LT6093B - Heating equipment with furnace and control tool - Google Patents

Abstract

The invention relates to heating apparatus. The goal of invention is to improve heating equipment working conditions, to expand the functional capabilities, to ensure a reliable, safe and efficient work. Heating equipment is composed of fireclay brick furnace (2), which lower part of walls are sloping, above the furnace (2) placed at least one fuel shaft (6) with cover (7), controlled by air supply mechanism consisting of a thermostatic draught regulator (8), levers (9) with weights and control chains (11). The lower part of the sloping walls of the furnace (2) can be made from fireclay brick or longitudinal metal bars installed near vertical fireclay brick walls.In addition, over the furnace (2) can be placed thermo liquid capacity (12) with at least one fuel shaft (6), performing the function of the heat exchanger. Heating equipment fuel shaft (6) for cleaning has specially designed cleaning tool. It is made from the left scraper (15), which is equivalent to the length of the fuel shaft (6) depth, and the right scrapper (16) interconnected by arm (19), and spring (21) with tension force regulator (22).

Description

The invention relates to a heating technique, namely to heating equipment for obtaining thermal energy by burning solid fuel and utilizing it for heating residential and multi-purpose buildings.

Known solid fuel combustion unit (see RU Patent No. 2452895, TPKK: F 23 B 60/02, publ, 2011) consisting of a pit with a grate, a tube in the pit, the upper part of which acts as a heat exchanger, and two ashtrays with ash a collection box, a fuel feed system, a temperature sensor mounted in the upper part of the pipe and a fuel ignition device and a mechanical particle trap.

Various cleaning brushes of synthetic or natural bristles are known for mechanical cleaning of chimneys, furnaces and boilers from deposits of combustion products. Known wire brush described in RU patent no. 2179081, TPKK:

B 08 B 9/023, A 46 B 13/02, publ. 2002, consisting of wire cutting elements with cutting surfaces inserted into the screw holes of the connector. Wire cutting elements are in contact with the cleaned cylindrical surface.

Limited functionality of known technical solutions. In addition, they do not ensure sufficiently safe, reliable and efficient operation of heating equipment and proper operating conditions.

The object of the invention is to improve the operating conditions of heating equipment, to extend the functional capabilities, to ensure reliable, safe and efficient operation and to extend the burning time of the load.

In order to achieve the object of the invention, the heating equipment consists of a firebox made of fireclay brick, the lower part of which is inclined, at least one fuel shaft with a lid, a controlled air supply mechanism consisting of a thermostatic draft regulator and a lever lever is connected vertically to the fuel shaft. a cover, and a control circuit with which the fuel shaft lid is also connected, a fuel shaft cleaning tool consisting of two scrapers, the left one connected to the depth limiter and the right one less than the depth of the fuel shaft. connected by a lever, one end of which is rigidly attached to the right ratchet and the other end of the lever is loosely mounted on an axle rigidly fixed to the left ratchet; in addition, the upper parts are connected by a scraper to a spring with a tension force regulator. The sloping walls of the lower part of the furnace may be made of fireclay bricks or longitudinal metal bars located adjacent to the vertical fireclay brick walls and directed in the direction of fuel slip. The angle of inclination of the lower part of the furnace with the horizontal plane is at least 20 °. Above the furnace can be installed a tank of cogeneration fluid connected to the inlet and outlet pipes, which are equipped with at least one fuel shaft to perform the function of heat exchanger. In addition, the cross-sectional area of the fuel shaft opening at the top is reduced.

The invention is illustrated in the drawings.

FIG. 1 is a general view of the heating system. FIG. 2 is a longitudinal sectional view of the heating system. FIG. 3 is a longitudinal sectional diagram of a heating system with a cogeneration fluid capacity. FIG. 4 is a schematic diagram of a fuel shaft cleaning tool for heating equipment fed into a fuel shaft.

The heating equipment (see Figs. 1, 2) consists of a steel heat-resistant housing 1, inside of which is made of fireclay brick furnace 2, the lower part of which has sloping walls, with door 3, ash collecting box 4, which is separated from furnace 2 , one or more fuel shafts 6, mounted vertically above the furnace 2, with lids 7, and a cleaning tool for the fuel shafts 6 (see Fig. 4). The sloping walls of the lower part of the firebox 2 are located adjacent to the vertical walls of fireclay bricks. The sloping walls can be made of fireclay bricks or longitudinal metal bars directed in the direction of fuel sliding. The angle of the inclined walls of the lower part of the furnace 2 with the horizontal plane is at least 20 °. In the upper part of the fuel shafts 6 the cross-sectional area of the opening is reduced (see Fig. 4). This is due to the fact that the cleaning tool, when moving inside the fuel shaft 6, does not exit outside the zone (zones) in the vertical direction. The fuel shafts 6 may be arranged in various ways, for example in a single row or in groups. The number of fuel shafts 6 in the heating system depends on the maximum power required. A higher number of fuel shafts 6 is required to achieve higher output. The air supply to the fuel shaft 6 is provided with an air supply mechanism consisting of a thermostatic draft regulator 8, levers 9 with weights, one of which is connected to the fuel shaft cover 7, and a control circuit 10 to which also the fuel shaft 6 cover 7 is connected. .Figure 1). If there is more than one fuel shaft 6 in the construction of the heating system, the air may be supplied not only to one, but also to several fuel shafts 6 for the combustion process to remove the resulting combustion products at the lower part of the furnace 2 lowest, with a chimney (smoke outlet) 11. installed (see Figs. 2, 3).

