KR101956541B1 - Venturi equipment for gas boilers - Google Patents

Abstract

The present invention relates to a venturi device for a gas boiler, in which an air supply pipe is provided at a lower end of a mixing pipe connected to a fan device of a boiler, a damper having a plurality of through holes formed at the upper end of the mixing pipe, The gas introduced into the gas inlet of the mixing tube and the air introduced into the mixing tube through the air supply tube can not be discharged toward the upper side of the mixing tube by the damper and are mixed with each other while being delayed in the mixing tube, , And is discharged upward through the passage hole of the damper, thereby increasing the mixing ratio of gas and air.
According to the present invention, the gas and air supplied into the mixing tube are delayed in a state where they are not discharged upward by the damper, so that the mixing ratio of gas and air is increased, and the mixed gas is uniformly dispersed through the plurality of through holes of the damper, The resonance sound is blocked at the same time as the ignition rate of the mixed gas ignited by the burner is increased and the reliability of the product is improved due to the improvement of the combustion efficiency of the boiler and the increase of the heating efficiency.

Description

[0001] Venturi equipment for gas boilers [0002]

The present invention relates to a gas boiler, and more particularly, to a gas boiler provided with a damper in which a plurality of through holes are formed in an upper part of a mixing pipe, and the discharge of air and gas in the mixing pipe is delayed by the damper, And the air is uniformly mixed and is discharged upward through the through hole of the damper.

Generally, the gas boiler is divided into a wall-mounted type and a floor-mounted type according to its installation type. Depending on the hot water supply method, the heat exchanger of the boiler body is stored in a hot water storage tank In addition, depending on the heating water circulation system, the heating circulation circuit in the boiler is shut off from the atmosphere, and the air is shut off and the air heating circuit in the boiler is opened.

Such a gas boiler supplies and mixes external gas and air, and supplies the mixed gas to the burner unit, so that the mixed gas is burned and burned in the burner unit.

Then, the heating pipe and the pipe body are heated by the gas burner in a state of being filled with water, and are supplied to the heating pipe and the hot water pipe by the circulation pump, and the room is heated or supplied as hot water.

Patent Document 1 discloses a conventional gas boiler, which comprises a combustion chamber provided in a main body, a burner coupled to one end of the combustion chamber, and a burner having one end connected to the burner and the other end connected to the intake pipe, And a gas supply pipe connected to the burner at one end and connected to an external gas pipe at the other end to supply gas to the burner.

At this time, when the air suction fan installed between the burner and the air supply pipe is driven, a suction pressure is formed in the air suction pipe by the air suction fan, and the suction pressure of the air suction pipe Outside air is supplied into the intake pipe.

The air supplied into the intake pipe is supplied to the burner through the air supply pipe.

At the same time, gas is supplied through the gas supply pipe, and the gas is supplied to the burner and mixed with the air to be changed into a mixed gas.

At this time, the mixed gas generated in the burner is combusted in the combustion chamber to ignite the combustion chamber.

However, in the above-described Patent Document 1, the gas and air supplied to the burner are directly burnt in the combustion chamber, shortening the mixing time of gas and air, and the mixture rate of air and gas is remarkably lowered due to the shortening of the mixing time. And the air mixing ratio is lowered, the mixed gas can not be ignited in the combustion chamber, so that the ignition performance is rapidly lowered and resonance noise is generated. As a result, the heating performance is decreased and the reliability of the product is lowered .

KR 10-0268001 B1

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a damper having an air supply pipe at the lower end of a mixing pipe connected to a fan unit of a boiler, The gas introduced into the gas inlet of the mixing tube and the air introduced into the mixing tube through the air supply tube can not be discharged by the damper toward the upper side of the mixing tube, And is then discharged upward through the through holes of the damper to increase the mixing ratio of the gas and the air, thereby providing a venturi device for a gas boiler.

According to another aspect of the present invention, there is provided a venturi device for a gas boiler comprising: a fan device installed in a boiler; And a gas inlet formed at the lower end of the fan unit and supplied with gas at an outer surface thereof. The guide pipe is formed in an upper wall of the chamber to guide the mixed gas upward, A mixing tube for mixing and mixing gas and air; An air supply pipe installed at the lower end of the mixing tube to open and close the upper and lower portions thereof, forcibly sucking air by driving the fan unit and supplying air to the mixing tube; And a plate portion protruding from the ring portion and having a plurality of the through holes formed on an upper surface of the plate portion, the plate portion being installed to close the upper end of the mixing tube, And a damper for delaying a movement flow of the gas and the air.

