RU2820725C1 - Universal portable furnace - Google Patents

Abstract

FIELD: furnaces and plates.

SUBSTANCE: invention relates to light portable collapsible stoves and can be used in conditions of military personnel accommodation in shelters at checkpoints, for hunters, by fishermen in field conditions for cooking and boiling water. Universal portable furnace comprises a housing, a furnace, a chimney, and a cover. Furnace is made in the form of a lower truncated cone, and has supports in its lower part, above the furnace there is a removable upper truncated cone, wherein the lower and upper truncated cones are connected by their smaller bases by means of rotary latches-retainers installed outside the said cones. On the lower border of the upper truncated cone on its inner walls, projections-stops are arranged on which, with a gap relative to the furnace, there is a removable reservoir-heat receiver in the form of a truncated cone, made with bent aside walls in the form of flanges to cover the annular gap, formed between reservoir-heat receiver and upper truncated cone and intended for removal of flue gases into smoke branch pipe, which is connected from outside to collapsible chimney with square-section spark arrester. Inside the heat receiver tank in its lower part along the perimeter there are rigidly fixed either an annular water pipeline with several perforated branch pipes symmetrically extending from it, ends of which are plugged and attached to each other by a disc with a hole in the centre, or a hollow perforated tubular spiral, the end of which is plugged, wherein coils are interconnected by round-section stiff rods.

EFFECT: versatility and efficiency.

7 cl, 4 dwg

Description

The invention relates to lightweight, portable, collapsible stoves used to improve the living conditions of military personnel, to prepare and heat food in the field, and can also be used when military personnel are stationed in shelters, at checkpoints, and is in demand by hunters, fishermen, and tourists.

The portable stove “Umnitsa” is known (Patent RU No. 2606727, F24B 1/26, F24C1/16 dated 01/10/2017). The furnace contains a firebox, a grate, a blower and a window for loading fuel. The furnace body is made of a tubular profile, the firebox is located in the lower part of the body. Near the firebox there is a window for loading fuel, connected via a quick-release connection to a pipe having a tubular profile similar to the profile of the furnace body. At the upper end of the stove body there is a removable burner, adjustable in height. Connected to the lower end of the furnace is a removable base platform with four pointed legs buried in the ground.

The stove is easy to manufacture, its design provides convenience during delivery to the place of use and during cooking in camp conditions, as well as effective heat transfer from fuel combustion.

The stove uses the principle of direct-flow combustion of fuel from the firebox to the exit of combustion products through the exhaust pipe. This method requires regular replenishment of the firebox with fuel.

The “Rescuer” camp heating stove is known (Patent RU No. 17968, F24C 5/00 dated May 10, 2001), which has a body with walls made of heat-resistant heat-insulating material, combined with a combustion chamber and made in the form of a hollow body of rotation with a vertical axis. A camp stove is a constant heating stove and is not capable of retaining heat for a long time after complete combustion of the fuel.

A known cooking furnace contains a housing, in the lower part of which there is a firebox, and a cooking container located under the firebox, in the center of which there is a fire tube (Patent RU 2067729b, F24C 1/00 dated 10.10.1966). The cooking stove is multifunctional and can be used for cooking, heating rooms and as a heating unit for a steam bath. When using a cooking stove as a sauna, a horseshoe-shaped container is placed in the firebox, connected to the cooking container by vertical tubes. A cylinder chamber with ceilings made in the form of gratings is additionally installed above the firebox. After filling the stove with water, the heating is turned on. The disadvantage of this furnace is its low heat storage capacity.

A folding stove is known (Patent RU No. 2252365, F24C 1/16 dated May 20, 2005), containing kettles and a pipe with the possibility of inserting them into each other and into the stove body, made in the form of a rectangular parallelepiped, while the rotary supports of the stove are made in opposite positions vertical side walls of the housing. However, it does not work effectively.

A folding stove is known (Patent RU No. 2323388, F24C 1/16 dated April 27, 2008), containing a combustion chamber with a door, two boilers, a removable two-section pipe and a deflector. The combustion chamber is made up of at least three sections connected with the possibility of their rotation and nesting into each other. When folded, the chamber sections, together with the pipe, are placed in a smaller pot for transportation.

