EA014376B1 - Bath and hot-air generator for bath steam room - Google Patents

Abstract

A bath and a hot-air generator for a bath steam room relates to building facilities and designed for satisfying human's living requirements. The bath comprises at least a steam room limited by a heated ceiling, walls and floor. At least one seat-benches incorporated therein. The steam room is provided with a system of electric heating panels with resistive heating elements and IR radiators being a lining of the electric heating panels. The IR radiators are arranged on the ceiling, walls floor and at least one seat bench and are combined in groups, each of them is provided with temperature gages and an automatic temperature control system. The steam room comprises a hot-air generator and a controlled plenum-and-exhaust ventilation. The electric heating panels are arranged on the ceiling, walls floor and at least one seat bench surfaces enabling to heat the steam room volume completely and forming at least 4 horizontally located heating zones at different height in the steam room. The first heating zone has an IR radiation between 25-40°C, the second between 35-45°C, the third between 40-60°C and the fourth between 55-75°C. The hot-air generator is positioned in the third and/or in the fourth heating zones and is a thermo container, the electric heating elements and IR radiators are arranged n a hermetic enclosure, wherein the hermetic enclosure is lined up with ceramic tiles or with natural stone, has a cover made as a perforated panel having a n open neck and double walls with a heat-insulating material arranged therebetween. Two open atop containers are installed inside the enclosure, the electric heating elements, IR radiators and a temperature sensor are placed in each container, wherein the electric heating elements of each container are embodied so as adapted to independent heating and maintaining the predetermined temperature in corresponding heat accumulators, and the enclosure is located in a housing with a perforated bottom and ducts for convection air pass are formed between the housing and the bath house outer walls.

Description

The invention relates to the construction, and more specifically to a bath and a hot air generator for a steam room.

The present invention is intended to meet the vital needs of a person. It can be used in the design and construction of public and individual baths.

Known sauna (bath) Thermal, made in the form of a separate room, bounded by the ceiling, heated by floors and walls, inside which is built at least one heated seat-lounger. The sauna is equipped with a system of electric heating panels that provide the specified heating (RF patent No. 2119324, А61Н 33/06).

In this bath, convective heat transfer from the electric heating panels to the human body is provided by means of heated air passing through each panel in which at least one heat pipe is used. With such heating, a volumetric heating of the cabin is achieved, however, the heating temperature of the electric heating panels reaches 200 ° C. In this case, the human body in the bath is heated due to the direct effect of hot air on the skin of the person. Since dry air has a low heat capacity and thermal conductivity, effective heating of the human body to perspiration is possible only at high temperatures, extreme for the human body. This leads to a direct impact on the human body at an extreme temperature that is much higher than the normal temperature of its body. In addition, there is a risk of burns of the mucous membranes of the upper respiratory tract as a result of exposure to dry hot air.

The closest to the present invention in its technical essence and the achieved result is a bath according to the patent of the Russian Federation No. 2226382. This bath contains a double room limited by the ceiling, heated walls and floor. Inside the room is built at least one heated seat-lounger.

The known bath is equipped with a system of electric heating panels with resistive heating elements and infrared emitters, the latter of which are the lining of electric heating panels placed on the surface of walls and the floor, and at least one seat back. Electric heating panels are combined into groups, each of which is equipped with a device for regulating and automatically maintaining the temperature, respectively, of the surfaces of the walls, the floor and at least one lounger in the range of 20-60 ° C to form the thermal field of infrared radiation.

On the floor of the bath there is a hot air generator with a sealed housing with an open neck and double walls, between which is placed insulating material. Inside the case there is an open-top container in which electric heating elements and IR emitters are placed.

The ceiling in the bath is made vaulted and is lined with heat insulating and heat reflecting material, for example wood, while the room has a controlled supply and exhaust ventilation.

The specified temperature range allows the user to arbitrarily select the temperature of the adjacent groups of electric heating panels. However, if you arbitrarily choose the temperature of the panel groups according to the height of the double room, deformational destruction of the lining material of the electric heating panels (cracking, peeling, swelling) is possible, caused by the uneven thermal expansion of the lining material with a high temperature gradient of the surfaces of the lining of the adjacent groups of electric heating panels.

In addition, the presence of cladding on the ceiling of thermally insulating and heat-reflecting combustible material, such as wood, increases the fire hazard, for example, when constructing an individual bath in a residential area. At the same time, wood, being a porous and hygroscopic material, when heated, emits in the IR range several times weaker than stone or ceramics, reducing the density of the radiant flux and the efficiency of the bath. In addition, when using the bath in the steam mode, the wooden cladding of the ceiling is saturated with moisture, resulting in a long time period is required to transfer the use of the bath from the steam mode to the sauna mode.

