RU2818956C2 - Heating device - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to the field of heat exchange equipment, namely to devices for air heating of premises for various purposes when using all types of solid fuel. Heating device includes a furnace chamber, the walls of which are made along the outline of refractory bricks, a heat exchanger, a chimney, a smoke gate valve. Furnace chamber is made with a furnace door for solid fuel loading. Heat exchanger is located at the side wall inside the heating device and is made from the bottom upwards from the combustion chamber to the chimney. Besides, the heat exchanger is made as single-section and consists of at least three vertical metal round pipes, to which inlet lower and outlet upper pipes are welded at right angle, made for passage of hot air through them. At the same time the upper branch pipes are made with adjustable movable shutters. One-piece rectangular plate is welded to vertical metal round pipes on the side of internal surface of the furnace chamber by means of metal angles along the whole width and height of vertical metal round pipes. Furnace chamber consists of a furnace which is divided by the arch of a cast-iron plate into two parts, an upper and a lower one. Cast iron plate separates the lower part of the furnace chamber from the smoke channels from above and forms a niche open on the side with a vault above the cooking area of the cast iron plate in the heating device masonry with the possibility of providing drying functions. Furnace door is made with holes in the lower part, located along the width in two rows in staggered order and with possibility of their overlapping by movable flat plate with handle moved in guides, horizontally welded from outside to furnace door wall.

EFFECT: expansion of functional capabilities with increased efficiency and reduction of transverse dimensions.

1 cl, 5 dwg

Description

The invention relates to the field of heat exchange equipment, namely to devices for air heating of premises for various purposes using all types of solid fuel, as well as the use by two owners of adjacent rooms isolated from each other, heating the main room, installing the furnace itself when heating it with a cast iron horizontal a firebox overlap slab with an arbitrary, wide-range redistribution of the heat of the furnace mass between them, while increasing the heat transfer intensity of the furnace by at least twice without increasing the duration of the pounding, cooking with the possibility of increasing its usual maximum by at least twice and the possibility of using two thermal modes its processing, heating vertical metal round pipes with outlet pipes, preserving food and hot air for a long time, drying food and things, facilitating the kindling of the firebox itself when drafted in a chimney with smoke removal, in addition, preserving rest/sleep with the effect of dry heat in an isolated room (room).

Heating devices are known for heating premises for various purposes and for use in everyday life and construction using all types of solid fuels (RU Patents: No. 2103613, F24B 7/00, F24B 5/06 dated 10.27.1998; No. 2134844, F24B 7/08 dated 20.08 .1991; No. 2242679, F24B 7/02 12/20/2004). They represent an increase in efficiency due to increased heat transfer in the combustion chamber without increasing the dimensions of the heating device and ensuring uniform heating of convective pipes. However, not all air-conducting pipes work effectively; they create great resistance to air movement at the inlet of convective air ducts, which reduces the speed of air passage, there is no change in the release of controlled air, while those that are currently located in the combustion zone operate effectively. In addition, they have a complex design due to the presence of parts of a complex configuration and a large number of welding works with intersecting exhaust pipes for air exchange in the internal space of the furnace.

A universal heating device is known from the prior art, containing a housing formed by a wall with a door for loading fuel, side, top and rear walls, a tray, a chimney, a grate, an ash pan, a flue chamber, a firebox with a vault made in the form of a partition and having a hatch, located along the side walls and overlapping above the vault are heat exchange pipes with open ends communicating with the environment, and these pipes are fixed on the field in a checkerboard pattern, while the vault partition is made with an inflection in the center, gas guide brushes are additionally installed to form an obtuse angle in the direction of the chimneys, having one hatch each and fixed along the bend line of the vault partition with the help of additionally introduced jets and with the formation of two gas ducts between the vault partitions and the flaps, and a second hatch is additionally installed in the vault partition, while both hatches of the vault partition are located on the side of the rear wall and closer to side walls, and the hatches of the gas guide flaps are located on the side of the front wall and closer to the center, in the firebox, parallel to the side walls, an oven with a fan and with removable heat screens is fixed in the firebox, a fan is installed in the chimney, mechanically connected to the oven fan, in the firebox under the oven a heat exchanger pipe is installed in the form of a coil and has open ends communicating with the environment, a container for heating water is installed on the top wall, convective panels are installed along the side and rear walls (RU Patent No. 85987, F24B 5/00, F24B 7/00 , F24B 7/04 dated 08/20/2009). In the known device, the given heat exchanger is made in a section in one row in the form of vertical metal round pipes, and the heat exchanger is located parallel and next to the side wall of the combustion chamber, which ensures high efficiency of the heating device. However, its disadvantage is the difficulty of making a heat exchanger in the form of a coil for additional rapid heating of the air in the room. In addition, heating is carried out only in one room and does not regulate the possibility of hot air entering the heated room using the heat of the burned fuel. When implementing a known device, rows of vertical metal round pipes have reduced efficiency, since only part of their surface can be heated by the exhaust combustion products without braking. That is, it is beneficial for the installation that a significant portion of the heat is not used by the vertical round pipes of the outgoing combustion products (smoke and flame), which means that the heating efficiency of their heat exchange along the height of the rear wall on the side of the room (premises) with the partition separating the heating main furnace from the installation will be low, and its heat exchange surface will be small, which reduces the efficiency of vertical metal round pipes having a free, unregulated air outlet from the open ends, and also significantly complicates the operation of these heat exchangers due to all the open ends of the pipes and the lack of temperature control in such a room, when in the first room (installing a stove on the floor), a stove with small dimensions can heat the first room with a larger usable area of up to 50 ^m2 (in the applicant’s proposal there are two heated rooms, one of which has an area of 50 ^m2 , and the second adjacent is divided by a side vertical wall up to ceiling, equal to 30 m ² , an example of implementation in the village of Karyakino, Kameshkovsky district, not far from the city of Vladimir), while it is necessary to simultaneously use the function of simultaneously cooking food in the village, using a flat rough (developed) surface of a cast-iron slab to cover a firebox with a vault in niches , i.e. the known analogue does not solve the problem of simultaneous performance of the main functions and the kitchen hearth in one of the rooms (living room) of a heating stove (combined). Hence, in order to maintain the optimal temperature for the adjacent (second) room (in the absence of dust or various harmful gases) and having the comfort and cleanliness of its room with the filling of environmentally camphor dry air, which is always necessary for a person at any time of the day, therefore regulation is necessary warm (hot) with the inclusion at the top of the outlet pipes laid in the side wall (opening) of the adjacent side wall of the heat exchanger, inclusive, with the possibility of having a device for turning off the supplied hot air for heating the room, which is absent in the known analogue in relation to the claimed invention, i.e. e. to be able to solve the problem of regulating each round metal pipe individually with each outlet having short pipes at the top, which means additionally not only saving heat, but also creating a comfortable living experience for a person in modern conditions/so that a person feels it in a village for living.