The disadvantages of the known furnace are its structural complexity and, as a consequence, low manufacturability, high material consumption, and complexity of assembly/disassembly. In addition, the presence of three sections of the combustion chamber and special boilers in the furnace determines its relatively large dimensions and weight, which reduces the transportability of the furnace.

A camping stove is known (Patent RU No. 2275555, F24C 1/16 dated April 27, 2006), containing a housing with a firebox in its lower part, a heat sink container with a lid, at least one additional heat sink container and a soft plastic container placed in the camp stove. position inside the housing and heat sinks, while the housing and heat sinks are made in the form of nested elliptical cylinders, and the heat sinks are suspended inside the housing using L-shaped springs with the possibility of their mutual axial movement.

The known furnace is a complex unit in design, expensive to manufacture, and requires considerable time to bring it into working condition. In addition, the annular gap between concentrically installed heat receivers prevents direct contact of flue gases with internal heat exchangers, which reduces the efficiency of the furnace.

A tourist stove is known (RU No. 2249768, F24C 1/16 dated April 10, 2005), containing a firebox mounted on rotary supports, made in the form of a prismatic chamber of rectangular cross-section open at the top with a grate in its bottom and a door in the side surface, and a heat sink formed trapezoidal rotating walls connected to the upper opposite edges of the chamber. When transporting the stove, the walls of the heat receiver are located horizontally, and in the working position they are installed at an angle to the vertical axis of the stove, while their upper (short) edges are connected by a removable, profiled plate in the form of a pipe, and two pots are installed on the side edges in an inclined position.

Operate the stove as follows.

In the transport position, the pots are placed inside the firebox, and the trapezoidal walls are stacked horizontally on top of each other to form a firebox lid.

In the working position, the firebox is placed on a support, the door is opened, the pots are taken out and the rotating trapezoidal walls are positioned at an angle to the vertical axis of the stove, fixing them in this position using a removable chimney cover, after which the pots are installed on the side edges of the walls. Fuel is placed in the firebox, and the prepared product is placed in the pots, after which the stove is ignited. After cooking, the stove folds in the reverse order.

The known stove is quite compact and simple in design, but is not without its drawbacks. One of the disadvantages of the stove is that due to the inclined position of the pots on the side edges of the rotating walls, the pots are in a position of unstable equilibrium and are prone to slipping and falling, which causes inconvenience in operating the stove and potential loss of cooked food.

Another disadvantage of the known furnace, associated with heat leakage through the relatively large surface of the combustion chamber, is its low efficiency. In addition, the presence of rotating elements in the furnace design (rotating walls of the heat receiver) reduces its reliability and manufacturability.

The technical solution closest to the invention is a universal furnace (RU Patent No. 156216, F24B 1/00 dated November 10, 2015), containing a leg, container, hole, stop, chimney, combustion chamber, chamber, while it contains a tank on the outside on the side of which a tap is attached in the lower part, on the upper part there is a neck and a lid, the tank is rigidly fixed at the bottom to the container, and at the top - to the working surface, rigidly fixed by a welding seam to the chamber, inside of which a partition and a movable valve, as well as a heat sink made of metal, are fixedly attached semicircular sheet, rigidly fixed on the outside of the container.

The disadvantages are the likelihood of the valve jamming when it is pulled out and pushed inside the working surface and the difficulty of maintenance, i.e. Efforts are required to ensure the specified parameters for effective operation. In addition, in field conditions, the working surface, a metal square box, is rigidly fixed to the chamber along the perimeter by a welding seam, which in general does not allow the structure to be removable and is not compact enough, while the heat is not retained long enough, the stove is inconvenient to operate and its low efficiency.

The problem that the stated solution is aimed at is the creation of a design for a universal portable stove, which will significantly improve the conditions for the heat transfer of combustion products towards a container for heating water and for cooking while simultaneously simplifying its design; use its transportability due to compact folding when not in use, like a camp stove, reducing fuel consumption, eliminating the fire hazard of the stove.

