JPH04279166A - Medium temperature sauna chamber structural body - Google Patents

Abstract

PURPOSE:To achieve an increase in perspiration by lowering the temperature of a sauna chamber to enable bathing for a long time. CONSTITUTION:This medium temperature sauna chamber structural body has a far infrared radiation body 1 which is arranged on an upper surface part of a floor part 3 within a sauna chmaber with a heat source 2 disposed at a part thereof and keeps the temperature of the chamber in a range of 60-80 deg.C. Unlike the conventional sauna chamber structural body in which a bath is taken for a very short time suffering a high temperature of 100-110 deg.C, a relatively long time of bathing can be enjoyed. A flue or a passage 6 of a heat medium in place of the flue is arranged under the floor part 5 and a sauna chamger body 8 at upper and lower parts of the floor. A sensor 9 for sensing temperature within the sauna chamber body 8 is arranged at position near a ceiling 10 of the sauna chamber body 8. Thus, the temperature of the chamber is lowered property in stead of a high temperature in the past, thereby allowing a bathing person to enjoy a comfortable bathing.

Description

[Detailed description of the invention]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a medium-temperature sauna chamber structure, and more particularly to a modified medium-temperature sauna chamber structure obtained by modifying a conventional high-temperature sauna chamber structure into a medium-temperature sauna chamber structure.

0002

[Prior Art] Conventionally, sauna bathing method has been done at 100°C.
It has been attempted to raise the room temperature to a high temperature of 110°C to promote sweating in bathers, but on the other hand, the temperature is too high, making it undesirable to take a bath for a long time.
It is common to take a short bath for between 10 minutes and no bath for a longer period of time. If you try to take a bath for more than 15 minutes, you generally have to hold back, and even if you continue to take a bath, you may become unwell, and your face, neck, and other exposed skin may become unwell. There is a risk of injury.

0003

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems.

0004

[Means for Solving the Problems] Next, the medium-temperature sauna room structure structure, which is a means for solving the above object, has a heat source installed in at least the upper surface part of the floor of the sauna room. A far-infrared radiator is installed to keep the room temperature from 60℃ to 80℃.
This is a medium-temperature sauna chamber structure that maintains the temperature within the range of ℃.

[0005]

[Example] A far-infrared radiator 1 is arranged on the upper surface of the floor part 3 in a sauna room where a heat source 2 is arranged in a part thereof, and the room temperature is maintained in the range of 60°C to 80°C. In the sauna room structure, an intervening member 4 formed of a far-infrared radiator 1 is also disposed above the heat source 2,
A flue or a flow path 6 for a heat medium in place of the flue is provided in the lower floor portion 5, a sauna room main body 8 is provided in the upper floor portion 7, and a sensor 9 for sensing the temperature within the sauna room main body 8 is installed in the sauna room main body. 8
The under-floor part 5 is formed by the support structure 11 of the floor part 3 made of a material with fire-resistant and heat-insulating properties and high pressure-resistant strength, and the upper part of the support structure 11 of the floor part 3 is arranged at a position close to the ceiling 10 of A panel 12 made of alumina cement and far-infrared emitting ceramics contained therein in the form of powder or granules is arranged, and the panel 12, which becomes the structural material of the floor part 3, is made of fire-resistant cement and far-infrared ceramics. The far-infrared ceramics are formed from a mixture of materials, and include fine powders obtained by collecting fine particles obtained by crushing raw stones such as alumina, silica, and feldspar, as well as relatively large powders close to granules. The powdery far-infrared radiator contains more than 10 types of elements, including Al, Si, Ca, Ti, Fe, Ba, etc. as main components, and has a wavelength range of around 8 microns. , spanning the area before and after the
A panel 12 containing a powder made of a material having a wavelength range of far infrared rays is used as the far infrared ray emitter 1, and like a conventional sauna room structure, a fire bed 13 made of a large number of cobblestones and , log or similar wall 14
A surface structure member of a flat, tubular, lattice, net, or other similar structure made of a far-infrared radiator is directly or indirectly arranged on the surface of the member and the ceiling 11 member, and the above-mentioned surface structure member made of far-infrared ceramic The far-infrared radiator 1 is solidified and made into square pieces, and the square pieces are spaced at desired intervals or without openings to form a floor, ceiling, and wall portion, and the conventional floor, ceiling, and wall portions are further modified. The room temperature in the old-style sauna room that has been used for a long time has been reduced to 100%.
The temperature controller 15 for maintaining the temperature at a temperature between 100°C and 110°C is equipped with an electric current that emphasizes the function of maintaining the temperature at a high temperature between 100°C and 110°C, so that the upper limit of the temperature can be around 80°C. It is a medium temperature sauna chamber structure which is preferably capable of maintaining a room temperature of 60°C to 80°C by incorporating a circuit.

