LT4839B - A heat generator - Google Patents

Abstract

Invention belongs to the field of calorifics. It is intended for the heating of the lodgement with the flows of warm air. The novelty of proposed heat generator is that the heating system of the heat transmission agent, that is air, is composed of fuel burning camera, its shell and the channel, connected to the chimney made from the heat-permeable material, used for removal of burning products from the burning camera. This channel is built in under the shell, together with the burning camera. The part of burning products removal channel, which is under the shield, may be composed of two or more channels, which are by one end connected to the space of the burning camera while the other ends are interconnected and joins into one channel which, at its side, is connected to the chimney.

Description

TECHNICAL FIELD OF INVENTION

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to the field of thermal engineering - devices for heating rooms with hot air flows.

State of the art

Various heat generators are known in which thermal energy is generated by burning fuel. When the resulting thermal energy is used for space heating, a heat transfer agent is used to transfer it from the generation site to the heated space. In some cases, the heat transfer agent is a liquid, usually water, and in other cases, a gas, usually air. If the heat generator is located in the room it needs to heat, the hot air flows from it to the heated areas can be directed directly. In cases where the heat generator is installed in one room and heating is required in another room or several other rooms, the hot air flows from the generator to the heated room through special pipes or ducts called ducts.

Various heat generators for indoor heating using heated air as a heat transfer agent are known and used. One of them is called Bullerjan ® (ENERGETEC Hannover). The base of this generator consists of a horizontal cylindrical fuel combustion chamber with a door for loading firewood on one end and a smoke outlet on the other end of the combustion products with a pipe connecting the combustion chamber cavity to the chimney. The combustion chamber is interlocked with a heat-transfer agent-air heating system consisting of tubes bent along a radius of the outside surface of the combustion chamber and extending to that surface on either side of the chamber. One end of the tubes is at the bottom of the outside of the combustion chamber and the other ends are at the top of that chamber.

As the fuel is fired (for example, firewood), the cylindrical surface of the combustion chamber heats up by heating the pipes adjacent to it. The air in the pipes heats up and, from the bottom of the generator, heats up into the room and heats the room. In order to direct the thermal energy through the ducts, special devices are installed on the upper ends of the heating pipes, which connect them to the ducts.

Such generators are compact, not bad looking, but have major disadvantages. 1, The heating of the air contained in said curved tubes has only a limited amount of thermal energy, since they come into contact with a limited part of the surfaces with the combustion chamber. 2. The efficiency of the utilization of the thermal energy obtained from the combustion of fuel is low because the combustion chamber cavity is directly connected to the chimney through a combustion product - smoke exhaust port - by which a significant part of the heat is released into the field.

Other "Air heating system" is described in the patent of the invention of the Republic of Lithuania no. 3128. In this case, only part of the thermal energy contained in the combustion products, the smoke, is used for heating the ducts. Such a heating system has a closed-box contact heat exchanger, which passes through the "waste gas" (a patent cited in the terminology). The heat exchanger walls have inlet and outlet openings, and inside the heat exchanger partitions to extend the working gas path. The inlet of the heat exchanger communicates with the flue and the outlet is connected to the chimney. The heat exchanger partitions have one slit, which is located on opposite sides of two adjacent partitions. In order to ensure the supply of heated air, the heat exchanger is incorporated into a jacket of the same shape with an air gap between it and the walls of the jacket with an inlet for cold air and an outlet for heated air connected to the heat pipe. Thus, such a heating system does not utilize the amount of heat directly emitted by the heat generator - in this case the furnace.

The essence of the invention

The present invention relates to heating of rooms by means of warm air flows. The proposed heat generator differs from known analogue devices in that the heating agent air heating system consists of a hood enclosing the combustion chamber of the fuel and combustion products-smoke part of the combustion chamber device, which is a conduit made of heat-conducting material connecting the chamber cavity. with a chimney and placed under the hood along with the combustion chamber. In addition, the part of the combustion products, the smoke exhaust from the combustion chamber under the hood and the combustion chamber, may consist of two or more ducts, the cavities of which are connected at one end to the cavity of the combustion chamber and connected to one another. a duct, which in turn is connected to the chimney cavity. Such a heat generator makes it possible to heat the premises by means of warm air flows, which are heated by blowing air through the channels and ducts of its heating system to the heated premises. The described generic features of the generator make it more economical with known prototypes.

