JP3115782U - Unit-type wave bath - Google Patents

Abstract

An object of the present invention is to optimize a temperature and humidity and to enjoy a wave bath in a home or a hotel private room by a sufficient sweating action.
A unit type wave bath apparatus 10 is composed of a bathroom unit 12 constituted by a panel unit, and a far infrared high-emissivity rock such as a wave stone having a high far-infrared emissivity on the surface of the bathroom unit 12. A plurality of wave bath units 14 having a thin plate and a main body formed of concrete mixed with sand and crushed stone of far infrared high emissivity rocks, a hot water pipe 16 incorporated in each of the wave bath beds unit 14, and hot water A floor warming boiler device 18 that recirculates hot water to the pipe 16 and a groove formed around a floor in which a plurality of wave bath floor units 14 are laid out, and the hot water flows out from a plurality of nozzles 26 to naturally evaporate. A watering pipe 24 is provided.
[Selection] Figure 1

Description

The present invention relates to a unit-type wave bathing device that can easily enjoy wave bathing in a home or hotel private room.

  Conventionally, saunas are generally used as air baths, and the temperature is set to 90 ° to 100 ° C., and the humidity is set to 10% to 15%. It is felt and the sweating action is promoted by continuing a kind of lingering state.

  On the other hand, in recent years, a wave bath (bedrock bath) has attracted attention as an air bath in which the room temperature is set to 42 ° C. to 43 ° C. and the humidity is 85% to 95%. The applicant of the present application operates “Guchokiper (registered trademark)” as such a wave bathing facility.

  Wave bathing warms rocks with high radiation efficiency of far-infrared rays such as wave stones, lies on the rocks, receives far-infrared energy and sweats a lot, and wastes accumulated in the body Even after draining toxins out of the body and using no soap, you can feel refreshed just by wiping with a towel after bathing.

  The reason for this refreshing feeling is that normal hot springs cover the whole body at 42 ° C to 43 ° C, so you can't sweat and the whole body is covered with hot water. Fatigue is accumulated by water pressure, and if you do not wash your body with soap, you will not feel refreshed. On the other hand, wave bathing is an air bath, so you can sweat well, and this gives you a refreshing feeling. Also, there is no breathlessness like a sauna, and even an elderly person can use it comfortably and comfortably by taking a correct bathing method, for example, taking 2 to 3 times at 15-minute intervals.

Such a wave bath must use a dedicated bathing facility, but in order to be able to enjoy it in a home or a hotel private room, a simple apparatus using the wave bath has been put into practical use and is commercially available.
JP 2004-261547 A Utility Model Registration No. 3100592 Utility Model Registration No. 3104787 Utility Model Registration No. 3104050

  However, the simple wave bath devices that are currently on the market warm the wave stones with an electric heater and mainly focus on air baths by far-infrared radiation, and the body is warmed by the action of far-infrared rays, but the humidity is dedicated. Since it is too low compared to the wave bathing facility, there is a problem that it is difficult to obtain a refreshing refreshing feeling like a dedicated wave bathing facility because sufficient sweating action cannot be obtained.

  In addition, since an electric heater is used, setting the humidity to 85% to 95% may cause a leakage or a short circuit accident, and it is difficult to increase the humidity.

An object of the present invention is to provide a unit-type wave bath apparatus that can enjoy a wave bath in a home or a hotel private room by optimizing temperature and humidity and having sufficient sweating action.

  In order to achieve this object, the present invention is configured as follows.

The unit type wave bath device of the present invention is
A bathroom composed of panel units;
A plurality of long-infrared high-emissivity rocks such as wave stones with high far-infrared emissivity are placed on the floor of the bathroom and the main body is made of concrete mixed with far-infrared high-emission rock sand and crushed stone Wave bed unit,
A hot water pipe built into each of the waved bed units;
A hot water boiler device for circulating hot water to the hot water pipe;
A sprinkling pipe that is arranged in a groove formed around a floor in which a plurality of wave bath bed units are laid, and that discharges water or hot water from a plurality of nozzles;
It is provided with.

