JPH06327741A - Perspiration action accelerating device - Google Patents

Abstract

PURPOSE:To provide a perspiration action accelerating device extremely low in price and without necessitating any special facility capable of easily enjoying it even at general home or the like. CONSTITUTION:A heater 27 being a heating means to heat the inside of a room is provided in an exterior casing 1. Then, an ultra-fine water drop discharging device and the heater 27 are operated in the comparatively narrow room resistant to humidity, and when the temperature in a bathroom rises about 37-50 deg.C a little higher than the temperature of a human body by the heater 27, satisfactory perspiration action can be obtained by the action of ultra-fine water drop.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for promoting perspiration.

[0002]

2. Description of the Related Art A sauna bath is known as an example of a conventional apparatus for promoting perspiration. It is said that this sauna bath has various effects by promoting the sweating action of a person who enters the room by the action of heat.

[0003]

However, since the sauna bath sweats only by the action of heat, it is necessary to keep the room at a considerably high temperature, about 90 ° C to 110 ° C, in order to keep the room at such a high temperature. Requires a facility with a very high heat insulation effect and a heating means capable of heating to a high temperature. However, such equipment and heating means are very expensive, and thus there is a problem that it is difficult to enjoy a sauna bath casually at home.

In view of the above-mentioned conventional circumstances, the present invention is extremely inexpensive because it does not require equipment having a high heat insulating effect or heating means capable of heating to a high temperature, and it promotes a sweating action which can be easily enjoyed by ordinary households and the like. The purpose is to provide a device.

[0005]

In order to achieve the above object, the present invention provides a tubular air-water contact portion and a tubular air-water separator connected via a ventilation portion in a lower region of the air-water contact portion. A part, a jetting means for jetting water in the steam-water contact portion to form an infinite number of fine water droplets, and a means for sending air so as to spirally descend from above into the steam-water contact portion, An ultra-fine water droplet discharging mechanism that discharges ultra-fine water droplets by spirally ascending in the air-water separating portion by sending air that has passed the fine water droplets from the water-water contact portion to the air-water separating portion through the ventilation portion. A heating and heating means for heating the room is provided on the outer surface side of the mechanism main body.

Further, in order to achieve the above object, the present invention provides a tubular air / water contact portion, a tubular air / water separation portion communicated via a ventilation portion in a lower region of the air / water contact portion, and a water / water separator. Has a spraying means for spraying in the air-water contact portion to form innumerable fine water droplets, and means for sending air from above so as to spirally descend into the steam-water contact portion, and the steam-water contact portion The air that has passed through the fine water droplets is sent from the air / water separating portion to the air / water separating portion, and an ultrafine water droplet discharging mechanism for spirally ascending in the air / water separating portion to discharge the ultrafine water droplets is provided. The water contact portion and the water separation portion are erected above the water tank, the injection means is configured to inject water in the water tank, and the water tank is provided with heating means for heating the stored water. It has a feature.

Further, in order to achieve the above-mentioned object, the present invention comprises a tubular air-water contact portion and a tubular air-water separation portion which is in communication with a lower region of the air-water contact portion through a ventilation portion,
The air-water contact portion has an injection means for injecting water into the water-water contact portion to form an infinite number of fine water droplets, and a means for sending air from above so as to spirally descend into the water-water contact portion. The air that has passed the fine water droplets from the portion is sent to the air-water separation portion through the ventilation portion, and an ultra-fine water droplet discharge mechanism that spirally raises the air-water separation portion to discharge the ultra-fine water droplets is provided. The jetting means comprises a jetting nozzle provided in the steam contact part and a pump for sending water to the nozzle through a water pipe, and is covered with a heating means for heating the water jetted through the water pipe. Is characterized by.

