KR20120124872A - Equipped with a rotating roster Boiler - Google Patents

Abstract

PURPOSE: A fire-tube boiler including a rotary roaster is provided to promote the efficiency of a boiler by processing foreign materials using a reprocessing unit. CONSTITUTION: Fuel is automatically ignited by an electric heater(22). The generated heat and gas are supplied to a first combustion chamber(30). The heat and the gas are ignited in a second combustor(40), a third combustor(50), and a fourth combustor(60). A waste gas is discharged through an exhaust pipe(61). The heat and the gas heats a heat exchange pipe(42). Foreign substances of the ignition process is gathered in the reprocessing unit(51) of the third combustor. Foreign substances generated from an ignition unit(20) is gathered at the bottom of the reprocessing unit(24).

Description

Equipped with a rotating roster boiler

The present invention relates to an associated boiler equipped with a rotary roaster, and forms a plurality of combustion chambers to completely combust flammable products such as pellets and coal, and includes a rotary roaster pipe and an electric heater to automatically supply fuel and ignition. An associated boiler is provided with a rotary roaster.

In the conventional boiler, since the heat exchanger pipe is installed horizontally in the boiler, foreign matters such as dust and dust accumulate in the boiler, as well as no inflow or circulation in the combustion chamber. The roaster installed in the lower part of the combustion chamber has a problem that it is difficult to continuously maintain the heat by using a chain belt made of a wire mesh or a roaster made of casting, and the heat efficiency is not high.

The present invention is to solve the above problems by installing a plurality of combustion chambers inside the boiler and equipped with a rotary roaster pipe to automatically supply fuel as well as an electric heater to ignite automatically when the fuel is supplied to increase the thermal efficiency and boiler The purpose is to allow complete combustion of fuels internally.

The present invention is to provide a complete combustion of the fuel supplied by the first to fourth combustion chambers in the boiler body in order to achieve the above object, and to provide a separate fuel supply means for supplying the rotary rotatable pipe Due to the automatic supply of electricity, the electric heater ignites the fuel, and its heat passes through the first to fourth combustion chambers, and the heat exchange pipe and waste gas warmed by the heat heats the water, and the waste gas is discharged into the communication through the combustion chamber. Ash or dust may be discharged out through the reprocessing unit, and an air duct is provided inside the rotary roaster pipe to prevent the rotary roaster pipe from being deformed or melted by heat, and a separate blower is provided with a lower portion of the rotary roaster pipe and a secondary It is connected to the air duct in the combustion chamber to burn fuel And supplying John air, water supplied through the water inlet portion and a hot water having the wojyeo by the heat generated in the course of the thus produced hot water is to be used when the upper portion of the hot water through the discharge port discharged to the outside.

In the present invention as described above, heated gases are moved through a vertically formed pipe, and foreign substances such as ash and dust generated at this time can be processed through a reprocessing unit so that dust and ash and foreign substances are constructed horizontally. The improvement of the boiler's efficiency is reduced by the accumulation of lamps, and it can be automatically ignited by using the electric heater. It has the effect of increasing labor costs and reducing labor costs.

1 is a front internal cross-sectional view showing a gas traveling direction as a state diagram of a boiler according to the present invention;
Figure 2 is a side view of the boiler according to the present invention

The present invention thus made will be described in detail with reference to the accompanying drawings.

In the boiler 100,

Supplying fuel such as pellets or coal to the ignition unit 20 formed inside the boiler 100 through the fuel transfer device 11 of the fuel storage container 10;

When the fuel is supplied to the ignition unit 20, an overheating air duct 21-1 is formed therein, and is seated on the rotary roaster pipe 21 to prevent melting or deformation due to high heat. The fuel is automatically ignited by the electric heater 22 provided in the upper part of the air 21, and the air supplying the air between the rotary roaster pipes 21 so that the fuel is combusted in the lower part of the rotary roaster pipes 21. The duct 23 is formed;

The hot gas generated by the fuel burned in this way is elevated to the primary combustion chamber 30, and the primary combustion chamber 30 is provided with an air duct 31 having a nozzle 31-1 formed therein to assist combustion. In addition, the gas is introduced into the secondary combustion chamber 40 through the combustion process by the air supplied through the nozzle 31-1, and the gas is blocked by the partition plate 41 and a plurality of vertically provided at the lower portion thereof. The heat exchange pipe 42 is heated while passing through the heat exchange pipe 42 installed at equal intervals, and the gas passes through the heat exchange pipe 42 once again via the lower tertiary combustion chamber 50 of the boiler 100. It enters the fourth combustion chamber 60 and is discharged out through the communication 61. The gas is completely combusted by the four combustions, and the heat and the heat exchange pipes 42 are generated by the heat generated during the inflow and outflow of the gas. The generated heat is passed through the water inlet (1). The heated water is heated and the heated water is discharged to the hot water outlet (2),

The air ducts 21-1, 23, and 31 are provided with nozzles 21-2, 23-1, and 31-1 to supply air, and the air is separately provided. The blower 70 is supplied through the air supply distribution pipe 71, respectively, and the nozzles 31-1 are formed diagonally along the circumferential direction to circulate the internal air while supplying air.

