RU34697U1 - CONVECTION-RADIATING FLAME FURNACE - Google Patents

Description

CONVECTION-RADIATING FLAME FURNACE

The utility model relates to the field of heat engineering, namely, to heating convection-radiating flame-burning furnaces of long burning and can be used for heating residential, domestic, industrial and auxiliary premises, country houses and greenhouses, as well as for cooking

Closest to the proposed utility model is a long-burning furnace with heat recovery from smoke, containing a housing with a firebox, a labyrinth gas duct containing a duct system inside the housing, a fuel loading hatch with adjustable shutters for supplying primary air to the firebox, a steel casing mounted around the housing with a gap, and channels for supplying heated secondary air from the gap to the inlet openings of the gas ducts. In this case, the gas ducts are formed by cast-iron U-shaped sections of the front and rear and the projections of the middle Nobraznymi cast sections with cavities hermetically interconnected by threaded ties, which is made of a furnace body and a firebox provided with a removable ash pan grate RF.№ Patent 2031315, cl F24B7 / 02, 20 April 1992 g

The known furnace has a number of significant drawbacks. The first disadvantage of the described furnace is the low reliability due to the complexity of its design. The second disadvantage is the complexity of the process of servicing the furnace, namely, the removal of soot and ash accumulating in the gas ducts, which reduces the convenience of its operation. In addition, the known the furnace has a high cost due to increased metal consumption and design complexity

The utility model is aimed at solving the problem of improving the usability of the structure, while reducing its cost and increasing reliability.

The essence of the utility model is that in a convection-emitting flame furnace containing a firebox and an ash pan, separated by a grate, a fuel loading hatch, an external convector casing, a chimney and a labyrinth gas duct containing at least one horizontal gas duct the channel, connected in series with the firebox and the chimney, it is proposed that the labyrinth gas duct be positioned above the firebox, while the horizontal gas ducts are made with a cross section having a throat tapering downward a cupped shape with a slit-like hole in the lower part, located along the entire length of the horizontal gas duct, moreover, the side surfaces of the firebox and gas ducts are made of predominantly bent metal profiles.

Horizontal gas ducts can be located one above the other and connected in series with the firebox, between themselves and the chimney.

The ash pan-blower can be additionally equipped with a drawer.

The location of the labyrinth gas duct above the firebox, while performing horizontal gas ducts with a cross section having a funnel-shaped tapering downward with a slit-like opening in the lower part, located along the entire length of the horizontal gas duct, improves the usability of the proposed furnace. This is due to the effect of constant self-cleaning of horizontal gas ducts from soot and ash during operation due to the passage of a small part of the tongues of flame and supply air through slit-like openings, as well as mechanical rolling of particles of soot and ash into the firebox along the funnel-shaped profile of gas ducts through slit-like openings.

The execution of the side surfaces of the firebox and gas ducts from metal profiles predominantly bent helps to increase the reliability of the proposed furnace, while reducing its cost, due to the simplicity of the design.

The location of the horizontal gas ducts one above the other and their serial connection with the firebox, between themselves and the chimney, improves the usability of the furnace due to the possibility of increasing the heat transfer surface of the furnace by adding horizontal gas ducts without increasing its dimensions in plan, i.e. only an increase in the height of the furnace.

Performing an ash pan-blower with an additionally equipped drawer contributes to the convenience of the furnace due to the ease of ash removal, as well as the regulation of primary air access to the firebox.

In FIG. 1 shows a convection-emitting flame furnace (general view); in FIG. 2 shows a convection-emitting flame furnace (longitudinal section); in FIG. 3 shows a convection-emitting flame furnace (cross section).

A convection-emitting flame furnace contains a firebox 1 and an ash pan 2, separated by a grate 3, a hatch 4 for loading fuel, an external convector cover 5, a chimney 6 and a labyrinth gas duct 7 located above the firebox 1. The labyrinth gas duct 7 contains horizontal gas ducts 8, located one above the other and connected in series with the firebox 1, between themselves and the chimney 6 by means of holes 9 and 10. The horizontal gas ducts 8 in cross section have a funnel-shaped tapering downwards with evidnym opening 11 in the lower portion disposed along the entire length of the horizontal flue gas channel 8. The side surfaces of the firebox 1 and the flue gas channels 8 are made of metal profiles preferably bent. Ashpit blower 2 is additionally equipped with a drawer 12.

Convection-emitting flame furnace operates as follows.

Through the hatch 4, solid fuel is loaded into the firebox 1 and set on fire. The fuel burns in the firebox 1 on the grate 3. The intensity of combustion is controlled by the extension of the drawer 12 of the ash pan-blower 2. The resulting gas-flame flow heats the walls of the firebox 1 and through the hole 9 in its upper rear part enters the lower horizontal gas duct 8, heating its walls. Then, through the hole 10, the main gas-flame flow (indicated by a dashed line in the figure) enters the next horizontal gas duct 8, after which, sufficiently cooled, enters the chimney 1. Particles of ash, soot, and unburned fuel that fall out of the horizontal gas-flame flow slide down the inclined walls of the gas ducts 8 and through the slots 11 fall back into the firebox 1, or getting stuck and accumulating in the region of the slots 11 are burned by vertical flames, partially passing through the slots 11. Cro Moreover, through the slots 11, a certain amount of air enters the horizontal gas ducts 8 from the firebox 1, which contributes to a more complete combustion of the fuel in the gas-flame flow. Between the walls of the firebox 1 heated by the gas-flame flow, the gas ducts 8 and the outer casing-convector 5, a hot turbulent convection flow is generated that heats the room. From the walls of the firebox 1 and the walls of the gas ducts 8 that are not covered by the convector hood 5, thermal radiation is emitted, which serves to heat the room.

Thus, the described convection-emitting flame furnace is convenient in operation and has increased reliability. In addition, the simplicity of the design of the proposed utility model helps to reduce its cost.

Claims (3)

1. A convection-emitting flame furnace containing a firebox and an ash pan, separated by a grate, a fuel loading hatch, an external convector cover, a chimney, a labyrinth gas duct containing at least one horizontal gas duct connected in series with the firebox and a chimney, characterized in that the labyrinth gas duct is located above the firebox, while the horizontal gas ducts in cross section have a funnel-shaped tapering downward with a slit-like opening in the lower hour ty, located along the entire length of the horizontal gas duct, and the side surfaces of the firebox and gas ducts are made of metal profiles, mainly bent. 2. Convection-emitting flame furnace according to claim 1, characterized in that the horizontal gas ducts are located one above the other and are connected in series with the firebox, between themselves and the chimney. 3. The convection-emitting flame furnace according to claim 1, characterized in that the ash pan-blower is additionally equipped with a drawer.