Another main disadvantage is that in comparison with the declared device, it does not fully disclose the design of using a complex heating device of adjacent and isolated rooms from each other due to variant combinations of its heating modes, which means that it is impossible to increase the volume of simultaneously cooked on the stove beyond the usual and at the same time constant-variable application of heat supply to an adjacent room (room).

A long-burning heating furnace is known from the prior art, containing a housing with an opening for removing flue gases, loading and ash doors, an air duct and an air distributor with a movement mechanism, a damper driven by a thermostat, an external heat-insulating screen, wherein the air distributor contains two fixed vertical air ducts with longitudinal slots and plugged upper ends, located inside the housing, each of which has a movable closed belt with a drive window, through which the tape engages the bracket with the window driver, and the air ducts are connected to each other by a transverse air duct located under the bottom of the housing, the movement mechanism is located above the center of gravity of the driver of the windows in the lifting mode and the flexible element for fastening to it, and in the body there is a second hole for removing flue gases, in the pipe of which there is a damper, controlled by a second thermostat placed on this pipe, in each strip there are main and additional windows, the main window is located below the drive window, and the additional window is located above, while the area of the main window is 65-75% of the cross-sectional area of the vertical air duct, and the additional window is 25-35%, the air intake hole is made in the transverse air duct, and the damper installed on it is connected through a rod running along the body and a rocker arm with the upper surface of the body, while the axis of the rocker arm is fixed to a heat-insulating screen, which contains a frame with an internal heat-insulating coating having an outer layer mirrored in the infrared range (Patent RU No. 2541968, F24B 1/00 dated 23.1 - 2013). The heating stove has the ability to significantly simplify and reduce the cost of the design, reduce volume and weight with the supply of heated air, and the outlet pipe is equipped with a rotary damper.

The reason that prevents the achievement of the technical result indicated below when using a known heating stove is that when implementing a known stove, the supply of rotary dampers for regulating the flue gases of the outlet pipe is limited, since it cannot be closed completely, due to the fact that the room itself can be filled with carbon monoxide and is dangerous for the person in general, and is associated with his life (suffocation). The description notes that after heating the pipe, the flue gas thermostat through the upper pipe begins to only partially cover the damper, thereby reducing the flow of hot flue gases, i.e. communication with the thermostat must support the exit of flue gases during the combustion process until cooling. In this case, the draft occurs of cold air in the furnace structure entering the channel from below. Therefore, it has a different purpose for the execution structure and a different connection in general, i.e. is not aimed at solving problems of achieving simultaneous performance of the function of heating adjacent rooms isolated from each other (rooms), due to its design features in any of the variants of combinations of the pushing mode with the damper at the top closed, and therefore stopping the draft in pipes with branch pipes; the impossibility of increasing the maximum volume of simultaneously prepared food beyond the usual and simultaneous regulation of heat in an adjacent room, divided by a side wall, which is also a heating wall with heating from a heat exchanger.

From the prior art, a heat exchanger is known with a lower pipe welded to it at right angles to the body (as one element) of the heat exchanger, where there is no feature that provides the whole set of controlled heat supply, namely rotary adjustable dampers, especially in the upper position on the side of the body (Author's certificate SU No. 109747 (A) dated 01/01/1957).

A source of information is known from the prior art (FR 467042 (A) dated 06/02/1914), in which there is a partition made of very thick cast iron (heavy weight). However, it is impossible to simultaneously cook food beyond normal and simultaneously heat the room in two modes, i.e. the use of an array of heating and cooking stoves by the owners of adjacent rooms (rooms) isolated from each other, independently of each other, heating adjacent controlled heat in another room. Thus, in the proposed new solution there is also a niche in the furnace masonry on the side, open from the outside with a vault, a developed cooking area for the cast iron stove, regardless of the operation of the heat exchanger for the adjacent wall of the heated room and the wall (opening).