The technical result of the claimed invention is the expansion of its functionality: longer preservation of the operating temperature of combustion materials, the ability to assemble/disassemble a compact furnace, i.e. convenience of its transportation and deployment, collapsing, fuel efficiency.

The technical task is accomplished due to the fact that the universal portable stove contains a body, a firebox, a chimney, and a lid. At the same time, the firebox is made in the form of a lower truncated cone, and has supports in its lower part, a removable upper truncated cone is located above the firebox, while the lower and upper truncated cones are connected by their smaller bases by means of rotary latches-clamps installed outside the specified cones, on On the lower boundary of the upper truncated cone, on its inner walls, protrusions-stops are placed along the perimeter, on which, with a gap relative to the firebox, a removable heat sink in the form of a truncated cone is installed, made with walls bent to the side in the form of flanges to cover the annular gap formed between a heat-receiving container and an upper truncated cone and designed to remove flue gases into a smoke pipe, which is connected externally to a collapsible chimney with a square cross-section spark arrester. At the same time, inside the heat-receiving container in its lower part along the perimeter, either an annular water pipeline with several perforated pipes symmetrically extending from it, the ends of which are plugged and fastened together by a disk with a hole in the center, or a hollow perforated tubular spiral, the end of which is plugged, is rigidly fixed , while the turns of the spiral are connected to each other by means of rigid rods of round cross-section.

In addition, the furnace body is made of stainless steel, with a thickness of at least 0.8 mm.

In addition, the removable container - heat sink is made of food-grade stainless steel, the ring water pipeline and perforated pipes are made of stainless steel, while the perforated pipes have a diameter of 10-12 mm.

In addition, the hollow perforated tubular spiral and rigid round rods are made of stainless steel.

In addition, the collapsible chimney is made of several pieces of galvanized round pipe.

In addition, a removable stand made of food-grade stainless steel with legs, made in the form of a perforated disk with a flange up, is installed on a ring water pipeline with perforated pipes or on a hollow perforated tubular spiral.

In addition, the heat sink for heating water and cooking food is equipped with handles on the outside, attached to its two opposite sides.

To transport the furnace in the folded state of the vertical chimney section of the fire chamber, a spark arrestor - heat exchanger with a chimney mounting diameter can be 90 mm, provides ease of operation, since the spark arrester itself (spark arrestor) is part of the chimney and is heated during the working furnace in a tent, in trenches, at checkpoints, etc., and is not adjustable in order to protect the user from burning through roofs.

Particularly noteworthy is the versatility of use, not only in the transport position of the stove in the folded state, but the stove as a whole is made in the shape of a cylinder from two equal-sized parts of the cylinder to withstand and prevent deformation of thermal smoke pressures and, with a flat bottom.

To use the stove in the working position, the firebox is placed on supports, after which a truncated heat receiver is installed on it with the socket upward and the firebox is ignited. In addition, the upper part of the firebox is also made in the form of a truncated cone, with the narrowing already installed downwards towards each other with the possibility of mutual connection/separation. The lower part of the truncated cone of the firebox can also be represented in shape, in the form of a truncated pyramid, the geometric parameters of which are determined by the ratio S _n / S _B , where S _n is the truncated cone of the firebox (area of the grate); S _in – area of the truncated cone of the firebox (area of the ceiling wall of the firebox). In this case, the walls of the upper part of the body form a continuation of the space where flue gases exit upward for heating an additional removable conical heat sink container along its entire height with a flange outward and, with handles on top, i.e. accumulate the heat of the material above the junction of the walls of the lower part of the furnace along the perimeter of a removable container (envelop its surface from the outside of the walls with flue gases), the walls of which are heat-transmitting for heating a rigidly fixed pipeline with perforated pipes, which in its lower part is partially filled with cold water inside before closing the top of a tubular pipeline with perforated pipes or in plan it is made in the form of a hollow annular spiral of a perforated tube, then heating hot water.