  Here, the wave bath bed unit has a rectangular planar shape, and a thin plate of far-infrared high-emissivity rocks is arranged in a plurality of places on the rectangular plane, for example, two places.

  In addition, the boiler device groups one or a plurality of waved bed units, and recirculates the hot water in parallel with the hot water pipes connected in series for each group.

  Furthermore, the unit type wave bath apparatus of the present invention includes a temperature adjusting unit that adjusts the temperature of hot water from the boiler device, and a humidity adjusting unit that adjusts the humidity by controlling the watering by the watering pipe.

  The temperature adjustment unit controls the boiler device so as to keep the room temperature around 42 ° C., and the humidity adjustment unit controls the water spray valve so as to keep the room humidity at 85% to 95%.

The unit-type wave bath device of the present invention further includes a ventilator for ventilating the atmosphere in the bathroom and a circulator for refluxing the atmosphere in the bathroom.

  According to the present invention, a wave bath equivalent to a bathing facility dedicated to wave bathing can be used safely and easily in a home or hotel private room.

  In addition, the wave bath bed unit that emits far infrared rays when heated by the reflux of hot water has a thin plate of far infrared high emissivity rocks such as wave stones with high far infrared emissivity on the surface, and the main body is made of high infrared emissivity rocks It is produced in the factory as concrete mixed with sand and crushed stone, and can be installed easily and easily by arranging it on the bathroom floor at the installation site, and the equipment cost can also be reduced.

  In addition, the wave bath bed unit has a rectangular plane shape, and, for example, a thin plate of far-infrared high-emissivity rocks is arranged in two places on the rectangular plane, so that multiple wave bath bed units are spread on the bathroom floor surface. Thus, it is possible to line up two thin plates of far-infrared high-emissivity rocks that are wide enough for a person to lie down.

  In addition, the number of waved bath floor units arranged on the bathroom floor can be arbitrarily selected as needed, so even different bathroom sizes can be handled appropriately and easily. Can easily adapt to changes.

In addition, the nozzle of the water sprinkling pipe around the bathroom floor is arranged to allow the hot water to flow out, and the hot water is always supplied into the groove to evaporate, thereby keeping the bathroom at a high humidity. It is possible to appropriately construct and maintain an air bath environment by a wave bath with a humidity of 85% to 95% at a temperature of 43 ° C. to 43 ° C.

  FIG. 1 is an explanatory view of the overall configuration of a unit type wave bath apparatus according to the present invention. In FIG. 1, the unit type wave bath apparatus 10 of the present invention comprises a bathroom unit 12 having a panel structure of stainless steel and steel, and a plurality of wave bath floor units 14 are spread on the floor surface in the bathroom unit 12.

  The wave bath bed unit 14 is formed of concrete mixed with sand and crushed stone, which is known as rocks with high infrared radiation, for example, and a thin plate of rock with high infrared radiation is placed on the surface of the concrete. doing. A hot water pipe 16 is embedded in the concrete of the waved bath bed unit 14 in advance at the manufacturing stage.

  Hot water from the floor warming boiler 18 is supplied to the hot water pipe 16 of the wave bath floor unit 14 via the hot water supply unit (HS) 20, and the hot water passing through the hot water pipe 16 passes through the hot water return unit (HR) 22. It is circulated back to the warm floor boiler 18.

  In the unit type wave bath apparatus 10 of the present invention, it is necessary to keep the temperature in the bathroom unit 12 at 42 ° C. to 43 ° C. Therefore, the temperature of the wave bath bed unit 14 is about 10 ° C. higher than the room temperature. Keep at 52-53 ° C. Therefore, the floor warming boiler 18 heats the hot water so that the temperature of the waved bath bed unit 14 is in the range of 52 ° C. to 53 ° C., and supplies it with reflux.