In addition, this placement of the hot air generator leads to the risk of a direct impact on the user of hot, humid air coming from the generator when using the bath in the steam mode, which increases the possibility of injury to the user.

The basis of the present invention is the task of creating an economical fire-safe bath and a hot air generator that would allow the sauna and Russian steam bath to be created in the bath, quickly change these modes, eliminate the possibility of user injury when using the bath in the steam bath, and create a uniform the height of the pairing room temperature gradient, which ensures uniform thermal expansion of the material of the lining of electric heating panels, which increases the reliability and Use govechnost bath.

The task is solved by creating a bath containing at least a double room bounded by a ceiling, heated walls and floor, at least one heated seat-lounger is built inside the room, and it is equipped with a system of electric heating panels with resistive

- 1 014376 heating elements and infrared emitters, the latter of which are facing electrical heating panels that are placed on the surface of the walls, floor and at least one lounger and are grouped into groups, each of which is equipped with a means of regulating and automatically maintain the temperature , respectively, the surfaces of the walls, the floor and at least one seat-lounger for the formation of the thermal field of infrared radiation, hot air generator and controlled supply and exhaust ventilation According to the invention, the system of electric heating panels with resistive heating elements and IR emitters contains additional electric heating panels with resistive heating elements and IR emitters, which are placed on the ceiling surface, IR emitters of electric heating panels and additional electric heating panels are placed, respectively, on the surfaces walls, floors, at least one sun lounger and ceiling with the possibility of heating the entire volume of the double room I and the formation of at least four horizontally arranged thermal areas in the twin room, the first of which is formed by infrared emitters placed on the floor surface and has an infrared temperature from 25 to 40 ° C, the second zone is formed by infrared emitters placed on the wall surface near the floor surface, and has an infrared temperature from 35 to 45 ° C, the third zone is formed by infrared emitters placed on the wall surface above the second zone, and has an infrared temperature from 40 to 60 C, the fourth zone is formed by means of IR radiators arranged in the ceiling near the wall surface and the ceiling surface has an IR radiation temperature of from 55 to 75 ° C, the hot air generator located in the third and / or fourth heat zones.

It is widely known that various human organs are most sensitive to waves of different lengths in the range of 9-11 microns of the infrared spectrum, to which the human body is well adapted. The radiation of different wavelength corresponds to the radiation of surfaces having different temperatures. The author singled out at least four horizontal temperature thermal zones, in which it is possible to create the most optimal heating conditions in a double room for different parts of the user's body and not to overheat certain parts of the user's body, which saves energy while achieving the most efficient heating of the user's body. In addition, the presence of at least four horizontal temperature thermal zones allows you to create a temperature gradient that is uniform in height of the double room, ensuring uniform thermal expansion of the lining material of the electric heating panels, which increases the reliability and durability of the bath.

The specified location of the hot air generator allows you to create sauna modes and a Russian steam bath in the bath, to quickly change these modes, to exclude the possibility of injury to the user when using the bath in the steam mode, since the generator location creates favorable conditions for the shortest supply of heated air to the upper most heated part double room. Here, the upper part of the walls and the ceiling form a pool for the recovery of steam generated during the humidification and heating of the air passing through the generator.

Making the ceiling of heat-absorbing non-combustible material eliminates the danger of a bath fire, since such a material (ceramic tile or natural stone) has a large thermal expansion coefficient, which eliminates large temperature loads on the wall and ceiling cladding, as it is done by smoothly raising the temperature of the IR emitters. height of the pair room. This increases the reliability and durability of the bath.

To optimize the conditions of hot air intake and accumulation in the hottest fourth zone, it is desirable that the twin room has slopes made between the ceiling and walls, while additional electrical heating panels with resistive heating elements and IR emitters are placed on the slope surface.

It is advisable to perform a double room, in which the second zone is from 30 to 35% of its volume.

Favorably, the third zone ranged from 50 to 60% of the volume of the double room.

It is possible that the third zone in height consists of two parts, the lower of which has a temperature of IR radiation from 40 to 50 ° C, and the upper one - from 45 to 60 ° C.

It is desirable that the lower and upper parts of the third zone each comprise from 25 to 30% of the volume of the double room.

The fourth zone can be from 15 to 20% of the volume of the double room.