In the venturi device for a gas boiler according to the present invention, the damper may include a ring portion that is forcedly fitted to the upper end of the mixing pipe; And a plate portion protruding from the ring portion and having a plurality of the through holes formed on the upper surface thereof.

In the venturi device for a gas boiler according to the present invention, the passage hole may include: a plurality of outer passage holes formed along an upper surface rim of the plate portion; A plurality of central through holes formed along the inner rim of the outer through hole; And a plurality of inner passage holes formed along the inner rim of the central passage hole.

In the venturi apparatus for a gas boiler according to the present invention, the through-hole may be formed such that the diameter of the outside through hole is formed to be wider than the diameter of the center through hole, and the diameter of the center through- And is formed to be relatively wider than the diameter.

The venturi device for a gas boiler according to the present invention is characterized in that the damper is formed such that a sum of the widths of the through holes is relatively larger than a diameter of a lower end of the guide pipe of the mixing pipe.

In the venturi device for a gas boiler according to the present invention, the passage hole of the damper is formed in a shape of a circle, an ellipse, a semicircle or a polygonal shape.

In the venturi apparatus for a gas boiler according to the present invention, the mixing pipe may be formed at a lower end of the guide pipe so as to be surrounded by the guide pipe so as to form a gap therebetween, And an air guide tube for guiding the air into the guide tube.

In the venturi device for a gas boiler according to the present invention, the air supply pipe may further include an air diffuser for guiding the air introduced into the air supply pipe to move upward in four directions.

In the venturi device for a gas boiler according to the present invention, the outer passage holes form a plurality of semicircular or semi-elliptical large-diameter through holes spaced apart at predetermined intervals along the upper surface of the plate section, Or a semi-elliptical small-diameter through hole, wherein the central passage hole and the inner passage hole are formed in a circular shape, and the linear distance between the centers of the outer passage hole, the central passage hole, and the inner passage hole is formed to be the same .

According to the present invention, the gas and air supplied into the mixing tube are delayed in a state where they are not discharged upward by the damper, so that the mixing ratio of gas and air is increased, and the mixed gas is uniformly dispersed through the plurality of through holes of the damper, The resonance sound is blocked at the same time as the ignition rate of the mixed gas ignited by the burner is increased and the reliability of the product is improved due to the improvement of the combustion efficiency of the boiler and the increase of the heating efficiency.

1 is a perspective view showing a venturi device for a gas boiler according to the present invention;
2 is an exploded perspective view of a venturi device for a gas boiler according to the present invention;
3 is a cross-sectional perspective view of a venturi device for a gas boiler according to the present invention.
4 is a perspective view showing a damper of a venturi apparatus for a gas boiler according to the present invention.
5 is a perspective view showing another embodiment of a damper of a venturi apparatus for a gas boiler according to the present invention.
6 is a perspective view showing still another embodiment of a damper of a venturi apparatus for a gas boiler according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 5, the fan unit 100 is installed inside the boiler.

The fan unit 100 is fixedly installed at one end of a combustion chamber installed in the boiler and forcibly sucks gas and air into the mixing pipe 200.

The fan unit 100 forms a suction pressure in the mixing pipe 200 and the air supply pipe 300.

The mixing tube 200 has a hollow shape with an open top and a bottom and is installed at the lower end of the fan apparatus 100. The mixing tube 200 is formed with a gas inlet 201 for receiving a gas at its outer surface, A guide pipe 202 for guiding the mixed gas upward is formed to supply and mix gas and air.

The mixing tube 200 receives air through a lower portion thereof, receives gas through a gas inlet 201 formed on the outer surface thereof, and mixes air and gas therein.

The lower end of the mixing tube 200 is an inlet through which air is introduced, and the upper end is an outlet through which the mixed gas mixed in the mixing tube 200 is discharged.

The gas inlet 201 is connected to an external gas supply pipe 10.

