RU68098U1 - SOLID FUEL OVEN - Google Patents

Abstract

The solid fuel furnace body (1) consists of a furnace (7) communicating with a chimney (2) through a pipe (5) with a damper (6), and an ash pan (10) communicating with a chimney (2) through a nozzle with a damper (15) ) The housing (1) is equipped with a casing (3) with an inlet (4) in which the air regulator (18) is installed. In the furnace (7) in front of the chimney (2), a partition (9) is installed, connected to the grate (11) and overlapping the cross section of the housing (1) from the side of the furnace (7). The grate (11) is provided with side perforated walls (12) installed with a gap (13) relative to the housing (1), which leads to low weight and size parameters of the furnace. Under the grate (11), parallel to its plane, there are tubes (16) with adjustable inlets and openings (17) in length, the axes of which are directed to the plane of the grate at an angle of 0 ° -90 °.

Firewood in the firebox (7) is kindled. Preheated air through holes (8) enters the firebox (7), sublimates resinous substances that fall on the heated grate (11). The flame penetrates through the grate (11) into the ash pan (10). Resinous substances burn out in it when they meet with warm air coming from the holes (17) in the tube (16). At the same time, firewood is burned without absorbing heat, which leads to increased efficiency.

1 s.p. f-ly, 2 ill.

Description

The utility model relates to domestic furnaces for solid fuel and can be used for heating residential and non-residential premises.

Known fuel furnace described in patent No. 5965U (IPC7 F24B 1/24, 2005) [1]. The furnace contains a housing with a chimney and a casing with inlets. The housing consists of a furnace with holes, an ash pan with holes for supplying heated air in communication with the chimney. The grate and reflector located in front of the chimney are located in the body. In this furnace, the holes in the ash pan are made above the reflector. The chimney is connected with a smoke exhauster, which contributes to the emergence of a more intense draft during ignition. This provides an efficient process flow. The heat that is generated by the combustion of solid fuel heats the furnace body and casing. The air passing between the casing and the casing is heated, and then through the openings in the casing enter the firebox. Here he produces sublimation and drying of fuel. The resulting pairs of resinous compounds and moisture fall on the grate, where combustion and decomposition take place, and most of them burn. The remaining resinous compounds and carbon monoxide fall on the reflector, on which they burn out during the additional supply of hot air through the holes in the ash pan.

Thus, the design of the fuel furnace described in [1] provides efficient combustion of solid fuel, which leads to a higher efficiency of the furnace.

However, the presence of a smoke exhauster complicates the design of the furnace and requires additional energy costs at the initial stage of heating the furnace. In addition, when loading the furnace with bulk fuel (sawdust, husk, etc.), the grate is blocked, the exit of combustion products from the furnace is difficult. In this case, after ignition of the fuel, the combustion process slows down and may even stop. Thus, the known furnace is limited by the size of the solid fuel used.

Known solid fuel furnace described in the patent of Ukraine No. 59142A for the invention "Heat generator" (IPC F24B 7/02, 2003) [2]. The furnace contains a housing with a chimney and a casing with inlet openings, consisting of a furnace connected to the chimney through a nozzle with a damper with openings, a partition installed in the firebox in front of the chimney, an ash pan communicating with the chimney, and a grate. The furnace consists of a combustion chamber and afterburner. Injectors with nozzles for supplying heated air are introduced into the afterburner through openings. The partition is made horizontally and is adjacent to the rear wall of the housing. The grate is equipped with vertical perforated columns. A vertical lowering channel with an ash collecting chamber for communication with the chimney is additionally connected to the combustion chamber of the combustion chamber. The ash pan is equipped with an adjustable inlet gate and is made with the possibility of communication with the chimney through the exhaust flap and the lowering channel.