It is known that the combustion of solid fuel occurs due to its transition into the gaseous phase under the influence of high temperatures (pyrolysis), after which, mixing with oxygen in the air (also a gaseous phase), it quickly oxidizes with the release of a large amount of heat, and to realize optimally economical (from the point of view of from the point of view of heat recovery) combustion process. From the firebox, gases flow upward directly into the truncated cone of the heat receiver, where, due to their expansion, the directed fast flow of gases becomes slow and turbulent, the passage time increases, which means the efficiency of heat transfer to the body and for the additionally removable container placed inside on the protrusions-clamps increases and filled with water to a given level, limited by the location of the marked elements of the device, i.e. in which a ring pipeline is placed rigidly (or can be removable) around the perimeter, repeating the internal contour of the container, with several symmetrically extending from it perforated pipes with holes with plugged ends, respectively, located along the perimeter of the truncated surface and filling their cavities with water when heated it in a conical heat-receiving container or a placed ring-shaped hollow perforated tube in the form of a stainless steel spiral at the required height in the form of a heating element. In this case, all devices are placed in the thickness of heated water in a removable conical container made of food-grade stainless steel. Tubes and pipes are made with a diameter of 10-12 mm. In addition, you can also directly obtain hot water separately by installing a pot on stands for cooking food in the field, in the trenches of military personnel, etc.

An adjustment disk can be installed on the firebox door, the rotation of which regulates the total flow area of the air for combustion of fuel (chips, firewood, etc.) and is equipped with transparent heat-resistant glass (not shown).

When using a universal portable stove for cooking with water heating in a removable conical heat sink container equipped with the above-mentioned device elements, the door can be opened slightly, while the gas-flame flow in the form of combustion products rises to the top of the stove, heating the bottom and side surface of the conical heat sink tank along height, which in its upper part has a protective flange with edges bent to the side and covers from above the space (gap) between the walls of the truncated body of the heat receiver furnace and the walls of the conical heat receiver container. In this case, the boiler or other heating elements are placed on the support of a filled water circuit of the heating ring pipeline with short perforated pipes with plugged ends and filled with heated water in a conical heat-receiving container or placing it in an embodiment on a hollow perforated tubular spiral.

Above the spark arrester (spark arrester), a rotary throttle valve lever can be fixed, which folds compactly in the transport state, for example, in a cylindrical firebox in the form of a truncated cone.

The stainless steel body of the round cylindrical furnace, consisting of two sections, has a metal wall thickness of at least 0.8 mm, which is necessary for the strength of the device and maintaining long-term operating temperature in the firebox. The maximum diameter of a truncated cone (truncated pyramid) can be up to 300 mm. The entire oven can weigh up to 10-12 kg. The overall dimensions of the square-section spark arrester are within (390x220x120 mm). As an option, the spark arrester can be placed directly inside the upper section of the heat receiver, made from a short piece of pipe in half (not shown in the drawing). The chimney is made from separate sections and has a diameter of 90 mm.

In the embodiment, the annular gap between the walls of the upper body of the furnace in the form of a truncated cone of the heat receiver and the walls of the conical heat exchanger tank is made in the ratio: S = (0.1...0.2)D, where: S – radial annular gap, D – diameter of the middle parts of a conical heat sink container for cooking in a plane passing along the inclined side of the truncated container.

The rotating two folding legs on the side of the stove can be shaped, for example, “sleds” and are pivotally connected to the side walls of the firebox.

At the bottom of the furnace, under the grate hole, horizontally and below, a removable carbon catcher plate is fixed with the side walls bent upward in the form of a chute with adjustable air supply.

The invention is illustrated by drawings, where in Fig. 1 shows a general view of a universal portable oven; in fig. Figure 2 shows a side view of the stove in working position; in fig. 3 – section of the proposed container device along A-A in Fig. 2 with a ring pipeline with perforated pipes attached in its lower part; in fig. Figure 4 shows a variant of the ring pipeline in the form of a hollow tubular spiral.