[0006]

[Operations and Effects] The present invention provides a far-infrared radiator on at least the upper surface of the floor in a sauna room where a heat source is provided in a part of the sauna room, and maintains the room temperature in the range of 60°C to 80°C. Because it is a medium-temperature sauna room structure, unlike conventional sauna room structures where you take a bath in a room with a high temperature of 100 to 110 degrees Celsius and endure a very short bath, it is relatively easy to use. It has the effect of allowing you to take a long bath. Also,
Since the present invention is a medium-temperature sauna room structure in which an intervening member formed by far-infrared radiation is disposed above the heat source part, the high heat from the high-temperature heat source is directly absorbed, unlike the conventional sauna room structure. The hot air hits the bather as radiant heat, the hot indoor air comes into direct contact with the bather's skin, and the hot air directly touches the inside of the bather's mouth, ears, eyeballs, etc., making them feel uncomfortable. In contrast, the medium-temperature sauna room structure of the present invention uses an intervening member consisting of a far-infrared ray emitter between the heat source and the bather, and uses a radiator of the most favorable wavelength for health. It has the effect of making it possible for anyone to take a bath with peace of mind. Also,
The present invention provides a flue or a heat medium flow path in place of the flue under the floor, a sauna room body in the upper and lower parts of the floor, and a sensor that detects the temperature inside the sauna room body on the ceiling of the sauna room body. Since this is a medium-temperature sauna room structure arranged close to This has the effect of allowing the bather to take a bath comfortably by lowering the room temperature appropriately, rather than at a high temperature like in a high temperature sauna room structure. Further, in the present invention, the underfloor part is formed by a support structure for the floor part made of a material with high pressure resistance and fireproof insulation properties, and the upper part of the support structure for the floor part is made of alumina cement, and the inside thereof is filled with powder or powder. This is a medium-temperature sauna room structure made up of panels made of far-infrared emitting ceramics contained in the form of particles, so the panels themselves are formed of far-infrared radiators, and the panels that form the main part of the floor are In addition to having the effect of far-infrared rays radiating to bathers who are above the floor, the support structure of the floor is made of fire-resistant, heat-insulating, and high pressure-resistant material, so it can be used for long periods of time without any structural problems. It has a durable effect. Furthermore, the present invention comprises a powdered far-infrared radiator obtained by crushing raw stones such as alumina, silica, feldspar, etc., and the radiator mainly contains Al, Si, Ca, Ti, Fe, Ba, etc. A panel containing a powder made of a material containing more than 10 types of elements and having a wavelength range of far infrared rays centered around 8 microns and spanning a region around 8 microns was used as a far infrared radiator. Since it is a medium-temperature sauna room structure, the properties of the panel as a far-infrared radiator are made of the most desirable components, so the wavelength range also spans an appropriate range, and bathers can enjoy the effect of bathing with optimal far-infrared rays. be. Further, the present invention provides a planar, tubular, lattice-shaped, A surface structure member having a net shape or other similar structure is arranged, and in particular, a far-infrared radiator made of far-infrared ceramics is hardened and made into square pieces. Alternatively, since it is a medium-temperature sauna room structure formed by forming parts such as a ceiling, it can be easily modified to the medium-temperature sauna room structure of the present invention by modifying a conventional high-temperature sauna room structure using the above-mentioned technology. It has a certain effect. Furthermore, the present invention can maintain the room temperature between 60°C and 80°C by incorporating an electric circuit into the temperature controller for maintaining the room temperature between 100°C and 110°C so that the upper limit of the temperature can be around 80°C. Because this is a medium-temperature sauna room structure, not only does the room temperature exceed 100°C like in conventional sauna room structures, but the walls and floor surfaces are extremely hot and can cause burns if touched. However, it is extremely safe, and the sweating effect does not decrease much compared to high temperatures, and in fact allows you to take a bath for a long time, thereby increasing the amount of sweating. effective.

