで防水機能を高めることとなる。また、コンクリートのクラック対策にもなる。 In the hot spring mist suction facility 502, the pillar 508 supports the beam 506 on the base 504. On the base 504, a heat insulating material 512 inclined toward the two-stage drain port 510 is placed. On the upper surface of the heat insulating material 512, a waterproof processed surface (FRP) 514 is formed, a relay drain 516 of a two-stage drain port 510 is provided, and drainage collected by the waterproof processed surface (FRP) 514. Is configured to flow to the relay drain 516. A heat insulating material 518 in which an admixture and a concrete are mixed is further provided above the waterproof surface (FRP) 514. A rebar 520 (not shown) is provided on the upper surface of the heat insulating material 518, and a pipe 522 (not shown) is also provided. Details will be described separately. Use of heat insulating material can reduce the escape of heat from the floor. The waterproof function is enhanced by combining the FRP waterproofing and the mixed waterproofing. It also serves as a countermeasure against cracks in concrete.
 断熱材518、鉄筋520、配管522の上にさらに、コンクリ層524が打設される。コンクリ層は、7~10cm程度の厚みが好ましい。コンクリ層524の上面にも防水加工面(FRP)526が設けられ、2段式排水口510の上側ドレン528が設けられ、防水加工面(FRP)526で集められた排水が上側ドレン528に集水されて廃棄される。従って、防水加工面(FRP)526、コンクリ層524、鉄筋520、断熱材518および防水加工面(FRP)514はいずれも0.1%~5%、好ましくは0.5%~3%程度の傾斜を有している。この為、皮脂汚れなどを流すことが容易である。防水加工面(FRP)526の上に、機能性玉砂利530が、搭載されるがその上面はフラットとなるように搭載される。機能性玉砂利530の下に、すのこ又は金網を敷くことで皮脂汚れの流れをよくすることもできる。 A concrete layer 524 is further placed on the heat insulating material 518, the reinforcing bar 520, and the pipe 522. The thickness of the concrete layer is preferably about 7 to 10 cm. The top surface of the concrete layer 524 is also provided with a waterproof surface (FRP) 526, an upper drain 528 of the two-stage drainage port 510 is provided, and the drainage collected at the waterproof surface (FRP) 526 is collected in the upper drain 528. Discarded with water. Accordingly, the waterproof surface (FRP) 526, the concrete layer 524, the reinforcing bar 520, the heat insulating material 518, and the waterproof surface (FRP) 514 are all about 0.1% to 5%, preferably about 0.5% to 3%. Has an inclination. For this reason, it is easy to drain sebum dirt. Functional ball gravel 530 is mounted on a waterproof surface (FRP) 526, but the upper surface is mounted so as to be flat. It is also possible to improve the flow of sebum dirt by placing a saw or wire net under the functional ball gravel 530.
 温泉ミスト吸引施設502の壁面は、柱508より室内側に、断熱材532が設けられ、さらに、室内側に2枚のパネル534がその継目が互いに重ならぬように積層される。 The wall surface of the hot spring mist suction facility 502 is provided with a heat insulating material 532 on the indoor side from the pillar 508, and further, two panels 534 are laminated on the indoor side so that the joints do not overlap each other.
 2段式排水口510の上側の側壁に下段に温水ミスト機536が配設される。温水ミスト機536の直上には、高濃度ミネラル用ミスト機538が配設される。 A hot water mist machine 536 is disposed on the lower side of the upper side wall of the two-stage drain 510. A high concentration mineral mist machine 538 is disposed immediately above the hot water mist machine 536.
 温水ミスト機536は、温水を常時供給して供給する温水により温度を制御可能なミスト機である。室温を維持するため、高濃度ミネラル用ミスト機538より供給能力が高いことが好ましい。直接温水を供給することで室温の低下を防止することができる。また、温水を供給することが出来るので、メンテナンス用の水栓等と配管を共有可能である。また、高濃度ミネラルを使用しないので温水ミスト機の劣化を低減でき、メンテナンスの頻度も低減可能である。 The hot water mist machine 536 is a mist machine whose temperature can be controlled by hot water supplied and supplied constantly. In order to maintain room temperature, it is preferable that supply capability is higher than the high concentration mineral mist machine 538. By supplying hot water directly, a drop in room temperature can be prevented. Moreover, since hot water can be supplied, piping can be shared with a faucet for maintenance and the like. Moreover, since a high concentration mineral is not used, deterioration of a warm water mist machine can be reduced and the frequency of maintenance can also be reduced.
