RU2134844C1 - Heating device - Google Patents

Abstract

FIELD: domestic ovens for hard fuel. SUBSTANCE: heating device has body formed by front wall with fuel charging door and branch pipe with adjustable air supply to heating chamber, rear wall with branch pipe of adjustable smoke offtake, by lower horizontal surface (bottom), and upper and side walls. Body also includes heating chamber arch made as horizontal partition which divides internal volume of body into two communicating cavities, namely, heating chamber and gas conducting chamber. Arch has hatch, air heat-exchange tubes with open ends communicating with surrounding air, crossing above heating chamber arch, staggered along side walls, and in holes on opposite side walls. Body also contains air ducts with holes, grate and ash pit with door. Hatch of heating chamber arch is positioned on side of rear wall and provided with box arranged above it. Box has open end face and forms auxiliary cavity, fuel gas afterburner, communicating with heating chamber cavity from one side and with gas- conducting chamber on side of front wall, from the other. Air ducts are positioned n heating chamber cavity, vertically along rear wall with holes at entry into fuel gas afterburner. Every air duct is secured with its open end in hole on lower bottom. Internal cavity of air ducts communicate with surrounding air. Box is provided with axle and may be turned towards front wall. Partition of heating chamber arch divides internal space of body in half. Every air duct is provided with ring positioned from underside of holes. Air ducts have threaded open ends, each end being fitted with union nut and changeable washers of different internal diameter. Partition of heating chamber arch, grate and box with axle are manufactured of heat-resistant steel. Front wall of body is inclined, and it is provided with inspection window made of fireproof glass. EFFECT: improved operating parameters. 6 cl, 2 dwg

Description

 The invention relates to domestic furnaces for solid fuel, in particular to heating devices with internal ducts. The heating device can operate on solid porous fuels, namely wood, peat, waste cardboard products, as well as mixtures thereof with coal.

 A device for heating rooms is known, comprising a housing with front, rear and side walls in the form of staggered curved curved air pipes and side sheets covering them with upper and lower rows of holes for accommodating air pipes located on the opposite side with a gas exhaust pipe , a hatch for loading fuel and a partition with a shutter for changing the operating mode mounted above the air pipes [1].

 The disadvantage of this device is the low completeness of fuel combustion and significant emissions of harmful substances due to chemical burnout as a result of "freezing" of gasification products of solid fuel on heat exchangers and subsequent entrainment with flue gases.

 A well-known furnace heater for solid fuel, selected as a prototype, including a wall with a door for loading fuel and a pipe with an adjustable air supply to the furnace, a wall with a pipe for an adjustable chimney, two walls with tubular elements, the cavities of which are in communication with the surrounding air, a partition, dividing the furnace into two uneven communicating from the side of the wall with the door of the cavity, two ducts, made in the form of holes equipped with holes, the open end of which enters the cavity of the tubular element, and closed th end is located in the furnace near the partition. In this case, the heater is made in the form of an octagonal prism, the tubular elements are placed in a row on two trihedral mirrored walls corresponding to the faces of the side surface of the prism, and grooves are made in the two walls corresponding to the remaining faces to accommodate the tubular elements in which the air ducts are located, and another flap, which is mounted on the wall with the door with the possibility of reciprocating movement towards the partition [2].

 One of the disadvantages of this device is the low completeness of fuel combustion and significant emissions of harmful substances due to chemical burning as a result of “freezing” of solid fuel gasification products on heat exchangers and subsequent entrainment with flue gases. In addition, to prevent the entry of flue gases from the ducts into the tubular heat exchange elements in communication with the surrounding air, it is necessary to have an increased vacuum in the furnace cavity, which is achieved by increasing the geometric height of the chimney and ensuring high temperatures of the flue gases. These factors reduce the efficiency of heat and reduce the time of continuous operation of the furnace on one tab of fuel, which is also a disadvantage.

 The present invention solves the problem of improving the parameters of the heating device, in particular, increasing the completeness of fuel combustion and increasing the utilization of the calorific value of the fuel by dividing in space and improving the conditions for smoldering (gasification) of solid fuel, combustion of gasification products and heat exchange of combustion products with ambient air, as well as increasing the time of continuous operation of the device on one tab of fuel.