The claimed furnace includes a firebox 1 in the form of a body in the shape of 2 separate truncated cones made of stainless steel, two rotary U-shaped supports 2 mounted on the axes of rotation, a removable grate 3, a draft regulator in the form of a horizontal plate-coal catcher in the form of chutes 4, fuel door 5 with holes for air supply, additional removable conical heat sink 6 made of food grade stainless steel. Inside the heat exchanger tank above the flat bottom there is a rigidly fixed annular water circuit of the pipeline 7 (can be removable) with several perforated and plugged pipes 8 symmetrically extending from it, which are located along the perimeter of the conical surface of the side walls and the ends of the plugged pipes 8 are fastened together by means of a disk in in the form of a flat stainless steel plate 9 with a hole 10 in the center. The upper part of the truncated cone 11 of the furnace heat receiver body in its lower part has on the side walls around the perimeter several protruding protrusions-stops 12, on which a vertically conical heat receiver container is installed freely on top in the shape of the heat exchanger body 11 in the form of a truncated cone with the above-mentioned gap between their side walls. The removable container-heat receiver on top is made with a flange to cover the specified gap with the possibility of shutting off the flue heating gases to the outside, while the container on top has two fixed handles for removal/installation on the protrusions-stops 12, while the container on top is closed with a flat lid 13 with a hole 14 in cover intended for installing a thermometer (not shown).

According to an embodiment, the placed ring contour of a stainless steel pipeline can be made of a hollow perforated tubular spiral 15, each concentric circle of which describes a zone within the cavity of the heat receiver container 6 above its bottom, and placed in the thickness of the heated water, its end is plugged, with perforated tubes spirals 15 are connected to each other by means of rigid round rods 16 made of stainless steel.

In the expanding part of the truncated cone 11 on the side in its upper part in the wall there is a hole with a smoke pipe 17 for removing gaseous products of fuel combustion, enveloping the outer surface of a removable conical container-heat receiver 6 with an upper flanging of the ends then downwards with the possibility of closing the gap between the side walls of the truncated cone 11, while on the smoke pipe 17 there is a chimney 18 of a collapsible chimney made of galvanized light material, the middle part of which contains a spark arrester 19 of square section (within dimensions: 390x220x120 mm) for a pipe with a diameter of 90 mm.

It should be noted that the advantage of this design solution is the additional improvement of heat exchange with the air in the tent, since the spark arrester itself is part of the stove chimney. To ensure greater safety, the spark arrestor is not adjustable. This is done in order to protect the user from burns to the roof. A rotary damper-throttle (not shown) can be attached to the exhaust compartment of the chimney. By adjusting it, you can “slow down” the firebox, while the disk of the end of the damper in the chimney itself is cut off to allow the flue gases to escape in any position.

Thus, the design form of a truncated cone 11 with an additional conical heat exchanger container 6 installed in its internal cavity is freely filled, partially filled with water from the bottom side with subsequent heating of the devices 8, 9 or 15 placed in it along the perimeter with the above-mentioned gap between their side walls.

In this case, circular hot flue gases are formed, starting from the bottom up during the combustion of fuel in furnace 2, which at high speed, with virtually no losses, enter the heat receiver of the furnace body, where they expand, then become slow and turbulent. With the slow circulation of hot gases, by increasing the time they remain in the heat exchanger, the efficiency of heat transfer to the heat exchanger body and the removable heat receiver container located in the heat exchanger with objects located inside it increases, since most of the heat manages to be transferred to all objects located in the heat receiver body , respectively, for quickly heating water of a given volume in a container with immersed objects.

The furnace consists of two truncated cones with the possibility of being connected to each other in the working position using rotary latches-clamps 20, fixed to the housings 2 and truncated cones 11, at least four on the sides, by means of wing screws 21. The furnace is made collapsible. All connections are quick-release.

According to an embodiment, in a removable conical container of the heat sink 6, on top of fixed devices 8, 9 or 15, a stand with legs 22 can be installed in the form of a disk with an upward flange perforated with holes made of a flat food-grade stainless steel plate for laying cooked meat manti on top in steamed dough when closed on top of the removable round cover 14.