Achieving an optimal result when carrying out massage treatments is achieved by performing electrical heating panels placed on the surface of the sunbed, and combined along the length of the sunbed in at least three groups with individual control and automatic maintenance of temperature in each of the groups in the range from 30 to 50 ° WITH.

The highest density of infrared radiation in the most favorable parts of the spectrum is achieved by making infrared emitters of each electric heating panel and each additional electric heating panel made of natural stone material or dense ceramic tile.

- 2 014376

It is established that the best results in the efficiency / power ratio of the radiator are achieved if the resistive heating element of each electric heating panel and each additional electric heating panel is made of nichrome wire, the length and section of which are chosen from the relations

15 m ^-1 <b / 8 <25 m ^-1 , where b is the length of the nichrome wire, m;

- area of the heating panel, m ² ;

@ = L-8-Rud / and ² , where @ is the cross-section of nichrome wire, m ² ;

And - the resistivity of the nichrome wire, Ohm-m;

P _beats - specific thermal power of the panel, W / m ² ;

and - supply voltage of the heating element, V.

To accommodate a bath in an urban setting, for example, in an office or apartment, it is possible to create a double room, which is a collapsible cabin consisting of separate floor panels, walls, ceiling and a panel with an entrance door, and the panels are made with a refractory thermal insulation layer located between the outer facing of the panel and electric heating panels with IR emitters.

To increase comfort, it is desirable to have a bath in which the controlled supply and exhaust ventilation has an exhaust fan installed with the possibility of creating an adjustable ventilation mode during steam and massage procedures in a double room.

With the same purpose, it is advisable to perform a bath in which the steam room has an adjustable channel, communicated with the outside atmosphere for the implementation of intensive (salvo) exhaust ventilation of the steam room.

In this case, it is advisable that the controlled supply and exhaust ventilation contain a blower fan to provide adjustable supply ventilation in the double room.

Improved comfort is facilitated by the installation in the duct of the injection fan of a low-temperature air heater.

For the same purpose, it is possible to install a blower of an air dryer in the duct.

It is possible to perform a bath with an additional dressing room, and / or a washroom, and / or a rest room.

Expanding the possibilities of implementing various medical procedures can be achieved by performing a bath in which the hot air generator is a thermal container that has a sealed enclosure lined with natural stone material or ceramic tiles, a lid made in the form of a perforated panel with an open neck, and double walls between which the insulating material is placed, while inside the case there is an open-top tank in which the electric heater is placed f elements, IR emitters and a temperature sensor, and the body is placed in a housing with a perforated bottom, and between the casing and the outer walls of the housing are formed channels for the passage of convection air.

The task and a more complete implementation of the technical capabilities of the bath, described in the present invention, solved the creation of a hot air generator of the original design. Through the use of such a generator, in addition to solving the task described above, it is possible to create an atmosphere saturated with vapors of healing oils or herbal infusions, which greatly expands the therapeutic possibilities of the procedures performed in the bath.

The achievement of this technical result is ensured by the creation of a hot air generator for a steam bath room, which is a thermal container, in a sealed enclosure of which electric heating elements and IR emitters are placed, in which, according to the invention, the sealed enclosure is lined with natural stone material or ceramic tiles, has a cover made in the form perforated panel having an open mouth and double walls, between which there is a heat-insulating material, with This has two open-top tanks inside the case, each of which has electric heating elements, IR emitters and a temperature sensor, while the electric heating elements of each container are designed to independently heat and maintain the desired temperature of the respective heat accumulators, and the case is placed in a casing with a perforated bottom , and channels are formed between the casing and the outer walls of the housing for convective air passage.

The specified implementation of the hot air generator facilitates the ability to create an atmosphere in a double room, saturated with vapors of herbs and herbal extracts.

It is possible that the IR emitters were placed in each tank in two layers, the lower of which takes from 1/2 to 2/3 of the tank height and consists of fractions from 3 to 5 cm, and the top layer is placed up to the housing cover and consists of fractions from 4 to 10 cm.

It is also possible that the infrared emitters of the lower layer are selected from the group: lumpy infrared emitting elements, stones, balls from ball bearings, cast iron fragments, and infrared emitters of the upper layer

- 3 014376 are stones.

Increasing the heat capacity of the hot air generator can be achieved due to the fact that the electric heating elements of each tank are one or more tubular electric heaters located in the lower part of the corresponding container, and the IR emitters contain metal plates covering tubular electric heaters and discrete elements in the form stones placed at the top of each tank.