Further, in order to achieve the above object, the present invention comprises a tubular air / water contact portion and a tubular air / water separation portion communicated via a ventilation portion in a lower region of the air / water contact portion,
The air-water contact portion has an injection means for injecting water into the water-water contact portion to form an infinite number of fine water droplets, and a means for sending air from above so as to spirally descend into the water-water contact portion. The air that has passed the fine water droplets from the portion is sent to the air-water separation portion through the ventilation portion, and an ultra-fine water droplet discharge mechanism that spirally raises the air-water separation portion to discharge the ultra-fine water droplets is provided. It is characterized in that the jetting means is provided with a jetting nozzle provided in the steam contact portion and a pump for drawing hot water from outside the mechanism main body and sending it to the nozzle.

Further, in order to achieve the above object, the present invention is characterized in that the pump pumps up hot water in the bathtub outside the main body of the ultrafine water droplet discharge mechanism and sends it to the nozzle.

Further, in order to achieve the above-mentioned object, the present invention comprises a tubular air / water contact portion and a tubular air / water separation portion communicated via a ventilation portion in a lower region of the air / water contact portion,
The air-water contact portion has an injection means for injecting water into the water-water contact portion to form an infinite number of fine water droplets, and a means for sending air from above so as to spirally descend into the water-water contact portion. An ultra-fine water droplet discharging mechanism that discharges ultra-fine water droplets from a discharge port by sending air that has passed fine water droplets from the portion to the air-water separating portion through the ventilation portion and spirally rising in the air-water separating portion. It is characterized in that a heating means for heating the ultra-fine water droplets is provided between the air / water separator and the outlet.

[0011]

According to the above construction, the tubular air / water contact portion and the tubular air / water separating portion communicated with each other through the ventilation portion in the lower region of the air / water contact portion, and water in the air / water contact portion. Injecting means for injecting to form innumerable fine water droplets, and means for sending air from above so as to spirally descend into the water-water contact portion, and air that has passed the fine water droplets from the water-water contact portion. An ultrafine water droplet discharging mechanism for discharging ultrafine water droplets by spirally ascending in the air / water separating portion via the aeration portion and discharging the air / water separating portion is provided. This ultra-fine water droplet discharge mechanism is It has been found that a large amount of negative ions, which are considered to be healthy, are generated along with ultra-fine water droplets of a few microns. And since heating and heating means for heating the room is provided on the outer surface side of the main body of the ultra-fine water droplet discharging mechanism,
The number of people in the room is 0. Ultra fine water droplets of a few microns enter the body to stimulate cells and promote sweating in cooperation with the heating of the heating and heating means. Therefore, the temperature in the room should be about 35 degrees Celsius to 5 degrees higher than the human body temperature.
At a low temperature of 0 ° C, a sweating effect similar to a sauna bath can be obtained.

[0012]

Embodiments of the present invention will be described below with reference to the accompanying drawings. FIG. 1 is a perspective view showing an embodiment of a perspiration action promoting device having a built-in ultrafine water droplet discharging mechanism. First, the ultrafine water droplet discharging mechanism will be described in detail. In FIG. 1, reference numeral 1 is an exterior casing of the perspiration promoting device, and a narrow vertically long portion on the left side of the front side of the exterior casing 1 is configured as an opening / closing cover 2. A casing 3 of an ultrafine water droplet discharging mechanism made of plastic or the like is provided in the exterior casing 1, and the casing 3 is provided at a portion corresponding to the opening / closing cover 2, that is, a portion that appears when the opening / closing cover 2 is opened. A recess 4 is formed in which the tank 6 can be set. A water supply port 5 for a water tank 7, which will be described later, is formed below the recess 4.

In FIG. 2, a water tank 7 having a rectangular cross section is provided in the casing 3 of the ultrafine water droplet discharging mechanism. On the water tank 7, a cyclone pipe 8 as a steam contact portion is provided. And a water / water separation pipe 9 as a water / water separation unit is erected in parallel. Therefore, on the water tank 7, the recess 4, the cyclone pipe 8 and the steam separating pipe 9 are sequentially arranged from the left side of FIG. The water tank 7 is provided with a lid 10 at a portion where the cyclone pipe 8 and the water / water separation pipe 9 are arranged, and the lid 10 is fixed to the casing 3. A guide hole is formed in the lid portion 10, and the cyclone pipe 8 and the steam separation pipe 9 are fitted in the guide hole. The flange portions of the cyclone pipe 8 and the water / water separation pipe 9 are fixed to the lid 10 with screws or the like, so that the cyclone pipe 8 and the water / water separation pipe 9 are supported by the casing 3.