According to the shape of firebox 2, the geometric parameters of which can be determined by the ratio S _n /S _B calculation, where S _n is the area of the base of the truncated cone (truncated pyramid) of the firebox, i.e. area of the laid grate; S _in is the area of the truncated cone in the upper part of the firebox, which is also connected to the truncated cone 11.

Both truncated cones are determined among themselves, respectively: their height, width and length and, form a space for placing the truncated cone 11 with the heat sink container 6 in the transport position, i.e. in this case, the grate 3 is removed, and then covered with a flat lid on top 14. Thus, the entire stove fits inside any portable-sized bag with a shoulder strap, if there is no road transport. Contents may vary; full information is provided by the manufacturer. The developers produce the oven in different versions from stainless steel, the container is made from food-grade stainless steel, and the smoke compartments are collapsible from galvanized lightweight material. When cooking food and boiling tea in a pot, usually in a removable container with a device placed inside it, it is partially filled with cold water with the possibility of simultaneously filling a hollow ring pipeline 7 with short pipes 8 perforated with holes, plugged at the end, a ring pipeline that is contact connected to the side heated walls of the removable heat sink container 6, while the devices additionally create rigidity of the truncated cone 11 of the furnace. Filling with water is limited by the height of the mounting of the latter, and the filling of water should not fill the height of the placed pot.

The proposed devices 7, 8, 9 or 15 make it possible to quickly achieve simultaneous heating of water by conventional combustion of firewood, wood chips, pine cones, small branches, a heat-accumulating heat sink from hot flue gases, i.e. in order to increase the overall heat capacity and transfer of the latter. Hot combustion products, rising upward, heat the container 6, simultaneously with the indicated devices, in which a ring pipeline 7 with perforated pipes 8 with plugged ends or a perforated tubular spiral 15 is fixed, on which a pot (round or rectangular) is placed on top for cooking and, flue gases exit through the annular gap between the walls of the heat exchangers, which performs the functions of collecting smoke in the direction of its exit into the smoke chamber 17, chimney 18, spark arrester 19. Depending on the temperature required for cooking, using a rotary throttle valve (not shown ) the output of hot flue gases into the atmosphere changes, and, accordingly, the combustion products.

For cooking, you can use any suitable pots, for example, standard dishes, tourist pots, etc., which are installed on top of devices 7, 8, 9 or 15 inside the heat sink container 6, the top of which has a flange with a lid 14, overlapping truncated cone 11 on top (the dishes are placed with a flat bottom).

This design possibility allows a round furnace in the form of a truncated cone (truncated pyramid) with an expanded combustion space at its base to provide free loading of various fuels. At the same time, from the bottom and side walls of the heat sink container with the placed devices, thermal energy is transferred inside for cooking and heating water; The heat storage capacity of the oven is created when the lid is closed on top. According to the version, to prepare manti in dough, steam from boiling water is generated inside.

Consequently, the space of the annular gap between the walls of the body of the truncated cone 11 of the furnace and the side walls of the removable conical container-heat receiver 6 increases the area for receiving the hot gas flow, which increases the efficiency, the flue gases that are formed during the combustion of fuel enter the annular gap at high speed, practically without heat loss in the firebox, where at the top, due to expansion, their directed fast flow then becomes slow and turbulent. This is also linked to a spark arrestor and a choke plate installed with an external control lever to change the choke position. With slow circulation of hot gases, due to increasing the time they remain in the upper part of the housing with a removable conical heat sink container 6, which is partially filled with water with devices located inside in the form of completed constructive proposed new solutions for the ring pipeline 7, filled with water with pipes 8 along the border its fastening to the rigidity of the conical heat sink container 6, while the placement of perforated pipes symmetrically extending from the annular pipeline along the conical surface of the tank at a certain height of immersion with heated water or the arrangement of the pipeline as hollow in the form of a spiral, plugged at the end, increases the efficiency of heat transfer from the heat sink tank with the objects in it, retain heat inside the container for a long time, since most of the heat manages to be transferred to a pipeline with perforated pipes with plugged ends or, according to the option of making a perforated pipeline, hollow in the form of a spiral.