The closest to the claimed invention is a heating device containing a bell and combustion chamber, the walls of which are made of refractory brick along the contour of the body, the combustion chamber contains a door for loading solid fuel with a gate, a heat exchanger, a chimney pipe, a chimney valve, and the heat exchanger is made in the form canister with water and installed in the middle of the bell chamber with the possibility of heating with flue gases from all sides, a rectangular metal plate is installed above the combustion chamber on two transversely located corners, which, together with the base of the canister, made of a metal plate, mounted on transversely located profile rectangular metal pipes, form a channel for combustion of flue gases, a blower door is installed on the side of the rear side of the combustion chamber for supplying and adjusting the supply of secondary air into the flue gas combustion channel, and a door with a gate is additionally installed at the entrance of the bell chamber to supply secondary air into the bell chamber and finally afterburning of flue gases in it, in addition, two rows of profile rectangular metal pipes are vertically located in the heating device, installed in the seams of the brickwork of the chimney pipe from the underside to the second chimney valve with the possibility of heating air from hot flue gases inside the profile rectangular metal pipes and through convective heat and mass transfer with the possibility of heating the room and the room on the floor above where the chimney is installed (Patent RU No. 2551183, F24C 13/00 dated 05/20/2015).

The disadvantage of the heating device is the complexity and labor intensity in manufacturing the structure due to the presence of a large number of profile metal pipes; the bell chamber with a pencil case and cold water have a large load inside the furnace with the extraction of a large amount of heat to heat the water. In addition, there is an insufficient degree of utilization of the heat of the burned fuel in the lower part of the combustion chamber, since the heat is given off to the brick walls and the chimney brick pipe, which takes a long time to warm up, the device takes up a lot of space in terms of mass. Flue gases along the height of the pipe to the second floor lose noticeably some of their heat during multi-pass passages, i.e. lose along their long path as a result of first necessary, going down, and then rising to the profile rectangular metal pipes fixed in the chimney pipe, which successively (slowly) additionally remove only the heat of the flue gases that have traveled a long path of movement (limited by heat release), while do not simultaneously use the flame itself when burning solid fuel directly in the area located below and above the cast-iron ribbed cooking plate of the ceiling, since it does not resolve the issue of directly heating the heat exchanger of the section made in one row of at least two vertical metal pipes, to which they are welded at an angle of 90° lower inlet and upper outlet short pipes flush with the side wall on the side of the adjacent heated room (room), and the heat exchanger is located parallel to and next to the opening lined with masonry and then brick on the side of the adjacent side wall of the room, isolated from each other, when heating the vertical pipe sections in one row, which have pipes (ends), into which cold air first enters, is heated along the height of the vertical pipes from the wall of the fenced adjacent room, and then exits through the upper pipes (ends) with bitter air into the heated adjacent room with an accelerated heating process ( efficiency increases), the latter are equipped with internally adjustable rotary dampers until they completely close the openings of the upper pipes (ends) flush with the side wall of the room. This is important to have in the operation of the heating device as a whole for adjacent rooms, when the firebox itself does not affect the effect of dry heat in it. Another disadvantage, in comparison with the declared heating device, is that it is impossible for the owners of adjacent rooms isolated from each other to use the stove on the lower floor due to the asymmetrical design of the heating device; the impossibility of combustion in any of the variants of combinations of their combustion modes with the maximum effect for each mode due to the impossibility of supplying only warm air when all dampers are open or each of them is regulated by the flow of hot heat from heated (hot) vertical metal round pipes, to which inside the combustion chamber ( to enhance heating and return to the walls), one solid flat vertical plate of metal is welded, due to the design features of its fastening with a gap and heating by flame and flue gases together with vertical round pipes. In addition, there is a large area of the installation site, and therefore a large consumption of material for the structure due to its design features, while when cooking food on the cooking surface, a large area of the cast iron stove in the masonry of the stove is provided on the side, open from the outside with a vault, i.e. universal device; the impossibility of quickly heating a room not occupied by a stove in an adjacent room due to the absence of a firebox and a combustion chamber combustion unit.

Another drawback should be noted, in particular in analogue stoves, and in the prototype, where there are additional grates, ash pans with a door, various recesses in the bottom of the combustion chamber, as noted in the prototype, as a result of which the formation of ash in the corners causes difficulties in cleaning after combustion of solids. fuel from ash, so the applicant proposed an idea to remove this drawback in the prototype as a whole (grid, ash pan, excess doors with dampers), while one element remains - this is for the loading door and its improvements in design with small air holes in the form of a checkerboard row at the bottom of the door with the possibility of regulation or shutting off for slow burning of fuel, a vertical plate (sash) with a handle located in horizontal guides at the bottom of the door, but in the absence of a complex design with a gate, since it is necessary to gradually increase or decrease the flow of external air into the combustion chamber, while pieces of smoldering fuel will not be able to fall out onto the floor of the room (fire safety), which is known to all users of stoves, and that they need to be protected from this drawback. Thus, the surface of the bottom of the combustion chamber and the placement of the lower part of the end (end) of the door is also important to consider as a whole the heating device of furnaces, where the bottom is located in the same horizontal plane with the door fastening, which means that as solid fuel burns and ash removal will be easier, Accordingly, the absence of ash prevents carbon monoxide from remaining harmful to humans (especially at night, when he falls asleep to rest). The proposed heating device is currently operating in the private house of the author of the invention, as noted above, while the heating itself is associated with heating two adjacent separate rooms with a total area of more than 50 m ² , and it performs all the tasks set in the invention author (even drying the gifts of the site, etc.) In this case, the side wall of the stove, in relation to the stove chimney behind, is rapidly heating up with the side wall (opening) of the adjacent room, i.e. with the heat exchanger adjacent to it inside the combustion chamber on the side in parallel in one line of the wall common to the adjacent room. The vertical pipes of the heat exchanger are closed from the outside by laying bricks at the end of each other in height with round holes for the lower and upper short pipes flush with the side wall of the room, respectively, in the upper pipes. rotary valves are fixed. In addition, the door itself for storing fuel has also been improved structurally as a whole.

Thus, the known analogues and the prototype are not sufficiently economical, complex and relatively large in size due to multidirectional combustion devices and vertically located channels.