An air supply port 11 is provided above the cyclone pipe 8, and an exhaust port 12 is provided above the steam separation pipe 9. Further, the bottoms of the cyclone pipe 8 and the steam separation pipe 9 are both open, and the lower ends thereof reach near the bottom of the water tank 7. Further, as shown in FIG. 3, the cyclone pipe 8 and the steam separation pipe 9 are communicated with each other through a conduit 13 as a ventilation portion provided at a position slightly above the lid portion 10 of the water tank 7. In the cyclone pipe 8, a water distribution pipe 14 connected to a pump 17 for pumping up the water in the water tank 7 is erected in the axial direction so as to pass through substantially the center of the water distribution pipe 14. , And a scattering plate 16 arranged so as to oppose the jetting direction of the nozzle 15. In this case, since the nozzle 15 jets water downward, the scattering plate 16 paired with this is arranged below the nozzle 15,
In this embodiment, two pairs of nozzles 15 and scatter plates 16 are provided. A water amount sensor (not shown) is provided in the water tank 7.
In this embodiment, three sensors are provided for detecting two thirds and one third of the water level when the water tank 7 is full. Then, one-third when the water tank 7 is full is set as the minimum amount of water, and a sensor that detects this one-third also serves as a detection unit that detects the presence or absence of water supply. 3 when this is full
The minimum amount of water, which is one-third, is the amount of water that enters into the pumped water of the pump 17 if the amount of water is less than this and the operation is insufficient, and the ultra-fine water droplet discharge mechanism of this example uses this 3
It can be operated only when the sensor for detecting one-half is turned on.

The air supply port 11 is connected in the tangential direction of the cyclone pipe 8, and is connected to the air supply port 11 through a duct 18 and a fan 18 for feeding air. The air supply port 11, the duct 19 and the fan 18 constitute a means for sending the air of this embodiment from above the cyclone pipe 8 so as to descend in a spiral shape. Further, since the conduit 13 is also connected from the tangential direction of the cyclone pipe 8 to the tangential direction of the steam / water separation pipe 9, the air sent from the cyclone pipe 8 to the steam / water separation pipe 9 via the conduit 13 has a spiral shape. And is exhausted from the exhaust port 12.

A drainage port 20 connected to a drainage pump 21 is formed at the lowermost position of the bottom of the water tank 7, and a tip of a drainage pipe (not shown) connected to the drainage pump 21 has the above-mentioned recessed portion. It is located above the upper opening 6a of the tank 6 which is set to 4.

The operation of the ultrafine water droplet discharging mechanism thus constructed will be described. First of all, I will explain about the flow of air.
As shown in FIG. 1, a ventilation part 22 for taking in outside air is formed in the lower part of the opening / closing cover 2, and the air entering the ventilation part 22 is shown in FIG. 4 from a side groove 23 formed in the left side part of the casing 3. It is sucked into the suction port 24 of the fan 18. The air blown from the fan 18 is sent to the upper portion of the cyclone pipe 8 via the duct 19. The duct 19 is made of rigid plastic or the like, but by incorporating the bellows 25 in its proper place, the vibration of the fan 18 can be alleviated and the outer casing 1 can be prevented from vibrating.

Since the air blown by the fan 18 is sent in the tangential direction of the cyclone tube 8, it descends in a spiral shape, and the air / water separation pipe is connected from the conduit 13 connected so that the air flow smoothly flows without being obstructed. Sent to 9. The air sent into the water / water separation pipe 9 is also sent in from the tangential direction, so that it rises spirally and is discharged from the exhaust port 12. This exhaust flow is exhausted from an exhaust unit 26 provided on the front surface of the outer casing 1 through a duct (not shown).

