RU201763U1 - BATH OVEN - Google Patents

Abstract

The technical solution relates to solid fuel heating devices used to heat air and generate steam in baths. The task is to create a collapsible stove for a bath, made of cast metal parts, which, when assembled, ensure that all butt joints are sealed, sufficient to prevent the leakage of flue gases and other combustion products into the room in which it is located. The technical result is an increase in the tightness of the furnace space while simplifying the design of the prefabricated furnace, which reduces the dimensions of the furnace in a disassembled (transport) state. For this, the bath stove contains an upper plate, a base, walls forming a combustion unit with a grate installed in the opening of the grate and a prefabricated flame arrester located above it, in which the combustion channel is formed by sections of different lengths joined along the length and is connected to the combustion unit on one side, and, on the other hand, it has an end flange, to which, with the formation of a detachable tongue-and-groove connection, the combustion door adjoins, while all the joints of the walls of the combustion unit and the upper plate, which has a smoke exhaust pipe and forms a recess open from above, are made through a tongue-groove, in the grooves of a refractory cord is laid and a heat-resistant sealant is placed, and the base has a collar on the side of the rear and side walls, to which they adjoin the lower part of the outer surface, on the inner surface of which projections are formed that hold the grate plate, forming a spacer for the walls relative to the collar, and the combustion channel is fixed directly to the combustion unit with a heat-resistant sealant and a fire-resistant cord. 3 C.p. f-ly, 1 dwg

Description

The technical solution relates to solid fuel heating devices used for heating air and generating steam in baths.

From RU 145329 U1, F24B 1/189, published on 09/20/2014, a furnace for mobile structures with a movable damper and a spark arrester is known, containing a housing in which a combustion chamber with a door is located, a grate, an ash pan with an ash drawer, a chimney, a protective casing - a convector and supports, in which the combustion chamber contains a damper with the possibility of its movement and a spark arrester adjacent to the chamber, consisting of a cavity and a chimney pipe immersed in it.

The disadvantage of this furnace is the complex shape of the body, which does not allow the furnace to be manufactured by casting. Also, during the combustion of fuel, scale will form in the furnace space, the walls of the furnace will become thinner, as a result of which the furnace will become unusable. In addition, a flame arrester is located next to the combustion unit, which increases the mass of the furnace structure.

The closest analogue is a bath stove (RU 150387 U1, F24B 1/24, published on February 20, 2015), which contains a body, a portal installed on the front side of the body, a firebox located in the body, a metal bed for stones located above the firebox and consisting of three sections, a chimney, in which each of the sections of the metal bed has the shape of a hollow open top inverted truncated pyramid with a rectangular base, the sections of the metal bed are connected by long upper edges, while a flame arrester is installed under the chimney, which ensures the movement of gases along the metal bed.

The disadvantage of this furnace is the unreliable sealing of the joints of the walls of the furnace unit, which can lead to the breakthrough of combustion products into the steam room. Also, this oven is inconvenient in transportation and storage due to the large number of ribbed parts, which take up a lot of space during transportation from production to the place of sale.

The objective of this technical solution is to create a collapsible stove for a bath, made of cast metal parts, which, when assembled, provide sealing of all butt joints sufficient to prevent leakage of flue gases and other combustion products into the room in which it is located.

The technical result is to increase the tightness of the furnace space while simplifying the design of the prefabricated furnace, which reduces the dimensions of the furnace in a disassembled (transport) state.