The mixing tube 200 discharges the mixed gas in the direction of the fan unit 100 through the upper part.

The mixing pipe 200 is formed at the lower end of the guide pipe 202 so as to be surrounded by the guide pipe 202 to form a gap 203a therebetween to form an air gap An air guide tube 203 for introducing air into the guide tube 202 is further formed.

The air guide tube 203 is connected and fixed to the lower end of the guide tube 202 by a plurality of protrusions (not shown) formed at predetermined intervals along the rim of the lower end of the guide tube 202.

The guide tube 202 forms a negative pressure by the air pressure introduced into the guide tube 202 so that the gas introduced into the mixing tube 200 through the gas inlet 201 passes through the guide tube 202, (202) through the gap (203a) between the guide tube (203).

The air guide pipe 203 collects the air flowing into the guide pipe 202 at a central portion and supplies the collected air to the guide pipe 202.

The upper end diameter of the air guide tube 203 is formed to be smaller than the lower end diameter of the guide tube 202.

The diameter of the lower end of the guide tube 202 is formed to be smaller than the sum of the widths of the through holes 401 of the damper 400.

The mixing tube 200 uniformly mixes the gas and air introduced into the mixing tube 200 and discharges the mixed gas through the through hole 401 of the damper 400.

The air supply pipe 300 is installed at the lower end of the mixing pipe 200 with the upper and lower openings. The air supply pipe 300 is forcibly sucked by driving the fan device 100, .

Preferably, the lower end of the air supply pipe 300 is formed as a vertically lowered light structure, and sucks ambient air at the lower end.

The air supply pipe 300 further includes an air diffuser 302 for guiding the air introduced into the air supply pipe 300 to spread in all directions and move upward.

The air diffuser (302) forms a plurality of air holes (302a) spaced at predetermined intervals on the upper surface.

The shape of the air passage hole 302a may be circular, elliptical, semicircular, or polygonal.

The damper 400 includes a ring portion 402 forcibly inserted into the upper end of the mixing pipe 200 and a plate portion 403 protruding from the ring portion 402 and having a plurality of the through holes 401 formed on the upper surface thereof And closes the upper end of the mixing pipe 200 to delay the flow of gas and air moving to the fan unit 100.

The damper 400 delays the gas and air supplied into the mixing tube 200 from being discharged through the upper end of the mixing tube 200 so that the gas and the air are evenly mixed in the mixing tube 200 .

It is preferable that the side cross-sectional shape of the damper 400 is an "H" shape.

The damper 400 is formed such that the sum of the widths of the through holes 401 is larger than the diameter of the lower end of the guide tube 202 of the mixing tube 200.

The passage hole 401 of the damper 400 is formed in a circular, elliptical, semicircular or polygonal shape.

The through hole 401 includes a plurality of outer passage holes 401a formed along the upper surface of the plate portion 403, a plurality of central passage holes 401b formed along the inner rim of the outer passage hole 401a, And a plurality of inner passage holes 401c formed along the inner edge of the central passage hole 401b.

The central passage hole 401b and the inner passage hole 401c are formed in the plate portion 403 on the vertical line within the lower end diameter of the guide pipe 202 and are connected to each other through the upper end of the air guide pipe 203 200, so that the suction pressure is formed at the upper end of the air guide pipe 203.

The central passage hole 401b and the inner passage hole 401c discharge some of the mixed gas rising upward from the mixing pipe 200 upward while bypassing the other mixed gas in the lateral direction of the outer passage hole 401a .

The outer passage hole 401a is formed in the plate portion 403 on the vertical line of the lower end of the guide pipe 202 so that the mixture gas mixed in the mixing pipe 200 and the central passage hole 401b, And the mixed gas bypassed in the inner passage hole 401c is discharged upward.

The diameter of the outer passage hole 401a is formed to be wider than the diameter of the central passage hole 401b and the diameter of the middle passage hole 401b is larger than the diameter of the inner passage hole 401c The diameter of which is relatively wider than the diameter of the outer tube.

It is preferable that the amount of the mixed gas discharged to the central passage hole 401b and the inner passage hole 401c is relatively small compared to the amount of the mixed gas discharged to the outer passage hole 401a.