Next, the flow of water will be described. The water tank 7
The water at the minimum predetermined water level or higher is stored therein, and when the pump 17 is operated here, the water in the water tank 7 is pumped up to the water distribution pipe 14. The water distribution pipe 14 is provided with two pairs of nozzles 15 and a splatter plate 16. The water sprayed from each nozzle hits the splatter plate 16 and scatters in all directions to break up, and further bounces inside the cyclone pipe 8. Crush on the wall. Therefore, the inside of the cyclone pipe 8 is filled with very fine and innumerable crushed water. The air supply port 1
The air flow sent into the cyclone pipe 8 via 2 spirally drops, and particles such as dust, dust, and cigarette smoke contained in the air flow adhere to the air flow, and heavy ones fall into the water tank 7. Even if water droplets are attached, those that are relatively light are sent to the air / water separation pipe 9 via the conduit 13, and when they are spirally raised, the particles to which water is attached due to centrifugal force are separated. It adheres to the inner wall of 9 and falls into the water tank 7. At this time,
From the exhaust port 12, 0. Ultra fine water droplets of a few microns or less are exhausted, and dust and bacteria in the air beyond that are discharged into the water tank 7.
It is dropped and removed. Therefore, if the discharged ultrafine particles are adjusted to 0.3 micron or less by the blown air force of the fan 18 or the like, the air will be purified.
It is possible to sterilize and deodorize well. Furthermore, a large amount of negative ions, which are said to be good for health, are discharged from the ultrafine water droplet discharge mechanism.

Thus, the ultra-fine water droplet discharging mechanism has a capacity of 0. Ultra-fine water droplets of a few microns or less and negative ions can be exhausted. Therefore, as shown in FIG. 1, the sweating action promoting apparatus is provided with a heater device 27 for heating as heating and heating means for heating the interior of the exterior casing 1. As shown in FIG. 5, the heater device 27 includes a heat shield plate 28 fitted in a cutout portion formed in the outer casing 1, a heat generating element 29 such as a sheath heater, a quartz heater, a halogen heater, and the like. The heating element 29 has a reflector 30 provided on the back side of the body 29, and the heating element 29 is made of a ceramic as shown in FIGS.
Supported by.

The perspiration promoting apparatus thus constructed is installed in a room which is relatively narrow and resistant to humidity, such as a bathroom for home use, and has an ultrafine water droplet discharging mechanism and a heater device 27.
And activate. Then, when the heater device 27 heats the temperature in the bathroom to, for example, about human body temperature or about 35 ° C. to 50 ° C., which is slightly higher than that of the human body, the action of the ultra-fine water droplets causes the sweat to be as good as a sauna at 100 ° C. It was found that the action was obtained.

Although it has not been scientifically elucidated that a good sweating action can be obtained even at a relatively low temperature, the mechanism is presumed as follows. First, when the temperature in the room reaches 35 ° C to 50 ° C, the sweating action by the temperature control in the human body is promoted,
Also, 0. Ultra-fine water droplets of a few microns or less penetrate into cells through human skin and lungs. Therefore, it is considered that the ultrafine water droplets stimulate human cells to greatly promote the above-mentioned sweating action. Negative ions are also said to enhance metabolism, and are thought to contribute to the promotion of sweating action to some extent.

Thus, a good perspiration effect can be obtained only by making the room temperature about 35 ° C. to 50 ° C., so that a special room such as a sauna bath is not required, and it is resistant to humidity, for example, a bathroom. Etc. can be used. In addition, since the ultra-fine water droplets filling the room are not steam like in a steam bath, they are very comfortable because they have a dry feel.
Furthermore, if it is used in a relatively small room, the room temperature should be 35
No large heating means is required for heating to about 50 ° C to 50 ° C.

FIG. 7 is a sectional view showing another embodiment of the present invention, in which the water stored in the water tank 7 is provided without providing the heater device 27 of the outer casing 1 which is not shown in the present embodiment. A heating element 31 is provided as a heating means for heating the. As the heating element 31, it is preferable to use a sheath heater, a cord heater or the like.