For better heating of the hot air passing through the generator, it is advisable to provide the generator with a funnel placed with the ability to supply water through the specified funnel to the IR emitters of both tanks.

It is advisable to perform the proposed bath with the proposed hot air generator. The presence of a second tank with independent electric heating elements makes it possible to create in the second tank a low temperature of heat accumulators, to which an aromatized solution is supplied. This allows you to most effectively carry out massage procedures using healing infusions and oils to create a fragrant steam without burning organic matter.

Thus, the set includes signs, each of which is necessary, and all together are sufficient to create an economical fire safe bath and a hot air generator that would create sauna and Russian steam bath regimes in the bath, quickly change these modes, and exclude the possibility of injury. user when using the bath in the steam mode, and also to create a temperature gradient uniform over the height of the steam room, ensuring uniform thermal expansion of the cladding material electric heating panels, which increases the reliability and durability of the use of the bath.

For a better understanding of the invention, specific examples of its implementation are given below with reference to the accompanying drawings, in which FIG. 1 schematically depicts a steam bath, made according to the invention; FIG. 2 is a hot air generator, made according to the invention, a cross-section; FIG. 3 is a top view of the hot air generator made according to the invention.

It is widely known that the effectiveness of the interaction of infrared radiation with the human body depends on the wavelength of infrared radiation. According to biophysical studies, it reaches a maximum value at a wavelength of infrared radiation in the range of 9.3-9.5 microns. At this wavelength, the greatest depth of penetration of infrared radiation into the human body takes place, resulting in a volume heating of the internal organs and tissues of the human body (Bogolyubov VM, Ponomarenko GN, General Physical Therapy. - Moscow: Medicine, 1999 , pp. 148-151; Physical Encyclopedia. - Moscow: 1998, volume 2, p. 182). The efficiency of the interaction of infrared radiation with the human body decreases with both decreasing and increasing the wavelength of infrared radiation relative to values of 9.3–9.5 μm, approaching minimum values at wavelengths shorter than 8.0 μm and longer than 12.0 um The most favorable for the human body is infrared radiation in the wavelength range from 8.5 μm to 10.5 μm. At the same time, the wavelength prevailing in this range of the infrared radiation spectrum of heated bodies, having the same temperature, but made of different materials, is different. Thus, by varying the IR cladding material of the emitters, it is possible to obtain IR spectra of different intensity. These provisions were the basis of the present invention.

The proposed bath 1 contains at least a steam room 2 limited by heated ceilings 3, walls 4 and a floor 5. Depending on the size of the bath 1 inside the steam room there can be one or more heated sun beds 6. The steam room 2 is equipped with a system electric heating panels 7 with resistive heating elements and infrared emitters 8. To create infrared radiation with the most effective effect, infrared emitters 8 are facing 9 electric heating panels 7, which are placed on ceiling surfaces 3, walls 4, floor 5 and at least one sunbed 6. Electric heating panels 7 are combined into groups, each of which is provided with a means of regulating and automatically maintaining temperature (not shown in the drawing), respectively, surfaces of the ceiling 3, walls 4, floor 5 and one or more sun loungers 6 for the formation of a transformable thermal field of infrared radiation. The atmosphere required for a steam room is created by a hot air generator and controlled supply and exhaust ventilation.

The system of electric heating panels 7 with resistive heating elements and infrared emitters 8 includes infrared emitters 8 electric heating panels 7, which are placed, respectively, on the surfaces of the ceiling 3 (additional electric heating panels 7), walls 4, floor 5 and sun beds 6 with the possibility heating the total volume of the double room 2 and the formation of at least four horizontal 2 thermal zones 10, 11, 12, 13 located along the height of the double room. The placement of these zones in the double room 2 is shown in FIG. one.

The first zone 10 is formed by infrared emitters 8, placed on the surface of the floor 5, and has a temperature of infrared radiation from 25 to 40 ° C.

The second zone 11 is formed by infrared emitters 8, placed on the surface of the walls 4

- 4 014376 near the surface of the floor 5, and has a temperature of infrared radiation from 35 to 45 ° C.

The third zone 12 is formed by infrared emitters 8, located on the surface of the walls above the second zone 11, and has a temperature of infrared radiation from 40 to 60 ° C.

The fourth zone 13 is formed by infrared emitters 8 placed on the surface of walls 4 near the ceiling 3 and on the surface of ceiling 3. In this zone, the temperature of the infrared emitters ranges from 55 to 75 ° C and forms the most heated upper part of the walls 4 and ceiling 3.