[0007]

[Brief explanation of the drawing]

FIG. 1 is a side perspective view of the floor structure of a medium-temperature sauna room structure according to the present invention.

FIG. 2 is a longitudinal sectional view showing a portion of a floor support structure and a floor structure portion to which the present invention is applied.

FIG. 3 is a circuit diagram of a temperature controller according to the present invention.

[Explanation of symbols]

1 Far-infrared radiator 9 Sensor 2 Heat source
10 Ceiling 3 Floor part
11 Floor portion support structure 4 Intervening member 12
Panel 5 Underfloor part
13 Fire bed 6 Heat medium flow path
14 Wall 7 Above floor part
15 Temperature controller 8 Sauna room body 16 Switch 17 Power supply

Claims (9)

[Claims] Claim 1: A medium-temperature sauna in which a far-infrared radiator is disposed on at least the upper surface of the floor of a sauna room in which a heat source is disposed in a part thereof, and the room temperature is maintained in the range of 60°C to 80°C. Chamber structure. 2. A mid-temperature sauna room structure according to claim 1, further comprising an intervening member formed of a far-infrared radiator disposed above the heat source portion. 3. A flue or a flow path for a heat medium in place of the flue is provided under the floor, a sauna room main body is provided under the floor, and a sensor for detecting the temperature inside the sauna room main body is mounted on the ceiling of the sauna room main body. 2. The intermediate temperature sauna room structure according to claim 1, which is arranged at a position close to . 4. The underfloor part is formed by a support structure for the floor part made of a material with high pressure resistance and fireproof insulation properties, and the upper part of the support structure for the floor part is coated with alumina cement, and the inside of the support structure is made of alumina cement. 2. A mid-temperature sauna room structure according to claim 1, further comprising a panel comprising far-infrared emitting ceramics contained in a powdered state. 5. The intermediate temperature sauna room structure according to claim 1, wherein the panel serving as the structural material of the floor portion is formed from a mixed material of fireproof cement and far-infrared ceramics. Claim 6: A powder-like far-infrared radiator obtained by crushing raw stones such as alumina, silica, feldspar, etc., and the radiator mainly contains Al, Si, Ca, Ti, Fe, Ba, etc. Contains more than 10 types of elements and has a wavelength range of 6 to 2
The mid-temperature sauna room structure according to claim 1, wherein a panel containing a powder made of a material having a far-infrared wavelength range centered around 0 microns, particularly around 8 microns, and spanning a region before and after that is used as the far-infrared radiator. . [Claim 7] Flat, tubular, lattice, or steel-shaped materials made of far-infrared radiators are directly or indirectly attached to the surface of firebeds and logs made of a large number of cobblestones, or similar wall and ceiling members. 2. The intermediate temperature sauna room structure according to claim 1, further comprising surface structural members having similar structures. 8. The mid-temperature sauna room structure according to claim 1, wherein the far-infrared radiator made of far-infrared ceramics is solidified into square pieces, and the square pieces are spaced at desired intervals or without gaps to form the floor portion. . [Claim 9] By incorporating an electric circuit into the temperature controller for maintaining the room temperature at 100°C to 110°C so that the upper limit of the temperature can be around 80°C, the temperature can be increased from 60°C to 80°C.
2. A medium temperature sauna chamber structure according to claim 1, which is capable of maintaining a room temperature of .degree.