RU174489U1 - Closed bath furnace - Google Patents

Abstract

The claimed utility model relates to heat engineering, namely to domestic bath stoves and is intended for heating the room and receiving steam, is a closed-type bathhouse furnace, including a casing, legs, a lid, a fuel channel, an ash pan, a furnace, tapering to the base, an air pocket formed by the walls of the casing and the furnace, at least 4 separate chambers with five side faces and a base, filled with heat-accumulating material, a chimney, side smoke channels, the chambers are enveloped by side smoke channels along the meter, by the fifth face, facing the center, is a central smoke channel divider, stiffeners grate disposed in the bottom of the furnace, and the furnace flange remote for a gas burner assembly; characterized in that the chambers filled with heat-accumulating material have a separate base and are immersed in the furnace, the base of the chambers is made separate, the side smoke channels are connected to the central smoke channel along the entire height of the chambers, the lid covers the upper part of the casing, air pocket and chambers, and the chimney attached to the upper parts of the side facing the center of the faces of the chambers, filled with heat-accumulating material, so that the chimney is a coaxial extension of the central smoke channel. eznaya model has improved consumer properties, provides improved protection of the skin from the hard radiation from a metal longer maintains the desired temperature and humidity level in the room and has industrial applicability.

Description

Application area.

The utility model relates to heat engineering, namely to household bath stoves and is intended for heating the room and receiving steam.

The level of technology.

Recently, there has been a need for sauna stoves with high efficiency of using thermal energy obtained during fuel combustion, including increasing the time to maintain the furnace temperature with lower fuel consumption and reducing risks to consumer health. However, for various reasons, well-known technical solutions do not meet the requirements.

Below are a number of patented technical solutions-analogues, which are household bath stoves.

A technical solution is known, disclosed in patent RU 2352865 (IPC F24B 9/00; published on 04/20/2009) “A furnace for a bath (options)”, which is a furnace for a bath containing a furnace body, a furnace with two chambers filled with heat-accumulating material in top of the furnace, exhaust manifold, chimney, cut-offs and a removable water tank. The collector is located between the vertical walls of the chambers filled with heat-accumulating material, and is limited by the upper wall with a chimney and two inclined plates with a gap in the middle in the lower part. The collector has inclined guide walls, as well as windows for the passage of flue gases in the side walls of the exhaust manifold. The chambers filled with heat-accumulating material are installed so that their side walls and side walls of the exhaust manifold with the walls of the furnace body form a gas duct, the entire width of which is installed with cutoffs at the junction of the side wall and the bottom of the exhaust manifold. The cut-offs are in the form of a rectangular plate with the edges bent up. On top of the furnace is limited by a frame that mates with the upper contour of the furnace, the surface forming a slope to the chambers, filled with heat-accumulating material, on which a removable water tank is mounted.

The disadvantages of this technical solution are the lack of thermal insulation on the surface of the casing of the bath furnace, which leads to the rapid drying of steam and an increase in convective air flow from the furnace and the lack of protection from hard radiation harmful to the skin. Also, this bath furnace has a small number of chambers filled with heat-accumulating material, which leads to faster cooling of the furnace when water is “poured” into the chambers to form steam.

Also known is a technical solution disclosed in patent RU 2289069 (IPC F24B 13/02, F24C 13/00; published December 10, 2006) "A furnace for heating a room", which is a furnace for heating a room, comprising a housing, a furnace, a grate, heat storage material laid between the firebox and the walls of the casing, a gas duct connected to the firebox and the chimney, a water heater. The firebox has the shape of a truncated pyramid. Above the junction of the walls of the casing and the furnace, openings are made for the entry and circulation of cold air through the heat-storage material, and the water heater is made in the form of a grate pipe located around the perimeter of the grate, on which the furnace is installed.