This is provided by the fact that the sauna stove contains an upper plate, a base, walls forming a combustion unit with a grate installed in the opening of the grate and a prefabricated flame arrester located above it, in which the combustion channel is formed by sections of different lengths joined along the length and is connected to the combustion unit, and on the other, it has an end flange, to which, with the formation of a detachable tongue-and-groove connection, the furnace door adjoins, while all the joints of the walls of the furnace and the upper plate, which has a smoke exhaust pipe and a recess that forms an open top container, are made through the tongue-groove, in the grooves of which a refractory cord is laid and a heat-resistant sealant is placed, and the base has a bead on the side of the rear and side walls, to which they adjoin the lower part of the outer surface, on the inner surface of which projections are formed that hold the grate plate, forming a spacer for the walls relative to the bead. In this case, the combustion channel is fixed directly to the combustion unit with the help of a heat-resistant sealant and a refractory cord, and the flame arrester forming a wall spacer in the middle part of the two-part composite flame arrester is located under the flue pipe and above the grate plate in such a way that its first part is connected through a tongue-groove with the front and side walls or through the thorn-groove with the front wall and installed on the protrusions located on the side walls of the combustion unit in their middle-height parts, and the second part of the flame arrester is movably mounted on the protrusions in the middle-height parts of the side walls of the combustion unit and on the first part of the flame arrester. In addition, the grate is also connected through the tongue-groove to the walls of the combustion unit using a heat-resistant cord and heat-resistant sealant. And the thickness of the walls of the combustion unit is 10 mm, the maximum thickness of the top plate is 17 mm, with an increase in the maximum heat-loaded part of the base of the tank up to 24 mm.

The causal relationship of the signs of a prefabricated sauna stove with the technical result, i.e. The significance of its features is ensured by the fact that when making the walls of the furnace with a tongue-and-groove connection with the upper plate, it is isolated from the leakage of gaseous combustion products located in such a connection, i.e. in the area of increased pressure, with a refractory cord, as well as a heat-resistant sealant. Such connections include the upper plate and the furnace walls that form the furnace, installed on the base. In turn, to keep the furnace walls in the designed position and prevent the opening of the gaps between them, the base on which they are installed has a collar on the side of the rear and side walls, to which they adjoin the lower part of the outer surface. On the inner surface of the walls, protrusions are formed that hold the grate plate, forming a spacer for the walls relative to the shoulder, which also prevents the joints from opening, including during heating or cooling, and, thus, eliminates the leakage of flue gases into the space beyond the walls of the furnace. The installation in the opening of the grate plate of the grate and the prefabricated flame arrester located above it, as well as the execution of a smoke outlet in the upper plate, ensures the organized removal of combustion products. The docking along the length of the sections of different lengths forming the combustion channel is also made with overlapping of the joint with a tongue-and-groove connection (according to Fig. 1), which excludes the penetration of gaseous combustion products through these connections, which allow, at the same time, to reduce the transport dimensions of the furnace. The combustion channel on one side is connected to the combustion unit, and on the other, it has an end flange, to which, with the formation (shown in Fig. 1) of a detachable tongue-and-groove connection, a furnace door adjoins, having a detachable tongue-and-groove connection along the front surface of the flange. Thus, all the joints of the walls of the furnace unit and the upper plate, which has a smoke outlet and forms a recess open at the top, preventing leakage of flue gases, are made through a thorn-groove, and a refractory cord is laid in the grooves and a heat-resistant sealant is placed.

To enhance the specified technical result, the combustion channel is fixed directly to the combustion unit with the help of a heat-resistant sealant and a refractory cord, and the flame arrester forming a wall spacer in the middle part of a two-part composite flame arrester is located under the smoke exhaust pipe and above the grate plate in such a way that its first part is connected through a thorn-groove with the front and side walls or through a thorn-groove with a front wall and is installed on the protrusions located on the side walls of the combustion unit in their middle-height parts, and the second part of the flame arrester is movably mounted on the protrusions in the middle-height parts of the side walls the combustion unit and on the first part of the flame arrester. This design provides a stable spatial position of the prefabricated elements of the furnace and prevents the formation of cracks and leaks in the connection. To enhance the technical result, the grate is also connected through the thorn-groove with the walls of the combustion unit using a heat-resistant cord and heat-resistant sealant. Such a technical result is realized only for a prefabricated assembly of separate, mostly flat, furnace parts, with a furnace wall thickness of 10 mm, a maximum upper plate thickness of 17 mm with an increase in the maximum heat-loaded part of the tank base up to 24 mm, which makes it implementation to significantly reduce transport dimensions and weight.