  Further, a watering groove is formed around the wave bath bed unit 14 in the bathroom unit 12, and a watering pipe 24 is embedded in the watering groove, and a plurality of nozzles 26 provided at the upper part of the watering pipe 24. The water in the bathroom unit 12 is reduced to 85% to 95% by natural evaporation from the evaporating holes provided in the wooden groove cover of the watering groove by allowing warm water to flow out from the watering groove to the watering groove and always holding the hot water in the watering groove. I try to keep it.

  The sprinkling groove where hot water stays from the nozzle 26 of the sprinkling pipe 24 is made by mortar construction etc. around the waved bed unit 14, and therefore, the watering groove has a temperature around 40 ° C. which is almost the same as the waved bed unit 14. Since hot water is poured out from the nozzle 26 here, the humidity in the bathroom can be kept in the range of 85% to 95% by natural evaporation efficiently.

  The watering pipe 24 is provided with a watering valve 25, and when the humidity in the bathroom unit 12 is maintained at 85% to 95%, the watering valve 25 is manually opened in advance so that hot water is discharged from the nozzle 26. ing. In this embodiment, the water sprinkling pipe 24 is connected to a hot water supply pipe from a hot water supply boiler 28 provided for supplying hot water to the shower unit 30, and thus hot water heated by the hot water supply boiler 28 is supplied from the nozzle 26. Pour into the ditch and keep the humidity.

  In addition, a circulator 32 that circulates the atmosphere in the bathroom unit 12 is installed on the ceiling surface of the bathroom unit 12, and diffusion of the atmosphere in the bathroom unit 12 by the circulator 32 keeps the room temperature uniform and the humidity uniform. To keep on.

  Further, a ventilation coil unit 34 is installed on the back side of the ceiling surface, and the inside of the bathroom unit 12 is ventilated by an exhaust fan 35 provided outside. A hot water pipe from the floor warming boiler 18 is drawn into the ventilation coil unit 34 via a hot water valve 36 so that warm air can be blown into the bathroom unit 12 by the circulation of the hot water. Furthermore, a lighting 40 is provided in the bathroom unit 12.

  A controller 38 is installed at a suitable position outside the bathroom unit 12. The controller 38 includes operation units for operating and stopping the floor warming boiler 18, the hot water supply boiler 28, the circulator 32, and the ventilation fan 35. The controller 38 is provided with a thermometer for displaying the room temperature and a hygrometer for displaying the room humidity. When the unit type wave bath apparatus 10 is used, the room temperature is set to 42 ° C. to 43 ° C. by the thermometer. And it will be used after confirming that the indoor humidity is 85% to 95%.

  Further, the controller 38 may have a temperature control function for controlling the temperature of the waved bath bed unit 14 by the floor warming boiler 18 in a range of 52 ° C. to 53 ° C. as necessary. As for the humidity, the water spray valve 25 may be an electric valve or the like so as to control the indoor humidity within a range of 85% to 95%, and a function of controlling the indoor humidity by on / off control may be provided.

  FIG. 2 is an internal plan view and a bottom end view of the bathroom unit 12 of FIG. As shown in the inner plane of the bathroom unit 12 in FIG. 2A, in this embodiment, six wave bath floor units 14 having a rectangular plane shape are spread on the bathroom floor. The wave bed unit 14 is integrally attached with a wave stone thin plate 46 that is divided into two places on the surface of the wave bath bed unit 14 and uses rocks having a high far-infrared radiation such as wave stones.

  By laying a plurality of wave bath bed units 14 integrally bonded with wave stone thin plates 46 in two places on the floor in the bathroom, the wave stone thin plates 46 are arranged in two rows in the vertical direction in the illustrated state. The portion of the one row of wave stone plates 46 is an area where the user lies during the wave bath. For this reason, in the embodiment of FIG. 2, the arrangement of the two rows of wave stone plates 46 is performed. The unit type wave bath apparatus 10 for two persons is comprised.