The perspiration promoting device thus constructed is installed in the bathroom, and the heating element 31 heats the water in the water tank 7 to about 50 ° C. to use it, so that the warm air of ultra-fine water droplets is discharged from the exhaust part 26. To be done. Then, due to the action of the temperature and the ultra-fine water droplets, a good sweating action similar to that of the above-mentioned embodiment can be obtained.

FIG. 8 is a sectional view showing still another embodiment of the present invention. In this embodiment, the heating element 31 of the above embodiment is used.
Instead of the
A heater 32 as a heating means is coated on the water distribution pipe 14 between them. And the water pipe 1 by the heater 32
It is configured to warm the water jetted through the nozzle 4. As the heater 32, a ceramic heater may be used as shown in FIG. As a heating means, FIG.
As shown in 0, an iron pipe may be used as the water distribution pipe 14, and the coil 32a may be wound around the water distribution pipe 14 to heat it by induction heating. Further, although not shown, electromagnetic heating can be used as the heating means.

The perspiration promoting device thus constructed is installed in the bathroom and the water sprayed by the heater 32 is warmed,
Warm air of ultra-fine water droplets is discharged from the exhaust unit 26. Then, due to the action of the temperature and the ultra-fine water droplets, a good sweating action similar to that of the above-mentioned embodiment can be obtained.

FIG. 11 is a sectional view showing still another embodiment of the present invention. In this embodiment, the perspiration promoting device is not provided with a heating means such as a heater, and hot water such as the bath 3 is used.
It is configured to use the hot water of No. 5. In this case, the hose 33 is attached to the suction port of the pump 17, the tank 6 and the drainage pump 21 are unnecessary, and the drainage hose 34 is attached to the drainage port of the water tank 7. In addition,
Reference numeral 35a is a bath kettle.

The perspiration promoting apparatus having the above structure is provided in the bathtub 35.
The hot air of ultra-fine water droplets is discharged from the exhaust part 26 by making the water of 40 degreeC-50 degreeC warm water, and circulating and using the warm water. Then, due to the temperature and the ultra-fine water droplets, a good sweating action similar to that in the above-described embodiment can be obtained. Moreover, it is inexpensive because no heating means such as a heater is provided. In this example, the hot water stored in an appropriate container may be circulated without using the bath 35. In addition, the perspiration promoting device is provided with the tank 6 and the drainage pump 21, and the hose 33 and the drainage hose 34 are equipped with a switching valve and the like, and when used as a sauna, the hose 33 and the drainage hose 34 are used and used as an air purifier. When doing so, the tank 6 and the drainage pump 21 may be used.

12 and 13 are perspective views showing still another embodiment of the present invention. In this embodiment, an exhaust passage 37 between the exhaust port 12 and the exhaust portion 26 of the steam separator 9 is shown. Further, a heating element 36 is provided as a heating means for warming the ultra-fine water droplets. As the heating element 36, nichrome, sheath heater, ceramic heater, PTC heater or the like is preferably used.

The perspiration promoting apparatus thus constructed is installed in the bathroom, and the super-fine water droplets are heated by the heating element 36 and then discharged from the exhaust portion 26. A perspiration effect is obtained.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited to the above embodiments and various modifications can be made. For example, the five examples above
Since the heating means are provided at different positions, it is possible to pick up any two or more embodiments and combine them. In particular, in a perspiration promoting apparatus that uses hot water, for example, hot water in a bath without providing heating means such as the heater of the embodiment shown in FIG. 11, by adding the heating means or heating / heating means of other embodiments, Since the desired temperature can be quickly maintained in the room and the temperature can be maintained, it is extremely advantageous.

By the way, the ultra-fine water droplet discharge mechanism is capable of favorably purifying, sterilizing and deodorizing air.
It can also be used as an air purifier. Therefore, when it is used as an air cleaner, it is not necessary to operate the heating means, but in the winter or the like, the cold air of ultra-fine water droplets is discharged.

Therefore, in the case of the embodiment shown in FIG. 7, FIG. 12 and FIG. 13, when used as an air cleaner, the heating means is appropriately operated to discharge ultrafine water droplets of warm air. can do. Therefore, it is comfortable when the ultra-fine water droplet discharge mechanism is used as an air purifier in winter and the like.