The purpose of the invention is to expand the functionality with increased efficiency and reduce the transverse dimensions by placing a heating and cooking stove for the owners of adjacent rooms isolated from each other, independently of each other, sequentially in a common line from the side wall of the room (into it, as if inserted into the wall) , the side wall (opening) of the room quickly warms up simultaneously with the entry of hot air into the adjacent room, in the absence of a bulky device in terms of weight of a stove with a firebox, while the stove must simultaneously perform both the heating and cooking function and the function of drying the site's produce, reducing the area and volume of the furnace and material consumption for construction, taking into account the limit of heat redistribution of the furnace mass between adjacent rooms with controlled heat in one of them without a firebox, reducing the service area of the cooking process, the possibility of increasing the heat transfer intensity of the furnace by at least twice without increasing the duration of combustion, the possibility of increasing the maximum of simultaneously prepared food by at least twice as much as usual with the possibility of simultaneously using heating modes in adjacent rooms.

The solution to the formulated technical solutions is ensured due to the fact that the heating device contains a combustion chamber, the walls of which along the contour are made of refractory brick, a heat exchanger, a chimney, a smoke valve, while the combustion chamber is made with a combustion door for loading solid fuel, according to the invention, the heat exchanger is located at the side wall inside the heating device and is made extending from the bottom to the top from the combustion chamber to the chimney, while the heat exchanger is made of a single section of at least three vertical metal round pipes, to which the lower inlet and upper outlet pipes are welded at an angle of 90°, made for the passage of hot air through them, while the upper nozzles are made with adjustable movable dampers, in addition, a solid rectangular one is welded to the vertical metal round pipes from the inner surface of the combustion chamber using metal corners along the entire width and height of the vertical metal round pipes plate, the combustion chamber consists of a firebox, which is divided by the arch of the cast-iron plate into two parts, upper and lower, in addition, the cast-iron plate separates the lower part of the combustion chamber from the smoke channels above and forms a niche open on the side with a vault above the cooking area of the cast-iron stove in the masonry of the heating devices with the ability to provide drying functions, the combustion door is made with holes in the lower part, located in two rows in width in a checkerboard pattern and with the possibility of overlapping them with a movable flat plate with a handle moved in guides horizontally welded from the outside to the wall of the combustion door.

The significance of the features is ensured by their cause-and-effect relationship with the technical result specified by the claims, subject to the above conditions.

The analysis of the level of technology carried out by the applicant, including a search through patent and scientific and technical sources of information and the identification of sources containing information about analogues of the claimed invention, allowed us to establish that the applicant did not find analogues, characterized by features identical to all essential features of the claimed heating device. Determination from the list of identified analogues of the prototype as the closest in terms of the totality of essential features in relation to the intended technical result set out in the claims.

Therefore, the claimed invention meets the conditions of “novelty” and “inventive step and “industrial utility”.

The present invention is illustrated by examples and drawings, where:

in fig. 1 shows a heating device - cross-sectional side view;

in fig. 2 shows a heating device, section A-A in Fig. 1;

in fig. 3 shows the heating device - front view from the door side;

in fig. 4 shows a heating device - a side view from the side of the opening in the side wall of the partitioning adjacent heating room;

in fig. 5 shows a heating device - a side view from the side of a niche in the masonry of the stove, open from the outside with a vault, a developed cooking area of a cast-iron stove.

The heating device consists of a body 1 of the combustion chamber, which contains walls 2 made of refractory brick along the contour of the body, and a chimney 3. The combustion chamber 1 consists of a firebox chamber 4, which is formed by dividing the slab 5 made of cast iron material into two parts by the roof - upper and lower, the latter, which performs active combustion or smoldering of fuel, and the upper one is filled with hot flue gases with the possibility of heating from the bottom of the firebox 4 to the top of the beginning of the installation of the chimney valve 6 along the height of vertically installed with a gap metal round pipes 7, 8, 9 with a welded to them a vertical flat plate 10 in cross-section using vertical corners 11 to the side walls of round pipes, starting from the bottom of the lower part of the firebox 4, in which the main burning of firewood and smoldering occurs with insufficient air supply through small holes 12 located in the lower part in planes of arrangement in the door 13 itself in two rows in a checkerboard pattern, which are overlapped from the outside by a vertical flat damper 14 with a handle 15 in the guides for moving the damper 14 in them. Door 13 serves to open and close the fire chamber 4, while there is no grate and ash pan with a door with a gate. The bottom of the firebox is laid out horizontally from refractory bricks, laid flat at the level of door fastening 13, it warms up well. The regulation of the supply of ambient air for burning and smoldering firewood with hot flue gases is regulated through small holes 12 in the door 13 to supply a given volume of air from outside due to the movement of a flat damper 14 with a handle 15 in the horizontal plane, the flue gases rise upward. The heating device consists of a heat exchanger, which consists of sections in one row of at least three vertical metal round pipes 7, 8, 9 with welded to them at an angle of 90° with inlet bottom 16 and outlet 17 short pipes located in the side wall of the room, which is also a side wall for the combustion chamber 1 from the inside, i.e. the created opening in the adjacent wall is located in line with the plane of the common wall flush, which is then heated with heat over its entire area of closing the wall 18 from the side of the combustion chamber, laid from refractory bricks in one row on the edge, thereby closing it with an additional wall by placing it in the opening in the side wall 19 of a room made of ordinary building bricks in a closed heated room 20. The side wall 18 of the adjacent room is made along the contour in the form of a closing opening (for example, a bedroom or recreation room, etc.). In this case, the room is well heated when heat is transferred from vertical metal round pipes 7, 8, 9, which are completely covered inside the precise chamber by one solid flat plate 10 fixed to the side walls of pipes 7, 8, 9 in width and height using corners 11. The heating device on the side wall 18 (opening) inside the combustion chamber 4 has streamlined surfaces of metal vertical round pipes 7, 8, 9 with a gap between a flat solid vertically fixed plate 10 along the entire height and width on the side of the combustion chamber 1 with pipes 7, 8 , 9. Flue hot gases above the overlapping metal hob with a developed area of cast iron quickly heat up, simultaneously enveloping the surface of metal vertical round pipes, starting from the bottom, then up and are heated both by the flame of combustion or smoldering firewood (in the lower part), and by hot smoke gases rising up through the channels towards the chimney 3 with a chimney valve 6. The side wall with vertical metal round pipes 7, 8, 9 inside the combustion chamber and with a fixed vertical solid flat plate 10 in cross-section, secured with corners 11, is stably held on the vertical heated round pipes installed in one row using welded corners 11 and a rigid connection with sections of pipes 7, 8, 9 with inlet bottom 16 and outlet 17 short pipes laid in the holes of the side wall 18 of the adjacent room 20 (embedded opening in the wall 19) heated adjacent room 20. The cavities of the pipes 7, 8, 9 with fastening to them inside the combustion chamber 1, accordingly, are good at increasing the heat transfer to warm up the cold air coming from below, the lower short pipes 16 towards the output short upper pipes 17. The pipes 16 and 17 are rigid welded with a weld seam at an angle of 90° to round pipes 7, 8, 9, and the open ends (ends) are equipped inside with adjustable movable dampers (not shown), the axis of rotation of which is attached to the walls of the holes of the outlet upper ends of the short pipes 17 for the release of adjustable hot air through the internal cavities of vertical metal round pipes 7, 8, 9 towards the heated adjacent room 20, while ensuring its cleanliness, comfort, and the healing condition of a person for living in it.

