RU87912U1 - STEAM FORMER - Google Patents

Abstract

1. The steam generator, made in the form of a metal chamber for the evaporation of water, containing several successively located cavities, each of which is formed by a wall that is conjugated to a heat source that provides heating of the wall to a temperature not lower than the boiling point of water, and a profiled element mounted on the wall, moreover, the cavity is successively communicated with each other so that water from the previous cavity entered the subsequent cavity, with each cavity having an opening I for steam exit, and the upper cavity of the evaporation chamber is made open for supplying water to the chamber, characterized in that it is additionally equipped with a carrier panel, a protective and decorative convector and a water tank, and an electric heating element is installed that is tightly adjacent to the above heated walls of the evaporation chambers, closed on top with a perforated wall, and forming a vaporization unit with them, which is placed in the housing and closed with a protective net, a water tank equipped, at least e, with one dispensing tap, installed above the vaporization unit and separated from it by a screen with holes for the flow of water, forming a niche with a protective net and a protective-decorative convector, with a window for steam exit, and the carrier panel is made with the possibility of attaching the body to it, water tanks and protective and decorative convector. ! 2. The steam generator according to claim 1, characterized in that it can be made of stainless steel sheet. ! 3. The steam generator according to claim 1, characterized in that the lower cavity of the evaporation chamber can be provided

Description

The utility model relates to thermal technology, namely, devices for producing steam and supplying them with premises for various purposes. The utility model can be used to humidify the air and heat the steam room in individual and collective baths, as well as used for hygienic purposes, for the adoption of spa procedures and aromatherapy.

Known electric evaporator Harvia Sauna Steamer (Harvia Oy PL 12 40951 Muurame Finland,) designed to humidify the air in the bathhouse, including an evaporator - a tank for water, a heater heater and a thermostat that measures the temperature in the sauna. Humidification in the sauna occurs due to the evaporation of water during boiling.

The disadvantage of this device is to obtain wet steam, high energy costs for its production and the lack of the ability to obtain and control stable humidity and temperature characteristics in a steam bath. In addition, the scum on the walls of the tank and in the metering devices, formed during boiling, reduces the life of the device and complicates its maintenance.

Known steam generator with heat storage filling for use in a sauna according to patent GB1077578, IPC A61H 33/06, publ. 08/02/1967, consisting of a container with stones, an electric heating element, a fan for forced air supply through the stones.

The disadvantage of this device is the lack of the ability to obtain and control stable humidity and temperature characteristics in the steam room. So in order to obtain a suitable humidity, it is necessary to pour hot stones over water. The amount of water poured onto the stones controls the humidity, so it is recommended to pour water on the stones in small portions, feeling the effects of moisture on the skin. This creates inconvenience in the process of soaring. In addition, steam generators with heat-accumulating backfill have a low efficiency, since a large amount of heat is spent on maintaining the high temperature of the stones.

More intensive vaporization is provided by metal vaporizers.

The closest in technical essence and the achieved result is a steam generator for a bath according to the application WO2008143543, IPC F24C 13/00; A61H 33/00, A61H 33/06, publ. 27.11. 2008, made in the form of a metal chamber for water evaporation, containing several successively located cavities, each of which is formed by a wall conjugated to a heat source, providing heating of the wall to a temperature not lower than the boiling point of water, and a profiled element mounted on the wall, connected between in such a way that water from the previous cavity enters the subsequent cavity, and each cavity is provided with openings for the exit of steam

The disadvantages of this steam generator is the inability to establish and maintain the necessary stable humidity and temperature in the steam room.

The objective of the proposed technical solution is to create an easy-to-maintain electrical device designed to improve conditions in the steam room.

The technical result achieved by this utility model is the ability to establish stable temperature and humidity characteristics in the steam room with the possibility of their regulation, reducing the time to get light, dry steam.