In the initial period of operation of the furnace, the fuel in it burns in the direct combustion mode, in which the combustion products are mainly removed from the afterburner directly to the chimney. Direct burning mode contributes to the rapid heating of the housing, partitions and injectors. After heating the furnace, the combustion products are sent from the afterburner to the chimney through a vertical lowering channel. Vapors of resinous compounds entering the afterburner are mixed with heated secondary air coming through the injectors and burn out. The regulation of the combustion process is carried out by adjusting the inlet gate and the exhaust gate of the ash pan, as well as the exhaust gate of the ash collecting chamber.

The presence of vertical perforated columns in the grate helps to supply air into the bulk of the bulk fuel and the volumetric combustion layer.

However, the presence of an adjustable inlet gate in the ash pan determines the solid fuel combustion scheme, in which the air flows according to the following scheme: ash pan - furnace - afterburner, which leads to the formation of carbon monoxide and the interaction of water vapor with solid fuel

in the firebox. This leads to a significant decrease in furnace efficiency. In addition, the presence of a afterburner, as well as vertical perforated columns installed in the furnace, reduces the space for placing the furnace raw materials. And to preserve the useful volume of the furnace, there is a need to increase the overall dimensions of the entire device. The introduction of injectors into the afterburner with heated air inlets and the presence of a vertical outlet also entail an increase in the overall dimensions

The utility model is based on the task of creating such a solid fuel furnace, which, compared with the furnace selected as a prototype, had a higher efficiency and low weight and size parameters.

The problem is solved in the proposed furnace, comprising a housing with a chimney, a casing with an inlet, which contains a firebox with holes communicating with the chimney through the nozzle with a shutter, and an ash pan communicating with the chimney, a partition installed in the firebox in front of the chimney, an injector and a grate installed in case. In accordance with the utility model, the inlet of the casing is equipped with an air supply regulator, the partition is connected to the grate and covers the cross-section of the casing from the side of the furnace, the grate is provided with side perforated walls installed with a gap relative to the casing, the ash pan is connected directly to the chimney through a separate pipe with a damper. To achieve a better result, the injector is located under the grate and is made at least in the form of one tube with holes along it and with an adjustable inlet. The tube is located in a plane parallel to the plane of the grate, with the axis of the holes along the tube directed to the plane of the grate at an angle of 0 ° -90 °.

The connection of the partition with the grate and the overlapping of the casing section from the side of the furnace prevents the combustion products from entering the chimney directly, and facilitates their passage through the grates through the openings in the furnace. With this method of burning solid fuel, contact is avoided.

carbon dioxide with carbon, which increases the efficiency of the furnace. In addition, with this arrangement of the partition, the afterburning chamber is excluded, which leads to a decrease in weight and size parameters.

The presence of lateral perforated walls in the grate installed with a gap relative to the casing ensures the formation of a hot air flow between the casing and the perforated wall, contributes to more intense heat transfer to the furnace body and increases the efficiency. In addition, the presence of the side walls of the grate instead of the volumetric vertical grate allows you to reduce the overall dimensions of the furnace.

The connection of the ash pan directly with the chimney through a separate pipe with a damper eliminates, in comparison with the known furnace [2], a vertical lowering channel, which leads to a decrease in weight and size parameters. Along with this, an ash collecting chamber is excluded, which eliminates oncoming air flows with gaseous products of combustion in the furnace, which contributes to an increase in draft and, as a result, to an increase in the furnace efficiency.

The location of the injector under the grate and its execution in at least one tube with holes along it and with an adjustable inlet, as well as the location of the tube in a plane parallel to the plane of the grate so that the axis of the holes along the tube are directed to the plane of the grate at an angle of 0 ° -90 °, allows you to heat the air in the area near the grate to a higher temperature. This leads to increased efficiency. At the same time, such an arrangement of the injector eliminates the swirls that are present in the injector described in [2], which helps to reduce the overall dimensions.

Figure 1 shows a front view of the proposed furnace; figure 2 shows a cross section of the furnace along aa.

