RU2178541C2 - Heating stove - Google Patents

Abstract

FIELD: heating plants, in particular stoves for heating mainly of small rooms and greenhouses. SUBSTANCE: heating stove has a vertical body, fuel container positioned inside the body in a spaced relation, air intake and a smoke flue. The body is made with a joint on the base and a cap, with a projection of the cap to the base cavity. The air intake is installed horizontally and connected to the precombustion chamber in the form of a vertical sleeve installed below the container and open towards it. The sleeve upper edge and the container are positioned above the body joint. The U-shaped smoke flue is made with a descent under the cap removed from the cap floor by 0.1 to 0.2 of the cap removed from the cap floor by 0.1 to 0.2 of the cap height. The precombustion chamber and the descent under the cap are mounted on the base. The relation between the areas of the minimum cross-section of the air intake or smoke flue and the cross-section of the body makes up 0.007 to 0.014. The container may be made with a circular cross-section, filled with porous refractory, provided with gas nozzles and installed coaxially with the precombustion chamber. The precombustion chamber may be provided with a wick. EFFECT: enhanced efficiency of stove operation, facilitated lighting, stove universality, expanded range of used fuel. 4 cl, 7 dwg

Description

 The invention relates to heating devices, in particular to furnaces for heating, mainly for small rooms and greenhouses.

 Known furnace for heating, containing a vertical housing, placed inside the housing of a fuel container, an air intake and a chimney [1]. Its disadvantage is low efficiency, which consists in the complexity of operations for preparing for work, the uneven heating of the heat-transferring wall.

 Closest to the invention, the technical solution is a furnace containing a vertical housing placed inside the housing with a gap fuel container, air intake and chimney [2]. The disadvantage of this device is also the low efficiency, which consists in the complexity of ignition, uneven heating of the walls, the large mass and thickness of the steel walls of the furnace, the lack of geometric ratios necessary for the reproduction of high performance of the furnace and the lack of versatility of its operation on other types of fuel.

 The aim of the invention is to increase the efficiency of the furnace, which consists in facilitating ignition, identifying optimal ratios of geometric dimensions, increasing versatility of use, expanding the range of fuel used.

 This goal is achieved by the fact that in a furnace for heating, comprising a vertical housing, a fuel container, an air intake and a chimney placed inside the housing with a gap, according to the invention, the housing is made with a connector on the base and hood, with the hood protruding into the base cavity, the air intake is mounted horizontally and connected to the furnace in the form of a vertical cup installed below the container and open to its side, with the upper edge of the cup and the container placed above the housing connector, the chimney is made U-shaped with omitting the under cap remote from the overlap of the cap on the cap height of 0.1-0.2, and omitting primary furnace under a hood mounted in the base, the area ratio of the minimum cross-sectional area or the air inlet flue and the housing cross-section is 0,007-0,014.

 In addition, the cross section of the air intake and chimney are equal.

 In addition, the container is made with an annular cross-section, filled with refractory porous material, equipped with gas nozzles and installed coaxially with the pre-furnace.

 In addition, the pre-furnace is equipped with a wick.

 The specified set of design differences allows to increase the efficiency of a new product relative to known.

 The execution of the housing with a connector on the base and the cap, with the protrusion of the cap into the cavity of the base, provides sufficient density in the assembled state, convenience for loading with fuel and preparing it for ignition. The horizontal arrangement of the air intake eliminates the loss of ash and coal from the furnace, blocking ash control flap. The vertical glass of the pre-furnace, which is a continuation of the air path of the furnace, serves for laying the kindling material. The ignition of the kindling chips in the confined space of the beaker with the air flow causes an intense vibrational nature of the combustion of the kindling torch directed towards the container. The location of the pre-furnace below the container, open towards the latter, ensures reliable ignition of the bulk of the fuel, and the location of the upper edge of the glass and the fuel container above the housing connector eliminates smoke in the weakest point - the connector during the ignition period.

 The implementation of the chimney U-shaped configuration eliminates the ingress of moisture condensed in the pipe from the exhaust combustion products back into the combustion zone, and to ensure ease of loading.

Removing the descent of the chimney inside the housing from the closure of the hood is 0.1-0.2 of the height of the hood. In this case, the overlap temperature is in the range of 300-250 ^o C. When removing less than 0.1 of the cap height, it exceeds 300 ^o C, and when removing more than 0.2, it continues to decrease, but there is the appearance of unburned wood residue.

 Placing the pre-furnace and lowering under the hood at the base of the furnace provides a compact design.

By tests it was found that the furnace can work without smoke in the air intake and the connector with an equal cross section of the air intake and the chimney up to a minimum value relative to the cross-sectional area of the casing, equal to 0.007. At a lower value, spontaneous attenuation of the combustion process occurs. With an increase in the indicated relative value, combustion intensifies, heat generation increases, but the burning time from one fuel tab is reduced. An increase in the relative cross section of more than 0.014 leads to an increase in the surface temperature of the body of more than 300 ^o C, which limits the use of black sheet steel in the manufacture of the furnace. In addition, a further reduction in the duration of the stove from one firewood laying reduces the value of the product, which can work without supervision.

 Equal cross-sections of the air intake and the chimney facilitate the regulation of the furnace by dampers.

 In order to use liquid fuel during the operation of a furnace, such as diesel or kerosene, a wood container is replaced with a container for liquid fuel - an evaporation burner. The rest of the design does not change.

 To increase the evaporation surface and the ignition efficiency, the container is made with an annular cross-section, filled with refractory porous material, such as diatomaceous crumbs, and mounted coaxially with the pre-furnace.

