RU93501U1 - HEATING DEVICE (OPTIONS) - Google Patents

Abstract

 1. A heating device comprising a housing formed by a bottom, side, front, rear and upper walls; a chimney located in the upper part of the housing; grate installed in the bottom of the housing; an ash pan with an ash box located under the grate; upper and lower gas guards; tubes for supplying secondary air; curved convective pipes are located along the side walls inside the case, dividing the furnace space into the furnace and the upper zone, convective pipes with open ends communicate with atmospheric air, while the lower ends of the pipes are hermetically fixed in the openings of the bottom of the body, and the upper ends of the convective pipes are hermetically fixed in inclined parts of the side walls, characterized in that the side walls of the body in the lower part are made vertical, in the middle part are concave inward, forming a narrowed region of the body, and the upper parts of the side walls are made inclined and connected to the upper wall, the front and rear walls of the housing are made flat, further comprises convective screens located outside the housing and mounted on its side, front and rear walls, the ash box is made with the possibility of hermetic closing, and its front the wall is equipped with at least one air supply adjustment gate, and convective pipes made of at least one row along the side walls of convective pipes bent in one plane are made with ryamymi and curved portions, converging in a constricted region of the housing, forming a vault of the furnace, and radiating in the upper housing part, forming the upper zone, throughout the m

Description

The utility model relates to devices for heating rooms, in particular to heating devices with internal ducts, and can be used using solid fuel, mainly firewood.

A device for air heating of premises according to the patent of the Russian Federation for the invention 2134844, IPC F24B 5/06, F24B 7/02, publ. 08/20/1999, comprising a housing formed by the front, rear, upper, side walls and the hearth, and intersecting heat-exchange tubes placed in it, a grate, an ash pan with a door. The internal volume of the body is divided by a partition into two communicating cavities - a firebox and a gas duct.

The disadvantage of this device is the low efficiency. This is due to the unsuccessful location of the heat transfer pipes, which are almost not washed by the flame, and their heating occurs mainly in the gas duct. In addition, the opposite arrangement of pipes, in which the upper sections of the pipes intersect, does not allow the installation of pipes in a row with a gap smaller than the diameter of the pipe, which also reduces the heat transfer surface and heat transfer.

A device for air heating of premises according to the patent of the Russian Federation for utility model 82821, IPC F24B 5/06, F24B 7/02, publ. 10.20.2008, comprising a housing, a furnace, a chimney hatch, a grate, direct ducts made in the form of pipes with open ends communicating with atmospheric air, installed along the rear and protruding parts of the front walls inside the housing, with the ends of the direct ducts located at the rear the walls are rigidly fixed in the holes of the bottom and upper parts of the body, and the ends of the direct ducts located at the front wall are rigidly fixed in the holes of the upper plane of the body and the bottom of the protruding upper part of the body. Curved air ducts with open ends communicating with atmospheric air are staggered along the side walls of the body, while the ends of their straight parts are rigidly fixed in the holes of the bottom of the body, and the opposite ends of the curved part are rigidly fixed in the holes of the opposite upper parts of the side walls of the body. The crossed upper parts form a combustion chamber, consisting of two zones: the lower - the furnace, equipped with a door on the front wall of the housing, and the upper zone of the combustion chamber. The device is equipped with upper and lower screens forming gas ducts.

The disadvantage of this device is the low efficiency. This is due to the overlapping arrangement of the heat transfer pipes, which are not effectively washed by the flame, which reduces heat transfer in the furnace.

The closest in technical essence and the achieved result - the prototype is a heating device according to the patent of the Russian Federation for the invention 2242679 F24B 5/06, F24B 7/02, 12/20/2004, consisting of a housing having side, rear and front walls, a cover and a bottom, and also a grate, ash pan, ash box, combustion chamber door, chimney, gas guards and convective pipes located inside the housing in rows along the side walls and hermetically fixed with the lower ends in the holes of the bottom, and the upper ends in the holes suspended parts of the cover. Convective pipes are arranged so that their upper parts intersect, forming the arch of the combustion chamber. In addition to the side there are also front and rear convection pipes.

The device has the same drawback as the previous one — the opposite pipe arrangement, in which the upper pipe sections intersect, does not allow the installation of pipes in a row with a gap smaller than the pipe diameter, which limits the efficiency of the device due to insufficient heat exchange surface.

As in the previous device, the complex geometry of the side convective tubes, requiring bending in two non-perpendicular planes, leads to the high complexity of their manufacture and installation in the device body.

The time-consuming and the process of assembling and welding the front and rear walls and fitting them to the side walls and the lid due to the angular joining of the faces and the large length of the welds.

The objective of the utility model is to optimize the design of the heating device and increase its efficiency.

The technical result achieved by this utility model is to increase the heat transfer area and reduce the complexity of manufacturing parts included in the device and its assembly.