 To achieve this technical result, in a heating device comprising a housing formed by a front wall with a door for loading fuel and a pipe with adjustable air supply to the firebox, a rear wall with a pipe for adjustable chimney, a lower horizontal surface - the hearth, upper and side walls, and placed inside the arch of the firebox, made in the form of a horizontal partition dividing the internal volume of the body into two communicating cavities - the firebox and the gas chamber, and containing a hatch, air ducts crossing over the firebox roof and fixed in the holes on the lower horizontal surface - staggered along the side walls and in the holes on the opposite side walls, heat transfer pipes with open ends in communication with the surrounding air, air ducts with holes, a grate and an ash pan with door, the firebox roof hatch is located on the back wall side and is equipped with a duct placed above it, made with an open end and forming an additional cavity - the afterburner gas flow, communicated on one side by the firebox cavity, and on the other by the gas chamber from the front wall side, air ducts are placed vertically along the back wall in the firebox cavity with openings at the inlet of the flue gas afterburner and each end is fixed in the hole on the lower hearth with the possibility of their communication internal cavities with ambient air.

 At the same time, the box is equipped with an axis and is located with the possibility of rotation towards the front wall.

 The partition of the arch of the firebox divides the internal space of the body in the ratio of volumes in half.

 Each duct is equipped with a ring located on the lower side of the holes, and their open ends are threaded and equipped with each union nut and interchangeable washers with different inner diameters.

 The partition of the arch of the firebox, the grate and the box with the axis are made of heat-resistant steel.

 The front wall of the housing is made inclined and equipped with a refractory glass observation window.

 Distinctive features of the proposed heating device from the above known, closest to it, is the placement of the firebox roof hatch from the rear wall side and the presence of a duct placed above it, made with an open end and forming an additional cavity - a flue gas afterburner chamber communicated on one side by the cavity firebox, on the other hand - a gas chamber from the front wall, as well as the placement of secondary air ducts directly in the cavity of the firebox vertik Along the rear wall, there are openings at the inlet to the flue gas afterburner chamber and each one is fixed with an open end in the hole on the lower hearth with the possibility of their internal cavities communicating with the surrounding air.

 Due to the presence of these signs, the heating device during operation implements the separation in space of the main work processes and their course in optimal conditions.

The firebox cavity is designed to accommodate fuel and organize the process of smoldering and gasification of solid fuel without an open flame. This mode, in the scientific literature called low-temperature combustion, is implemented in conditions of lack of air, while the products of smoldering are mainly carbon monoxide CO and other gaseous combustible substances. The main attractive property of smoldering is the low self-sustaining mass rate of conversion of solid fuel into gaseous, which in relation to the proposed device allows you to ensure the duration of the work for almost an entire day at one gas station. But it is necessary to ensure effective afterburning of gasification products. To do this, the proposed device provides a box placed above the hatch of the firebox vault, into which gaseous fuel from the latter enters and air through the openings of the duct. The combustion regime here has the character of an open flame, which is called high-temperature combustion in the scientific literature, and is implemented near the stoichiometric ratio of fuel and air at high temperatures. Thus, according to experimental data, the maximum completeness of combustion of a combustible substance with a minimum yield of harmful substances such as carbon monoxide, unburned hydrocarbons, nitrogen oxides and solid carbon in the form of smoke is achieved when air is supplied with a slight excess (about 20 ... 30%) compared with stoichiometry. Isolation of the flame combustion zone from the heat exchanger tubes by the walls of the duct eliminates the effect of "freezing" of gaseous fuels and provides efficient combustion, in which water vapor and carbon dioxide CO _{2 are formed} . The upper third cavity - the gas chamber is designed to transfer heat from high-temperature products of complete combustion to the surrounding air. It is known that an increase in heat transfer efficiency is achieved by increasing the heat transfer surface, heat transfer coefficient and temperature head. In the proposed device, this is achieved by arranging heat transfer tubes inside the cavity of high-temperature combustion products, which allows to increase the heat removal surface at the maximum temperature head, and their intersecting arrangement in two rows creates additional flow turbulence, which increases the heat transfer coefficient. In addition, effective heat removal by air heat transfer pipes and their location near the side walls allows to reduce the temperature of the external surfaces of the device, which increases fire safety.

 When lighting, to prevent smoke from entering a heated room, it is necessary to quickly establish a draft. To do this, the proposed device provides the possibility of tipping the duct with the axis towards the front wall and thereby rectifying the flow of gases passing through the fire door of the firebox to the pipe of an adjustable chimney. In addition, the combustion products immediately begin to wash and heat secondary air ducts placed vertically along the rear wall and provide traction in their internal cavities as well, excluding the ingress of flue gases into the last when the heating device is fired, and ensures the operation of the heating device at a lower with the prototype rarefaction in the internal volume of the housing, which allows to reduce the geometric height of the chimney and increase the time of continuous operation of the device on one tab fuel by reducing the mass rate of smoldering fuel.

