KR100857226B1 - The fuel mixer for the gas boiler - Google Patents

Abstract

A fuel mixer for a gas boiler is provided to effectively mix gas with air by forming a swirl groove in the fuel mixer. A fuel mixer(150) for a gas boiler comprises a body(10), and a discharge unit(30). The body includes a fixing flange(12) and an inlet pipe(14). The fixing flange is mounted at one side of the body by a blowing member(130), and the inlet pipe is provided at one side of the fixing flange to receive air and gas. A suction unit(20) is formed at one side of the inlet pipe of the body, and a discharge hole(32) is formed at the other side of the inlet pipe to discharge the mixture of air and gas. A connection pipe(24) is provided at the center of the suction unit, and an air path(26) is formed between the connection pipe and the inlet pipe.

Description

The fuel mixer for the gas boiler

The present invention relates to a fuel mixer for properly mixing gas and air in a gas boiler so as to be used as fuel. More specifically, the suction noise generated in the fuel mixer by the suction force of the blower member is the discharge side of the fuel mixer. In other words, it relates to a fuel mixer for the gas boiler to be generated in the blowing member to minimize the emission of intake noise to the outside.

Generally, various types of boilers are installed in the home as a means of receiving heating and hot water, and the boilers are divided into oil boilers and gas boilers. It is installed on one side of the boiler room or veranda where the interference with the user does not occur as much as possible.

Among the boilers used as described above, condensing gas boilers that can maximize thermal efficiency with minimal fuel consumption in recent years have been popularized, and a known heat exchanger used in the condensing gas boilers is commonly used by burners. The sensible heat exchanger in direct contact with the sensible heat is divided into a latent heat exchanger for preheating the heating water supplied using the latent heat of the exhaust gas passing through the sensible heat exchanger and then supplying the heating water to the sensible heat exchanger.

As such, the heat exchanger 100 used to allow more efficient heat exchange may be wound in a coil form with a diaphragm not shown in the interior of the housing 110 having a front face open as shown in FIG. 4. It is provided with a sensible heat exchanger and a latent heat exchanger is composed of a heat exchanger pipe, the front of the housing is fixed to be mounted so that the door 120 is closed by a plurality of fixing bolts.

In the above, the door 120 is equipped with a fuel supply pipe 140 that is supplied with fuel by the blowing member 130, such as a blower fan or turbo fan mounted on the outer side of the hem, the inner surface is supplied from the fuel supply pipe The burner is fixed as a packing by the support surface of the fuel supply pipe 140 so as to ignite the used fuel and burn it in the sensible heat exchange unit.

In addition, as shown in FIG. 5, the inlet of the blower member 130 appropriately mixes the gas and the air supplied by the suction force of the turbofan so as to smoothly ignite the burner through the fuel supply pipe. A plurality of air inlet holes (154a) is formed in the body 154 protruding from one side of the mounting flange 152, the gas supply pipe 155 is connected to the gas supply hose by a support rib in the inner center of the body It is configured to form a fuel mixer 150 for mixing the gas and air is mounted.

However, the conventional fuel mixer 150 mounted on the inlet of the blower member as described above to properly mix gas and air has a larger area on the outlet side than that of the inlet, through which gas and air are introduced, The suction noise according to the suction pressure of the blower member is discharged to the outside as it occurs in the gap between the air inlet hole and the body and the gas supply pipe that is the inlet side having a smaller area than the outlet side. .

The present invention has been made to solve the conventional problems as described above, the main object of which is the suction noise generated in the fuel mixer by the suction force of the blowing member of the gas boiler on the discharge side of the fuel mixer, that is, the blowing member In order to be generated in the interior of the intake noise to the outside can be minimized.

Another object of the present invention is to allow a more efficient mixing of the gas and air.

Another object of the present invention is to be able to selectively use the discharge member without replacing the body of the fuel mixer according to the capacity of the gas boiler.

The present invention for achieving the above object is, in the fuel mixer for the gas boiler is used to mix the air and gas by the suction pressure is mounted to the inlet of the blowing member, the fuel mixer is blown to one side A main body having a fixed flange mounted to the member, and having one side of the fixed flange protruded through the inside thereof to form an inlet pipe through which air and gas are introduced; The inlet pipe portion side of the main body is formed with a suction portion for the gas and air is sucked, the other side of the main body is formed with a discharge portion formed with a discharge hole discharged while the gas and air sucked through the suction portion is formed, the suction area Is characterized in that it is formed wider than the discharge area of the discharge portion.

The suction part is formed in the center is connected to the gas supply hose is coupled by a plurality of support ribs, characterized in that the air inlet is formed between the outer side and the inlet pipe portion of the connection pipe.

A vortex generating groove is formed in the middle between the suction part and the discharge part.

The discharge part is divided on one surface of the main body, characterized in that coupled by the discharge member formed discharge hole.

According to the present invention, the suction noise generated in the fuel mixer by the suction force of the blower member of the gas boiler is generated on the discharge side of the fuel mixer, that is, inside the blower member, and is also made to the outside by the inlet pipe portion of the suction unit. By minimizing the release of the suction noise, the suction noise generated in the fuel mixer by the suction pressure of the blower member does not occur outside the fuel mixer.

In addition, as the vortex generating groove formed in the fuel mixer is mixed more smoothly in the process of mixing air and gas, the mixing efficiency is increased, so that the ignition efficiency at the ignition by the burner also has the effect of increasing.

