RU208840U1 - Heat Exchanger Furnace - Google Patents

Abstract

The utility model relates to household appliances, namely to heating stoves used in field conditions, for example, for heating a tent. The device is a furnace-heat exchanger. The combustion chamber 1 has the shape of a polygonal parallelepiped with side walls 2, top 3 and bottom 4 bases. On one of the walls 2 in the lower part there is a hole for igniting 7 gas (fuel) from a gas burner (not shown). From the side of the lower base 4, an infrared heating element 6 is installed, which heats the chamber 1 from the inside with thermal radiation of the infrared spectrum, as well as by heating the air by the heated surface of the heating element 6 itself. At some distance from the side walls 2, air ducts 5 are provided. from each other, and the distance between them and the distance to the walls are chosen to be approximately the same size. A system of tubes 5 is provided, which, when viewed from the side of the axis of the combustion chamber 1, is located at an angle of 45°. Each of the individual tubes is located in an inclined plane at an angle of 45° to the axis of the chamber, each of the tubes 5 is aligned in the circumferential direction, while the openings of the tubes 5 are directed from the outer surface, and each extends beyond the combustion chamber 1. Free from tubes 5 the sections between the tubes are formed by sections or cutouts of a cylindrical hollow cylinder and are firmly connected to the tubes. For a stable position of the furnace on the supporting surface, legs 9 can be connected to the body of the chamber 1 of the furnace. Legs 9 are height-adjustable using fixing screws (not shown). Legs 9 are made removable, due to which it is possible to disconnect them from the chamber body 1 and place them inside the chamber body 1, which increases the compactness of the entire furnace as a whole and the convenience of carrying it. The technical result of the utility model is to increase ease of use due to the full use of the internal volume of the device, as well as to increase the thermal efficiency of the furnace, the ability to effectively heat the outside air and release a large amount of warm air, being small in size. 5 ill.

Description

The utility model relates to household appliances, namely to heating stoves used in field conditions, for example, for heating a tent.

Known Heat exchangers for winter tents, providing safer heating with gas burners. The principle of their action is simple:

- the burner located under the heat exchanger heats up a design;

- air is drawn through the heat exchanger tubes, heating up and entering the winter tent;

- combustion products are discharged through the chimney to the outside of the tent.

Heating with gas heaters is the most affordable way, they began to use it a long time ago. There are many infrared gas stoves of different capacities on the market. Of the advantages of this method, only cheapness, compactness and weight of the equipment, since only a gas cylinder and the stove itself are needed. The principle of operation of the tent heat exchanger is to heat the structure with a gas burner, the heat exchanger tubes heat the air, which is blown through the tent with a fan, and carbon monoxide is drawn out through the chimney pipe. In addition to the chimney, from the design features, it is worth highlighting the presence of air heating pipes and a fan to enhance the effect (powered by batteries or an accumulator).

The disadvantages of the known technical solutions are: a battery acts as a power source, low-noise computer coolers or other types of fans are used as a fan, a heat exchanger can only be placed in a tent in which there is an opening for a chimney. In addition, the device requires power to work properly, which means that you need to remove the battery from the car or bring another power source with you.

The closest technical solution is a hot air oven for solid, liquid or gaseous fuels (patent DE 20030717, IPC F24C 1/02, F24B 7/04, op. 07/17/2003), equipped with a horizontal combustion chamber, a fire door on the front end wall, in the upper part of the rear end wall there is a chimney, a deflecting device for flue gases, which extends from the rear end wall into the area of the front combustion chamber and pipes, air can pass through them and can be heated by flue gases, the combustion chamber has an approximately cube shape, side the walls of which are oriented essentially vertically, the pipes pass through the combustion chamber in a vertical direction, are located at least on both sides of the combustion chamber and at a distance from its side walls, while the distance between the tubes and the side walls is small compared to the distance between two side walls, from each other, and the inlet and outlet holes of the pipes, each oh, are outside the combustion chamber. In this case, the pipes are located on the rear end wall at some distance from the rear end wall in two rows, the outlet holes of the said pipes are flush with the upper boundary surface of the furnace. Means for supplying the heated air in the pipes, preferably heat-resistant hoses and dampers and/or valves for controlling the air flow, are provided.

The disadvantage of the prototype is the low utilization of thermal energy of various air heaters in the past and the inconvenient use of hot blast.

The objective of the utility model is to develop an air heating device capable of producing warm air by efficient heat exchange of indoor air.