The disadvantages of this technical solution are the open type of the bath furnace, which leads to faster cooling of the heat-accumulating material. The heat storage material does not interact with flue gases and is heated only by the upper surface of the furnace and the chimney channel, and the heat storage material is cooled through openings. Which leads to a significant decrease in furnace efficiency.

The closest technical solution, disclosed in the patent for utility model RU 108823 (IPC F24B 13/00, F24B 5/02; published September 27, 2011), “Furnace”, which is a furnace containing a body, a grate with a grate, is selected as a prototype for a utility model. a grate, a chimney, at least two chambers filled with heat-accumulating material located above the firebox, a gas duct passing along the perimeter of the body around the chambers, connected to chambers filled with heat-accumulating material, and a fire chamber, characterized in that the chambers filled with heat cumulative material, separated by gas ducts connected to the furnace through slots formed by the walls of the housing and the bottom of the chambers, slots are made in the chimney in the area of the separation channels; the side walls of the housing on three sides are made of two rows of sheet corrugated material interconnected so that they form vertical channels between themselves, and the cavities formed between the walls of the chambers and the corrugated walls of the housing are tightly closed from above; on the front wall of the housing in front of the furnace there is a loading channel, which is surrounded by a hollow casing with holes for air inlet and outlet.

The device operates as follows. Fuel is ignited in the furnace, for example, firewood. Combustion products in the form of flue gases pass through slots formed by the bottom of the chambers and corrugated walls of the casing, falling into the gas duct passing along the perimeter of the casing around the chambers, heating the walls of the chambers facing the casing. Further, the flue gases pass into the smoke channels separating the chambers, heating the walls of the chambers facing each other. Smoke removal occurs through the slots in the chimney. The second row of corrugated sheet material forms, with the first row of corrugated walls of the body, longitudinal channels in which the incoming cold air is heated.

The combustion mode of the fuel is regulated by the extension of the ash box. The front wall of the furnace heats cold air, which enters the openings located in the lower part of the front wall, and, when heated, exits into the upper openings regulated by the plate.

This technical solution has several disadvantages. It uses an open type of heater, which makes it impossible to obtain a sufficiently high temperature of the heat-accumulating material in the chamber and micro droplets of steam. The furnace body is covered with corrugated sheet material. As a result, the intensity of the convective air flow increases on the furnace body, which leads to faster cooling of the furnace and drying of the steam, as well as the formation of hard radiation harmful to the skin. Also, part of the flue gas enters directly into the chimney, reducing the efficiency of heating chambers filled with heat-accumulating material. In this technical solution, chambers filled with heat-accumulating material have comparable height and width, which leads to lower efficiency of heating the chambers.

The objective of the utility model is to create a sauna stove with improved consumer properties, including safe for the health of the consumer.

The technical result of the utility model is to increase the efficiency of the bath furnace in the form of long-term maintenance of the required temperature and humidity conditions in the room while reducing the amount of generated hard radiation that is harmful to the skin.

The claimed technical result is achieved in that the furnace for a closed bath, including a casing, legs, a lid, a fuel channel, an ash pan, a furnace narrowing to the base, an air pocket formed by the walls of the casing and the furnace, at least 4 separate chambers with five side faces and the base, filled with heat-accumulating material, a chimney, side smoke channels, chambers are bent around by side smoke channels around the perimeter, from the side of the fifth face that faces the center, the central smoke channel, divider, ribs rigidity to reduce the vertical load on the chambers with heat-accumulating material, the grate located in the lower part of the furnace, external fireboxes and a flange for mounting a gas burner, characterized in that the chambers filled with heat-accumulating material are immersed in the furnace, the base of the chambers can be made separate, side smoke channels are connected to the central smoke channel along the entire height of the chambers, the lid covers the upper part of the casing, air pocket and chambers, and the chimney is attached to the upper parts of the side inlets centered on the faces of the chambers filled with heat-accumulating material, so that the chimney is a coaxial extension of the central smoke channel. In this case, chambers filled with heat-accumulating material are oriented vertically. In this case, the casing is lined with heat insulating material on three sides. In this case, the divider closes the entrance to the central gas channel from the side of the furnace. In this case, the upper part of the air pocket is connected to the chambers filled with heat-accumulating material. At the same time, a remote firebox is installed in the fuel channel or a flange is installed on the fuel channel for mounting a gas burner. Moreover, the facing material is made of natural stone. In this case, the facing material is polished.