Thus, supplying the outlet pipes 17 inside with rotary dampers helps maintain the specified positive air temperature clean in the adjacent room (room), i.e. taking into account the time of flooding of solid fuel (the temperature in the room can be determined by an ordinary household thermometer produced by industry in various shapes).

During heating of the adjacent room, in cases where all three rotary dampers (not shown) are opened at the upper ends of the nozzles 17 and room temperature is reached, for example 18-20°C, they can be closed in any order up to the last one, thereby leaving only the heating of the adjacent side wall (opening), which is constantly maintained warm until a drop occurs in the adjacent room (room). By manipulating the rotary dampers (not shown), it is possible to achieve different degrees of heating inside the adjacent room (if there is no installation on the floor in it) with the same parameters of permanently fixed vertical metal round pipes, at least three, with the lower 16 and upper 17 pipes, respectively. during heating when installing the furnace on the foundation.

Execution example

The design features of the heat exchanger as a whole, made of certain sizes of pipes with the same diameter (possibly different), their number, at least three, are also important to note using the example of a built (implemented) furnace structure: the diameter of each pipe was 80 mm, height 1700 mm ( equal to the side wall 18 of the opening), respectively, the diameter of the short pipes is 80 mm, the distance between the pipes is 80 mm in the brickwork of the side wall 18 from the side of the combustion chamber 1. Heating noticeably increases in total if there is an installation in proximity to a given flat vertical plate 10 in cross-section , rigidly attached to the walls of the pipes using corners with a gap, and with the possibility of passage inside them from the side of the combustion chamber of hot flue gases in the flues (not shown) upward, towards the chimney 3 with an adjustable chimney valve 6. The hot flue gases have not yet cooled down and the flame in the combustion chamber 4, simultaneously heat all the elements starting from below, which then give off more heat also to the hob 5 from the developed surface of cast iron (stove dimensions: length and width - 750 × 350 mm, thickness 20 mm), while hot the flue gases, rising upward, cover well and envelop the entire surface of the vertical flat solid plate 10, and wash the metal vertical round pipes 7, 8, 9 with hot flue gases, then heating quite quickly the adjacent room due to the admission of hot air into it through the upper short pipes with rotary adjustable flaps. In addition, it should be noted that part of the lower lowered ends of the plate 10 and pipes 7, 8, 9, before overlapping the plate 5 made of cast iron material, in the area located towards the flat bottom towards the combustion chamber 4, is additionally heated faster by the flame from burning wood or when smoldering from the side wall 18 of the combustion chamber 1, i.e. heating of two adjacent rooms occurs simultaneously actively, where both rooms simultaneously receive the specified heat independently of each other, separated by an adjacent wall of the room along the same line, be it living rooms, or a corridor and a room, or a kitchen and a room, i.e. in different combinations of rooms. In our case, this is a living room adjacent to the corridor and kitchen in it, a side wall that runs along the same line. The seams between the side walls of the combustion chamber 1 and the adjacent one (opening 18) in the side wall 19 are sealed with clay mortar with a mixture of sand in a certain ratio (this is known to a specialist). This allows the owner to be in the village at any time of the year (winter-summer). The metal, heat-resistant one-piece plate 10 is important, which plays the role of a screen that releases the accumulated large heat inside the combustion chamber, it also retains it for a long heating time, then releases most of the heat, heating and supporting the walls of the vertical round pipes, and those, in turn, not only heat the passage of cold air through them inside towards the adjacent room, but at the same time warm up the wall 18 (opening) with thin brick laying on the edge of the brick. Moreover, such a design scheme of the heat exchanger can for a long time prevent the deposition of soot on round pipes (compared to conventional masonry passage channels), when the flue gases are still quite hot before they enter the exhaust chimney 3 in comparison with the prototype, thanks to the improvement and combustion chamber as a whole, which means better heating is maintained during long-term operation. The screen of the plate 10 itself is made of heat-resistant heat-resistant steel with the possibility of heating (heating) vertical metal round pipes 7, 8, 9 along the height of their heating installation inside the combustion chamber with brickwork.