The problem is achieved in that the steam generator, made in the form of a metal chamber for the evaporation of water, containing several successively located cavities, each of which is formed by a wall that is conjugated to a heat source, providing heating of the specified wall to a temperature not lower than the boiling point of water, and installed on the specified the wall with a profiled element, the cavities being successively communicated with each other so that water from the previous cavity enters the subsequent cavity each cavity has openings for steam outlet, and the upper cavity of the evaporation chamber is made open for supplying water to the chamber, according to the formula, it is additionally equipped with a supporting panel, a protective and decorative convector and a water tank, and an electric heating element is installed as a heat source tightly adjacent to the aforementioned heated walls of the evaporation chambers, closed on top of a perforated wall, and forming a vaporization unit with them, which is placed in the housing and closed by a protective net, a container for of water, equipped with at least one dispensing tap, is installed above the vaporization unit and is separated from it by a screen with holes for water flow, forming a niche with a protective net and a protective-decorative convector with a window for steam exit, and the supporting panel is made with the possibility of fastenings on it of the case, capacity for water and the protective and decorative convector.

The problem is also solved due to the fact that the steam generator is made of stainless steel sheet. The lower cavity of the evaporation chamber is provided with an opening for draining water from the chamber. The vaporization unit is installed in the housing using clamps. The metering valve can be made in the form of a needle valve.

The water tank is removable and has a removable perforated lid. Protective and decorative convector is made with convection holes.

In the lower part of the housing there is a clip for attaching a power cable for connecting a heating element to an electric circuit and a visor to protect the cable and electrical connections from water.

The specified set of features is significant and new since the implementation of the evaporation chamber walls from metal allows you to quickly begin the process of vaporization, since water is in contact with almost the entire surface of the hot metal walls of the chamber. The flat wall of the evaporation chamber, which is tightly adhering to the heat source, heats up very quickly to high temperatures, the wall in the form of a profiled element, also made of metal and connected to the flat wall, for example, by welding, is also heated to the indicated level. Using an electric heating element allows you to keep a stable temperature, installing it in close proximity to the heated walls of the evaporation chambers allows you to more fully use the supplied heat energy. The vaporization unit provides continuous steam generation. A perforated wall mounted on top of the vaporization unit creates a limited space for heating steam and, at the same time, is adapted for water to pass through it. Dosing valves supply water in the drip mode and allow you to select the water supply with the required intensity, which allows you to set and adjust individually the optimal microclimate in the steam room. The water tank is installed above the vaporization unit so that water can flow from it by gravity, without the use of forced water supply devices. The perforated cover allows you to control the water level and, if necessary, fill the water without removing the cover. The screen protects the water tank from overheating. The water contained in it does not heat up to the boiling point and is not a source of wet steam; moreover, scale does not form on its walls and in metering taps. The screen has a higher temperature than the walls of the water tank, therefore, steam does not condense on it, which makes it possible to more fully use the energy of the steam to create a climate in the steam room. The steam received in the vaporization unit and the hot air heated by the walls of the casing are mixed and pass through a protective net into a niche. The niche formed by the screen, the protective net and the side walls of the protective and decorative convector is the exit point of the steam-air mixture into the steam room through a window made on the front surface of the protective and decorative convector and a place for visual observation of the water supply. Protective and decorative convector shields hard infrared radiation coming from the walls of the housing, and in addition, accelerates the heating of air in the room and ensures safety when touched. The carrier panel allows you to fix the spatial orientation of the vaporization unit, the water tank and the screen so that the water from the tank exactly gets into the upper open cavity of the evaporation chamber.

The essence of the utility model is illustrated by drawings. Figure 1 presents the steam generator in the context, figure 2 is a block of vaporization in the context.

The steam generator is made of thin-sheet stainless steel and consists of a housing 1, inside which the steam generation unit 3 is fixed with clamps 2. The vaporization unit 3 includes an electric heating element 4 and evaporation chambers 6. The electric heating element 4 has a standard design. The evaporation chamber 6 is formed by a profiled element 7, hermetically welded with a heated wall 5, with the formation of cavities 8. The cavities 8 are provided with openings 9 for steam output. The vaporization unit 3 is closed from above with a perforated wall 10. Two heated walls 5 and the upper perforated wall 10 form a closed space where additional heating of the vapor-air mixture by the electric heating element 4 and its further exit through the perforated wall 10. From above, the housing 1 is closed by a protective mesh 11, which provides the possibility of water flowing from the water tank 12, which is placed above the vaporization unit 3 and prevents foreign objects from entering the case 1 of the steam generator. In the tank for water 12 installed metering valves for water supply 13. The water tank 12 is closed from above by a removable perforated lid 14. The housing 1 and the water tank 12 are closed by a protective and decorative convector 15. The water tank 12 is installed above the vaporization unit 3 and is protected from overheating by the screen 16. The screen 16 has openings 17 for water leakage from the metering valves 13 to the upper open cavity 8 of the evaporation chamber 6. The position of the vaporization unit 3 is fixed with the help of clamps 2, so as to ensure that water can accurately enter the open upper cavity 8 of the evaporation chamber 6. Case 1, mkost water 12 and protective-decorative convector 15 are mounted on the supporting plate 18, which is configured to mount to a wall. The protective mesh 11 and the protective screen 16 form a niche 19 for steaming a broom or installing cups with flavors. On the front surface of the protective and decorative convector 15, a window 20 is made that opens the entrance to the niche 19. A clip 21 for the power cable and a visor 22 for protecting the cable and electrical connections from water are installed in the lower part of the housing 1. The lower cavity 8 of the evaporation chamber 6 is provided with an opening 23 for draining water from the chamber.