 高濃度ミネラル用ミスト機538は、常温ではあるが高濃度ミネラル専用のミスト機であり、適切な濃度に調整した高濃度ミネラル水を補給することで、常時高濃度ミネラル用ミストを発生する。高濃度ミネラル用ミスト機538を専用機とすることで、高濃度ミネラルによるミスト機の腐食や劣化に対しても温水ミスト機536に影響を与えることなく自由に調整と交換が可能である。 The high-concentration mineral mist machine 538 is a mist machine dedicated to high-concentration minerals at room temperature, and always generates high-concentration mineral mist by supplying high-concentration mineral water adjusted to an appropriate concentration. By using the high-concentration mineral mist machine 538 as a dedicated machine, the hot water mist machine 536 can be freely adjusted and replaced with respect to corrosion and deterioration of the mist machine due to the high-concentration mineral.
 これらのミスト機に対して、外部水源540から配管542を介してメンテナンス用水栓544と連結される。さらに、外部水源540は、配管546を介して、湯沸かし器548と連結される。この湯沸かし器548は、さらに配管550を通じてメンテナンス用湯栓552と温水ミスト機536に連結される。すなわち、湯沸かし器548一台でメンテナンス用湯栓552と温水ミスト機536に供給することができる。加えて外部水栓の他に高圧洗浄装置を設けてメンテナンスの効率を向上させてもよい。 These mist machines are connected to a maintenance faucet 544 from an external water source 540 through a pipe 542. Further, the external water source 540 is connected to a water heater 548 through a pipe 546. The water heater 548 is further connected to a maintenance hot water tap 552 and a hot water mist machine 536 through a pipe 550. That is, a single hot water heater 548 can supply the hot water bottle 552 for maintenance and the hot water mist machine 536. In addition to the external faucet, a high-pressure washing device may be provided to improve maintenance efficiency.
 二台のミスト機とは別の壁面に、給気用換気口554と排気用換気口556が、ミスト機より高い位置に、一定の間隔を設けて同一の高さに設けられる。給気用換気口554は外気を給気し、排気用換気口556は室内の空気を排気する。図示しないが、換気用のファンの目の電動機は換気口に連通するパイプ内に設けることで高濃度ミネラルによる劣化時に交換を容易にすることができる。換気用ファンは、給気と排気で独立に制御可能に構成することで、給排気時の温度低下を防ぐことが出来る。 The air supply vent 554 and the exhaust vent 556 are provided at the same height with a certain interval at a position higher than the mist machine on a wall surface different from the two mist machines. The air supply vent 554 supplies outside air, and the exhaust vent 556 exhausts indoor air. Although not shown in the drawings, the motor of the eyes of the fan for ventilation can be easily replaced when it is deteriorated by high-concentration minerals by providing it in a pipe communicating with the ventilation port. The ventilation fan can be controlled independently by supplying and exhausting air, thereby preventing a temperature drop during supply and exhaust.
 なお、給排気に代わって熱交換を行ってもよい。 It should be noted that heat exchange may be performed instead of supply and exhaust.
 天井558は、防水加工面(FRP)526と逆にミスト機と反対側に傾斜するように構成される。天井558の外面も防水加工された防水加工面560であり、その梁側にパネル562が設けられ、さらにパネル562の内側に断熱材564が設けられる。 The ceiling 558 is configured to be inclined to the opposite side to the mist machine, contrary to the waterproof surface (FRP) 526. The outer surface of the ceiling 558 is also a waterproof surface 560 that has been waterproofed. A panel 562 is provided on the beam side, and a heat insulating material 564 is provided inside the panel 562.
 続いて、詳細な構成について図10~図14を用いて説明する。図10、図11を用いて、床の構成について説明する。図10は、鉄筋520と配管522の構成を示しており、鉄筋520は、断熱剤518の上に格子状に配置される。この配管522は、玉砂利加熱用の配管であり、図示されない温水湯沸かし器と連結されて玉砂利を加熱する機能を有する。配管522は、蛇腹状に配置されており、但し、配管同士は互いに交差しないように配置される。このように配置させることで、温度維持のために必要最小限の配管とすることができる。このため、配管へ供給する温水を必要最低限度にすることができ、燃料コストの低減をはかることができる。 Subsequently, a detailed configuration will be described with reference to FIGS. The configuration of the floor will be described with reference to FIGS. 10 and 11. FIG. 10 shows a configuration of the reinforcing bar 520 and the pipe 522, and the reinforcing bar 520 is arranged on the heat insulating agent 518 in a lattice shape. The pipe 522 is a pipe for heating gravel, and has a function of heating the gravel by being connected to a hot water heater (not shown). The pipes 522 are arranged in a bellows shape, provided that the pipes do not intersect each other. By arranging in this way, the minimum necessary piping for maintaining the temperature can be obtained. For this reason, the hot water supplied to piping can be made into the minimum required level, and the fuel cost can be reduced.