 As the calculation analysis of the functioning of the heating device shows, its characteristic dimensions are determined by the required flow rate of warm air, the operating time on one fuel tab, and the allowable hydraulic and heat losses. It is characteristic that for a device with given and unchanged dimensions, there is an optimum of useful heat production in terms of the ratio of the volumes of the firebox webs and heat transfer. In this regard, in the proposed device, the partition of the arch of the firebox divides the internal space of the housing in the ratio of volumes in half.

 Rings placed on the bottom side of the air duct openings provide the appearance of a reverse current zone in the flue gas afterburner, thereby mixing combustible gases coming from the firebox and secondary air, stabilize combustion and reduce the geometric length of the flame, and open ends of the secondary air ducts threaded and the supply of each union nut and interchangeable washers with different internal diameters allows you to set the combustion mode to complete combustion and a minimum output of harmful flue gas.

 To reduce the effect of the walls of the combustion chamber of the combustion gases on the completeness of combustion, it is necessary to ensure their temperature is as high as possible, for which, in the proposed device, the partition of the roof of the firebox, the grate and the duct with the axis are made of heat-resistant steel.

 The implementation of the front wall of the housing inclined facilitates the solution of the problem of ensuring a tight fit of the door for loading fuel and the ash door during operation of the heating device, and its provision with a surveillance window made of refractory glass gives the device the function of a closed fireplace.

 The proposed heating device is illustrated by the drawings shown in FIG. 1 and 2.

 In FIG. 1 shows a longitudinal section through a heating device; in FIG. 2 is a cross section AA of FIG. 1.

 The heating device includes a housing formed by a front wall 1 with a door for loading fuel and a pipe 3 with a regulator 4 for supplying air to the firebox 5, a rear wall 6 with a pipe 7 and a flue gas regulator 8, the lower horizontal surface is the hearth 9, the upper 10 and the side walls 11 and 12. The housing comprises a firebox arch located inside, made in the form of a horizontal partition 13 dividing the internal volume of the housing into two communicating cavities - the firebox 5 and the gas duct 14, and containing the hatch 15, air, crossing located above the roof of the firebox and fixed in the holes 16 on the lower horizontal surface - a staggered stitch along the side walls and in the holes 17 on the opposite side walls, heat transfer pipes 18 with open ends 19 and 20 in communication with the surrounding air, ducts 21 with holes 22 and an open end 23, a grate 24 and an ash pan 25 with a door 26. In this case, the hatch 15 of the roof of the firebox 5 is located on the side of the rear wall 6 and is equipped with a duct 27 placed over it, made with an open end 28 and forming an additional пол cavity - the chamber 29 of the afterburning of flue gases, communicated on one side by the cavity of the firebox, on the other - the gas passage chamber 14 from the front wall, air ducts 21 are placed in the cavity of the firebox 5 vertically along the rear wall 6 with holes 22 at the inlet to the chamber of the afterburning of flue gases each open end 23 in the hole 30 on the lower hearth 9 with the possibility of communication of their internal cavities 31 with the surrounding air.

 Box 27 is equipped with an axis 32 and is located with the possibility of rotation in the direction of the front wall 1.

 The partition of the arch of the firebox divides the internal space of the body in the ratio of volumes in half.

 Each duct 21 is provided with a ring 33 located on the lower side of the holes 22, and their open ends 23 are threaded and equipped with each union nut 34 and interchangeable washers 35 with different inner diameters.

 The partition 13 of the arch of the firebox, the grate 24 and the duct 27 with the axis 32 are made of heat-resistant steel.

 The front wall 1 of the housing is inclined and provided with a refractory glass observation window 36.

 The operation of the heating device is as follows.

 The heating device is installed on a horizontal platform of brick or metal, and an exhaust pipe with a height of 2. ..5 meters is connected to the pipe 7 for exhaust gases. Open door 2 and put small slivers in a small firebox 5 in small quantities, adjusters 4 and 8 are set to the “kindling” position, in fully open positions, the box 27 is tilted to the front wall 1. Next, the chips are ignited and, after the pipe draft has been established , firewood is superimposed on burning chips almost until the firebox 5 is completely filled, the door 2 of the firebox closes. After 5 ... 10 minutes, the outer surfaces of the firewood placed in the firebox 5 are warmed up. After that, the box 27 is returned to its original position, i.e. placed above the hatchway 15 of the roof of the firebox, the regulators 4 and 8 are set to the “mode” position in the optimal working position, previously marked with a scoring or other mark on the pipes 3 and 7. Thus, the heating device is put into operation.

