KR960000448Y1 - Gas burner - Google Patents

Abstract

No content.

Description

Burner structure of gas boiler

1 is a partial cross-sectional view illustrating a state where the ceramic plate of the present invention is installed in the mixing chamber.

2 is a state diagram of the installation of a conventional ceramic plate.

* Explanation of symbols for main parts of the drawings

10: mixing chamber 30, 31: vertical ceramic plate

40,50: packing 60,61,60a, 61a: flame ball

The present invention relates to a burner structure of a gas boiler in which a ceramic plate is installed in a mixing chamber of gas and air, and in particular, the ceramic plate installed in the mixing chamber is separated and installed up and down, but the air rising through the inner wall of the mixing chamber The present invention relates to a burner structure of a gas boiler which can block the supply of flame to the edge-side flame hole of the lower ceramic plate to prevent the flames of the burner's edge from being blown, and increase the combustion efficiency by separating the upper and lower ceramic plates by a predetermined interval.

In general, the burner of the gas boiler is configured to facilitate the preheating of the gas flowing into the mixing chamber by a ceramic plate that emits a large amount of radiant heat when a ceramic plate having a large number of flame holes is installed inside the mixing chamber. In order to increase the combustion rate of the gas flowing into the chamber, a plurality of through holes are formed in the inner circumferential wall of the mixing chamber so that air is smoothly supplied to the gas of the mixing chamber.

However, in the conventional installation of the ceramic plate in the burner mixing chamber of the gas boiler, as shown in FIG. 2, the ceramic plate in which a large number of flame holes 6 are formed in the stepped portion 2 of the upper end of the mixing chamber 1 ( 3) It is configured to insert only one.

However, when the ceramic plate 3 is inserted into the stepped portion 2 of the mixing chamber 1 as it is, a gap is generated between the ceramic plate 3 and the stepped portion 2 and discharged from the blower fan 7. In the process of mixing the compressed air and the gas injected from the nozzle 8 in the mixing chamber 1, the mixed gas rises upward through the inner circumferential wall of the mixing chamber 1 so that an excessive flame is generated. The packing 4 is provided between the stepped part 2 and the ceramic plate 3.

However, the packing 4 merely prevents the gap between the stepped portion 2 and the bottom of the ceramic plate 3, and the air introduced through the through-holes in the inner circumferential wall of the mixing chamber 1 may not be formed. It could not be blocked to rise along the inner wall of the mixing chamber 1 in the unmixed state and to enter the flame hole 6 located at the edge of the ceramic plate 3.

Therefore, when the air without gas is mixed into the flame hole 6 positioned at the edge of the ceramic plate 3 as described above, the flame at the burner rim does not become a normal flame and blows in the wind. There is a problem that can not be heated effectively heat efficiency is lowered.

In addition, as described above, one ceramic plate 3 installed above the inside of the mixing chamber has a problem in that combustion efficiency decreases because the generation of radiant heat is insignificant, and the gas cannot be sufficiently preheated. Each of them had to be manufactured, which was a big factor in the cost increase.

And according to the design of Japanese Patent Application Laid-Open No. 62-88126, which was published before the filing of the present invention, in the installation of the ceramic plate on the upper part of the mixing chamber, a configuration in which a separate ceramic body is placed on the upper part of the ceramic plate on which the through hole is formed This is because the ceramic plate and the ceramic body are installed in close contact with each other. Therefore, radiant heat generation is not the same as installing one ceramic plate with the same thickness, and thus the gas cannot be sufficiently preheated. The through hole located at the edge of the ceramic plate could not prevent the inflow of unmixed air.

Accordingly, an object of the present invention is to install the ceramic plate installed in the mixing chamber in order to solve the above-mentioned problems in the up and down, but the air rising through the inner wall of the mixing chamber as the flame hole of the edge of the ceramic plate up and down It prevents the supply of sparks at the edge of the burner by blocking the supply, and separates the ceramic plates to be installed up and down by a predetermined interval so that the lower ceramic plate absorbs the radiant heat of the upper ceramic plate and releases a large amount of radiant heat. It is to provide a burner structure of a gas boiler that can increase the effect.

Another object of the present invention is to adjust the size of the packing installed between the upper and lower ceramic plates to adjust the flame width of the edge of the ceramic plate gas boiler that can easily respond to changes in the burner capacity according to the capacity of the gas boiler To provide a burner structure.