  As shown in the cross-sectional view of FIG. 2 (B), there are sprinkling grooves 44 around the wave bath bed unit 14 spread on the bathroom floor, in the peripheral portions along the three side surfaces except the side surface where the door 42 is provided. A plurality of nozzles 26 that are formed and connected to a watering pipe 24 (see FIG. 1) embedded in the watering groove 44 are arranged at regular intervals. A wooden cover 60 with evapotranspiration apertures 62 having evapotranspiration apertures 62 opened at regular intervals is placed on the upper part of the water spray groove 44 where the nozzles 26 are arranged.

  Warm water from the hot water boiler 28 shown in FIG. 1 is constantly flown into the sprinkling groove 44 by operating the sprinkling valve 25 to the open position, and the sprinkling groove 44 is formed by, for example, driving mortar. Since it is in direct contact with the waved bed units 14 arranged on the inside, it is warmed to about 40 ° C. due to propagation of the heating temperature. Thus, by pouring warm water from the nozzle 26 into the sprinkling groove 44 heated to around 40 ° C., the indoor humidity can be increased to the required range of 85% to 95% by natural evaporation.

  FIG. 3 is an explanatory view showing the hot water pipe in the waved bath bed unit arranged on the bathroom floor as seen through. In FIG. 3, a hot water pipe 16 is embedded and fixed in a multiple loop shape in a waved bath bed unit 14 arranged on the floor surface in the bathroom unit 12, and pipe joints 48, 54 and elbow joints 50 and 52 are connected.

  The six wave bath bed units 14 arranged on the floor surface of the bathroom unit 12 are grouped into two wave bath bed units 14 units, and hot water is circulated in parallel by connecting hot water pipes for each group. ing.

  For example, when looking at the group of two lower wave bath bed units 14, the hot water pipe S for supplying hot water to the pipe joint 48 is connected, and the hot water refluxed through the lower wave bath bed unit 14 is By connecting the elbow joint 50 to the elbow joint 52 of the adjacent wave bath bed unit 14, the elbow joint 50 flows in series to the next unit, returns to the inside, and then returns from the pipe joint 54 through the return hot water pipe R.

  In this way, a plurality of wave bath bed units are grouped into, for example, two units, each is supplied with hot water in parallel from a hot water boiler, and the supplied hot water is directly flowed back within the group to perform a return flow. The length of the hot water pipe for each group viewed from the floor warming boiler 18, specifically, the recirculation distance of the hot water is made substantially the same, thereby a plurality of wave bath bed units 14 arranged on the floor surface in the bathroom unit 12. The temperature can be heated and held substantially uniformly in the range of 52 ° C to 53 ° C.

  FIG. 4 is a cross-sectional view of the bathroom of FIG. 3, and a hot water pipe 16 is embedded in the concrete of the wave bath floor unit 14 arranged on the floor surface, and the hot water pipe 16 is as shown in the plan view of FIG. In addition to being formed in a multi-loop shape in plan, the thickness direction of the cross section of FIG. 4 is also embedded in a multi-loop shape, whereby the entire concrete constituting the wave bath bed unit 14 and the surface wave stone thin plate 46 can be efficiently heated and kept in the range of 52 ° C to 53 ° C.

  FIG. 5 is a perspective view of the wave bath bed unit 14 used in the present invention. The main body of the waved bed unit 14 is formed of a concrete 15 having a long rectangular shape, and the long side L1 is, for example, L1 = 1500 mm and the short side length W in a rectangular planar shape as viewed in plan. For example, W is about 300 mm, and the height H is about H = 200 mm.

  Further, the horizontal width L2 of the wave stone thin plate 46 that is embedded and fixed in two places on the plane of the concrete 15 is, for example, about L2 = 550 mm, and is a size that can sufficiently cover the horizontal width when a person lies down. . If the distance between the two pieces of the wave stone thin plate 46 is about 200 mm, it is possible for a person to lie down at the position of the wave stone thin plate 46 and use the wave bath.

  Of course, the dimensions of each part in the waved bath bed unit 14 can be appropriately set as necessary. However, the waved bath bed unit 14 is produced in the factory, brought into the installation site, and arranged on the floor surface. It is necessary to set the dimensions L1, W, and H of each part so that transportation and construction are easy.