[0035]

According to the first aspect of the present invention, since the heating and heating means for heating the room is provided on the outer surface side of the main body of the ultra-fine water droplet discharging mechanism, the heating and heating means keeps the temperature of the room at about the human body temperature. When heated to a temperature slightly higher than that, about 35 ° C. to 50 ° C., a good sweating action is obtained by the action of perspiration caused by heat and the action of the ultrafine water droplets of the ultrafine water droplet discharging mechanism. Therefore, there is no need for a special room such as a sauna bath, and it is possible to use a bathroom that is resistant to humidity. In addition, since it is an ultra-fine water droplet, there is no steam like in a steam bath, and it has a side effect that it is comfortable because it feels dry.

According to the second aspect of the present invention, since the water tank of the ultrafine water droplet discharging mechanism is provided with the heating means for heating the stored water, the temperature of the ultrafine water droplets from the exhaust portion can be increased by heating by the heating means. Can discharge wind. Therefore, a good sweating action can be obtained by the action of the temperature and the ultra-fine water droplets, and a special room such as a sauna bath is not required, and a bathroom strong against humidity can be used.

According to the third aspect of the present invention, the heating means for heating the water to be sprayed to the water distribution pipe of the pump of the ultrafine water droplet discharging mechanism is covered. Can discharge hot air. Therefore, a good sweating action can be obtained by the action of the temperature and the ultra-fine water droplets, and a special room such as a sauna bath is not required, and a bathroom strong against humidity can be used.

According to the fourth aspect of the present invention, the ultrafine water droplet discharging mechanism is provided with a pump for pumping hot water from outside the main body and sending it to the nozzle. Therefore, hot water at 40 ° C. to 50 ° C. must be used from outside the main body. Therefore, the warm air of the ultrafine water droplets can be discharged from the exhaust portion, and a good sweating action can be obtained by the temperature and the ultrafine water droplets. Moreover, since heating means such as a heater is not provided, it can be provided at extremely low cost.

According to the fifth aspect of the present invention, the hot water in the bathtub is pumped up and sent to the nozzle, so that the perspiration action can be obtained by using the hot water in the bathroom.

According to the sixth aspect of the present invention, since heating means for warming the ultra-fine water droplets is provided between the air / water separating portion of the ultra-fine water droplet discharging mechanism and the discharge port, the discharged ultra-fine water droplets are warmed. As a result, a good sweating action can be obtained.

[Brief description of drawings]

FIG. 1 is a perspective view showing an embodiment of a perspiration action promoting device incorporating an ultrafine water droplet discharging mechanism according to the present invention.

FIG. 2 is a cross-sectional explanatory view showing the ultrafine water droplet discharging mechanism.

FIG. 3 is a plan view showing the ultrafine water droplet discharging mechanism.

FIG. 4 is a perspective view of the ultra-fine water droplet discharging mechanism as viewed from the rear.

5 is a vertical sectional view of the heating / heating means of FIG. 1. FIG.

6 is a front view of the heating / heating means of FIG. 1. FIG.

FIG. 7 is a cross-sectional explanatory view showing another embodiment of the apparatus for promoting sweating action according to the present invention.

FIG. 8 is a cross-sectional explanatory view showing still another embodiment of the sweating action promoting apparatus according to the present invention.

9A and 9B are a partial cross-sectional view and a vertical cross-sectional view of the heating means of FIG.

FIG. 10 is a perspective view showing another example of the heating means of FIG.

FIG. 11 is a cross-sectional explanatory view showing still another embodiment of the sweating promoting apparatus according to the present invention.

FIG. 12 is a perspective view showing still another embodiment of the perspiration promoting apparatus according to the present invention.

13 is a perspective view showing a main part of FIG.