 図11は、図10のAA”の断面図であり、配管522と鉄筋520が上下に配置されており、断熱材512の上に防水加工面(FRP)514が設けられ、さらに混和剤とコンクリを混ぜた断熱材518と鉄筋520が設けられ、さらに、コンクリ層524の中に配管522が配置される。その上層には防水加工面(FRP)526が設けられ、その上に機能性玉砂利530が配置される。 FIG. 11 is a cross-sectional view taken along the line AA ″ in FIG. 10, in which the pipe 522 and the reinforcing bar 520 are arranged above and below, a waterproof surface (FRP) 514 is provided on the heat insulating material 512, and the mixture with the admixture Is provided with a heat-insulating material 518 and a reinforcing bar 520, and a pipe 522 is disposed in the concrete layer 524. A waterproof surface (FRP) 526 is provided on the upper layer, and a functional gravel 530 is provided thereon. Is placed.
 図12は、温泉ミスト吸引施設502の上面図である。浴室501に隣接して風除室566が設けられている。浴室501には、一側面には高濃度ミネラル用ミスト機538が設けられ、その側面と異なる面に給気用換気口554と排気用換気口556が設けられている。給気用換気口554から給気された外気は、浴室501内を循環して矢印の通り、排気用換気口556から排気される。また、風除室566には、浴室501に連通する内部口568と、外部に連通する外部口570が設けられている。本実施の形態では、風除室に給排気を配管しない。風除室からの高濃度ミネラルミストの外部への放出や結露を防ぐことが出来る。 FIG. 12 is a top view of the hot spring mist suction facility 502. A windbreak room 566 is provided adjacent to the bathroom 501. The bathroom 501 is provided with a high-concentration mineral mist machine 538 on one side, and an air supply vent 554 and an exhaust vent 556 on a different side. The outside air supplied from the air supply vent 554 circulates in the bathroom 501 and is exhausted from the exhaust vent 556 as indicated by the arrow. In the windbreak room 566, an internal port 568 that communicates with the bathroom 501 and an external port 570 that communicates with the outside are provided. In the present embodiment, no air supply / exhaust pipe is provided in the windbreak chamber. Release of high-concentration mineral mist from the windbreak room and condensation can be prevented.
 図13は、温泉ミスト吸引施設502の上面図である。特に玉砂利と仕切りについて示した図である。 FIG. 13 is a top view of the hot spring mist suction facility 502. It is the figure shown especially about the gravel and the partition.
 玉砂利に対して一人分のスペースを明確にさせるために、板などの仕切り572を設けることで顧客スペースを明確化することができる。さらに、その仕切り572で区切ることで複数種類の玉砂利574,576を配置させて、顧客の好みに応じた玉砂利を配置することもできる。機能性玉砂利として、とるマリン、薬石、ラジウムボールを採用することもできる。さらに、仕切りの上に格子などのパネル578を設けることでより個人の空間を明確にすることもできる。仕切りにはガラス塗料を塗装することで劣化対策をとることができる。仕切るスペースは、1.8平米程度の個人用や、3.3平米程度の二人用さらに7平米程度の家族用などにわけることもできる。 In order to clarify the space for one person for the gravel, the customer space can be clarified by providing a partition 572 such as a plate. Furthermore, by dividing by the partition 572, a plurality of types of gravel 574, 576 can be arranged, and the gravel according to the customer's preference can be arranged. Marine marine, medicinal stones, and radium balls can be used as functional gravel. Furthermore, the personal space can be made clearer by providing a panel 578 such as a lattice on the partition. Degradation measures can be taken by painting the partition with glass paint. The partitioning space can be divided into personal use of about 1.8 square meters, two people of about 3.3 square meters, and family of about 7 square meters.