Description of the drawing figures

The proposed heat generator is depicted in four figures. FIG. 1 shows a generator without the enclosure and parts mounted thereto, FIG. 2 is a general view thereof with a hood, FIG. 3 is a transverse section (diagram) of FIG. 4 shows a generator without a hood with a special auxiliary furnace.

The generator consists of a combustion chamber 1 (figs. 1, 3, 4), the combustion products - a smoke exhaust system 2, which in turn consists of channels 3, 4, 5, 6 and 7 with a damper 8. At the rear of the combustion chamber 1 is a door 9 with smaller doors 10 and 11 (Fig. 1). The combustion chamber and part of the combustion products - the smoke extraction system is enclosed in a hood 12 (Figs. 2 and 3) with openings with ducts 13, 14, 15 and a blower (fan) 16. In the cross-section of the generator (Fig. 3) a variant where there is no duct at the enclosure 12 and the openings 17 and 18 are sideways. When combustion of shredded fuels, such as sawdust, shavings, logs, etc., in the heat generator is possible, a removable combustion chamber 19 (Fig. 4) can be used, in which the fuel mass 20 is depicted by slashing.

Description of Embodiment of the Invention

The proposed heat generator is ready for use and functions as follows. The door 9 of the combustion chamber 1 is opened (Fig. 1), the fuel is loaded into the chamber, the door 9 is closed and the fuel is ignited. As it burns, the flame heats the surface of the chamber 1 and hot smoke heats the chimney. When the draft has settled, valve 8 closes. Then the hot smoke, as it scrolls through channels 2, 3, 4, 5, 6 of the exhaust system 2, heats them. The cooled smoke is discharged into the environment by a duct 7 and a chimney not shown in the figures. Since the combustion chamber 1, part 2 of the combustion product smoke exhaust system consisting of ducts 3, 4, 5 and 6, is enclosed in a hood 12 (Fig. 2), the air between these generator parts and the hood is constantly warming. As the blower 16 blows, the cold air enters the same space, from there it expels the warmed air and directs it through the ducts 13, 14, 15 (Fig. 2) to the heated areas. When the heat generator is in the room it needs to heat, the ducts 13, 14, 15 and sometimes the blower 16 are not required. The heated air passes through the openings 17 and 18 in the enclosure 12 (Fig. 3).

When the generator is operating, fuel, such as firewood, may be fed into the combustion chamber 1 through a door 10 (Fig. 1). Opening or adding the door 11 regulates the amount of air entering the combustion zone, which determines the burning intensity.

For shredded fuels such as sawdust, logs, etc., the generator set may use a special furnace 19 with one, two or more openings in the bottom. When the combustion chamber 19 is pulled out of the combustion chamber 1 (Fig. 4), rods are placed at said openings at the bottom of the combustion chamber and the shredded fuel is poured into the combustion chamber 19 about those rods and thoroughly blown. As the fuel 19 is filled, the rods are pulled out and the openings 21 remain in the shattered fuel mass 20 (Fig. 4). The filled furnace is pushed into the interior of the combustion chamber 1, the bottom of which also has openings. The latter are made in such a way that the openings 21 formed in the fuel mass 20 coincide with them when the combustion chamber is in the combustion chamber. When the furnace 19 is inserted into the tanning chamber 1, the door 9 is closed and the heat generator can be lit.

Claims (2)

1. A heat generator comprising a fuel combustion chamber, a heat transfer agent - gas heating system and a flue gas flue gas removal device for combustion products, characterized in that the gas heat transfer agent heating system comprises a combustion chamber, its enclosure and a combustion chamber. products, the smoke extraction part of the combustion chamber installation, which is a duct made of heat-conductive material that connects the chamber's cavity to the chimney and is placed under the hood along with the combustion chamber. 2. A heat generator as claimed in claim 1, characterized in that the part of the combustion product smoke extraction unit located beneath the hood and the combustion chamber consists of two or more channels, the cavities of which are connected at one end to the cavity of the combustion chamber. interconnect with each other and pass into a single duct that is connected to the chimney cavity.