The specified technical result is achieved in that the heating device according to option 1, comprising a housing formed by a bottom, side, front, rear and upper walls; a chimney located in the upper part of the housing; grate installed in the bottom of the housing; an ash pan with an ash box located under the grate; upper and lower gas guards; tubes for supplying secondary air; curved convective pipes are located along the side walls inside the casing, dividing the combustion space into the furnace and the upper zone, convective pipes communicate with atmospheric air with open ends, while the lower ends of the pipes are hermetically fixed in the openings of the bottom of the body, and the upper ends of the convective pipes are hermetically fixed in the inclined parts the side walls, according to the formula of the utility model, the side walls of the housing in the lower part are made vertical, in the middle - the parts are concave inward, forming a narrowed region the casing, and the upper parts of the side walls are inclined and connected to the upper wall, the front and rear walls of the casing are flat, further comprises convective screens located outside the casing and mounted on its side, front and rear walls of the casing, the ash box is made with the possibility of tight closing and its front wall is equipped with at least one slider for adjusting the air supply, installed at least in a row along the side walls, convective loss, made with straight and curved sections, converging in a narrowed area of the body, forming a fire chamber and diverging in the upper part of the body, forming the upper zone, repeat the geometry of the concave side walls of the body throughout the pipe and are equidistant to or close to it, while the lower and upper ends of each of the pipes are on one side of the furnace, the upper gas guide plates represent an angled plate with holes along the bend line.

The technical result is also achieved due to the fact that convective screens are made composite and p-shaped. Convective pipes are installed along the side walls in a checkerboard pattern.

The specified technical result is achieved by the fact that the heating device according to option 2, comprising a housing formed by a bottom, side, front, rear and upper walls; a chimney located in the upper part of the housing; grate installed in the bottom of the housing; an ash pan with an ash box located under the grate; upper and lower gas guards; tubes for supplying secondary air; curved convective pipes are located along the side walls inside the casing, dividing the furnace space into the furnace and the upper zone, convective pipes communicate with atmospheric air with open ends, while the lower ends of the pipes are hermetically fixed in the openings of the bottom of the body, and the upper ends of the convective pipes are hermetically fixed in the inclined parts side walls, according to the utility model, installed in at least one row along the side walls convective pipes bent in one plane are made with straight and curved sections approaching the middle plane of the casing, forming a chamber of the furnace and diverging in the upper part of the casing, forming the upper zone, while the lower and upper ends of each of the pipes are on one side of the furnace, the side walls of the casing are made flat with an inclined upper part and connected to the upper wall, the front and rear walls of the housing are made flat, further comprises convective screens located outside the housing and mounted on its side, front and rear walls of the housing, an ash box flax with the possibility of hermetic closing and its front wall is equipped with at least one gate to adjust the air supply, the upper gas guide shields are an angled plate with holes along the bend line.

The specified technical result is also achieved due to the fact that convective screens are made composite and p-shaped. Convective pipes are installed along the side walls in a checkerboard pattern.

The analysis of the prior art made it possible to establish that analogues that are characterized by a combination of features identical to all the features of the claimed technical solution are absent, which indicates the compliance of the claimed technical solution with the condition of patentability "novelty".

In the heating device according to option 1, the installation of side convective screens allows you to increase convective heat transfer from the most heated parts of the side walls of the housing. Installing the front and rear convective screens allows you to increase heat transfer from the front and rear walls of the housing. The trajectory of convective pipes and the geometry of the side walls are selected so as to maximize the contact area of the flame with the walls of the pipes, which increases the temperature and speed of the air passing through the pipes. In addition, this pipe path allows you to set in a row a greater number of them with a minimum gap compared to the prototype with the same dimensions of the housing of the heating device. It is also possible to install pipes along each side wall in a checkerboard pattern. The equidistant arrangement of convective tubes and side walls creates a labyrinthine flow of flame and gases throughout the tubes. All of these signs contribute to increasing heat transfer in the heating device and, therefore, increasing its efficiency,

The implementation of the ash box with the possibility of tight closing and equipped with one or more gates allows you to adjust the amount of air flow into the combustion chamber under different operating modes of the heating device and provide a long burning mode, which also increases its efficiency.

The trajectory of the convection pipe of the proposed device, in contrast to a similar prototype, lies in one plane, which facilitates the manufacture of pipes.

Making the front and rear walls of the housing flat simplifies the assembly and welding of the device.

Installation of the upper and lower gas guards lengthens the path of the flue gases, slowing their movement. The holes in the upper gas guide plate along the bend line make it easier to light the heating device and to clean it from soot.