The technical result of the utility model is an increase in ease of use due to the full use of the internal volume of the device, as well as an increase in the thermal efficiency of the furnace, the ability to efficiently heat the outside air and release a large amount of warm air, being small in size.

This is achieved due to the fact that in the furnace-heat exchanger, equipped with a horizontally located combustion chamber in the form of a polyhedron, the side walls of which are oriented vertically, a flue outlet hole is made in one of the side walls, and heat-absorbing tubes through which air can flow and can be heated by flue gases , heat-absorbing tubes pass through the combustion chamber, are located at a distance from its side walls, from each other, and the inlet and outlet holes of the tubes, each, are outside the combustion chamber, according to the utility model, an ignition hole is made on one of the side walls in the lower part gas (fuel) from a gas burner, an infrared heating element is installed from the side of the lower base, which heats the combustion chamber from the inside with thermal radiation of the infrared spectrum, at some distance from the side walls a system of heat-absorbing tubes spaced apart from each other is provided, with each of the individual heat-absorbing tubes is located in an inclined plane at an angle of 45° to the axis of the chamber, each of the heat-absorbing tubes is aligned in the circumferential direction, while the holes of the heat-absorbing tubes are directed from the outer surface, and each heat-absorbing tube extends beyond the combustion chamber, legs are connected to the body of the furnace chamber , adjustable in height and made removable for a stable position of the furnace on the supporting surface.

The hot air heat exchanger furnace according to the present invention is based on known furnaces with a horizontal combustion chamber through which tubes pass through which air can flow and which can be heated by flue gases. However, in contrast to the prior art, in the present furnace, the tubes 5 are installed obliquely at an angle of 45° to the axis of the combustion chamber 1 at a distance from the side walls of the combustion chamber 1.

The essential differences of the utility model are that the transfer of heat from hot flue gases to air in the tubes is more efficient. Accordingly, in accordance with a feature of the utility model, the tubes are arranged inside the combustion chamber in such a way that their walls are completely surrounded by hot flue gas. The result of this design is that a high temperature gradient is established between the tube wall and the air inside the tube, which advantageously results in a high heat transfer. The good heat transfer coefficient of metal tubes further contributes to this process. In addition, the tubes 5, which are oriented in an oblique direction at an angle of 45° with respect to the axis of the combustion chamber 1, have a relatively low resistance to the flow of rising warm air. The favorable consequence of this is an increased air flow through the pipes and, consequently, a rapid heating of the air in the room. The inclined arrangement of the tubes also means that the total heat capacity of the tubes is also low, which also reduces the time needed to heat the air in the room.

The main advantage of the hot air heat exchanger furnace according to the utility model lies in its simple structure. The production costs of such furnaces are thus significantly reduced compared to conventional heating furnaces according to the prior art. In addition, the proposed device is characterized by high efficiency and rapid heating of the surrounding air.

In a particularly preferred embodiment of the present hot air heat exchanger furnace, said slant tube arrangement advantageously increases the heat exchange surface area between the flue gas and the air in the tubes, so that the efficiency of the device and the heating time of the room air are also improved.

In accordance with the present utility model, the device is explained in more detail with the help of a greatly simplified drawing.

In FIG. 1 shows a heat exchanger furnace, axonometric view, general view.

In FIG. 2 - the same, side view.

In FIG. 3 - the same, top view.

In FIG. 4 - the same, the layout of the tubes.

In FIG. 4 - the same, the layout of the tubes.

In FIG. 5 - the same, layout of the tubes, view with the chamber wall removed.

Positions designate: combustion chamber 1; side wall 2; top base 3; bottom base 4; tube duct 5; infrared heating element 6; opening for arson 7; exhaust port 8; leg 9.

The utility model is a space heating device (for example, a tent) using a radiant burner that burns a gaseous fuel and a plurality of heat pipes to transfer the heat produced by the burner to the air to be heated.

The utility model is designed to overcome the disadvantages associated with the low thermal energy utilization rate of various air heaters in the past and the inconvenient use of hot blast.