 Improved kindling of the heating device due to the fast establishment of the chimney draft is achieved by straightening the gas duct by tilting the duct 27 towards the front wall 1, and air ducts 21 placed vertically along the rear wall 6, independently of the heat exchange pipes 18, exclude the entry of flue gases into the surrounding air.

 Long life of the heating device is provided by the implementation of the partition 13 of the arch of the firebox 5, the grate 24 and the duct 27 with the axis 32 of heat-resistant steel.

 The implementation of the front wall 1 inclined does not require special measures to seal the door 2 and the door 26 of the ash pan 25, it is enough to equip them with axes and lean against the wall 1.

 The processes in the internal cavity of the heating device can be observed through a window 36 of refractory glass.

During operation, the heating device implements the separation in space of the main physicochemical processes and their course under optimal conditions. After kindling and heating of the external surfaces, when the room is heated, solid fuel is put into smoldering mode using regulators 4 and 8. Smoldering is characterized by low, but self-sustaining, mass rates of gasification of fuel, which provides the possibility of long-term operation of the heating device on one fuel tab, low temperatures the process (about 400 ... 500 ^o C in the center of smoldering), which, in combination with placed along the side walls 11 and 12 of the heat exchange tubes 18 provides low wall temperatures and increases fire safety.

 In the process of smoldering in the firebox 5, solid fuel turns into gaseous fuel and due to the draft of the chimney through the hatch 15 of the arch enters the cavity of the duct 27 - the chamber 29 of the afterburning of flue gases. Air from the environment also enters the chamber 29 through the openings 22 of the ducts 21. The air flow in the chamber 21 is limited by the internal diameter of the washer 35, which is selected in advance during experimental design work for each specific size of the heating device. In the chamber 29, the solid fuel gasification products are burned in the form of an open flame at high temperatures in the space isolated from the heat exchange tubes 18 by the walls of the duct 27 with a small (about 20 ... 30%) excess air compared to the stoichiometric ratio. The rings 33 located on the lower side of the openings 22 provide the appearance of a reverse current zone in the flue gas afterburner 29, improve the mixing of combustible gases entering through the hatch 15, and the secondary air coming from air ducts 21, stabilize combustion and reduce the geometric length of the flame.

 The implementation of the set of features described in the proposed device provides an increase in the completeness of fuel combustion with a minimum output of harmful substances and an increase in the completeness of use of the calorific value of the fuel or efficiency, and also allows to increase the time of continuous operation of the device on one tab of fuel.

Sources of information
1. Description of the invention to the patent of the Russian Federation N 2001352, IPC5 F 24 B 5/06, publ. 01/15/93, bull. N 37-38.

 2. Description of the invention to the patent of the Russian Federation N 2035009, IPC5 F 24 B 7/02, publ. 05/10/95, bull. N 13. Prototype.

Claims (6)

 1. A heating device, comprising a housing formed by a front wall with a door for loading fuel and a pipe with adjustable air supply to the firebox, a rear wall with a pipe for adjustable chimney, a lower horizontal surface - the hearth, upper and side walls, and a fire chamber located inside it, made in the form of a horizontal partition dividing the internal volume of the body into two communicating cavities - the firebox and the gas chamber, and containing a hatch, air, crossing over the roof of the firebox fixed in the holes on the lower horizontal surface - the staggered stitch along the side walls and in the holes on the opposite side walls, heat transfer pipes with open ends in communication with the surrounding air, air ducts with holes, a grate and an ash pan with a door, characterized in that the hatch the arch of the firebox is placed on the side of the rear wall and is equipped with a box placed above it, made with an open end and forming an additional cavity chamber for the combustion of flue gases, connected with one side of the firebox cavity, on the other hand, the gas chamber on the front wall side, air ducts are placed vertically along the back wall in the firebox cavity with openings at the entrance to the flue gas afterburner and each fixed with an open end in the hole on the lower hearth with the possibility of communicating their internal cavities with the surrounding by air.  2. The device according to claim 1, characterized in that the box is equipped with an axis and is located with the possibility of rotation towards the front wall.  3. The device according to claim 1, characterized in that the partition of the arch of the firebox divides the internal space of the housing in the ratio of volumes in half.  4. The device according to claim 1, characterized in that each duct is equipped with a ring placed on the bottom side of the holes, and their open ends are threaded and equipped with each union nut and interchangeable washers with different inner diameters.  5. The device according to claim 1, characterized in that the partition of the arch of the firebox, the grate and the box with the axis are made of heat-resistant steel.  6. The device according to claim 1, characterized in that the front wall of the housing is made oblique and provided with an observation window of refractory glass.

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