  FIG. 6 is a plan view and a sectional view of the wave bath bed unit 14 used in the present invention, and clearly shows the arrangement state of the hot water pipes 16 embedded and fixed in the concrete 15 by multiple loops. 5 and 6, pipe connection ports 56 and 58 are integrally provided at the right end of the concrete 15, and the pipe connection ports 56 and 58 are connected to the pipe connection ports 48 and elbow joints as shown in FIG. 50 are connected so that the hot water pipe and the grouped other wave bath bed units 14 can be easily connected at the assembly stage.

  6, the pipe connection ports 56 and 58 of the hot water pipe 16 are collectively arranged on one side, but the pipe connection ports 56 and 58 are provided separately on both sides. Also good.

  Next, the material characteristics of the concrete used for the waved bed unit 14 of the present invention will be described. FIG. 7A is an explanatory diagram of the material characteristics of concrete during the production of the concrete 15 of the waved bed unit 14 shown in FIG.

  First, the concrete used for the concrete 15 uses cement N, sandstone S of wave rock, crushed stone G of waterstone, and water W, and the density of each is as follows.

Cement N density = 3.16
Sand (wave stone) S density = 2.57
Crushed stone (wave rock) G density = 2.75
Water W density = 1.00

FIG. 7 (A) is a concrete blending table showing the blending ratio of concrete used for the production of concrete 15, with a fine aggregate ratio (S / a) of 60% and a water cement ratio (W / C) of 60%. In this case, the weight (Kg / m ³ ) of each component per unit volume is 333 for concrete C, 200 for water W, 1072 for sand S of wave rock, and 765 for crushed stone G of wave rock.

FIG. 7B is a blending table showing the blending ratio when used as a mortar. In blending as this mortar, the fine aggregate ratio (S / a) is 70%, and the water cement ratio (W / C) is 60%, and the weight per unit volume (Kg / m ³ ) of each component in this case is 358 for concrete C, 215 for water W, 1208 for sand S of wave rock, The crushed stone G is 555.

  For example, as shown in FIG. 2, the blending table that gives the blending ratio as the mortar is formed with a plurality of wave bath bed units 14 arranged in the bathroom unit 12, and a sprinkling groove 44 is formed around it. It will be used when necessary parts are hardened by mortar construction.

  The concrete blending table shown in FIG. 7 (A) and the blending table in the case of using as the mortar shown in FIG. 7 (B) are examples, and far-infrared emissivity such as wave stone is high as sand and crushed stone An appropriate blending ratio can be determined as needed on the condition that infrared high emissivity rock is used.

  Next, the operation of the unit type wave bath apparatus 10 according to the present invention will be described with reference to FIG. When using the unit-type wave bath apparatus 10, for example, with a margin of about 30 minutes to 1 hour, the controller 38 turns on the floor warming boiler 18 and the hot water supply boiler 28 to start the operation, and the hot water pipe 16 The hot water is refluxed to the waved bath bed unit 14 and the temperature is raised to 52 ° C. to 53 ° C., thereby raising the room temperature to 42 ° C. to 43 ° C.

  At the same time, the sprinkler valve 25 is opened, hot water is supplied from the hot water boiler 28 through the sprinkler pipe 24, and the hot water is poured out from the nozzle 26 into a sprinkler groove 44 formed around the floor surface in the bathroom unit 12. By heating the mortar on the side of the sprinkling groove 44 accompanying the heating of No. 14, the hot water discharged from the nozzle 26 is evaporated, and the indoor humidity is increased to 85% to 95%.

  For example, when 1 hour has passed since the start of operation, the thermometer and hygrometer provided in the controller 38 come to have an indoor temperature of 42 ° C. to 43 ° C. and a humidity of 85% to 95% necessary for the wave bath, If it will be in this state, the wave bath by the unit type wave bath apparatus 10 can be performed at any time.

