RU226767U1 - Heating device - Google Patents

Abstract

The utility model relates to heating equipment, in particular to the design of an autonomous stove intended for local heating of premises associated with seasonal or temporary stay of people. The heating device includes a horizontally directed body with a combustion chamber, the bottom of which is made in the form of a blank sheet. At the same time, at the front end of the housing there is an opening for loading fuel, equipped with a door with an oxidizer supply power regulator. In the upper part of the combustion chamber, a channel is formed for the movement of hot gases to the chimney opening located in the rear part of the housing. The rear end wall of the housing is made blank. Two plates are installed in the upper part of the combustion chamber, forming a labyrinthine channel for the movement of hot gases to the chimney opening. The lower window of the labyrinth channel is located on the side of the rear end wall, and the upper window is located on the side of the front end wall. The shape of each window is made in the form of a V-shaped cutout, the base of which is directed towards the corresponding end wall. The tops of both windows are directed towards the center of the combustion chamber. Provides controlled layer-by-layer combustion of solid fuel inside the combustion chamber. 3 salary f-ly, 4 ill.

Description

The utility model relates to heating equipment, in particular to the design of an autonomous stove intended for local heating of premises associated with seasonal or temporary stay of people, for example in field conditions, using tents or other prefabricated premises. A design feature of the claimed utility model is the ability to ensure layer-by-layer combustion of solid fuel in order to save it and increase efficiency during operation of the device.

A heating device is known from the prior art, containing a vertically directed combustion chamber with a rotating door and an ash pan with a sliding pan, while the ash pan is separated from the combustion chamber by a grate with holes made across its entire area, and the body of the device is located inside the casing with an air gap forming an air duct, and in the upper part of the firebox two partitions are transversely fixed to form windows on opposite sides for the passage of hot gases communicating with the chimney, while a recuperator is attached to the body of the firebox, having a valve to regulate the volume of secondary air supply into the labyrinth passage formed by two metal plates , and in the wall of the housing on the recuperator side there are holes for the passage of secondary air into the firebox (RU 37185 U1, 04/10/2004). The known design provides for the possibility of regulating the intensity of the oxidizer supply into the combustion chamber through the slightly open ash tray and the grate holes. In this case, oxygen flows to the entire area of the grate occupied by solid fuel, which causes complete combustion of the fuel from the bottom, which can lead to rapid burning of firewood and the need for another fuel addition. Also, the known design provides a means of supplying secondary air through the recuperator into the area formed by two horizontal plates, which, provided that the air flow through the ash pan is closed, can slow down the rate of fuel burnout and achieve slow smoldering of firewood. However, such a mechanism requires periodic monitoring of the intensity of fuel combustion to prevent their complete extinction, and if firewood reaches a stable smoldering mode, the temperature generated by this mode of operation of the stove may not be enough to heat the room and/or cook food. In addition, due to the vertical orientation of the body, the working surface of the stove intended for cooking may not be enough, for example, if it is necessary to operate two or three food containers at the same time.

A heating device is known from the prior art, including a horizontally directed body with a combustion chamber, at one end of which there is an opening with a door for loading fuel, and the opposite end is made in the form of a blank partition, while the combustion chamber is separated from the ash pan by means of a grate, and the ash pan is equipped with a mechanism for adjusting the supply of oxidizer, and in the upper part of the combustion chamber, two partitions with windows on opposite sides are installed in series, forming a labyrinthine channel for removing hot gases to the chimney installed on top of the housing in its rear part, while the lower window is located on the side of the chimney, and the top one on the front side of the body, and the hob is made with the possibility of installing the walls of the heater at its ends (RU 219664, 07/31/2023). The known technical solution has an increased area of the cooking surface due to the horizontal positioning of the body, and also provides for the possibility of using stones to accumulate thermal energy, which helps to increase the efficiency when burning one load of firewood. Also, in the known heating device, to regulate the combustion intensity, only one mechanism is used, which allows you to control the supply of oxygen through the end of the ash pan, which to some extent simplifies draft control during operation of the furnace. However, oxygen entering the firebox through the grate over the entire area of fuel storage will contribute to the ignition of the entire volume of firewood and its rapid burning, which leads to an increase in fuel consumption.