In the third zone 12 is the generator 14 of hot air. Usually the height of its location above the floor level 5 is 145-160 cm and is determined by the specific parameters of the room itself: volume, size, generator power 14, etc. In this example, the generator 14 is located in the third zone 12. However, the generator can be located either completely in the third zone 12, or completely in the fourth zone 13, or in the third and fourth zones 12 and 13. Its location depends on the height of the double room 2.

As a rule, the second zone 11 of the pair room 2 constitutes from 30 to 40% of its volume, the third zone 12 constitutes 50-60% of the volume of the pair room 2 and the fourth zone 13, which is located right under the ceiling and in which the hottest air is concentrated, ranges from 15 up to 20% of the volume of the pair room 2. However, a different combination of the volumes of these zones is possible. For example, in FIG. 1 shows an embodiment of the ceiling 3 with slopes 15. In this embodiment, the third zone 12 may consist of two parts 12a and 12b in height, the lower of which has an infrared temperature from 40 to 50 ° C and the upper from 45 to 60 ° s In this case, the lower and upper parts 12c and 12a of the third zone 12 each can be from 25 to 30% of the volume of the double room.

The ceiling 3 in the double room 2 may have a different shape. It can be, for example, straight, have slopes 15 (as shown in Fig. 1) or have a vaulted shape. This is determined by the aesthetic tastes of the builder and the various possibilities of a technical nature. However, in order to optimize the conditions for the entry and accumulation of hot air in the hottest fourth zone 13, it is preferable to perform the ceiling 3 of the double room 2 with slopes 15 and the slopes 15 of the ceiling 3 should be located in the hottest fourth thermal zone 13. In this case, optimal concentration conditions are created hot air in the steam recovery pool, which is formed in the fourth zone 13. From here, using a broom, it is convenient to direct hot air to the user receiving the procedure.

Improving the comfort of making procedures is also achieved through the implementation of electric heating panels 7 under the lining of the surface of the lounger 6 at least three groups with individual temperature control and automatic maintenance of temperature in each of the groups in the range from 30 to 50 ° C. Moreover, each part of the user's body in the supine position may be located in the zone with the most favorable temperature for this particular part of the body. At the same time, the highest density of infrared radiation in the most favorable parts of the spectrum will be achieved by making infrared emitters 8 of each electric heating panel 7 made of natural stone material or dense ceramic tile.

It is established that the best results in terms of the efficiency / power ratio of the infrared emitter 8 are achieved if the resistive heating element of each electric heating panel 7 is made of nichrome wire, the length and section of which correspond to the ratios

15 m ^-1 <b / 8 <25 m ^-1 , where b is the length of the nichrome wire, m;

- area of electric heating panel, m ² ;

@ = y-8-E-Rud / and ² , where 11 is the specific resistance of the nichrome wire, Ohm-m;

Ore - specific thermal power of the electric heating panel, W / m ² ;

and - supply voltage of the heating element, V.

To accommodate a bath in an urban setting, for example, in an office or apartment, it is possible that the steam room 2 of bath 1 is a collapsible cabin containing separate floor panels 5, walls 4, ceiling 3 and a panel with an entrance door 16. At the same time, these separate the panels have an outer lining 17 and a refractory heat-insulating layer 18 located between the outer lining 17 and electric heating panels 7 with IR emitters 8. The outer lining 17 can be made of heat-resistant material with low thermal conductivity, for example er from natural wood.

To increase comfort in a steam room 2, an exhaust fan is installed (not shown in the drawing), with the help of which an adjustable ventilation mode is created during steam and massage procedures. In addition to the exhaust fan, which provides the creation of the desired ventilation mode, the steam room 2 of the bath 1 can be equipped with an adjustable channel (not shown), communicated with the outside atmosphere to carry out the exhaust intensive (salvo) ventilation of the double room 2 (for example, the vent window of the corresponding passage section ). This embodiment allows to diversify thermal and atmospheric regimes, creating

- 5 014376 in the double room 2 and thereby increase the comfort of taking procedures.

For the same purpose, controlled supply and exhaust ventilation may contain a blower fan (not shown) to provide adjustable supply ventilation in the double room 2, as well as a low-temperature air heater and / or air dryer installed in the channel of the blower fan (not shown ).

When performing bath 1 in a separate room or building, it is advisable to carry it out with other outbuildings, such as a waiting room, a washing room, a rest room (not shown). All this increases the functionality of the bath 1, leads to a more complete restoration of the user's body as a result of the adoption of bath procedures.