In the heating device according to claim 2, the installation of side convective screens can increase convective heat transfer from the most heated parts of the side walls of the housing. Installing the front and rear convective screens allows you to increase heat transfer from the front and rear walls of the housing. The trajectory of convective pipes and their geometry are selected so as to maximize the contact area of the flame with the walls of the pipes, which increases the temperature and speed of the air passing through the pipes. In addition, this pipe path allows you to set a larger number of them in comparison with the prototype with the same housing dimensions of the heating device. It is also possible to install pipes along each side wall in a checkerboard pattern. The implementation of the side walls flat, increases the manufacturability of the device. The implementation of the ash box with the possibility of tight closing and equipped with one or more gates allows you to adjust the amount of air flow into the combustion chamber under different operating modes of the heating device, which also increases its efficiency.

The trajectory of the convection pipe of the proposed device, in contrast to a similar prototype, lies in one plane, which facilitates the manufacture of pipes.

Making the front and rear walls of the housing flat simplifies the assembly and welding of the device.

Installation of the upper and lower gas guards lengthens the path of the flue gases, slowing their movement. The holes in the upper gas guide plate along the bend line make it easier to light the heating device and to clean it from soot.

The essence of the proposed technical solution is illustrated by an example of a specific design and drawings, which show the first embodiment of the utility model:

figure 1 is a front view; figure 2 is a top view; figure 3 is a section aa; figure 4 - arrangement of holes in the bottom with a checkerboard arrangement of convective pipes according to the first and second embodiment of the utility model; according to the second embodiment of the utility model:

figure 5 is a front view; figure 6 is a top view; 7 is a cross section aa

According to the first embodiment of the utility model, the heating device consists of a housing 1 having side 2, rear 3, front 4, top 5 walls and bottom 6, as well as a grate 7, ash pan 8, ash box 9, door 10, chimney 11 with a shutter (item no. marked), of the upper gas guide plates 12. In the housing 1 along the side walls 2, convective pipes 13 having vertical and inclined straight sections as well as radius sections (pos. are not indicated) are hermetically fixed in the holes of the bottom and the holes of the inclined part of the side walls 2. Pipes 13 divide the furnace space into the furnace 14 and the upper zone 15. The inner space of the pipes 13 communicates with the surrounding space, both in their lower ends and in the upper ones. The number and location of pipes 13 is determined by calculations and development tests and depends on the size of the device. A composite convective screen 16 is installed on the outer surface of the rear wall 3 of the housing 1. For the afterburning of gaseous combustion products, a tube 17 is installed under the arch of the furnace 14 for supplying secondary air from the inner space of the rear convective screen 16. A chimney 11 with a rotary damper (pos. Not indicated) is installed in the hole of the upper wall 5. On the front wall 4 of the housing 1, above the door 10 is installed a front composite convective screen 18. Repeating the shape of the narrowed region 19 on the side walls 2 of the housing 1 are attached side to Native screens 20. A grate 7 made of elements 21 is mounted on the corner (pos. not indicated) of the ashpit 8 and the rear platform (pos. not indicated) of the bottom 6 of the housing 1. The front wall of the ash box 22 is configured to seal the ash box 9 and equipped with one or more gates 23 air supply. The door 10 has a window closed by a transparent refractory glass 24. The upper gas guide flaps 12 are located in the upper zone 15 above the convective tubes 13 and have openings 26, and the lower gas guide flaps 25 are located under the fire chamber.

According to the second variant of the utility model, the heating device consists of a housing 1 having side 2 rear 3, front 4, top 5 walls and bottom 6, as well as a grate 7, ash pan 8, ash box 9, door 10, chimney 11 with a shutter (item no. marked), the upper gas guide plates 12 and the lower gas guide plates 19. In the housing 1 along the side walls 2 hermetically fixed convective pipes 13 having vertical and inclined straight sections, and also radius e plots (pos. not marked). Pipes 13 divide the furnace space into the furnace 14 and the upper zone 15. The inner space of the pipes 13 communicates with the surrounding space, both in their lower ends and in the upper ones. The number and location of pipes 13 is determined by calculations and development tests and depends on the size of the device. A composite convective screen 16 is installed on the outer surface of the rear wall 3 of the housing 1. For the afterburning of gaseous combustion products, a tube 17 is installed under the arch of the furnace 14 for supplying secondary air from the inner space of the rear convective screen 16. A chimney 11 with a rotary damper (pos. Not indicated) is installed in the hole of the upper wall 5. On the front wall 4 of the housing 1, above the door 10 is installed a front composite convective screen 18. On the side walls 2 of the housing 1 are mounted side convective screens 20. Grid the crate 7 made of elements 21 is mounted on the corner (pos. not marked) of the ashpit 8 and the rear platform (pos. not marked) of the bottom 6 of the housing 1. The front wall of the ash box 22 is configured to seal the ash box 9 and is equipped with one or more gates 23 air supply. The door 10 has a window closed by a transparent refractory glass 24. The upper gas guide plates 12 are located in the upper zone 15 above the convective pipes 13 and have openings 26, and the lower gas guide plates 19 are located under the arch of the furnace 14.