Description of the claimed utility model.

The utility model is a closed bath furnace and is illustrated by the drawings shown in FIG. fourteen.

The casing 1 of the furnace is made of metal 1 mm thick and is located on legs 2 with a thickness of 2 mm. A fuel channel 4 of metal with a minimum thickness of 2 mm and an ash pan 5 located under the fuel channel 4 are connected to it. Inside the casing 1 there is a furnace 6, separated from the casing 1 by an air pocket 7 with a width of at least 17 mm for additional screening of the external casing 1 from overheating and reducing the intensity of convective air flow. The bottom of the furnace 6 is 2 tapering to the base of the wall into which the grate is inserted 14. At least 4 separate chambers 8 are immersed in the furnace 6, filled with heat-accumulating material, with a wall thickness of at least 3 mm, made elongated vertically (height greater than width ), moreover, the chambers 8 are oriented with their bases towards the furnace 6. Moreover, each chamber 8, filled with heat-accumulating material, has its own base. Thus, the chambers 8, filled with heat-accumulating material, are immersed in the furnace 6. The number of chambers 8 is due to the fact that the water supply to the heat-accumulating material in the chambers 8 is carried out in turn into each chamber, one at a time. Between the chambers 8, filled with heat storage material, there are smoke channels.

Chambers 8, filled with heat-accumulating material, have five side faces, separated from each other on four sides by side smoke channels 10 with parallel walls, a width of at least 20 mm. With the fifth side face facing the center of the furnace, there is a central smoke channel 11 bordering the remaining chambers 8 and having a width of at least 100 mm. Moreover, the side smoke channels 10 bend around the chambers 8, filled with heat-accumulating material, along the perimeter and are connected along the entire height of the chambers 8 with the central smoke channel 11. At the same time, the top smoke channels 10 are bounded by metal plates located at the upper boundary of the chambers 8 filled with heat-storage material . From the base of the chambers 8, filled with heat-accumulating material, there is a divider 12 that covers the central smoke channel 11. The divider 12 is a metal plate with a thickness of at least 3 mm and is mounted on the bases of the chambers 8 with heat-accumulating material. The divider 12 slows down the movement and redistributes the direction of movement of the flue gases in such a way that the flue gases additionally heat the chambers 8 on their outer sides using the side flue channels 10.

In the upper part of the chamber 8, which are filled with heat-accumulating material, are connected by lateral faces facing the center, with a chimney 9, a width of at least 115 mm, so that the chimney 9 is a coaxial extension of the central smoke channel 11. On top of the chamber 8, which are filled with heat-accumulating material, connected to the upper part of the air pocket 7 and limited to a cover 3, consisting of two halves with handles for opening 15. Also, the cover 3 closes the upper part of the casing 1. The connection of the chambers 8 and the upper part of the air pocket 7 allows air to circulate and provide a more uniform emission of steam with time.

The fuel channel 4 is not closed and can be closed by remote furnaces or a door made of any known material, for example, glass. As a remote firebox, any known remote firebox can be used. Under the fuel channel 4 is an ash pan 5, made in the form of a metal drawer. Also, the fuel channel 4 can be based on the lower level of the furnace or can be mounted.