Expanding the possibilities of implementing various medical procedures can be achieved by performing a bath 1, in which the sealed housing 19 of the hot air generator 9 (see Figs. 2, 3) has a lining 20 with natural stone material or dense ceramic tiles and is made in the form of a thermal container with a top perforated a panel 21 having an open mouth 22. The thermal container is a container 23 with double walls 24, 25, between which thermal insulation material 26 is placed. The thermal container is closed by a perforated casing 27 m bottom 28 installed with a gap relative to the outer wall of the vessel with double walls. Inside the thermal container is installed an open-top container 29, in which the electrical heating element 30 and the heat accumulator with the temperature sensor 31 are placed. The presence of the casing 27 and the air gap provides an exception to the heating of the casing 27, which eliminates the possibility of burns from the consumer when touching the casing 27.

Depicted in FIG. 2, the infrared radiation generator 9 is made with a heat accumulator containing, for example, two metal (cast iron) plates 32, on top of which are heat-resistant stones 33, for example basalt. Between the plates 32 installed electric heating element 30. The design of the heat accumulator can be any other designed for similar purposes.

Preferred is a two-layer design of the heat accumulator, in which the upper layer is a stone 33 with a size of fractions from 4 to 10 cm, and the lower layer is from 1/2 to 2/3 of the height of the tank 29 and consists of fractions from 3 to 5 cm (in the drawing not shown). Between the casing 27 and the outer wall 25 of the thermal container are formed channels 34 for convective passage of air. To supply water to the bottom of the heat accumulator serves as a funnel 35.

For a more complete implementation of the technical capabilities of the bath, described in the present invention, it is advisable to use a hot air generator with improved original design.

This hot air generator 36 differs from the generator 9 described above by the presence of another tank 37 open from above, in which electric heating elements 30 are also arranged, made with the possibility of independent heating and maintaining a predetermined temperature of the heat accumulator having a temperature sensor 31.

Heat accumulators of both tanks 29, 37 are heat-resistant stones 33, which are placed in each tank 29, 37 in two layers, the lower of which takes from 1/2 to 2/3 of the height of each tank 29, 37 and consists of 33 stones fractions from 3 up to 5 cm, and the top layer is placed up to the cover of the case and consists of stones of fractions from 4 to 10 cm (not shown in the drawing).

It is also possible to perform the generator 9, 36 of hot air, in which the heat accumulator of the lower layer consists of balls from ball bearings with a diameter of 3-5 cm (not shown).

In addition, it is possible to perform the lower layer of the heat accumulator from the iron fragments.

The air passing through the heat accumulator heats up according to the set temperature of the heat accumulator. Since the hot air generator 36 described has two independent tanks 29, 37 with heat accumulators and its own electric heating elements 30 and temperature regulators 31, it is easier to create an atmosphere in a double room saturated with vapors of herbs and herbal extracts. In this case, the air passing through the generator 36 may be heated to a temperature of 200-300 ° C and may be dry when the bath is operating in the Finnish sauna mode.

In the case when it is desirable to use a bath in the mode of a Russian steam bath, water is supplied through the funnel 20 to the bottom layer of the heat accumulator. In this hot air passing through the generator 36, is saturated with moisture to a relative humidity of 30-80% and enters the upper thermal zone of the double room. The second tank 37 of the generator 36, having its own electric heating element 30 and the heat accumulator, as well as its own temperature regulator (not shown), serves to introduce into the atmosphere a pair of herbal extracts and herbal extracts. The temperature of this heat accumulator must be significantly lower than the temperature of the first heat accumulator in order to exclude the process of burning out of the healing solutions. The independent operation of both electric heating elements 30 makes it possible to saturate the hot air with the aroma of herbs both in the operation mode of the sauna and in the operation mode of the Russian steam bath.

Constructive implementation of the proposed baths described above and the hot air generator ensures the creation of an economical fire safe bath and hot air generator, which

- 6 014376 allow you to create in the bath regimes of the sauna and the Russian steam bath, carry out a quick change of these modes, eliminate the possibility of injury to the user when using the bath in the pair mode, and also create a temperature gradient uniform in height of the pair room, providing uniform thermal expansion of the facing material of electric heating panels , which increases the reliability and durability of the bath. In addition, by using the hot air generator 36 described above, it is possible to create an atmosphere in the bath that is saturated with vapors of healing herbs, which greatly expands the therapeutic possibilities of the procedures performed in the bath.

The work of the bath and its use by the consumer are implemented as follows.