 図14は、2段式排水口510の断面図である。2段式排水口510は、中継ドレン516と、上側ドレン528とから構成される。中継ドレン516は、中央に上側ドレン528の落とし口580が挿入され、その周りに複数の中継排水孔582の開口するドーナツ状の中継ドレンキャップ584が設けられる。中継ドレンキャップ584の下に中継排水口586が設けられ、中継排水口586の下部に中継落とし口588が開口して下水口へ連通する。中継ドレンキャップ584のレベルは、防水加工面(FRP)514と一致する。 FIG. 14 is a cross-sectional view of the two-stage drain port 510. The two-stage drain port 510 includes a relay drain 516 and an upper drain 528. The relay drain 516 has a drop port 580 of the upper drain 528 inserted in the center, and a donut-shaped relay drain cap 584 in which a plurality of relay drain holes 582 are opened. A relay drain port 586 is provided below the relay drain cap 584, and a relay drop port 588 is opened below the relay drain port 586 to communicate with the sewer port. The level of the relay drain cap 584 matches the waterproof surface (FRP) 514.
 上側ドレン528は、複数の上側排水孔590の開口する円形の上側ドレンキャップ592が設けられ、この上側ドレンキャップ592下に上側排水口594が設けられる。この上側排水口594の中央に中継ドレン516に連結される落とし口580が設けられる。上側ドレンキャップ592のレベルは、防水加工面(FRP)526と一致する。防水層を二段とすることで、断熱層で発生する結露対策と成る。 The upper drain 528 is provided with a circular upper drain cap 592 in which a plurality of upper drain holes 590 are opened, and an upper drain port 594 is provided below the upper drain cap 592. A drop port 580 connected to the relay drain 516 is provided at the center of the upper drain port 594. The level of the upper drain cap 592 matches the waterproof surface (FRP) 526. By forming the waterproof layer in two stages, it becomes a countermeasure against condensation that occurs in the heat insulating layer.
 以上の構成において、実施の形態6の動作について説明する。浴室501は、機能性玉砂利530を配管522内を循環する温水によって加熱する。 The operation of the sixth embodiment will be described with the above configuration. The bathroom 501 heats the functional gravel 530 with hot water circulating in the pipe 522.
 一方、温水ミスト機536の発生するミストも温水から生成させることで浴室501内を加熱する。他方、高濃度ミネラル用ミスト機538から、高濃度のミネラルを含んだ常温の高濃度ミネラル用ミストを発生させる。高濃度ミネラル用ミスト機538が、温水ミスト機536の上に配置されることから、温水ミスト機536で発生した温水ミストと高濃度ミネラル用ミストが混合して室内に充満する。このようにすることで、高濃度ミネラル用ミスト機538に温水を直接供給することなく、室温を上昇させることが出来るので冬季に外気温が低下しても室内の温度を下げることなく高濃度ミネラル用ミストを供給することができる。また、高濃度ミネラル用ミスト機538と温水ミスト機536を別にすることで、ミスト機の負荷が軽減され、メンテナンスの負荷もさげることができる。 On the other hand, the mist generated by the hot water mist machine 536 is also generated from the hot water to heat the inside of the bathroom 501. On the other hand, the high concentration mineral mist containing the high concentration mineral is generated from the high concentration mineral mist machine 538. Since the high-concentration mineral mist machine 538 is disposed on the hot water mist machine 536, the hot water mist generated by the hot water mist machine 536 and the high-concentration mineral mist are mixed and filled in the room. By doing this, the room temperature can be raised without supplying hot water directly to the high concentration mineral mist machine 538, so even if the outside temperature falls in the winter, the high concentration mineral does not decrease. Mist can be supplied. Further, by separating the high-concentration mineral mist machine 538 and the hot water mist machine 536, the load on the mist machine can be reduced and the maintenance load can be reduced.
 なお、室温や湿度が上昇した場合に給気用換気口554と排気用換気口556で換気することで、室温や湿度を下げることができる。 In addition, when the room temperature and humidity rise, the room temperature and humidity can be lowered by ventilating with the air supply vent 554 and the exhaust vent 556.