Outside, the casing 1 of the furnace is lined on three sides with heat-insulating material 16, which protects against the formation of hard radiation on the metal surface and an additional convective air flow, which contributes to faster cooling of the furnace. As a heat-insulating material 16 can be a tile made of natural stone, for example, a coil, granite, talcochlorite, jadeite or marble. The heat insulating material 16 may be polished. The lining is made as follows. The heat-insulating material 16 is placed on the lower base of the casing 1 and inserted into the fixed guide on the casing 1 with a groove. The upper part is fastened with a bracket installed in the tile slots and fixed with the edges on the casing 1. The third finishing row is fixed on top by the cover 3.

If necessary, a flange 17 for mounting a gas burner can be installed on the fuel channel 4. As a gas burner, any known gas burner can be used.

The device operates as follows. In furnace 6, fuel is ignited, for example firewood. At the first stage, flue gases rush up along the side smoke channels 10, while bypassing the central smoke channel 11, closed by a divider 12, thereby providing additional more efficient heating of the chambers 8 filled with heat-accumulating material. Then, from the side smoke channels 10, the flue gases enter the central smoke channel 11 and exit into the chimney 9.

When you open the lid on the chamber 8, filled with heat-accumulating material, alternately "succumbs" to water. In the context of this application, the term “lends itself” means the supply of a small portion of water to a heat storage material to form steam. Thus, a longer heat storage in the chambers 8 is achieved, since the chambers 8 cool one at a time. Moreover, since the chambers 8 are vertically elongated (the height is greater than the width), the efficiency of vaporization increases due to the longer contact of water with heat-accumulating material inside the chambers 8.

The steam enters the room through the air pocket 7 due to the connection of the space between the chambers 8, filled with heat storage material and the lid 3 and the upper part of the air pocket 7. This design allows, for example, to obtain high-quality micropairs. The cover 3 performs the function of controlling the temperature in the room so that the open position of the cover 3 leads to a faster rise in temperature in the room.

Thus, the claimed utility model has improved consumer properties, provides improved protection of the skin from hard radiation from metal, longer maintains the required temperature and humidity level in the room and has industrial applicability.

FIG. 1. General view of the furnace in section.

FIG. 2. Section along A – A.

FIG. 3. Section along B – B.

FIG. 4. View from the front of the furnace with a mounted flange for mounting a gas burner.

Claims (9)

1. A closed-type bath furnace, including a casing, legs, a lid, a fuel channel, an ash pan, a furnace narrowing to the base, an air pocket formed by the walls of the casing and the furnace, at least four separate chambers with five side faces and a base, filled heat-accumulating material, a chimney, side smoke channels, chambers are bent around by side smoke channels around the perimeter, from the side of the fifth face facing the center, there passes a central smoke channel, a divider, stiffeners, a grate located at the bottom and inserts, and combustor flange remote for a gas burner assembly; characterized in that the chambers filled with heat-accumulating material are immersed in the furnace, the base of the chambers is separate, the side smoke channels are connected to the central smoke channel along the entire height of the chambers, the lid covers the upper part of the casing, air pocket and chambers, and the chimney is attached to the upper parts side facing the center of the faces of the chambers, filled with heat-accumulating material, so that the chimney is a coaxial continuation of the central smoke channel. 2. The furnace for a closed bath according to claim 1, characterized in that the chambers filled with heat storage material are oriented vertically. 3. The furnace for a closed bath according to claim 1, characterized in that the casing is lined on three sides with an insulating material. 4. The furnace for a closed bath according to claim 1, characterized in that the divider closes the entrance to the Central gas channel from the side of the furnace. 5. The furnace for a closed bath according to claim 1, characterized in that the upper part of the air pocket is connected to chambers filled with heat-accumulating material. 6. The furnace for a closed bath according to claim 1, characterized in that an external firebox is installed in the fuel channel. 7. The furnace for a closed bath according to claim 1, characterized in that a flange for mounting a gas burner is installed on the fuel channel. 8. The furnace for a closed bath according to claim 3, characterized in that the facing material is made of natural stone. 9. The furnace for a closed bath according to claim 3, characterized in that the facing material is polished.

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