The proposed furnace contains a housing 1 with a chimney 2, a casing 3 with inlet openings 4. The housing 1 comprises a firebox 7 with openings 8 connected to the chimney 2 through a damper 6 and openings 8 and an ash pan 10 communicating with the chimney 2. The housing 1 comprises a partition 9 installed

in the furnace 7 in front of the chimney 2, the grate 11 and the injector. The grate 11 is equipped with perforated side walls 12 installed with a gap 13 relative to the housing 1. The ash grate 10 is connected directly to the chimney 2 through a separate pipe 14 with a shutter 15. The injector is located under the grate 11 and is made of at least one tube 16 with adjustable the inlet and in the plane parallel to the plane of the grate 11. Along the tubes 16, holes 17 are made, the axes of which are directed to the plane of the grate at an angle of 0 ° -90 °. The inlet 4 of the casing 3 is provided with an air supply regulator 18. The partition 9 is connected to the grate 11 and overlaps the cross section of the housing from the side of the furnace 7.

The proposed solid fuel furnace operates as follows.

To ignite the furnace through the loading hatch, firewood of medium thickness is first laid in a small layer on the grate 11, wood chips are placed on top, and then paper or other easily flammable material. Open the shutter 6 with the shutter 15 closed. The lit torch is placed in the furnace 7 and the loading hatch is closed. The flame from the torch passes to the chips, and it lights up. The heat from burning wood chips dries and heats the wood, creating the necessary conditions for igniting thick wood. At this stage, the ignition ends. From this moment, the shutter 6 is closed, and the shutter 15 is opened. The heat generated during the combustion of wood heats the furnace body 1 and the chimney 2, creating traction. Air from the inlet 4 passes between the casing 3 and the housing 1 and heats up. Then it enters the furnace through openings 8 in its upper part, dries the upper rows of firewood, sublimates resinous substances from wood and fills the furnace 7 with oxygen. Vapors of resinous compounds under the influence of reduced pressure created by the draft enter the grate 11, and some of them flammable. Grate 11 in this case serves as a heat accumulator, providing oxidation conditions for adjacent carbon (for the carbon oxidation reaction to take place, an initial temperature of 300-500 ° C is necessary). The flame penetrates through the grate 11 into the ash pan 10. In this place, unburned

part of the resinous compounds when they meet with warm oxygen-containing air, which comes from the holes 17 in the tube 16, burns out, and the reaction 2CO + O ₂ = 2CO ₂ also proceeds here. (СО is formed in insignificant amount upon interaction of hot water vapor with solid fuel). With this method of burning solid fuel, the contact of carbon dioxide with carbon is excluded and the reaction in which carbon monoxide is formed with heat absorption does not occur. The failed part of the coal in the ash pan 10 slowly burns down, since there is a high temperature and a stream of oxygen-depleted air. Part of the ash generated in the ashpit 10, flies into the chimney 2 and settles in its lower part.

As the firewood burns, the next portion is placed in the furnace 7 through the loading hatch. The rate of combustion of solid fuel is regulated using the regulator 18 in the inlet 4 by the amount of intake air.

Thus, the proposed solid fuel furnace in comparison with the furnace selected as a prototype has a higher efficiency and lower weight and size parameters.

Claims (2)

1. A solid fuel furnace, comprising a casing with a chimney, a casing with an inlet, containing a furnace with holes communicating with the chimney through a nozzle with a shutter, and an ash pan communicating with the chimney, a partition installed in the furnace in front of the chimney, an injector and a grate installed in the casing characterized in that the inlet of the casing is equipped with an air supply regulator, the partition is connected to the grate and overlaps the cross-section of the casing from the side of the furnace, the grate is equipped with perforated side walls installed with a clearance relative to the body, the ash pan is connected directly to the chimney through a separate pipe with a damper. 2. The furnace according to claim 1, characterized in that the injector is located under the grate and made at least in the form of one tube with holes along it and with an adjustable inlet located in a plane parallel to the plane of the grate, and the axis of the holes along the tube are directed to the plane of the grate at an angle of 0-90 °.