2 温泉ミスト吸引施設
4 ミネラルタンク
6 配管
8 水栓
10 開口部
12 連結管
14 ミネラル供給部
16 連結管
18 ミスト発生部
20 ミネラル溶液漕
22 フロートスイッチ
24 信号線
26 振動子
28 ミスト管
30 浴室
32 玉砂利層
34 加熱部
36 水栓
38 温度センサ
40 配線
42 加熱源部
44 連結部
102 温泉ミスト吸引施設
104 ミネラルタンク
114 ミネラル供給部
118 ミスト発生部
128 ミスト管
129 開口端
130 浴室
146 導入管
148 送風部
150 送風管
202 温泉ミスト吸引施設
228 ミスト管
230 浴室
232 玉砂利層
234 加熱部
242 湯沸器
246 導入管
244 ウレタン層
249 スタッド層
247 合板
248 送風部
250 送風管
252 風除け室
254 扉
259 FRP板
258 ウレタン
2342 配管
2344 配管
2322 給水管
2324 ガス管
2342 配管
2346 配管
2348 配管
2350 バンセン
2352 鉄筋
2354 配管
302 温泉ミスト吸引施設
304 ミネラルタンク
314 ミネラル供給部
318 ミスト発生部
332 玉砂利層
402 温泉ミスト吸引施設
430 浴室
456 開口端
501 浴室
502 温泉ミスト吸引施設
504 土台
506 梁
508 柱
510 2段式排水口
512 断熱材
514 防水加工面(FRP)
516 中継ドレン
518 断熱材
520 鉄筋
522 配管
524 コンクリ層
526 防水加工面(FRP)
528 上側ドレン
530 機能性玉砂利
532 断熱材
534 パネル
536 温水ミスト機
538 高濃度ミネラル用ミスト機
540 外部水源
542 配管
544 メンテナンス用水栓
546 配管
548 湯沸かし器
550 配管
552 メンテナンス用湯栓
554 給気用換気口
556 排気用換気口
558 天井
560 防水加工面
562 パネル
564 断熱材
566 風除室
568 内部口
570 外部口
572 仕切り
574,576 玉砂利
578 パネル
580 落とし口
582 中継排水孔
584 中継ドレンキャップ
586 中継排水口
588 中継落とし口
590 上側排水孔
592 上側ドレンキャップ
594 上側排水口
2 Hot spring mist suction facility 4 Mineral tank 6 Piping 8 Water faucet 10 Opening portion 12 Connecting tube 14 Mineral supply portion 16 Connecting tube 18 Mist generating portion 20 Mineral solution tank 22 Float switch 24 Signal line 26 Vibrator 28 Mist tube 30 Bathroom 32 Gravel Layer 34 Heating part 36 Water faucet 38 Temperature sensor 40 Wiring 42 Heating source part 44 Connection part 102 Hot spring mist suction facility 104 Mineral tank 114 Mineral supply part 118 Mist generating part 128 Mist pipe 129 Open end 130 Bathroom 146 Introducing pipe 148 Blower part 150 Blow pipe 202 Hot spring mist suction facility 228 Mist pipe 230 Bathroom 232 Gravel layer 234 Heating part 242 Water heater 246 Introducing pipe 244 Stud layer 247 Plywood 248 Blowing part 250 Blowing pipe 252 Windbreak room 254 Door 259 FRP board 258 Urethane 2 42 Piping 2344 Piping 2322 Water Supply Pipe 2324 Gas Pipe 2342 Piping 2346 Piping 2348 Piping 2350 Bangsen 2352 Reinforcing Bar 2354 Piping 302 Hot Spring Mist Suction Facility 304 Mineral Tank 314 Mineral Supply Unit 318 Mist Generation Unit 332 Tamasari Formation 402 Hot Spring Mist Suction Facility 430 Bathroom 456 Opening Edge 501 Bathroom 502 Hot spring mist suction facility 504 Base 506 Beam 508 Column 510 Two-stage drain 512 Thermal insulation 514 Waterproof surface (FRP)
516 Relay drain 518 Heat insulating material 520 Reinforcing bar 522 Piping 524 Concrete layer 526 Waterproof surface (FRP)
528 Upper Drain 530 Functional Gravel 532 Thermal Insulation Material 534 Panel 536 Hot Water Mist Machine 538 High Concentration Mineral Mist Machine 540 External Water Source 542 Pipe 544 Maintenance Tap 546 Pipe 548 Water Heater 550 Pipe 552 Maintenance Tap 554 Supply Ventilation Port 556 Exhaust vent 558 Ceiling 560 Waterproof surface 562 Panel 564 Insulation material 566 Ventilation chamber 568 Internal port 570 External port 572 Partition 574, 576 Gravel 578 Panel 580 Drop port 582 Relay drain hole 584 Relay drain cap 586 Relay drain port 588 Relay Drop port 590 Upper drain hole 592 Upper drain cap 594 Upper drain hole

Claims (12)

  1.  ミネラル溶液をミスト化するミネラルミスト発生部と、加熱部と加熱部に加熱される玉砂利層とを備える浴室を備える温泉ミスト吸引施設であって、
     ミネラル溶液をミネラルを含んでミスト化したミストとして浴室上部から浴室内に投入し、浴室内の玉砂利層を湿潤させた上で加熱部により加熱することで、ミネラル入りのミスト雰囲気を一定の温度と一定の湿度に維持する温泉ミスト吸引施設。
    It is a hot spring mist suction facility comprising a bathroom comprising a mineral mist generating part that mists a mineral solution, a heating part and a gravel layer heated by the heating part,
    By putting the mineral solution into the bathroom from the upper part of the bathroom as a mist containing a mineral, the wet gravel layer in the bathroom is moistened and heated by the heating unit, so that the mist atmosphere containing mineral is kept at a constant temperature. A hot spring mist suction facility that maintains a constant humidity.