[Explanation of symbols]

 1 Exterior Casing 7 Water Tank 8 Cyclone Pipe 9 Air-Water Separation Pipe 11 Air Supply Port 12 Exhaust Port 13 Conduit 17 Pump 18 Fan 27 Heater Device 29 Heating Element 31 Heating Element 32 Heater 35 Bathtub 36 Heating Element 37 Exhaust Channel

Claims (6)

[Claims] 1. A tubular air-water contact portion and a tubular air-water separation portion that is in communication with a lower side region of the air-water contact portion via a ventilation portion, and water is sprayed in the air-water contact portion to countless numbers. Of jetting means for forming fine water droplets, and means for sending air from above so as to descend into the steam-water contact portion in a spiral shape, and the air that has passed through the fine water droplets from the steam-water contact portion is the aeration portion. A heating and heating means for feeding the air through the air-water separation unit, and raising the temperature in the air-water separation unit spirally to discharge ultra-fine water drops, and heating the room on the outer surface side of the mechanism main body. An apparatus for promoting a perspiration action, which is provided with. 2. A tubular air / water contact portion and a tubular air / water separator communicated with a lower portion of the air / water contact portion via a ventilation portion, and water is sprayed in the air / water contact portion to countless numbers. Of jetting means for forming fine water droplets, and means for sending air from above so as to descend into the steam-water contact portion in a spiral shape, and the air that has passed through the fine water droplets from the steam-water contact portion is the aeration portion. An ultra-fine water droplet discharging mechanism that discharges ultra-fine water droplets by spirally raising the water-water separating portion through the water-water separating portion, and the air-water contact portion and the water separating portion are located above the water tank. The apparatus for accelerating sweating is characterized in that the spraying means is vertically installed in the water tank, and the spraying means is configured to spray the water in the water tank, and the water tank is provided with heating means for warming the stored water. 3. A tubular air / water contact portion and a tubular air / water separation portion communicated via a ventilation portion in a lower region of the air / water contact portion, and innumerable by injecting water in the air / water contact portion. Of jetting means for forming fine water droplets, and means for sending air from above so as to descend into the steam-water contact portion in a spiral shape, and the air that has passed through the fine water droplets from the steam-water contact portion is the aeration portion. An ultra-fine water droplet discharging mechanism that discharges ultra-fine water droplets by spirally raising the water-water separating portion through the air-water separating portion, and the jetting means is provided in the steam-water contact portion. A perspiration promoting device comprising a nozzle and a pump for feeding water to the nozzle via a water distribution pipe, and a heating means for heating water sprayed through the water distribution pipe is covered. 4. A tubular air / water contact portion and a tubular air / water separator communicated with a lower portion of the air / water contact portion through a ventilation portion, and water is sprayed in the air / water contact portion to countless numbers. Of jetting means for forming fine water droplets, and means for sending air from above so as to descend into the steam-water contact portion in a spiral shape, and the air that has passed through the fine water droplets from the steam-water contact portion is the aeration portion. An ultra-fine water droplet discharging mechanism that discharges ultra-fine water droplets by spirally raising the water-water separating portion through the air-water separating portion, and the jetting means is provided in the steam-water contact portion. An apparatus for promoting a perspiration action, comprising: a nozzle; and a pump that pumps hot water from outside the mechanism body and sends it to the nozzle. 5. The sweat action promoting apparatus according to claim 4, wherein the pump pumps hot water in a bathtub outside the main body of the ultrafine water droplet discharging mechanism and sends it to the nozzle. 6. A tubular air / water contact portion and a tubular air / water separator communicating with an air vent in a lower region of the air / water contact portion, and a myriad of water sprayed in the air / water contact portion. Of jetting means for forming fine water droplets, and means for sending air from above so as to descend into the steam-water contact portion in a spiral shape, and the air that has passed through the fine water droplets from the steam-water contact portion is the aeration portion. An ultra-fine water droplet discharging mechanism for discharging the ultra-fine water droplets from the discharge port by feeding it to the steam-water separating portion through the air-water separation portion and spirally raising the water-water separating portion from the steam-water separating portion to the discharge port. A perspiration promoting device, characterized in that a heating means for warming ultra-fine water droplets is provided between them.