If you want to use the stove over an open fire, use the option of removing a removable container - heat sink 6 and its structural elements of a truncated cone 11, then cover the top with an additional grill grate (not shown), where it can be used for cooking.

Thus, the proposed technical solution for a universal portable stove is novel and has significant differences from the prototype, providing it with new useful characteristics and the ability to cook food and boiling water.

In addition, slight heating of the furnace body makes it possible to reduce its metal consumption, maintain its rigidity shape and, accordingly, its weight, which

makes it easier to transport.

After using the stove, it is freed from any remaining wood, ash and ash, allowed to cool, then disassembled in the reverse order and removed or left assembled.

The design of the universal stove, consisting of all fastening units that can be freely separated (firebox, chimney, spark arrester and heat receiver), makes it extremely simple to assemble/disassemble and highly adaptable, increasing the fire safety of the stove. It can be used by military personnel at checkpoints, in tents, trenches, as well as by units performing missions in the highlands, and contributes to the combat readiness of units. The method of carrying it in a bag allows you to bring it to the location. Thus, after cooling, the collapsible oven can be quickly and easily dismantled and folded compactly. The trunk of a car is also suitable for its transportation. The overall dimensions of the assembled oven are determined by its body. The weight of the assembled oven can be 10-12 kg.

The invention proposed for patenting has the “novelty” criterion, since the entire set of features of the formula is not known from the previous level of technology given in the corresponding section of the description.

It has the criterion of “inventive step”, since for a specialist it does not clearly follow from the level of technology.

The originality of the design of the portable stove and the relative position of all devices in the upper part of the stove body, and the connection with the lower removable firebox allows you to increase the area of heat-transfer surfaces as a whole. The proposed furnace has greater thermal output, reduced fuel consumption and ensures more complete combustion of fuel by expanding the base of the furnace, and is industrially applicable, since testing of the sample has now begun and the possibility of its mass practical use in the selected field of technology.

Claims (7)

1. A universal portable stove containing a body, a firebox, a chimney, a lid, characterized in that the firebox is made in the form of a lower truncated cone and has supports in its lower part, a removable upper truncated cone is located above the firebox, with the lower and upper truncated cones the cones are connected by their smaller bases by means of rotating latches-clamps installed outside the specified cones; on the lower border of the upper truncated cone, on its inner walls there are protrusions-stops placed around the perimeter, on which, with a gap relative to the firebox, a removable heat sink in the form of a truncated cone is installed , made with walls bent to the side in the form of flanges to cover the annular gap formed between the heat sink container and the upper truncated cone and intended for exhausting flue gases into the smoke pipe, which is connected externally to a collapsible chimney with a spark arrester of square section, while inside the container - the heat receiver in its lower part around the perimeter is rigidly fixed either an annular water pipeline with several perforated pipes symmetrically extending from it, the ends of which are plugged and fastened together by a disk with a hole in the center, or a hollow perforated tubular spiral, the end of which is plugged, while the turns of the spiral connected to each other by means of rigid round rods. 2. The oven according to claim 1, characterized in that the oven body is made of stainless steel, with a thickness of at least 0.8 mm. 3. The oven according to claim 1, characterized in that the removable container - heat sink is made of food-grade stainless steel, the ring water pipeline and perforated pipes are made of stainless steel, while the perforated pipes have a diameter of 10-12 mm. 4. The furnace according to claim 1, characterized in that the hollow perforated tubular spiral and rigid round cross-section rods are made of stainless steel. 5. The stove according to claim 1, characterized in that the collapsible chimney is made of several sections of galvanized round pipe. 6. The oven according to claim 1, characterized in that a removable stand made of food grade stainless steel with legs, made in the form of a perforated disk with a flange upwards, is installed on a ring water pipeline with perforated pipes or on a hollow perforated tubular spiral. 7. The stove according to claim 1, characterized in that the container - a heat sink for heating water and for cooking food - is equipped with handles on the outside, fixed on its two opposite sides.

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