It should also be noted that the plate 5 made of a material with a developed area of cast iron is placed in a niche 21, located above the lower part of the combustion chamber 4 along the entire perimeter with given dimensions, serves not only to transfer heat to it into the open part of the niche from the side of the wall and the arch, but also Due to its small dimensions, it is a continuation of the brickwork of combustion chamber 1 and provides the possibility of cooking food. In this case, firewood or other types of solid fuel are supplied only from one room where the stove is installed on the solid foundation of the heated room, while the adjacent room 20 is not smoked by gases and always remains clean with dry air.

The hob can be used for heating food, boiling water, etc., and the upper open windows made of brickwork (not shown) additionally serve for drying various small items, making the device convenient in terms of design of a heating device in the room and convenient for living . In this case, adding fuel, in particular in the summer, does not require completely filling the firebox 4 with solid fuel (for example, firewood), with the possible rotary valves (not shown) in the openings of the ends of the upper pipes 17 located in the room 20 closed. The stove itself is 5 of cast iron is quite reliable and heats up quickly, does not cool down for a long time, retaining heat, and can turn red when heated and does not form cracks compared to other metals, which is confirmed by practice when operating a heating device when cooking food, heating it, boiling water and so on. It especially follows that heat will be retained if the holes in the loading door 13 are closed with a damper 14 in smoldering mode until complete combustion of, for example, firewood, while another important technical feature is that the level of the bottom of the firebox is made in the same plane with the location the lower part of the end of door 13 (this also involves a new technical solution - a secret for the manufacturer); there is no completely ash chamber with a door with a gate, grate or recess according to the prototype.

It is used in heat and mass transfer technology, using the intake of cold air from below in a closed room, then it enters through the lower inlet short pipes into vertical pipes, and exits with heated air again through the output upper short pipes with heating of the adjacent heated room.

The proposed heating device operates as follows.

The heating device is installed on a foundation, which is covered on top in the form of a horizontal platform made of fireproof material, and then the base is laid flat with brick. Firewood or other types of solid fuel are fed through the loading door 13 into the combustion chamber 4, which is limited from above by a vault in the form of a slab 5 of cast iron material with a developed surface, forming a lower and upper division into two parts. Small inlet holes 12 for the intake of outside air from the room are made in the lower part of the door 13 in at least two rows in a checkerboard pattern, while they are initially left open by extending (opening) a flat vertical plate 14 (damper) with a handle 15 in horizontal guides, which are welded along the length of the wall of the door 13 in the lower part from the outside, adjusting the air holes 12. In this case, the bottom of the combustion chamber 4 is made flat and at the same level in the plane where the door 13 is fastened together (the grate and ash pan are completely absent). The flat plate 14 (damper) has the ability to move horizontally in the guides relative to the located small holes 12 in the door 13. When burning and sufficiently kindling the solid fuel at the bottom of the combustion chamber 4 of the heating device, then the plate 14 is moved along the guides using a handle along the door wall 13 partially or completely close the small air inlet holes 12, thereby transferring the heating to the smoldering mode of the firebox, and for complete combustion of flue gases in the masonry of brick channels inside the combustion chamber 1, they use these channels formed. Along the course of the masonry above the cast iron slab 5, placed in a niche 21 in the masonry of a niche open outside with a vault above the firebox in the form of a cooking area of the cast iron slab 5, fixed vertical metal round pipes 7, 8, 9 are installed inside with lower inlets 16 and upper outlets 17 With short pipes, which are located on the side of the adjacent room, and in the holes at the ends of the upper pipes 17, adjustable rotary dampers are fixed to the axis of rotation (not shown). In addition, from the side of the internal cavity of the combustion chamber 4, vertical corners 11 are fixed to the side walls of vertical metal round pipes 7, 8, 9 (in the form of a screen) by seam welding, forming a gap between the walls of the pipes made as a whole in the form of a heat exchanger. When burning, for example, firewood and then flue gases, when the required amount of air is supplied from the surrounding room of the heating device installed on the foundation, air through small holes 12 in the lower part of the door 13 with an overlapping plate 14 (damper), inside the firebox, the burned solid fuel emits a lot heat of at least 1000°C, part of which is spent on heating the vertical fixed solid flat plate 10, attached with the help of corners 11 to the walls of vertical metal round pipes 7, 8, 9, installed in the form of a section in one row to the heated side wall 18 of the fuel chamber 1, and the other part of the solid fuel combustion flame heats the cast iron plate 5 itself from below, a kind of radiation occurs at the same time and from below through the gaps to the fixed side. A flat solid plate 10 together with metal vertical round pipes 7, 8, 9, to which in turn the lower inlet short pipes 16 and the output upper short pipes 17 are welded, allows for fairly rapid heating of all metal elements. In addition, at the same time, the arch in the lower part of the furnace chamber 4 also heats up quickly, so initially the cast iron area developed from above first slowly heats up, then receives maximum heating, up to red, and which is located in niche 21 in the masonry of the furnace with the arch, which holds well heat, which then goes outside and warms the room with warm air, and the opposite side wall of the niche 21 and the arch along the entire perimeter, made of refractory brick masonry, also warm up well and quickly along the entire perimeter. In some places the masonry is made solid, where necessary, while to the side, partially above the door 13, the side wall of the niche 21 is made of masonry in one row on an edge of refractory brick, as a result of which the brickwork also gives off more heat to the brick walls of the combustion chamber 1, thus, the heating device performs several functions simultaneously, both for the heated adjacent room 20 and for the room where it is installed on the foundation, for example, in the author’s proposal, as an example, it is installed in a corridor with a kitchen with an adjacent room through the side a longitudinal wall, possibly also with a location between two living spaces, i.e. functionality was expanded into proposals for implementation, while the total area was more than 50 m ² . It should be noted here that the presence of a hob allows you to cook food, heat water, dry small items living in a given room, and the adjacent room remains clean, where heating is connected to the intake of hot air through the upper inlet short pipes 17, equipped with rotary adjustable dampers (not shown), welded at an angle of 90° to the walls of the vertical pipes 7, 8, 9 of the heat exchanger, in addition, the wall 18 itself also gives off its heat constantly when the furnace is fired. Thus, cold air enters from the floor into the lower inlet pipes 16 and passes inside the pipes 7, 8, 9, heated up by the heating chamber 1 with a heat exchanger located in it, hot air which then fills the adjacent room 20, i.e. it seems to circulate through the pipes, heating up (the pressure is different from below and above), due to the fact that inside the heating chamber the pipes are arranged in a row in line with the side wall 18, closed with brickwork on the edge from the side of the adjacent room, while flames and hot the flue gases heat the plate 10 with pipes 7, 8, 9 quite quickly even with the firebox 4 during the combustion of wood or its smoldering, i.e. further in height by hot flue gases. Thus, the cold air entering the cavity of the pipes through the lower 16 short inlet pipes manages to quickly heat up along the height of the pipes, providing intensive heating of the adjacent room with hot air in sufficient quantities in a short time when installing a number of pipes, at least three, when firing the furnace.