A heating device is known from the prior art, including a housing with a combustion chamber, made in the form of a horizontally directed prism, at one end of which there is an opening for loading fuel, equipped with a door with an oxidizer supply power regulator, and at the opposite end there is a nozzle for afterburning gases in the rear part of the combustion chamber. chamber, while the bottom of the firebox is made in the form of a blank sheet, and inside it, in the upper part of the body, a sheet of fire pass is welded to form a window on the side of the opening for loading fuel and forming a channel for the movement of hot gases to the chimney located on the back side of the body and including an adjustable valve, while air ducts are welded on the sides of the body, ensuring acceleration of heat exchange between the heating device and the heated room (RU 52466, 03.27.2006, prototype). In the known design, the use of an ash pan is excluded, as well as the use of a grate, due to which, in the previously discussed analogues, the oxidizer entered the entire area occupied by the fuel, and therefore the flame quickly spread throughout the entire volume of fuel. However, the known design also does not implement the idea of ensuring layer-by-layer combustion of fuel. In addition, this heating device does not use the entire volume of the combustion chamber with maximum efficiency, since the draft flows are organized in such a way that their movement is directed from the rear part of the housing, where the nozzle is installed, towards the flows entering through the door, along with which the flow of hot gases enters through the window from the side of the opening, through the fire pass sheet to the chimney. As a result of this movement of air flows inside the firebox, the flame of the burning fuel will tend to the front part of the body, and the rear part of the firebox will not receive the same heating, and therefore the thermal energy cannot be evenly distributed throughout the body of the device. In addition, the air flow control mechanism is complicated, since several devices are provided, in particular, a power regulator installed on the door, a gasifier regulator installed in the chimney, as well as a gas afterburning nozzle located in the rear part of the housing. The use of so many mechanisms for controlling the movement of heat flows makes it difficult to configure an acceptable mode of operation of the device in accordance with the needs of the user.

The claimed utility model is aimed at eliminating shortcomings identified as a result of an analysis of the prior art.

The technical result obtained by implementing the claimed utility model is to achieve circulation of air and gases inside the heating device, ensuring controlled layer-by-layer combustion of solid fuel.

Additionally, the implementation of the claimed utility model is aimed at expanding the arsenal of tools for similar purposes.

Achieving the stated technical result is ensured by a heating device that includes a horizontally directed housing with a combustion chamber, the bottom of which is made in the form of a blank sheet, while at the front end of the housing there is an opening for loading fuel, equipped with a door with an oxidizer supply power regulator, and in the upper part of the combustion chamber a channel is formed for the movement of hot gases to the chimney opening located in the rear part of the housing, and the rear end wall of the housing is made blank, and in the upper part of the combustion chamber two plates are installed forming a labyrinth channel, the lower window of which is located on the side of the rear end wall, and the upper window sides of the front end wall, while the shape of each window is made in the form of a V-shaped cutout, the base of which is directed to the corresponding end wall, while the tops of both windows are directed to the center of the combustion chamber.

According to the declared utility model, the body is made in the form of a hexagonal horizontally directed prism, on the lower side faces of which transverse plates are installed in a row and covered on the sides with casings, forming convection cavities, the nozzles of which are directed upward.

According to the claimed utility model, hingedly rotatable grates are attached to the upper side edges of the body, each of which includes rows of parallel installed rods, and each grate includes a pair of folding supports connected to the body and configured to fix the grate in the unfolded position.

According to the claimed utility model, the door with the oxidizer supply power regulator is removable, and at the level of the valve that regulates the oxygen supply, a spark arrestor casing is installed on the inside of the door.

The utility model is illustrated by drawings.

In FIG. 1 shows the heating device in general form.

In FIG. Figure 2 shows the heating device - side view.

In FIG. Figure 3 shows a fragment of a heating device with an open door - view from the inside.

In FIG. Figure 4 shows a heating device with side grilles.

The heating device includes a horizontally directed housing 1 with a combustion chamber 2, the bottom of which is made in the form of a blank sheet 3. At the front end of the housing 1 there is an opening 4 for loading fuel, equipped with a door 5 with an oxidizer supply power regulator 6. In the upper part of the combustion chamber a labyrinthine channel 7 for the movement of hot gases to the chimney hole 8, located in the rear part of the housing 1. Labyrinth channel 7 is formed by plate 9 and plate 10, each of which has a window in the form of a V-shaped cutout. In this case, the lower window 11, made in the plate 9, is located on the side of the rear end wall 12, and the upper window 13, made in the plate 10, on the side of the front end wall 14. Moreover, the base of each window is directed to the corresponding end wall, and the tops of both windows directed towards the center of the combustion chamber. Housing 1 is made in the form of a hexagonal horizontally directed prism, on the lower side faces 15 of which transverse plates 16 are installed in a row and covered on the sides with casings 17, forming convection cavities, the nozzles of which are directed upward. Attached to the upper side edges 18 of body 1 are hingedly rotatable gratings 19. Each grating 19 includes rows of parallel installed rods 20. Moreover, each grating 19 includes a pair of folding supports 21 connected to the body 1 at the bottom of the corresponding side face 18. Moreover, the folding support 21 made with the possibility of fixing the corresponding grille in the unfolded position (according to Fig. 4). Door 5 with the oxidizer supply power regulator 6 is removable. The oxidizer supply power regulator 6 is made in the form of two symmetrical holes and a valve installed on the central axis passing between the holes, made with the ability to synchronously change the cross-sectional sizes of both holes and adjust the oxygen supply inside the combustion chamber. A spark arrestor casing 22 is installed on the inside of door 5.

The heating device operates as follows.