First, using the means of regulating and automatically maintaining the temperature, set the desired temperature for different groups of IR emitters located in different thermal zones of the double room.

So, for sun loungers, this temperature is 43-46 ° C, for the floor 35-40 ° C, for walls in the middle part of the double room 45-50 ° C. In the hottest part of the steam room in the ceiling area, where hot air is collected and a steam recovery pool is formed, the optimum temperature is 60-75 ° C.

Then, infrared emitters are turned on, as well as a hot air generator, and after 30-45 minutes they proceed to direct bath procedures.

Begin with warming up to plentiful release of sweat, for example, in the sauna mode. After that, depending on the state of health, they either take a shower and finish bathing procedures, or switch to the mode of a Russian steam bath. To do this, steam is pumped up by supplying clean water through a funnel to the lower part of the heat accumulator of the hot air generator, raise the temperature to a tolerable value (about 80-90 ° C), and massage the body with a broom as in an ordinary Russian steam bath. Steam can be simple or flavored, with additional health and healing properties. For this, the most suitable variant of the generator of hot air with two tanks. In one container, the heating temperature of the heat accumulator is set in the range of 300-500 ° C, and in the other, which is of lesser capacity and volume, the heating temperature of the heat accumulator is set in the range of 80-100 ° C. Water is poured into a container with a more powerful heat accumulator to produce hot steam, and flavoring is supplied to a smaller container. As a result, the organic component of the flavor is not exposed to ultra-high temperature and does not fade, while maintaining the natural flavor.

For a better healing effect in the room, baths arrange a volley exhaust ventilation system. The simplest version of such a system is a regular window. When placing a bath in an apartment or a cottage, the exhaust ventilation system may be a ventilation duct with a fan and control equipment installed in it.

Thanks to such a system, it becomes possible to carry out the procedure of hardening the body by alternating exposure of the body to hot steam and cooled air from the inlet ventilation system, which can also be equipped with a bath. After that take a douche and finish bath procedures.

Thus, the technical solutions used in the proposed bath make it possible to implement various modes of its use and provide high efficiency of the IR radiation effect in the most favorable wavelength range for humans.

The technical possibility of manufacturing and replication of the proposed bath is beyond doubt. It boils down to the possibility of realizing the heated surfaces of the walls, the floor and the lounger, as well as the automatic control system for the heating temperature of these surfaces and the hot air generator. Technological processes for the manufacture of these devices are well known and mastered by industry. Therefore, the production of baths can be organized at any enterprise of the construction complex.

Claims (23)

