RU176712U1 - HEATING CENTRAL HEATING BOILER - Google Patents

Abstract

The object of the utility model is a solid fuel central heating boiler, which is used in the central heating network of small and medium-sized construction projects. The boiler is characterized by the fact that a pipe (6) is installed in the upper jacket of the combustion chamber (1) through a heat exchanger (7) having the outlet in the expansion chamber (8), closed with fire doors, which has in its lower surface the inlet of the pipe (9) located in the heat exchanger (7), and this pipe (9) has an outlet about a hole in the ash chamber (5), the ash chamber (5) having an inlet of a pipe (10) located in the heat exchanger (7), and this pipe (10) has an outlet in an expansion chamber (11) connected to the chimney (12) ) 1 of FIG.

Description

The subject of a utility model is a solid fuel central heating boiler, which is used in the central heating network of small and medium-sized construction projects.

In known solutions, the central heating boiler has a combustion chamber with a water jacket and a labyrinth heat exchanger, as well as a grate or fuel feeder with a burner. Solid contaminants released from the flue gases settle on the horizontal surfaces of the heat exchangers, reducing the coefficient of heat convection between the gas stream and the liquid. In addition, accumulated contaminants narrow the cross section of the flue gas flow, obstructing the combustion process.

These solutions do not ensure the proper separation of solid contaminants from the flue gas stream, and also do not allow direct cleaning of the heat exchanger from contaminants.

The solid fuel, low temperature hot water boiler presented in the description of the utility model PL 57550 Y1 has feeders at different levels of the combustion chamber for supplying air through the pipeline using a fan controlled by the controller. In addition, the water wall separating the chamber from another convective shaft has a formed threshold in which pipes are horizontally located and turbulence elements are vertically placed in the channel of the convective shaft.

The combustion chamber of a central heating boiler for solid fuels used in boilers for heating systems of small and medium facilities, presented in patent application PL 347514 A1, is characterized in that at least one of the walls of the water jacket has a channel connected to the blower having at least one row of tuyeres passing through a water jacket with an outlet in the area of the fuel loading level.

The presented solution eliminates the above disadvantages and inconveniences.

The essence of the utility model, which is a solid fuel central heating boiler, having a combustion chamber with a water jacket connected to a flue gas reception system, and a grate above the ash chamber, consists in the fact that a pipe passing through the heat exchanger is installed in the upper jacket of the combustion chamber having an outlet in the expansion chamber, closed with fire doors, which has in its lower surface an inlet of a pipe located in the heat exchanger, and this pipe the wire has an outlet in the ash chamber, wherein the ash chamber has an inlet of a pipe located in the heat exchanger, and this pipe has an outlet in an expansion chamber connected to the chimney.

Thanks to the application of the solution according to the utility model, the following technical and operational results were obtained that characterize the technical result:

- the possibility of obtaining a high purity coefficient of flue gases entering from the combustion chamber into the flue gas receiving system and further into the atmosphere under the influence of gravitational dust deposition during a sharp change in the direction of gas flow,

- the possibility of keeping the channels of the flue gases and other heating surfaces of the boiler and heat exchanger clean during the entire operation period,

- a free flow of flue gases through the boiler was achieved without the effect of a siphon of cold flue gases blocking their free exit from the furnace,

- low thermal inertia was obtained due to the small thickness of the water channels, reducing the time of heating the water in the boiler,

- increase the efficiency of the boiler by eliminating overheating of the flue gases,

- the possibility of applying the solution in any boiler with a water jacket, as well as in any design of the combustion chamber,

- high energy value of the fuel combustion process,

- high structural strength,

- low manufacturing costs,

- reduction in material consumption.

A sample boiler is shown in the diagram of FIG. 1, on which the boiler is shown in axonometric projection.

The solid fuel central heating boiler has a combustion chamber 1 with a water jacket 2 and the grate 3 shown in the figure, closed by a door 4. Under the grate, the boiler has an ash chamber 5. A pipe 6 is installed in the upper jacket of the combustion chamber 1 through a heat exchanger 7 having an outlet in the expansion chamber 8. The expansion chamber 8 is closed during operation of the furnace, not shown in the figure by the fire doors. The expansion chamber 8 on its lower surface has an inlet of the pipe 9 located in the heat exchanger 7, and this pipe 9 has an outlet in the ash chamber 5, and the ash chamber 5 has an inlet of the pipe 10 located in the heat exchanger 7, and this pipe 10 has an outlet in the expansion chamber 11 connected to the chimney 12.

When solid fuel is burned on the grate 3, high-temperature flue gases are formed, contaminated with small combustion products in the form of unburned particles of fuel, ash, and the like. These flue gases pass through the pipeline 6, giving off thermal energy to the heat carrier of the heat exchanger 7. In the expansion chamber 8, the flue gases sharply change the direction of motion, gravitationally precipitating solid contaminants. Then, the flue gases enter the pipeline 9, giving their thermal energy to the heat transfer medium of the heat exchanger 7. In turn, the flue gases enter the ash chamber 5, where again, when the direction of movement changes, solid impurities are deposited. From the ash chamber they enter the pipeline 10, giving off thermal energy to the heat carrier of the heat exchanger 7. The flue gases go further into the expansion chamber 11, where the final sedimentation of contaminants takes place, and then enter the chimney 12.

During operation of the boiler, the door of the expansion chamber 8 and the door of the ash chamber 5 must be closed.

Claims (1)

A solid fuel central heating boiler having a combustion chamber with a water jacket connected to a flue gas intake system and a grate above the ash chamber, characterized in that a pipe (6) is installed in the upper jacket of the combustion chamber (1) through the heat exchanger ( 7) having an outlet in the expansion chamber (8), closed by leveling doors, which has in its bottom surface the inlet of the pipe (9) located in the heat exchanger (7), and the specified pipe (9) has an outlet in the ash chamber (5), the ash chamber (5) having an inlet of a pipe (10) located in the heat exchanger (7), and said pipe (10) has an outlet in an expansion chamber (11) connected to the chimney ( 12).

Images