The outer passage hole 401a is formed with a large diameter through hole 401a-1 having a semicircular or semi-elliptical shape formed in a plurality of spaced apart intervals along the upper surface of the plate portion 403, Diameter hole 401a-2 having a semicircular or semi-elliptical shape is formed between the outer passage hole 401a and the center passage hole 401b. The central passage hole 401b and the inner passage hole 401c are formed in a circular shape, The linear distance L between the center of the through hole 401b and the center of the inner through hole 401c is formed identically.

The venturi device for a gas boiler according to the present invention having the above configuration is used as follows.

First, a mixing pipe 200 is installed at the lower end of the fan unit 100 installed in the boiler, and an air supply pipe 300 is connected to the lower end of the mixing pipe 200.

The upper end of the air guide tube 203 installed at the lower end of the guide tube 202 is connected to the inner side of the lower end of the guide tube 202 of the mixing tube 200, The gas introduced into the gas inlet 201 of the mixing pipe 200 flows into the guide pipe 202 of the mixing pipe 200 through the gap 203a between the guide pipe 202 and the air guide pipe 203.

An airtight packing (not shown) is fitted between the mixing pipe 200 and the air supply pipe 300 to seal the mixing pipe 200 and the air supply pipe 300.

A damper 400 having a plurality of through holes 401 formed at the upper end of the mixing tube 200 is coupled in a tight fitting manner.

At this time, the damper 400 has a ring portion 402 which is forced on the upper end of the mixing tube 200, and a circular plate portion 403 is formed at the center of the ring portion 402, Sectional shape of the damper 400 is formed in an "H" shape by forming a plurality of through holes 401 on the upper surface of the damper 400. Thus, So that it can be forced into the upper end of the pipe 200.

A gas supply pipe 10 is connected to the gas inlet 201 of the mixing tube 200. When the gas is introduced through the gas supply pipe 10, Gas is supplied into the tube (200).

An air diffuser (302) is installed on the inner circumferential surface of the air supply pipe (300) to guide the air flowing into the air supply pipe (300) to spread in all directions.

After the venturi device is formed as described above, when the fan device 100 of the venturi device is driven, the air is forced through the plurality of through holes 401 formed in the plate portion 403 by the fan device 100, Accordingly, a suction pressure is simultaneously generated in the mixing pipe 200 and the air supply pipe 300.

The inner passage hole 401c and the central passage hole 401b of the passage hole 401 are formed on the vertical line within the diameter of the lower end of the mixing pipe 200, A suction pressure is formed on the upper end of the air guide pipe 203 so as to flow into the mixing pipe 200 through the upper end of the pipe 203.

At this time, the air introduced into the air supply pipe 300 flows through the air holes 302a of the air diffuser 302, ) Spreads evenly in all directions and soars upward.

The air that reaches the upper end of the air supply pipe 300 is guided by the air guide pipe 203 of the lowered light structure and is collected at the central portion and is moved upward so as to be discharged to the upper end of the air guide pipe 203 Air is introduced into the mixing tube (200).

Particularly, the air pressure guided by the air guide pipe 203 and introduced into the guide pipe 202 of the mixing pipe 200 causes a gap 203a between the air guide pipe 203 and the guide pipe 202 And the gas introduced into the mixing tube 200 by the negative pressure is sucked into the gap 203a between the air guide tube 203 and the guide tube 202 so that the guide tube 202 Lt; / RTI >

At this time, a part of the mixed gas reaching the damper 400 flows into the inner passage hole 401c of the damper 400, And the central passage hole 401b while the remaining mixed gas is diverted toward the outer passage hole 401a and is discharged upward through the outer passage hole 401a.

At this time, the time for discharging the mixed gas bypassing the inner passage hole 401c and the central passage hole 401b is delayed above the mixing pipe 200, so that the mixed gas is uniformly mixed in the mixing pipe 200 do.

In addition, the outer passage hole 401a is formed to be relatively larger than the sum of the diameters of the inner passage hole 401c and the central passage hole 401b, The amount of the mixed gas discharged upward through the inner passage hole 401c and the central passage hole 401b is discharged upward through the outer passage hole 401a Which is relatively small compared to the amount of the mixed gas.