At the same time, it is possible to simultaneously heat the room in which the heating device itself is installed on the foundation, where the cooking area of the cast-iron stove 5 is installed in a niche 21 in the furnace masonry on the side, open to the outside with a vault. Therefore, it is possible not only to emit a lot of heat, but also to cook food, heat water, etc.

It should also be noted that after heating the surfaces inside and outside the heating device as a whole, solid fuel is transferred to smoldering mode thanks to a device in the lower part of the adjustable door 13 in width with small holes 12 for the flow of ambient air from the room due to the possibility of an adjustable flat plate 14 with handle 15, opening or closing small holes 12, which are located in at least two rows in a checkerboard pattern directly at the bottom of door 13, i.e. You can set the mode of fast burning or smoldering fuel.

Smoldering is characterized by low but self-sustaining mass rates of gasification of solid fuel, which ensures the ability of a heating device to operate reliably on one load of fuel, and low temperatures for the process when the ash is still hot and has not cooled down. What should be positively noted here is that there are no grates or an ash pan (ash pit) under them with a damper; in addition, the fire hazard is reduced accordingly, as noted above, since the presence of an ash pan will cause it to quickly fill with hot ash to the maximum, and it can spill onto the floor when the supply of air from the room is opened for the combustion of wood or other solid fuel.

During the smoldering process under the arch of the combustion chamber 4, which is not completely covered with a cast iron stove 5, the solid fuel turns, after some burning, into gaseous fuel due to the existing draft in the chimney 3 from the adjustable chimney valve 6.

The limited air flow from the environment can be quite easily reliably and accurately regulated by gradually opening or closing small holes 12 using a flat plate 14 (damper) with a handle 15 in a horizontal position in guides mounted on the cover 13.

It should also be noted that the temperature of effective decomposition of firewood with the release of volatile hot gases is in a narrow temperature range of 290-300°C, which means that the proposed elements of the device additionally have greater heat transfer when heated due to their good thermal conductivity in general.

Good heat transfer also occurs in the heated adjacent room 20 by heating the heat exchanger, through the cavities of the pipes 7, 8, 9, into which cold air enters from below into the lower inlet short pipes, where it warms up quickly and then exits through the upper short pipes 17, hot in room in the absence of any resistance and heat loss.

The process of heating an adjacent room depends on the installation location of the heating device and its position in shape; in the proposed invention, the side wall 18 is both one of the side walls of the combustion chamber 1 and the adjacent wall 18 flush with the entire side wall of the adjacent room, i.e. a single whole device separating the room 20 for air heating with clean air. Here there is active heating of both the wall 18 and the air in the pipes 7, 8, 9, which means that there is increased heat transfer, saving in burning solid fuel for the adjacent room; the wall 18 itself, as noted above, has a fairly small thickness, easily heated in comparison with the prototype, where the chimney, as is known from practice, is many times increased in the thickness of the brickwork, its installation height, i.e. in the proposed masonry wall 18 has a thickness of refractory brick equal to its laying in one row on an edge (this is also not known from the prototype), covering the outside of metal vertical round pipes 7, 8, 9, rigidly fastened through the corners 11 with a solid flat plate 10. It should be taken into account that the short upper pipes 17 with open ends are equipped with rotary flaps (not shown) at a height in the room of an adult’s outstretched arm (a child cannot reach them if there is no possibility of burns), and pipes 12 and 17 are also fixed in the holes of the side wall 18, which is also the side wall of the combustion chamber 1, which is missing compared to the prototype. The heat area is sufficient for general heating as a whole, with the ability to constantly maintain heat without adjustment by heating only the wall 18 (opening) in the firebox mode. Combustion products and other odors do not enter the closed adjacent room and make it environmentally friendly - they do not clog with garbage, dust, soot, etc.; heat lingers in a given room for a long time (up to two days, no less), creating warmth for a person. To ensure efficient output, the proposed heated devices were installed as a whole inside the combustion chamber 1 with a heat exchanger. A constructive solution for regulating the flow of hot air into the adjacent room is carried out using control rotary dampers (not shown) with an axis of rotation in the openings of the ends of the short output pipes 17 towards the room heated from at least three vertical metal round pipes.