The heating device can be installed, for example, in a mobile, quickly erected room, on a brick or metal base. Before starting to operate the device, solid fuel, such as wood logs, is placed inside the combustion chamber 2 through the opening 4 along the entire length of the combustion chamber. Using a torch, the solid fuel is ignited from the very edge of the opening 4 and with the door 5 slightly open, wait for the formation of a stable flame, after which the door 5 is closed, and using the oxidizer supply power regulator 6, the maximum oxygen supply mode is set until the device reaches operating temperature. In this case, hot gases resulting from fuel combustion rush from the inner edge of the opening 4 towards the rear end wall 12, heating the combustion chamber along its entire length. Further moving along the labyrinth channel, the upper part of the device is uniformly heated, first from the rear end wall 12 to the front end wall 14, and then along the upper tier of the channel in the opposite direction up to the chimney opening 8, through which (not shown) exhaust gases are emitted out. This scheme for moving hot gases inside the claimed device allows the housing to be heated as uniformly as possible throughout its entire volume. In this case, the absence of holes in the bottom of the housing 3, as well as auxiliary air supply mechanisms in the rear end wall 12, makes it possible to control the draft inside the device directly through the regulator 6, connected only to the chimney, without introducing additional air flows into the gas flow circuit inside the combustion device. Using regulator 6, the supply of the required amount of oxidizer sufficient for the required intensity of fuel combustion is adjusted. When setting the optimal combustion intensity, layer-by-layer, horizontal combustion of the fuel occurs. In this case, the fuel, to which the flame is gradually approaching, dries up inside the combustion chamber, which before ignition ensures an improvement in its quality and, accordingly, affects the increase in the efficiency of the operating device. In addition, V-shaped cutouts made in plates 9 and 10 serve as guide grooves that stabilize the direction and shape of the moving heat flow, which in the overall scheme of hot gas movement also contributes to stable and controlled horizontal combustion of solid fuel. Thus, the proposed draft control scheme allows you to configure the most stable mode of operation of the device, ensuring layer-by-layer combustion of fuel and increasing the operating time of the device on one load of fuel up to 6 hours at a stable temperature (150 - 200 C° on the surface of the furnace). The claimed device additionally provides means for using the generated thermal energy, for example, for drying fabric products, as well as shoes or dishes. In particular, grates 19 with rods 20 can be placed above the convection cavities on folding supports, allowing you to hang clothes or leave shoes to dry. During operation of the device, heat flows passing through the convection cavities between the plates 16 also pass between the rods 20 of the grates 19, promoting the rapid evaporation of moisture from objects placed on the grates 19. If there is no need to use the grates 19, the supports 20 can be placed in a folded position, and the grates lowered to the upper side edges 18 of housing 1. Door 5 is removable, so it can be easily dismantled, and instead of it, a door with a horizontal diesel burner can be installed on the standard hinges of the housing, allowing operation of the device on liquid fuel. However, a liquid fuel heating device is not the subject of the claimed utility model, and the possibility of installing a liquid fuel burner only indicates the wide functional potential of the claimed device. Also, to improve safety characteristics, a protective spark arrestor casing 22 can be installed on the inside of door 5. The spark arrestor casing 22 can be made of two symmetrical triangular metal plates, one pair of edges of which is fixed (by welding or rivets) on the inside of door 5 , closing the hole of the regulator 6 on both sides. In this case, a rectangular plate is installed and fixed on the upper pair of faces of the triangular plates, preventing direct access of the flame from the inside to the hole of the regulator 6 in door 5. In this case, the lower pair of faces of the plates form a free channel for the circulation of the oxidizer inside the combustion chamber.

Claims (4)

1. A heating device, including a horizontally directed housing with a combustion chamber, the bottom of which is made in the form of a blank sheet, while at the front end of the housing there is an opening for loading fuel, equipped with a door with an oxidizer supply power regulator, and in the upper part of the combustion chamber a channel is formed for movement of hot gases to the chimney opening located in the rear part of the housing, characterized in that the rear end wall of the housing is made blank, and in the upper part of the combustion chamber two plates are installed, forming a labyrinth channel for the movement of hot gases to the chimney opening, and the lower window of the labyrinth channel located on the side of the rear end wall, and the top one - on the side of the front end wall, while the shape of each window is made in the form of a V-shaped cutout, the base of which is directed to the corresponding end wall, and the tops of both windows are directed to the center of the combustion chamber. 2. The heating device according to claim 1, characterized in that the body is made in the form of a hexagonal horizontally directed prism, on the lower side faces of which transverse plates are installed in a row and covered on the sides with casings, forming convection cavities, the nozzles of which are directed upward. 3. Heating device according to claim 1, characterized in that articulated rotating grates are attached to the upper side edges of the body, each of which includes rows of parallel installed rods, and each grate includes a pair of folding supports connected to the body and configured to fix the grate in the unfolded position. 4. The heating device according to claim 1, characterized in that the door with the oxidizer supply power regulator is removable, and at the level of the valve that regulates the oxidizer supply, a spark arrestor casing is installed on the inside of the door.