FIG. 1 shows a general view of a bath stove with a cut-out of one quarter for disclosing the joints of its constituent parts. The positions mark the following constituent elements of the furnace: 1 - top plate, 2 - base, 3 - walls. Positions 1, 2 and 3 form a combustion unit with a grate 5 installed in the opening of the grate plate 4. Above the grate 5 there are plates 6 and 7, joined together by a tongue-and-groove connection, forming a prefabricated flame arrester. The combustion channel is formed by sections 8 and 9 of different lengths joined along its length and on the one hand is connected to the said combustion unit, and on the other it has an end flange 10, to which the combustion door 11 adjoins with the formation of a detachable tongue-and-groove connection. the unit and the upper plate 1, which has a flue gas outlet 12 and forms a recess in it open from the top 13, are made through a tongue-groove (as shown in Fig. 1). In the grooves, a refractory, for example, silica, mullite-silica or basalt cord (not shown) is laid and a heat-resistant cord, for example, silicate, silicone, etc., is placed. sealant (not shown). The base 2 has a collar 14 on the side of the rear and side walls 3, to which they adjoin the lower part of the outer surface. On the inner surface of the walls 3, protrusions 15 are formed that hold the grate plate 4, which is a spacer for the walls 3 relative to the shoulder 14. The combustion channel is fixed directly to the combustion unit by means of the mentioned heat-resistant sealant and a refractory cord. The flame arrester forming the spacer of the walls 3 in their middle part, which is composed of two parts - plates 6 and 7, is located under the smoke outlet 12 and above the grate plate 4 in such a way that its first part - plate 6 is connected through a tongue-groove with the front and side walls 3 or through the thorn-groove with the front wall and installed on the protrusions 16 located on the side walls 3 of the combustion unit in their middle-height parts. The second part of the flame arrester - plate 7 is movably mounted on other similar protrusions 16 in the middle-height parts of the side walls 3 of the combustion unit and on the first part - the plate 6 of the flame arrester. In addition, the grate plate 4 can also be connected through the tongue-groove with the walls 3 of the combustion unit using the aforementioned heat-resistant cord and heat-resistant sealant. And the thickness of the cast walls 3 of the furnace unit is 10 mm, the maximum thickness of the upper plate 1 is 17 mm, with an increase in the maximum heat-loaded part of the base of the tank up to 24 mm.

The oven consists of parts connected in series with each other using a sealant and a cord. Most of the furnace parts are made flat to ensure linear sealing of the butt joints, as well as to make the furnace compact during disassembled storage and transportation. Also, the simple shape of the parts makes it possible to improve the manufacturability of casting molds. The walls 3 of the furnace can have external ribs to increase heat transfer. The elements of the furnace are made of high quality cast iron or gray cast iron - a material that is resistant to temperature extremes and is slightly susceptible to scale formation and thinning during fuel combustion. The design of the furnace space formed by the walls 3 and the upper plate 1 with a capacity of 13 makes it possible to increase the efficiency due to a more complete use of the thermal energy of fuel combustion and additional heating of the furnace top with exhaust gases. To ensure the safe use of the sauna stove, its design includes: a combustion channel (fuel tunnel) and a cast-iron furnace door. The combustion channel provides the possibility of carrying out the process of firing the furnace from a room adjacent to the steam room, and serves for a safe "passage" through a non-combustible wall while excluding the breakthrough of flue gases at the junctions of its sections. The cast iron door serves as an excellent insulator, it consists of a frame and a leaf, has a locking device in the form of a hook handle. A blower 17 serves to supply air to the furnace section and to regulate the fuel burning rate. At the bottom of the furnace is an ash pan 18, which is necessary for convenient ash extraction and regulation of air supply to the burning fuel. The deepening of the upper plate 1 serves to accommodate stones (stove) that are heated from the walls of the furnace, retain heat for a long time and serve as additional elements for heating the bath room and producing water vapor. The design of the furnace is a single device assembled in series from the cast iron elements of the furnace using a heat-resistant sealant and a refractory cord. The stove is delivered disassembled for sale. The furnace channel is a prefabricated thick-walled cast-iron element with a door fixed to it, through which the furnace is fired. The combustion channel has a narrow and wide part. The channel is connected to the combustion unit by its narrow part, and the combustion door is located in the opposite, wide part. The combustion channel is fixed directly to the combustion unit using a fire-resistant sealant and a fire-resistant cord.