 When the furnace is fired, instead of loading with kindling chips, for convenience, it can be equipped with a wick wetted with liquid fuel.

The combination of the claimed distinctive features ensures uniform temperature distribution on the surface of the housing up to 300 ^o C. This allows the use of thin sheet black steel with a thickness of less than 1 mm using tin works, which reduces manufacturing costs and fire hazard during operation.

 The design of the furnace allows you to work on wood, wood waste and other types of solid fossil fuels (peat, coal) with a duration of 6-12 hours with one load. Duration of operation is regulated by a damper in the air intake and a washer at the entrance to the chimney lowering. In addition, the furnace runs on light liquid fuel. Duration of work depends on the availability of fuel in the supply tank. The fuel supply to the container-evaporator is ensured and controlled through a transparent dropper controlled by a needle valve.

 In FIG. 1 shows a longitudinal section of a furnace (DD according to FIG. 5) with an indication of the location and shape of the air supply and exhaust gas ducts, a housing of two parts connected through a connector. The pre-furnace and the chimney are spaced at the base at the maximum distance from each other. The container for firewood is made in the form of a basket.

 In FIG. 2 shows a longitudinal section (EE of FIG. 6) of a solid fuel furnace with a pre-furnace and a chimney, as close as possible to each other.

 In FIG. 3 shows a longitudinal section (DD according to FIG. 5) with a container-evaporator for liquid fuel.

 In FIG. 4 is a longitudinal section (EE of FIG. 6) of a liquid fuel embodiment.

 In FIG. 5 is a cross-sectional view A-A and B-B, respectively of FIG. 1 and 3.

 In FIG. 6 is a cross-sectional view of BB and GG of FIG. 2 and 4. The screen (pos. 12) is conventionally shown in half section.

 In FIG. 7 shows a diagram of the supply of liquid fuel from a supply tank to a container-evaporator through a dropper, as well as the installation of a control flap in the air intake and the placement of the wick in the pre-furnace. The wick can be made in the form of asbestos packing, cotton fiber or diatomaceous crumbs.

 The heating furnace includes a cap 1, a base 2, a connector 3, a container 4, an air intake 5, a U-shaped chimney 6 with a lowering 7, a pre-furnace 8. In the embodiment with liquid fuel, the container 4 contains a filler 9, is equipped with gas nozzles 10, a pre-furnace 8 is equipped with a wick 11. The furnace has a protective screen 12, a support 13, a drain hole 14 in the chimney 6, a shutter 15. The liquid fuel supply system has a regulating needle valve 16, a supply tank 17 and a dropper 18. The cap 1 has an overlap 19, the lowering 7 is equipped interchangeable adjusting washer 20, base 2 filled cement casting 21.

 The furnace is prepared for work and ignited in the following order. Remove the cap 1, lift the container 4 and load the pre-furnace 8 with the kindling material or moisten the wick with liquid fuel 11. Lower the container 4 into place and fill it with fuel. On the lowering 7, the washer 20 is installed, the cap 1 is installed, inserting its bottom into the base 2 of the connector 3. Remove the shutter 15.

 In the liquid-fuel version, the valve 16 is opened slightly, ensuring the required number of drops per minute falls, visually observing in the dropper 18.

 A burning splinter is introduced into the air intake 5. The ignition material (wood chips or liquid fuel vapors) is ignited in the pre-furnace. Burning the kindling torch in the pre-furnace lasts about a minute, the main fuel ignites. After entering the mode, 15 minutes after ignition, the air damper 15 is installed in place. Water vapor partially condenses in the chimney, condensate flows into the knee and is removed through opening 14.

The efficiency of the prototype furnace was tested both in solid fuel and liquid versions. With an average power of 2-3 kW, the temperature of the case does not exceed 300 ^o C. With an increase in power up to 5 kW and unchanged dimensions (furnace diameter 420 mm, height 700 mm) in the liquid version (stainless steel hood), the temperature of its wall exceeded 300 ^o C The temperature of the flue gases was in the range of 50-100 ^o C (a greater value was achieved with liquid fuel).

 The furnace can be used as a heater in a system with an intermediate coolant (water or antifreeze), for cold and / or hot smoking of food products when two ovens are connected in series. In the manufacture of the furnace, standard sanitary fittings with a diameter of 50 mm can be used for compact cornering with furnace power up to 6 kW.

Sources of information
1. SU 1830104 A3, F 24 D 13/02, 1993, Bull. N 27.

 2. SU 617662 A, F 24 C 5/00, 1978. Bull. N 28.

Claims (4)

 1. A heating furnace, comprising a vertical casing, a fuel container, an air intake and a chimney placed inside the casing with a gap, characterized in that the casing is made with a connector on the base and the cap, with the cap protruding into the base cavity, the air intake is mounted horizontally and connected to the pre-furnace in in the form of a vertical cup installed below the container and open to its side, with the upper edge of the cup and the container placed above the housing connector, the chimney is made U-shaped with a lowering under the hood, removed about t of cap overlap at 0.1-0.2 cap heights, pre-furnaces and lowering under the cap are mounted at the base, the ratio of the areas of the minimum cross section of the air intake or chimney and the cross section of the casing is 0.007-0.014.  2. The furnace according to claim 1, characterized in that the cross section of the air intake and the chimney are equal.  3. The furnace according to claim 1, characterized in that the container is made with an annular cross-section, filled with refractory porous material, equipped with gas nozzles and installed coaxially with the pre-furnace.  4. The furnace according to any one of paragraphs. 1-3, characterized in that the pre-furnace is equipped with a wick.

Images