KR900006997Y1 - Boiler - Google Patents

Abstract

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Description

Boiler

1 is a longitudinal cross-sectional view of the present invention.

* Explanation of symbols for main parts of the drawings

1: Japanese style room 2: Secondary room

3: communication tube 4: exit

The present invention relates to a boiler having a multi-stage combustion chamber, and more particularly to a boiler in which the outlet of the communication pipe installed inside the secondary combustion chamber is inclined so that the combustion gas discharged into the combustion chamber is not discharged directly, causing vortexing to be discharged to the next combustion chamber. will be.

Conventionally, the exit tip of the communication pipe connecting the fire chamber to the combustion chamber is horizontal, so that the combustion gas rises as it is and exhausts directly to the flue without sufficient combustion in the secondary combustion chamber. There was a problem such as falling.

In this paper, in consideration of all the problems of the conventional boiler as described above, the exit tip of the communication tube connected to the combustion chamber is formed to be inclined in orientation so as to maximize the radiant heat transfer effect due to stagnant flow rate as the rising combustion gas causes vortex. Next, the combustion efficiency and the thermal efficiency of the boiler are improved to be discharged to the combustion chamber, which will be described in detail with reference to the accompanying drawings.

In forming the communication tube (3) connecting the fire chamber (1) and the secondary combustion chamber (2), the exit end of the communication tube (3) to be introduced into the secondary chamber (2) is oriented (in the flue direction and the bulge) Yes " In the drawing, vortex phenomena occur in the secondary combustion chamber 2, where reference numeral 12 denotes a heat retention agent, and 13 denotes a water chamber wall having a baffle plate function.

The following describes the operation and effects of this proposal.

When the burner connector 6 formed at the bottom of the boiler body 5 is mounted with an ordinary burner (not shown) to ignite, the flame emitted from the burner radiates vortex to the wall of the fire chamber 1 so that the primary combustion of the combustion gas is performed. In the furnace, the furnace pressure is generated by the high heat of combustion that is generated at this time, and the combustion gas is introduced into the communication tube (3) connecting the furnace (1) and the secondary combustion chamber (2), and the tip is oriented at about 45 °. It is introduced into the secondary combustion chamber (2) through the inclined outlet (4), at which time the combustion gas exits the inclined orientation (4) in the opposite direction to the gas passage (11), causing a severe vortex phenomenon Here, complete recombustion of incompletely burned combustion gas is achieved.

That is, the combustion gas raised to the secondary combustion chamber 2 is discharged to the wall of the secondary combustion chamber 2 in the direction opposite to the direction of the gas passage 11 so that the small gas is in the opposite direction to the direction of the gas passage 11. (2) As the exhaust gas is discharged to the wall, severe vortex phenomenon occurs and the flow rate is reduced (delayed), resulting in sufficient recombustion and heat exchange with the adjacent water chamber (7) at a relatively slow speed. It is exhausted to the flue 10 via the 4th combustion chamber 8,9.

Such a proposal causes severe vortex phenomena since the combustion gas flowing into the communication pipe 3 from the fire chamber 1 is discharged to the outlet 4 formed to be inclined in the opposite direction to the gas passage 11. Its speed is lowered, and the advantage that can double the thermal efficiency of the boiler due to the radiative heat transfer effect is that it is a fuel-type boiler with a higher practical value that can significantly reduce the fuel cost by improving the combustion efficiency due to recombustion.

Claims (1)

In forming the communication tube (3) connecting the fire chamber (1) and the primary combustion chamber (2), the inclined direction of the tip of the outlet (4) of the communication tube (3) delivered to the inside of the secondary chamber (2) " Boiler, characterized in that formed in the form.