The steam generator operates as follows.

Capacity 12 is filled with water. Turn on the power to the heating element 4. After 1-2 minutes, open the dosing valves 13 of the water supply. Set the required flow rate corresponding to the power of the heating element. The flow rate is determined by the frequency of droplets emerging from the metering valve 13. Drops of water from the metering valve 13 pass through the mesh 11, the perforated wall 10 and fall into the open cavity 8 of the evaporation chamber 6 of the vaporization unit 3. Getting on a heated metal surface, the water partially evaporates and then enters the next cavity 8, where it also partially evaporates and through the openings 9 in the cavities 8 steam enters the space where the heating element 4 is installed. Here, additional heating of the steam takes place, it is dried and the water spray. The dry steam obtained in the steam generating unit 3 is mixed with heated convection air passing through the steam generator body 1 and leaves into a niche 19. The steam-air mixture leaves the steam generator through window 20 on the front surface of the convector 15. After the bathing procedures are completed, the steam generator is disconnected from the electric network. The flow of water from the tank 12 is stopped by the metering tap 13. When the steam generator is running without water, the scum formed in it burns out, and the exfoliated particles of salts are washed out of the steam generator with water during the subsequent supply of water to the steam generator.

Thus, a steam generator is proposed, which in the process of use has proved itself to be an effective, reliable, easy-to-use and maintenance device. The use of a steam generator of this design with an electric heating element allows you to quickly get the desired comfortable ratio of temperature and humidity in the steam room.

Claims (11)

1. The steam generator, made in the form of a metal chamber for the evaporation of water, containing several successively located cavities, each of which is formed by a wall that is conjugated to a heat source that provides heating of the wall to a temperature not lower than the boiling point of water, and a profiled element mounted on the wall, moreover, the cavity is successively communicated with each other so that water from the previous cavity entered the subsequent cavity, with each cavity having an opening I for steam exit, and the upper cavity of the evaporation chamber is made open for supplying water to the chamber, characterized in that it is additionally equipped with a carrier panel, a protective and decorative convector and a water tank, and an electric heating element is installed that is tightly adjacent to the above heated walls of the evaporation chambers, closed on top with a perforated wall, and forming a vaporization unit with them, which is placed in the housing and closed with a protective net, a water tank equipped, at least e, with one dispensing tap, installed above the vaporization unit and separated from it by a screen with holes for the flow of water, forming a niche with a protective net and a protective-decorative convector, with a window for steam exit, and the carrier panel is made with the possibility of attaching the body to it, water tanks and protective and decorative convector. 2. The steam generator according to claim 1, characterized in that it can be made of stainless steel sheet. 3. The steam generator according to claim 1, characterized in that the lower cavity of the evaporation chamber may be provided with an opening for draining water from the chamber. 4. The steam generator according to claim 1, characterized in that the vaporization unit is installed in the housing using latches. 5. The steam generator according to claim 1, characterized in that the metering device can be made in the form of a needle valve. 6. The steam generator according to claim 1, characterized in that the water tank is removable. 7. The steam generator according to claim 1, characterized in that the lid of the water tank is removable. 8. The steam generator according to claim 1, characterized in that the lid of the water tank is perforated. 9. The steam generator according to claim 1, characterized in that the protective and decorative convector is made with convection openings. 10. The steam generator according to claim 1, characterized in that in the lower part of the housing there is a clip for attaching a power cable for connecting the heating element to an electrical circuit. 11. The steam generator according to claim 1, characterized in that a visor is installed in the lower part of the housing to protect the cable and electrical connections from water.