The device is a furnace-heat exchanger. The combustion chamber 1 has the shape of a polygonal parallelepiped with side walls 2, top 3 and bottom 4 bases. On one of the walls 2 in the lower part there is a hole for igniting 7 gas (fuel) from a gas burner (not shown). From the side of the lower base 4, an infrared heating element 6 is installed, which heats the chamber 1 from the inside with thermal radiation of the infrared spectrum, as well as by heating the air by the heated surface of the heating element 6 itself. At some distance from the side walls 2, air ducts 5 are provided. from each other, and the distance between them and the distance to the walls are chosen to be approximately the same size. Their task is to increase the path of flue gases inside the combustion chamber. Thus, the flue gases (not shown) first flow in the lower half of the combustion chamber 1, deflect forward on opposite walls, and after passing through the upper half of the combustion chamber 1, finally reach the flue gas outlet 8.

A system of tubes 5 is provided, which, when viewed from the side of the axis of the combustion chamber 1, is located at an angle of 45°. Each of the individual tubes is located in an inclined plane at an angle of 45° to the axis of the chamber, each of the tubes 5 is aligned in the circumferential direction, while the openings of the tubes 5 are directed from the outer surface, and each extends beyond the combustion chamber 1. Free from tubes 5 the sections between the tubes are formed by sections or cutouts of a cylindrical hollow cylinder and are firmly connected to the tubes.

As chamber 1 heats up, the side of the walls of tube 5 facing the combustion chamber comes into contact with the hot flue gas, which heats the air in the pipes. Due to convection, the heated air escapes through the upper openings of the pipes, and the air from the cold room passes through the lower openings of the pipes the heating element is located in a completely closed metal combustion chamber 1 with inclined tubes 5, which ensures highly efficient heating of the convector with low power consumption.

For a stable position of the furnace on the supporting surface, legs 9 can be connected to the body of the chamber 1 of the furnace. Legs 9 are height-adjustable using fixing screws (not shown). Due to this, the support base increases and an even, stable position of the furnace on any uneven surface is ensured. Legs 9 are made removable, due to which it is possible to disconnect them from the chamber body 1 and place them inside the chamber body 1, which increases the compactness of the entire furnace as a whole and the convenience of carrying it.

Dry and cold air enters the heat-absorbing tube obliquely inserted into the furnace, and is heated and exhausted from the hot air outlet after reversing by the hot air reversing chamber to achieve the purpose of heating the room. Exhaust smoke is directly removed from the chimney through the furnace cavity to the outside. This not only improves the space utilization and the heat utilization of the air in the furnace, but also facilitates the cleaning of soot in the furnace cavity.

The actual task of the hot air heat exchanger furnace is to gradually circulate the air in the room through the tubes 5 and thereby heat the ambient air. The proposed version of the furnace-heat exchanger also allows you to use it with hot air as a stove for cooking. Thus, the even upper boundary surface between the heat-removing tubes of the furnace can be used as a plate.

The device operates silently, heats up quickly, economical to use, does not burn oxygen in the room, fireproof, resistant to falling, suitable for repair.

The space heating heat exchange furnace uses a radiant burner (not shown) that burns a gaseous fuel and a plurality of heat pipes 5 to transfer the heat produced by the burner to the air to be heated.

In addition to freeing the room from carbon monoxide, the heat exchanger has a number of undeniable advantages.

Firstly, it evenly and quickly distributes heat throughout the tent due to the tubes 5 built into the body of the combustion chamber 1, which drive the air flow through the body of the heat exchanger.

Secondly, the blown chamber 1 and tubes 5 of the heat exchanger do not heat up to extreme temperatures, and do not burn through clothes, in case of accidental contact with the body, and also do not damage the material from which the tent is made.

Claims (1)

A heat exchanger furnace equipped with a horizontally located combustion chamber in the form of a polyhedron, the side walls of which are oriented vertically, a flue outlet hole is made in one of the side walls, and heat-absorbing tubes through which air can flow and can be heated by flue gases, the heat-absorbing tubes pass through the combustion chamber, are located at a distance from its side walls from each other, and the inlet and outlet holes of the tubes, each, are outside the combustion chamber, characterized in that on one of the side walls in the lower part there is a hole for igniting gas from a gas burner, from the side of the lower base an infrared heating element is installed that heats the combustion chamber from the inside with thermal radiation of the infrared spectrum, at a certain distance from the side walls a system of heat-absorbing tubes spaced apart from each other is provided, each of the individual heat-absorbing tubes is located in an inclined plane at an angle of 45 ° to the axis chamber, each of the heat-absorbing tubes is aligned in the circumferential direction, while the holes of the heat-absorbing tubes are directed from the outer surface, and each heat-absorbing tube extends beyond the combustion chamber, legs are attached to the body of the furnace chamber.

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