In the above description, the outer passage hole, the central passage hole, and the inner passage hole are formed to have the same shape. However, the large-diameter hole 401a-1 having a semicircular or semi- And a semicircular or semi-elliptical small-diameter through hole is formed between the large-diameter holes. The central passage hole 401b and the inner passage hole 401c may be formed in a circular shape.

At this time, it is preferable that the sum of the sectional areas of the large-diameter through hole 401a-1 and the small-diameter through hole 401a-2 is proportional to the cross-sectional area of the central passage hole 401b or the inner passage hole 401c.

A damper 400 having a plurality of through holes 401 formed at an upper end of the mixing pipe 200 may delay the time for gas and air to be discharged through the mixing pipe 200, The gas and air supplied into the mixing tube 200 are delayed in a state in which the gas and the air are not discharged upward by the damper 400 so that the mixing ratio of gas and air is increased The mixture gas is uniformly dispersed through the plurality of through holes 401 of the damper 400 and is discharged upward so that the resonance sound is blocked at the same time as the ignition rate of the mixed gas ignited in the burner is increased.

The venturi device for a gas boiler according to the present invention described above is not limited to the above-described embodiment, and any person skilled in the art may change the present invention without departing from the gist of the present invention. There is a technical spirit to the extent that it can be carried out.

100: fan device 200: mixing tube
201: gas inlet 202: guide tube
203: air guide tube 203a: gap
300: air supply pipe 302: air diffuser
302a: air passage hole 400: damper
401: through hole 401a: outer through hole
401a-1: Large diameter hole 401a-2: Small diameter hole
401b: central through hole 401c: inner through hole
402: ring portion 403:
L: Straight distance

Claims (8)

A fan device (100) installed inside the boiler;
The gas inlet 201 is formed at the lower end of the fan unit 100 and has a hollow shape with an open top and a bottom. The gas inlet 201 receives gas at its outer surface. A mixing tube 200 for supplying and mixing gas and air;
An air supply pipe installed at the lower end of the mixing pipe 200 for blowing air by driving the fan device 100 to supply air to the mixing pipe 200, 300); And
And a plate portion 403 protruding from the ring portion 402 and having a plurality of through holes 401 formed on the upper surface thereof is formed in the mixing tube 200, A damper 400 installed to close the top of the fan unit 200 to delay the flow of gas and air moving to the fan unit 100;
≪ / RTI >
The passage hole 401 includes a plurality of outer passage holes 401a formed along the upper surface of the plate portion 403, a plurality of central passage holes 401b formed along the inner rim of the outer passage hole 401a, And a plurality of inner passage holes 401c formed along the inner edge of the central passage hole 401b. The diameter of the outer passage hole 401a is formed to be wider than the diameter of the central passage hole 401b, And the diameter of the central passage hole (401b) is formed to be wider than the diameter of the inner passage hole (401c). delete delete The method according to claim 1,
The damper (400)
Wherein a total of the widths of the through holes (401) is formed to be larger than a diameter of a lower end portion of the guide pipe (202) of the mixing pipe (200). The method according to claim 1,
The passage hole (401) of the damper (400)
Wherein the venturi device is formed in a shape of a circle, an ellipse, a semi-circle, or a polygonal shape. The method according to claim 1,
The mixing tube (200)
A gap 203a is formed between the lower end of the guide pipe 202 and the guide pipe 202 so as to be wrapped around the guide pipe 202. The air in the air supply pipe 300 flows through the guide pipe 202, Further comprising an air guide pipe (203) for guiding air to be introduced into the combustion chamber. The method according to claim 1,
The air supply pipe (300)
And an air diffuser (302) for guiding the air introduced into the air supply pipe (300) to spread in all directions and to move upward. The method according to claim 1,
The outer passage hole 401a is formed with a large diameter through hole 401a-1 having a semicircular or semi-elliptical shape formed in a plurality of spaced apart intervals along the upper surface of the plate portion 403, Diameter hole 401a-2 of a semicircular or semi-elliptical shape is formed between the inner circumferential surface of the small-
The central passage hole 401b and the inner passage hole 401c are formed in a circular shape,
Wherein a straight distance L between the centers of the outer passage holes 401a, the central passage holes 401b and the inner passage holes 401c is formed to be the same.

Images