CLAIM 1. A bathhouse containing at least a steam room limited by a ceiling, floor and wall heating, at least one heated sunbed seat is integrated inside the room, and it is equipped with a system of electric heating panels with resistive heating elements and IR emitters, the latter of which are a lining of electric heating panels that are placed on the surface of the walls, floor and at least one seat-lounger and combined into groups, each of which is equipped with a means of regulation and automatically maintaining the temperature, respectively, of the floor surfaces, walls and at least one lounger to form a thermal field of infrared radiation, a hot air generator and controlled by extract and input ventilation, characterized in that the system of electric heating panels with resistive heating elements and infrared emitters contains additional electric heating panels with resistive heating elements and IR emitters, which are placed on - 7 014376 of the ceiling surface, IR emitters of electric heating panels and additional electric heating panels are respectively placed on the surfaces of the walls, floor, at least one sunbed and ceiling with the possibility of heating the entire volume of the paired room and the formation of at least four paired horizontally rooms of thermal zones, the first of which is formed by means of infrared emitters placed on the floor surface and has a temperature of infrared radiation from 25 to 40 ° C, the second zone is formed by means of infrared emitters located on the wall surface near the floor surface and has an infrared temperature of 35 to 45 ° C., the third zone is formed by infrared emitters placed on the surface of the walls above the second zone and has an infrared temperature of 40 up to 60 ° C, the fourth zone is formed by IR emitters placed on the wall surface near the ceiling and on the ceiling surface, and has an IR radiation temperature of 55 to 75 ° C, while the hot air generator is located in the third and / or fourth thermal areas. 2. The bath according to claim 1, characterized in that the steam room has slopes made between the ceiling and the walls, while additional electric heating panels with resistive heating elements and IR emitters are placed on the surface of the slopes. 3. The bath according to claim 1, characterized in that the second zone is from 30 to 40% of the volume of the steam room. 4. The bath according to claim 1, characterized in that the third zone is from 50 to 60% of the volume of the steam room. 5. The bath according to claim 4, characterized in that the third zone in height consists of two parts, the lower of which has an infrared temperature of 40 to 50 ° C, and the top - from 45 to 60 ° C. 6. The bath according to claim 5, characterized in that the lower and upper parts of the third zone, each, comprise from 25 to 30% of the volume of the paired building. 7. The bath according to claim 1, characterized in that the fourth zone is from 15 to 20% of the volume of the steam room. 8. The bath according to claim 1, characterized in that the electric heating panels placed on the surface of the seat-lounger are combined along the length of the lounger in at least three groups with individual regulation and automatic maintenance of temperature in each group in the range from 30 to 50 ° FROM. 9. The bath according to claim 1, characterized in that the IR emitter of each electric heating panel and each additional electric heating panel is made of natural stone material or dense ceramic tiles. 10. The bath according to claim 1, characterized in that the resistive heating element of each electric heating panel and each additional electric heating panel is made of nichrome wire, the length and cross section of which are selected from the ratios 15 m ^-1 <b / b <25 m ^-1 , where b is the length of the nichrome wire, m; B - the area of the electric heating panel, m ² ; @ = b-b-ore / and ² , where @ is the cross section of a nichrome wire, m ² ; 11 - specific resistance of nichrome, Ohm-m; R _beats is the specific thermal power of the electric heating panel, W / m ² ; and - supply voltage of the electric heating element, V. 11. The bath according to claim 1, characterized in that the steam room is a collapsible cabin, consisting of separate floor panels, walls, ceiling and panels with an entrance door, while these panels are made with a refractory heat-insulating layer located between the outer lining panels and electric heating panels with IR emitters. 12. The bath according to claim 1, characterized in that the controlled supply and exhaust ventilation contains an exhaust fan that is installed with the possibility of creating an adjustable ventilation mode during the pair and massage procedures in the paired room. 13. The bath according to claim 1, characterized in that the steam room has an adjustable channel in communication with the outside atmosphere for the implementation of intensive exhaust ventilation of the steam room. 14. The bath according to claim 1, characterized in that the controlled supply and exhaust ventilation contains a blower fan to provide controlled supply ventilation in a double room. 15. Bath according to claim 14, characterized in that a low-temperature air heater is installed in the channel of the discharge fan. 16. The bath according to 14, characterized in that a dehumidifier is installed in the channel of the blower fan. 17. The bath according to claim 1, characterized in that it further comprises a dressing room, and / or a washing compartment, and / or a relaxation room. 18. The bath according to claim 1, characterized in that the hot air generator is a thermal container that has a sealed enclosure lined with natural stone material or - 8 014376 with ceramic tiles, a cover made in the form of a perforated panel having an open neck, and double walls between which heat-insulating material is placed, while inside the case there is a container open on top, in which electric heating elements, IR emitters and a temperature sensor are placed, and the housing is housed in a casing with a perforated bottom, and channels for convective air passage are formed between the casing and the outer walls of the housing. 19. A hot air generator for a steam room, which is a thermal container, in a sealed enclosure which contains electric heating elements and IR emitters, characterized in that the sealed enclosure is lined with natural stone material or ceramic tile, has a cover made in the form of a perforated panel having open neck, and double walls, between which heat-insulating material is placed, while inside the case there are two containers open on top, in each of which electric heating elements, infrared emitters and a temperature sensor are placed, while the electric heating elements of each tank are made with the possibility of independent heating and maintaining the set temperature of the respective heat accumulators, and the housing is placed in a casing with a perforated bottom, and channels for convective passage are formed between the casing and the outer walls of the housing air. 20. The hot air generator according to claim 19, characterized in that the IR emitters are placed in each container in two layers, the lower of which occupies from 1/2 to 2/3 of the tank height and consists of fractions from 3 to 5 cm, and the top layer is placed up to the housing cover and consists of fractions from 4 to 10 cm. 21. The hot air generator according to claim 20, characterized in that the infrared emitters of the lower layer are infrared emitting elements selected from the group: lumpy infrared emitting elements, stones, balls from ball bearings, cast iron fragments, and infrared emitters of the upper layers are stones. 22. The hot air generator according to claim 19, characterized in that the electric heating elements of each tank are one or more tubular electric heaters located in the lower part of the corresponding tank, and the IR emitters contain metal plates covering the tubular electric heaters, and discrete elements in the form stones placed at the top of each container. 23. A hot air generator according to any one of claims 18 to 22, characterized in that it comprises a funnel arranged to supply water through said funnel to the infrared emitters of both containers.