As an example of implementation, the dimensions of a bath stove are given:

Height (taking into account the smoke outlet) - 600-620 mm.

Depth (including combustion channel) - 777-797 mm.

The depth of the firebox is 440-460 mm.

The length of the furnace tunnel is 240-260 mm.

Door width - 405 - 42510 mm.

Furnace weight - 187.2-197.2 kg.

The connection of the main elements of the furnace during its installation was made sequentially using a heat-resistant sealant and a refractory cord around the perimeter of each element. Each element has a perimeter recess used to lay the refractory cord. The walls of all the elements have different material thicknesses, which is due to the different temperature load on each element and leads to a decrease in the mass of the assembly. The side walls are 10 mm thick. The top plate is 17 mm thick, and 24 mm in the maximum heat-loaded part. Additionally, in the places where the structure stiffeners are present, the wall thickness is 10-12 mm (which is due to the cast iron casting method). The casting tolerance for wall thickness is 1 mm. During the operation of the sauna stove, the exhaust flue gases pass from the combustion chamber through the so-called labyrinth, thereby evenly distributing heat to all walls of the combustion unit. Initially, the exhaust gases move upward from the burning fuel, then, directed by the flame arrester, move to the side, to the free outlet upward, bending around the upper plate of the furnace body - into the flue pipe. In the design, a flame arrester composed of plates 6 and 7, serves as a "bump tooth". The bumping tooth closes the straight-through exhaust gas outlet by directing the gas flow along a more complex path to evenly distribute the temperature of these exhaust gases, reducing the likelihood of their breakthrough into the space outside the furnace. To increase the time of maintaining the set temperature and humidity in the steam room, a special recess (heater) is provided in the design of the upper plate of the sauna stove for placing stones. The stones are laid along the entire space of the depression so that natural gaps of 1-3 cm remain between the stones for natural air circulation and uniform heat removal from the upper wall of the furnace.

Claims (4)

1. Sauna stove containing an upper plate, a base, walls forming a combustion unit with a grate installed in the opening of the grate and a prefabricated flame arrester located above it, in which the combustion channel is formed by sections of different lengths joined along the length and on one side is connected to the combustion unit , and on the other, it has an end flange, to which, with the formation of a detachable tongue-and-groove connection, the furnace door adjoins, while all the joints of the walls of the combustion unit and the upper plate, which has a smoke exhaust pipe and a recess open from above, are made through the tongue-groove, in the grooves which a refractory cord is laid and a heat-resistant sealant is placed, and the base has a collar on the side of the rear and side walls, to which they adjoin the lower part of the outer surface, on the inner surface of which projections are formed that hold the grate plate, forming a spacer for the walls relative to the collar. 2. Sauna stove according to claim 1, characterized in that the combustion channel is fixed directly to the combustion unit by means of a heat-resistant sealant and a refractory cord, and a flame arrester forming a wall spacer in the middle part of a two-part composite flame arrester is located under the smoke exhaust pipe and above the grate in such a way that its first part is connected through a spike-groove with the front and side walls or through a spike-groove with the front wall and installed on the protrusions located on the side walls of the combustion unit in their middle-height parts, and the second part of the flame arrester is movably mounted on the protrusions in the middle on their height parts of the side walls of the combustion unit and on the first part of the flame arrester. 3. Sauna stove according to claim 1, characterized in that the grate is connected through the thorn-groove with the walls of the combustion unit using a heat-resistant cord and heat-resistant sealant. 4. Sauna stove according to any one of paragraphs. 1-3, characterized in that the wall thickness of the combustion unit is 10 mm, the maximum thickness of the upper plate is 17 mm, with an increase in the maximum heat-loaded part of the base of the tank up to 24 mm.

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