Ash, dust, foreign matters, etc. are transported along the gas flow when the third combustion chamber 50 passes, and when it is accumulated at the bottom of the third combustion chamber 50, the reprocessing unit provided in the third combustion chamber 50 ( It is sufficient to arrange them at once through 51), and the lower part of the ignition part 20 is equipped with the reprocessing part 24 which can burn the fuel which burns and generate | occur | produces it.

When the present invention is used as described above, water is supplied to the inside through the water inlet 1, and the fuel is supplied into the boiler 100 through the fuel transfer device 11 of the fuel reservoir 10 to the ignition part ( The rotary roaster pipe 21 is seated upward of the rotary roaster pipe 21 and these fuels are automatically ignited by the electric heater 22 to generate heat and gas. The rotary roaster pipe 21 is deformed by the generated heat. The air duct 21-1 having the nozzle 21-2 is formed inside the rotary roaster pipe 21 in order to prevent it from being melted or melted. The air provided in the lower part of the rotary roaster pipe 21 is provided. The duct 23 supplies air through the nozzle 23-1 between the gaps of the rotary roaster pipe 21 to facilitate combustion of the fuel.

Heat and gas generated in the above process is supplied to the primary combustion chamber 30 in the upper portion of the ignition unit 20 and supplies air to the nozzle 31-1 of the air duct 31 for smooth combustion. The nozzle 31-1 is formed diagonally in a circular direction to smooth the circulation of air, and through this process, heat and gas reach the secondary combustion chamber 40 and are blocked by the partition plate 41 and lowered. Heat and gas are supplied to the fourth combustion chamber 60 while passing through the heat exchange pipe 42 and naturally passing through the heat exchange pipe 42 again by the heat and gas continuously supplied to the third combustion chamber 50. After the waste gas is discharged through the communication (61). At this time, the heat exchanger pipe 42 is heated while the heat and gas pass through the heat exchange pipe 42 to heat the water supplied through the water inlet 1, and the heated water is discharged to the outside through the hot water outlet 2. You can use it to suit your purpose.

Ash, dust, and foreign matters generated in the combustion process are collected at the bottom of the reprocessing unit 51 of the tertiary combustion chamber 50 and can be removed at a time. Ash, dust, and foreign matters generated from the ignition unit 20 are also removed. Similarly, once collected at the bottom of the reprocessing unit 24, it may be removed at once.

One; Water inlet
2; Hot water outlet
10; Fuel reservoir
11; Fuel feeder
20; Ignition
21; Rotary Roaster Pipe
21-1,23,31; Air duct
21-2,23-1,31-1; Nozzle
22; Electric heater
30; Primary combustion chamber
40; Secondary combustion chamber
41; Partition plate
42; Heat exchanger pipe
50; 3rd combustion chamber
51; Reprocessing Department
60; 4th combustion chamber
61; Communication
70; air blower
71; Air supply distribution pipe
100; Boiler

Claims (2)

In the boiler 100,
Supplying fuel such as pellets or coal to the ignition unit 20 formed inside the boiler 100 through the fuel transfer device 11 of the fuel storage container 10;
When the fuel is supplied to the ignition unit 20, an overheating air duct 21-1 is formed therein, and is seated on the rotary roaster pipe 21 to prevent melting or deformation due to high heat. The fuel is automatically ignited by the electric heater 22 provided in the upper portion of the air 21, and the air duct supplying air between the roaster pipes 21 so that the fuel is combusted in the lower portion of the rotary roaster pipe 21. (23) is formed;
The hot gas generated by the fuel burned in this way is elevated to the primary combustion chamber 30, and the primary combustion chamber 30 is provided with an air duct 31 having a nozzle 31-1 formed therein to assist combustion. In addition, the gas is introduced into the secondary combustion chamber 40 through the combustion process by the air supplied through the nozzle 31-1, and the gas is blocked by the partition plate 41 and a plurality of vertically provided at the lower portion thereof. The heat exchange pipe 42 is heated while passing through the heat exchange pipe 42 installed at equal intervals, and the gas passes through the heat exchange pipe 42 once again via the lower tertiary combustion chamber 50 of the boiler 100. It enters the fourth combustion chamber 60 and is discharged out through the communication 61. The gas is completely combusted by the four combustions, and the heat and the heat exchange pipes 42 are generated by the heat generated during the inflow and outflow of the gas. The generated heat is passed through the water inlet (1). The heated water is heated and the heated water is discharged to the hot water outlet (2),
The air ducts 21-1, 23, and 31 are provided with nozzles 21-2, 23-1, and 31-1 to supply air, and the air is separately provided. The blower 70 is supplied through the air supply distribution pipe 71, respectively, and the nozzles 31-1 are formed diagonally along the circumferential direction to circulate the internal air while supplying air.
Ash, dust, foreign matters, etc. are transported along the gas flow when the third combustion chamber 50 passes, and when it is accumulated at the bottom of the third combustion chamber 50, the reprocessing unit provided in the third combustion chamber 50 ( 51) The rotary roaster is equipped with a revolving roaster, characterized in that it is arranged at a time, and has a reprocessing unit 24 capable of burning fuel and treating ash generated in the lower part of the ignition unit 20. Boiler.
The method of claim 1, further comprising:
The air duct 21-1, except for the nozzles 21-2, 23-1, and 31-1 provided in the air ducts 21-1, 23, and 31, (23) and (31) associated boiler with a rotary roaster comprising a hole to inject air.

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