In addition, by dividing the discharge portion provided in the fuel mixer, it is possible to selectively apply and use the discharge member of the discharge portion without replacing the entire fuel mixer according to the capacity of the gas boiler, the compatibility of the fuel mixer according to the capacity of the gas boiler also It also has an excellent effect.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a main part of the present invention installed on the blower member of the gas boiler, Figure 2 is a perspective view of the main part schematically showing the present invention, Figure 3 is a schematic cross-sectional view of the main part according to FIG.

As shown in the fuel mixer 150 for a gas boiler mounted on the inlet of the blowing member 130, such as a blowing fan or a turbo fan of the heat exchanger is used to mix air and gas by the suction pressure,

The present invention, in order to minimize the discharge of the suction noise to the outside by causing the suction noise generated in the fuel mixer by the suction force of the blowing member of the gas boiler to be generated on the discharge side of the fuel mixer,

The fuel mixer 150 has a fixing flange 12 for screwing into the inlet of the blower member at one side, the inlet pipe portion 14 is protruded to penetrate through the inside of the fixed flange inflow air and gas (14) The main body 10 is formed;

On the inlet pipe side of the main body 10 is formed an inlet 20 for inhaling gas and air, and the other body of the inlet pipe of the discharge hole 32 is discharged while mixing the gas and air sucked through the inlet The discharge part 30 is formed, but the suction area of the suction part 20 is larger than the discharge area of the discharge part 30.

The suction part 20 has a connection tube 24 to which a gas supply hose is coupled by a plurality of support ribs 22 at the center thereof, and air is formed between the outside of the connection tube 24 and the inlet pipe portion 14. Inflow path 26 is preferably formed.

As described above, air and gas are sucked through the suction part formed in the inlet pipe part of the main body of the main body as the suction force is generated by the driving of the blower member. When the air and gas are sucked and mixed through a connecting pipe connected to the hose, and an air inflow path through which air flows between the connecting pipe and the inlet pipe part, the outlet pipe is discharged through the discharge hole formed in the other body of the inlet pipe part. In this case, since the suction area of the suction part is formed to be wider than the discharge area of the discharge part, noise caused by the suction pressure of the blower member is not generated to the outside.

In other words, as the air and the gas are sucked and mixed in the suction part having a large area and rapidly discharged through the discharge part having a narrow area, the suction noise is generated at the discharge part. Since the side is located inside the blower member, the suction noise to the outside is not emitted and is canceled in the blower member.

In addition, when some of the intake noise to leak out to serve to block the inlet pipe protruding to a certain length from the fixed flange is not offset to the outside and the intake noise is not emitted to the outside.

Therefore, the area of the inlet side of the fuel mixer mounted on the inlet of the blower member of the gas boiler is made wider than the discharge area of the outlet side, and the portion where inhalation noise is generated is placed inside the blower member. By the inlet pipe portion protruding toward the side will have a condition to minimize the suction noise generated in the process of mixing air and gas by the suction pressure of the blower member.

In the middle between the suction part 20 and the discharge part 30, that is, by forming a vortex generating groove portion 40 wider than the diameter of the inlet pipe part in the contact portion of the inlet pipe part and the discharge part, the air sucked through the suction part As the vortex gas can be mixed once more in the vortex generating groove, it will have a condition to further increase the mixing efficiency of air and gas.

The discharge portion 30 is divided on one surface of the main body 10, by the discharge member (30A) formed in the discharge hole 32 is to be coupled by a coupling jaw or engagement method, which is a conventional coupling method, the fuel mixer It is preferable to selectively use only the discharge members having the divided discharge holes formed therein according to the different types of gas boilers having different capacities. At this time, the discharge hole formed in the discharge member to have a discharge area smaller than the suction area of the suction unit as described above.

1 is a main view of the present invention installed on the blowing member of the gas boiler.

Figure 2 is a perspective view of the main portion schematically showing the present invention.

3 is a schematic cross-sectional view of the main part according to FIG. 2;

4 is a main part of a state in which a fuel mixer is coupled to a blowing member provided in a heat exchanger of a conventional gas boiler;

FIG. 5 is a schematic main longitudinal sectional view of the conventional fuel mixer applied to FIG. 4; FIG.

Explanation of symbols for the main parts of the drawings

10: main body 12: fixed flange

14: inlet pipe 20: suction

22: support live 24: connector

26: air inlet path 30: discharge part

30A: discharge member 32: discharge hole

130: blower member 150: fuel mixer

Claims (4)

In the fuel mixer for a gas boiler mounted on the inlet of the blower member and used to mix air and gas by suction pressure, The fuel mixer 150 has a fixed flange 12 is mounted on one side as a blower member 130, the one side of the fixed flange is protruded so as to penetrate the inside through the inlet pipe portion 14 is introduced A main body 10 formed; The inlet tube part side of the main body is formed with a suction part 20 is a gas and air is sucked in, the other body of the inlet pipe part discharge portion formed with a discharge hole 32 is discharged while the gas and air sucked through the suction part is mixed (30) is formed, wherein the suction area of the suction part is wider than the discharge area of the discharge part. According to claim 1, The suction unit 20 is formed in the center of the connecting pipe 24 is coupled to the gas supply hose by a plurality of support ribs 22, the air between the inlet pipe and the outside of the connecting pipe A fuel mixer for the gas boiler, characterized in that the inlet passage 26 is formed. The fuel mixer according to claim 1 or 2, wherein a vortex generating groove (40) is formed between the suction part (20) and the discharge part (30). The gas boiler according to claim 1 or 2, wherein the discharge part 30 is divided by one surface of the main body 10, and is coupled by a discharge member 30A having a discharge hole 32 formed therein. Fuel mixer.

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