The heating device according to the first and second embodiment operates as follows.

The device is installed on a horizontal platform of fireproof material, a chimney 11 to 2 to 5 meters high is connected to the chimney 11.

The kindling of the device is carried out in the standard way: the kindling material is placed on the grate 7, set fire to it, the door 10 is closed and the gate (s) 23 open the air into the furnace 14. The chimney damper 11 is completely opened. After the kindling material has flared up and a traction has been established, firewood or another type of solid fuel is placed in the furnace 14, the door 10 is closed and an air flow is added with shutters 23.

Tongues of flame and gaseous products of combustion of fuel in contact with the walls of the convective pipes 13 and the walls of the housing 1 heat them, while the air rises through the pipes and along the convective screens, heating the room.

The combustion process is monitored through the transparent window 24 of the door 10. As the fuel burns, new portions of it are added to the combustion chamber 14. If necessary, adjust the air supply to the furnace 14 by the sliders 23.

After kindling and heating of the external surfaces, the device is put into smoldering mode, reducing the air supply by the sliders 23 and covering the chimney flap 11. In this mode, the gaseous products of incomplete combustion, rising to the combustion chamber vault, are burned using oxygen-enriched secondary air entering through the tube 17 from the rear convection screen 15.

The device has a simple to manufacture and reliable in operation design.

Thanks to the implementation of the set of features described in the proposed technical solution, it is possible to increase the manufacturability of manufacturing, increase the efficiency of the device and reduce labor costs for its manufacture.

Claims (8)

1. A heating device comprising a housing formed by a bottom, side, front, rear and upper walls; a chimney located in the upper part of the housing; grate installed in the bottom of the housing; an ash pan with an ash box located under the grate; upper and lower gas guards; tubes for supplying secondary air; curved convective pipes are located along the side walls inside the case, dividing the furnace space into the furnace and the upper zone, convective pipes with open ends communicate with atmospheric air, while the lower ends of the pipes are hermetically fixed in the openings of the bottom of the body, and the upper ends of the convective pipes are hermetically fixed in inclined parts of the side walls, characterized in that the side walls of the body in the lower part are made vertical, in the middle part are concave inward, forming a narrowed region of the body, and the upper parts of the side walls are made inclined and connected to the upper wall, the front and rear walls of the housing are made flat, further comprises convective screens located outside the housing and mounted on its side, front and rear walls, the ash box is made with the possibility of hermetic closing, and its front the wall is equipped with at least one air supply adjustment gate, and convective pipes made of at least one row along the side walls of convective pipes bent in one plane are made with straight and curved sections converging in the narrowed region of the body, forming a fire chamber, and diverging in the upper part of the body, forming the upper zone, repeat the geometry of the concave side walls of the body throughout the pipe and are equidistant to or close to it, while the lower and upper ends each pipe is located on one side of the furnace, the upper gas guards are an angled plate with holes along the bend line. 2. The heating device according to claim 1, characterized in that the convective screens are made integral. 3. The heating device according to claim 1, characterized in that the convective screens are made p-shaped. 4. The heating device according to claim 1, characterized in that the convective pipes are installed along the side walls in a checkerboard pattern. 5. A heating device comprising a housing formed by a bottom, side, front, rear and upper walls; a chimney located in the upper part of the housing; grate installed in the bottom of the housing; an ash pan with an ash box located under the grate; upper and lower gas guards; tubes for supplying secondary air; curved convective pipes are located along the side walls inside the case, dividing the furnace space into the furnace and the upper zone, convective pipes with open ends communicate with atmospheric air, while the lower ends of the pipes are hermetically fixed in the openings of the bottom of the body, and the upper ends of the convective pipes are hermetically fixed in inclined parts of the side walls, characterized in that the convection pipes installed at least in a row along the side walls, bent in the same plane, are made with straight and curved sections approaching the middle plane of the casing, forming a fire chamber, and diverging in the upper part of the casing, forming the upper zone, while the lower and upper ends of each of the pipes are on the same side of the furnace, the side walls of the casing are made flat with an inclined upper part and connected with the upper wall, the front and rear walls of the housing are made flat, further comprises convective screens located outside the housing and mounted on its side, front and rear walls, the ash box is made with the possibility airtight closing, and its front wall is equipped with at least one gate to adjust the air supply, the upper gas guards are an angled plate with holes along the bend line. 6. The heating device according to claim 5, characterized in that the convective screens are made integral. 7. The heating device according to claim 5, characterized in that the convective screens are made p-shaped. 8. The heating device according to claim 5, characterized in that the convective pipes are installed along the side walls in a checkerboard pattern.