It is theoretically known that the specific density of heated air is less than the specific density of cold air. The difference in air temperatures in the lower part of the location of the short inlet, lower 16 short pipes and the location of the short outlet, upper 17 pipes creates a pressure difference at their inlets and outlets through a passage in the cavity of metal in one row of vertical round pipes 7, 8, 9. The difference in air pressure in pipes 7, 8, 9 are provided by a natural heat exchanger when heated by hot gases and flame. In this case, the speed of air movement in round pipes 7, 8, 9 is higher, the greater the temperature difference during heating between the bottom and top of the location of pipes 16 and 17, and the lower their resistance to heat loss. Thus, the presence of an additional one-piece flat plate 10 significantly contributes to rapid heating additionally for round pipes 7, 8, 9, while giving off its heat and at the same time towards the thin side wall 18, covering the heat exchangers from the outside, taking into account its active open surface and inside combustion chamber 1. In addition, in the firebox 4 from below, the open end ends of the pipes with the lower 16 nozzles are actively and immediately heated by the combustion flame of solid fuel in relation to analogues and the prototype, with the release of hot gases during combustion, in addition, there is no ash pan vent for the chamber or recess compared to the prototype, where the temperature of thermal decomposition of solid fuel, for example, firewood with the release of volatile gases, is in a narrow range of 280-300°C. In addition, the surface of each of the vertical metal round pipes 7, 8, 9 along the entire height allows heating from direct radiation in the combustion chamber 1 and from heating of the vertical solid flat plate 10. Above is an example of the implementation and implementation of the heating device of the author of the invention, as a prototype performance.

If it is necessary to heat water, cook and heat food, use a room in which a heating device is installed on the foundation in the presence of a niche 21 with a cooking-developed cast iron stove 5, where the temperature reaches 350-450 ° C (except for the release of heat from the outside of the opening with the vault) you can put a kettle, saucepan, frying pan, baking tray, etc. In this case, the adjacent heated room always remains environmentally friendly (no soot).

The presence of one firebox for two adjacent rooms entails fundamentally important options for obtaining heat in this device: redistributing heat between rooms with the side wall of the adjacent room in one line with the installation of a common side wall and a combustion device with a heat exchanger, and on the other side - a niche in the furnace masonry on the side, open from the outside with a vault, a developed cooking area of a cast-iron stove. In each of the combustion modes (summer, winter), it is fundamentally important for space heating to heat the heating device during the movement of hot flue gases and flame at the beginning of the firebox, depending on the draft of the chimney in height with the installation of a chimney valve (this has also been proven by the practice of various construction projects). ovens).

From the description of the heating device, the material used and the technological methods for using solid fuel (firewood, wood waste, etc.) during manufacture and assembly, it follows that the proposed invention can be put into practice widely on the basis of a pilot stove built in the village of a private house, located in the village of Karyakino, Kameshkovsky district near the city of Vladimir, and after heating such a stove is enough for two days in two adjacent rooms of a brick building with the thickness of its outer walls up to 80 cm. Thus, the proposed heating device, in comparison with the prototype, allows you to get simple and reliable heating device, achieve complete combustion of solid fuel, reduce harmful emissions into the atmosphere; create environmentally friendly conditions in heated rooms while maintaining the design of the rooms, increase heat and mass transfer in the combustion chamber, where solid fuel is burned and heat is released by hot flue gases when heated. The operation of only one small heating device when burning fuel with high efficiency, heating rooms with warm air in large volumes, the ability to prepare food, and ensure the drying of land and forest produce is important in general in towns, villages and dachas. At the same time, the ability to regulate the volume of additional air supplied to the firebox is ensured by blocking the small air holes from below at the end of the door by moving the plate (damper) with a handle in the horizontal guides in a horizontal position, attached to the outside of the fire door along its length, unlike the prototype.

The proposed solution for the heating device allows us to significantly simplify and reduce the cost of its design, reduce volume and weight. Due to this, the useful volume in the heating device of its overall dimensions increases and, as a consequence, the thermal performance per unit volume of the furnace body increases, while in relation to the prototype it allows to increase the duration of its combustion, one of the main operational characteristics.

The level of development is at the stage of a prototype heating device being built in the practice of its operation.

Claims (1)

A heating device containing a combustion chamber, the walls of which along the contour are made of refractory bricks, a heat exchanger, a chimney, a smoke valve, wherein the combustion chamber is made with a combustion door for loading solid fuel, characterized in that the heat exchanger is located at the side wall inside the heating device and made extending from bottom to top from the combustion chamber to the chimney, while the heat exchanger is made of a single section of at least three vertical metal round pipes, to which the lower inlet and upper outlet pipes are welded at an angle of 90°, made for the passage of hot air through them, while the upper nozzles are made with adjustable movable dampers; in addition, a solid rectangular plate is welded to the vertical metal round pipes from the inner surface of the combustion chamber using metal corners along the entire width and height of the vertical metal round pipes with a gap; the combustion chamber consists of a firebox, which is divided the arch of the cast-iron stove into two parts, upper and lower; in addition, the cast-iron stove separates the lower part of the combustion chamber from the smoke channels at the top and forms a niche open on the side with a vault above the cooking area of the cast-iron stove in the masonry of the heating device with the possibility of providing drying functions, the combustion door is made with holes in the lower part, located in two rows in width in a checkerboard pattern and with the possibility of overlapping them with a movable flat plate with a handle moved in guides horizontally welded from the outside to the wall of the combustion door.

Images