In addition, above the furnace 2 may be provided a heat storage fluid container 12 connected to the inlet 13 and outlet 14. (see Fig. 3). The lower parts of the fuel shafts 6 provided in the cogeneration fluid tank 12 will then perform the function of a heat exchanger.

In the case of solid fuel combustion, not only the chimney but also the deposits of fuel shafts 6 are formed and must be removed as they reduce the amount of heat transmitted. For this purpose there is provided a tool for cleaning the fuel shafts of heating equipment (see Fig. 4), consisting of two identical shaped scrapers left 15 and right 16 of different lengths. A scraper 15 with a handle 17 having a length corresponding to the depth of the fuel shaft is longer than a scraper 16. A depth limiter 18 is attached to the scraper 15. The scrapers, left 15 and right 16, are interconnected by a lever 19. One end of the lever 19 and the other end thereof is loosely mounted on a rigidly mounted axis 20 in the gauge 15. In addition, the upper parts of the gauges 15 and 16 are connected by a spring 21 to a tension force regulator 22.

The heating equipment operates as follows.

It uses a variety of solid fuels such as wood sawdust or peat briquettes, firewood, crushed coal. The fuel is loaded through the top of the fuel shaft 6. When using briquettes, they are loaded into the fuel shaft 6 in a neat vertical row on top of each other to ensure a reliable and safe sliding down towards the bottom of the furnace 2 (see Figs. 2, 3). Depending on the amount of heat required, one or more fuel shafts can easily control the power of the heating system. The fuel is ignited through the top of the fuel shaft 6. Fuel combustion occurs only in the lower part of the furnace 2. The combustion process itself takes place in the fuel shaft 6 when the fuel, such as briquettes, is sliding freely down towards the lower part of the furnace 2 by supplying air to the fuel shaft 6 by opening the fuel shaft cover 7 by an air supply mechanism (see Fig. 1). The sloping walls of the lower part of the furnace 2 improve not only the briquettes but also the various solid fuel collapse conditions and increase the efficiency of the combustion process. When solid fuel is burned, heat is released which propagates upwards. The generated heat is removed by the fuel shafts 6 and directly discharged to the environment when the cogeneration fluid tank 12 is not installed above the combustion chamber 2. If the heating system is equipped with a cogeneration fluid tank 12, the lowered part of the fuel shaft , gives heat to heating appliances.

For efficient and safe combustion, the fuel shafts 6 need to be cleaned using a heater cleaning tool, which is first pierced through the opening of the fuel shaft 6 and then fed into the fuel shaft (see Figure 4). By pushing the cleaning tool into the fuel shaft 6, it stretches the spring 21, which in turn presses the scrapers 15, 16 against the opposite sides of the fuel shaft by freely rotating the lever 19 about the shaft 20 in the ram 15. The tension force of the spring 21 is 18 allows the fuel shaft 6 to be cleaned to its full height,

The ash, soot, which is the unburned part of the fuel, generated during the combustion process is removed by removing the ash bin 4, and the combustion products entering the chimney 11 are discharged through the stack.

The technical solution presented has a number of advantages. In particular, it is possible to: easily adjust the power of the heating equipment by installing more than one fuel shaft and changing the loading number of the installed fuel shaft; ensure a long-term, continuous and efficient combustion process. Second, the lower part of the furnace with sloping walls guarantees a reliable and safe combustion process. The design of the heating equipment allows for comfortable, easy operation, including cleaning work, even during the combustion process. It is also an important advantage that the lower part of the shaft of the shaft equipped with a cogeneration fluid serves as a heat exchanger. In addition, the construction of heating equipment is in any case reliable, safe, economical and easy. Burner doors, fuel shaft covers, even without the use of any sealing material, ensure the sealed heating equipment is sealed. The use of a tool to clean fuel shafts and efficiently and easily remove plaque from combustion products allows you to utilize unheated heat and thereby obtain optimum heat output.

Claims (5)

DEFINITION OF INVENTION 1. Heating equipment with a furnace and a cleaning tool consisting of a fuel loading area, a furnace, a grate separated from the furnace, a heat sink, air supply elements, a chimney, characterized in that it consists of a fireplace brick fired with a lower part slanting walls, at least one fuel shaft with a cover controlled by an air supply mechanism consisting of a thermostatic draft regulator, a lever with a lever connected to the fuel shaft cover and a control circuit with a fuel shaft cover mounted vertically above the furnace , a fuel shaft cleaning tool consisting of two scrapers, the left one with a depth limiter fixed to the depth of the fuel shaft, and the right, shorter than it, interconnected by a lever, with one end of the lever rigidly attached to the right g the other end of the lever la mounted on an axle rigidly anchored to the left grammage; in addition, the upper parts of the scrapers are connected by a spring with a tension force regulator. 2. Heating equipment with a furnace and a cleaning tool, characterized in that the sloping walls of the lower part of the furnace can be made of fireclay bricks or longitudinal metal bars located adjacent to vertical fireclay brick walls and directed in the direction of fuel scrolling. Heating apparatus with a furnace and a cleaning tool according to claim 1, characterized in that the inclined wall of the bottom of the furnace has an angle with the horizontal plane of at least 20 °. Heating apparatus with a furnace and a cleaning tool according to Claim 1, characterized in that a tank of cogeneration fluid connected to the inlet and outlet flanges is provided above the furnace and is provided with at least one fuel shaft to carry out the heat exchanger function. 5. Heating equipment with a furnace and a cleaning tool, characterized in that the cross sectional area of the top of the fuel shaft opening is reduced.