The purpose of the present invention is to prevent the flame hole located at the edge of each ceramic plate between the upper ceramic plate and the lower ceramic plate in installing the upper and lower ceramic plates in the upper side of the mixing chamber. This is achieved by constructing a burner structure of a gas boiler provided with a packing of.

The present invention, even if the air gas and the unmixed air flowing into the mixing chamber rises through the inner circumferential wall of the mixing chamber and flows into the edge flame hole of the lower ceramic plate, the air flows between the upper and lower ceramic plates. There is no fear that the flame generated on the upper ceramic plate is not blown since the packing blocked is not allowed to flow into the edge flame hole of the upper ceramic plate.

As the upper and lower ceramic plates are kept at a predetermined interval by the packing, the lower ceramic plates can better absorb the radiant heat of the upper ceramic plates and thus increase the preheating effect of the mixer. It is.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings, the technical configuration and the effect of which are advantageous embodiments of the present invention.

1 is a partial cross-sectional view of a mixing chamber in which a ceramic plate of the present invention is installed, and a plurality of flame holes 60a, 61a, 60, and 61 are placed on the upper stepped portion 20 of the mixing chamber 10 with a packing 40. In the installation of a pair of upper and lower ceramic plates 30 and 31, the flame holes 60a, 61a, 60 and 61 of both ceramic plates 30 and 31 are installed so as to coincide with each other. However, between the upper and lower ceramic plates 30 and 31 is installed to seal the flame hole (60a, 61a) of the edge of the packing 50, the ceramic plate 30, 31 is the packing (50) ) To maintain the state spaced by a predetermined interval.

The present invention is a flame hole (60a) is located in the edge of the lower ceramic plate 31 by rising up the inner circumferential wall of the mixing chamber 10 and the gas in the air flowing into the mixing chamber 10 is not mixed Even if it flows into the 61a, the packing 50 provided between the upper and lower ceramic plates 30 and 31 blocks the upper flame hole 61a of the lower ceramic plate 31 so that the lower ceramic plate 31 The air introduced into the edge flame hole 61a of the bottom surface does not rise to the flame hole 61a positioned at the edge of the upper ceramic plate 30 and stays in the edge flame hole 61a of the lower ceramic plate 31.

As described above, the air introduced into the edge flame hole 61a of the lower ceramic plate 31 is blocked by the packing 50 so that the flame of flame generated on the upper ceramic plate 30 is not shaken as conventionally. The water tank through which the water passes can be effectively heated, which significantly increases the thermal efficiency.

Then, the air which is blocked by the packing 50 and cannot rise upward any more and stays in the edge flame hole 61a of the lower ceramic plate 31 as described above is mixed with the mixed gas in a sufficiently heated state and mixed. The combustion of the gas is more smooth, and the combustion state becomes very good.

In addition, since the upper and lower ceramic plates 30 and 31 are maintained at a predetermined interval by a thickness of the packing 50, radiant heat emitted from the upper ceramic plate 30 is transferred to the lower ceramic plate 31. As it is effectively absorbed and diverged together, the preheating state is significantly increased by promoting preheating in the mixer.

And the present invention by adjusting the size of the packing 50 is installed between the upper and lower ceramic plates 30, 31, flame holes (60a, 61a) formed in the upper and lower ceramic plates (30, 31) By adjusting the range to block the 60 and 61, it is possible to easily cope with the change in the burner's capacity according to the capacity of the gas boiler to some extent, so that the productivity is improved and the production line is not equipped with the production line in the burner's capacity as conventionally. It is a very useful design that can significantly reduce the cost by reducing the cost of the facility as it is not required.

Claims (1)

The flame holes 60a, 61a, 60, 61 are spaced apart from each other by the upper and lower ceramic plates 30 and 31 provided at the upper stepped portion 20 of the mixing chamber 10 at predetermined intervals. In the same installation, the packing 50 which can block the flame holes 60a and 61a at the edges while maintaining the separation state of both ceramic plates 30 and 31 is interposed between the ceramic plates 30 and 31. Installed in the lower edge flame hole (61a) to prevent the air flowing into the flame hole 60 of the upper edge, and the number of the edge of the flame hole by the packing (50) by running the number of the flame of the burner Burner structure of the gas boiler, characterized in that the width can be adjusted.