  2.  ミネラル溶液を生成するミネラルタンクと、ミネラル溶液を移送するミネラル供給部と、移送されたミネラル溶液をミスト化するミスト発生部とを備える請求項1記載の温泉ミスト吸引施設。 The hot spring mist suction facility according to claim 1, comprising a mineral tank that produces a mineral solution, a mineral supply unit that transfers the mineral solution, and a mist generating unit that mists the transferred mineral solution.
  3.  ミネラル供給部を浴室上部に配置することでミストを浴室上部から供給する請求項2記載の温泉ミスト吸引施設。 The hot spring mist suction facility according to claim 2, wherein the mist is supplied from the upper part of the bathroom by arranging the mineral supply part at the upper part of the bathroom.
  4.  ミストを送付部により浴室内に供給することを特徴とする請求項2記載の温泉ミスト吸引施設。 3. The hot spring mist suction facility according to claim 2, wherein the mist is supplied into the bathroom by the sending section.
  5.  ミストを浴室内の空気を送付部により浴室内に供給することを特徴とする請求項2記載の温泉ミスト吸引施設。 The hot spring mist suction facility according to claim 2, wherein air in the bathroom is supplied into the bathroom by a sending section.
  6.  ミネラル溶液を生成するミネラルタンクを加熱部であらかじめ加熱することを特徴とする請求項2記載の温泉ミスト吸引施設。 3. The hot spring mist suction facility according to claim 2, wherein a mineral tank for generating a mineral solution is heated in advance by a heating unit.
  7.  浴室内のミスト放出口を、浴室内の床近傍とすることを特徴とする請求項2記載の温泉ミスト吸引施設。 3. The hot spring mist suction facility according to claim 2, wherein the mist discharge port in the bathroom is located near the floor in the bathroom.
  8.  温水が供給されて温水をミスト化する温水ミスト発生部をさらに備える請求項1記載の温泉ミスト吸引施設。 The hot spring mist suction facility according to claim 1, further comprising a hot water mist generating unit that supplies hot water to mist the hot water.
  9.  温水ミスト発生部をミネラルミスト発生部の下に配置して温水ミスト発生部の発生する温水ミストとミネラルミスト発生部の発生するミネラルミストを空中で混合させる請求項8記載の温泉ミスト吸引施設。 The hot spring mist suction facility according to claim 8, wherein the hot water mist generating part is arranged below the mineral mist generating part, and the hot water mist generated by the hot water mist generating part and the mineral mist generated by the mineral mist generating part are mixed in the air.
  10.  浴室内部に給気用換気口と排気用換気口をさらに備える請求項9記載の温泉ミスト吸引施設。 10. The hot spring mist suction facility according to claim 9, further comprising an air supply vent and an exhaust vent in the bathroom.
  11.  浴室内の防水加工面を玉砂利の直下に第一の防水加工面を設け、加熱部の下に第二の防水加工面を設ける請求項10記載の温泉ミスト吸引施設。 11. The hot spring mist suction facility according to claim 10, wherein the waterproof surface in the bathroom is provided with a first waterproof surface directly below the gravel and a second waterproof surface is provided under the heating unit.
  12.  第一の防水加工面に第一のドレンを連結させ、第二の防水加工面に第二のドレンを連結させる請求項11記載の温泉ミスト吸引施設。 The hot spring mist suction facility according to claim 11, wherein the first drain is connected to the first waterproof surface and the second drain is connected to the second waterproof surface.
PCT/JP2014/075742 2013-09-27 2014-09-26 Hot spring mist suction facility WO2015046474A1 (en)

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JP5908640B1 (en) * 2015-07-06 2016-04-26 株式会社エクスプロア Shower equipment
CN110613604A (en) * 2019-09-25 2019-12-27 汕头大学医学院第一附属医院 Otolaryngology branch of academic or vocational study is with rhinitis nursing treatment medicine device of fumigating
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