  As shown in the plan view of the bathroom unit 12 in FIG. 2 (A), this wave bath becomes prone with the yukata on the floor at the position of the wave stone thin plate 46, and is initially about 5 minutes from the stomach. Warm up. Then turn up and lie down for about 10 minutes while resting slowly. In this way, about 15 minutes of bathing is performed once, and this is repeated a few times. By such bathing, if sufficient sweating is performed and bathing is completed, it is possible to take a shower in the shower unit 30 as necessary.

  In order to assist such a bathing method of the wave bath, in the controller 38 of FIG. 1, when the bathing use button is pressed at the time of bathing, a notification of the time lapse such as chimes is issued in the bathroom 5 minutes after bathing. Further, it is desirable to output a chime sound indicating the end of bathing after 10 minutes have passed.

The present invention includes appropriate modifications that do not impair the object and advantages thereof, and is not limited by the numerical values shown in the above embodiments.

Explanatory drawing of the whole structure of the unit type wave bath device by this invention FIG. 1 is an internal plan view and a bottom sectional view of the bathroom unit. Explanatory drawing showing through the hot water pipe of the wave bath bed unit placed on the bathroom floor 4 is a sectional view of the bathroom. Perspective view of waved bed unit used in the present invention Plane and cross-sectional view of waved bed unit used in the present invention Explanatory drawing of material properties of concrete used for wave bed unit of the present invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 10: Unit type wave bath apparatus 12: Bathroom unit 14: Wave bath floor unit 15: Concrete 16: Hot water pipe 18: Floor warm boiler 20: Hot water supply part 22: Hot water return part 24: Sprinkling pipe 25: Sprinkling valve 26: Nozzle 28: Hot water boiler 30: Shower unit 32: Circulator 34: Ventilation coil unit 35: Ventilation fan 36: Hot water valve 38: Controller 40: Lighting 42: Door 44: Sprinkling groove 46: Wave stone thin plate 48, 54: Pipe joint 50, 52: Elbow joint 56, 58: Vip connection port 60: Wooden cover with evapotranspiration hole 62: Evaporation hole

Claims (6)

A bathroom composed of panel units;
Placed on the floor of the bathroom, a thin plate of far-infrared high-emissivity rock such as wave stone with high far-infrared emissivity is placed on the surface, and the main body is formed of concrete mixed with sand and crushed stone of the far-infrared high-emissivity rock A plurality of wave bed units,
A hot water pipe built into each of the waved bed units;
A boiler device for recirculating hot water in parallel to the hot water pipe;
A sprinkling pipe that is arranged in a groove formed around a floor where the plurality of wave bath floor units are spread, and that discharges hot water from the plurality of nozzles;
A unit-type wave bath apparatus comprising:
The unit-type wave bath apparatus according to claim 1, wherein the wave bath bed unit has a rectangular plane shape, and a thin plate of far-infrared high-emissivity rocks is arranged in a plurality of locations on the rectangular plane. Unit type wave bath device.
2. The unit type wave bath apparatus according to claim 1, wherein the boiler apparatus groups the one or a plurality of wave bath bed units, and returns hot water in parallel in a state in which hot water pipes are connected in series for each group. A unit-type wave bath apparatus characterized by having
The unit-type wave bath device according to claim 1, further comprising a temperature adjusting unit that adjusts a temperature of hot water from the boiler device, and a humidity adjusting unit that adjusts the humidity by controlling watering by the watering pipe. A unit type wave bath apparatus characterized by the above.
2. The unit type wave bath apparatus according to claim 1, wherein the temperature adjusting unit controls the boiler device so as to keep the room temperature around 42 ° C., and the humidity adjusting unit sets the room humidity to 85% to 95%. A unit-type wave bath apparatus characterized by controlling the water spray valve to maintain.
  2. The unit type wave bath apparatus according to claim 1, further comprising a ventilator for ventilating the atmosphere in the bathroom and a circulator for refluxing the atmosphere in the bathroom.

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