KR101927264B1 - Gas boiler - Google Patents

Abstract

The present invention relates to a gas boiler. According to the present invention, a combustion chamber, a heat exchanger, a suction fan, and a water supply device are installed in a boiler housing including an air supply pipe and an air discharge pipe, and a filter unit filtering out a foreign matter and moisture included in air supplied to the air supply pipe is installed on one inner side surface of the boiler housing, such that external air forcibly flows in the suction fan through the air supply pipe. Accordingly, the foreign matter and moisture included in the air supplied to the air supply pipe are filtered out in the filter unit, and the air, from which the foreign matter and the moisture are removed, is supplied to the combustion chamber through the suction fan and is uniformly mixed with gas to be combusted. According to the present invention, the foreign matter and moisture included in the air supplied to the air supply pipe are filtered out in the filter unit, such that the air of a clean state is supplied to the combustion chamber, and the air, from which the foreign matter and the moisture are removed, passes through the suction fan, and thus risk of sticking the foreign matter on the suction fan or damaging the suction fan by the moisture is removed. In particular, a fixed amount of air is continuously supplied to the combustion chamber through the suction fan, such that a change is not generated in a mixing ratio between the gas and the air, and a mixed gas of a state suitable for combustion is continuously generated, thereby providing an advantage of improving reliability of a product.

Description

Gas boiler

The present invention relates to a gas boiler, and more particularly, to a gas boiler provided with a filter unit for filtering foreign matter and moisture contained in air flowing into a supply mechanism on one side of an inner side of a boiler housing.

Generally, a gas boiler uses gas as a fuel, heats water using combustion heat generated when the gas is burned, and uses a circulation pump for forcibly circulating the heated and heated water, To heat the room, and to supply heated water to hot water in bathrooms and kitchens.

Patent Document 1 discloses a conventional gas boiler. Referring to this, there is disclosed a gas boiler comprising a gas boiler in which a pair of supply mechanisms opposed to each other is formed on an upper surface thereof and an exhaust port is formed between the supply mechanisms, An exhaust pipe connecting the combustion chamber and the exhaust port to guide the combustion gas and air in the combustion chamber to the exhaust port; a heat exchanger installed inside the combustion chamber; And a water tank accommodated therein.

Here, when air is supplied into the gas boiler through the pair of air supply mechanisms, the air is supplied into the combustion chamber. At this time, air and gas are mixed in the combustion chamber to generate a mixed gas.

Then, a flame is generated while the mixed gas is burned in the combustion chamber, and the heat exchanger is heated by the flame.

Then, when the water stored in the water tank is circulated through the heat exchanger, the water is heated by the heat exchanger in the heat exchanger, and then circulated to the heating pipe to heat the room. Alternatively, .

In addition, the combustion gas and air burnt in the combustion chamber pass through the exhaust pipe of the gas boiler and are discharged to the outside.

However, in the above-described Patent Document 1, foreign substances and moisture contained in the air supplied into the air supply mechanism are directly introduced into the gas boiler through the air supply mechanism, and foreign matter is adhered to the air intake fan due to moisture and foreign matter introduced into the air intake fan And the function of the intake fan is deteriorated due to the adhesion of the foreign matter, so that the amount of air supplied into the combustion chamber is remarkably lowered. As a result of this decrease in the air amount, the gas and air are not properly mixed, The supply of heating water and heating water is limited, thereby deteriorating the reliability of the product.

KR 1998-047529 U

An object of the present invention is to provide a combustion chamber, a heat exchanger, an intake fan, and a water tank in a boiler housing formed with a steam engine and an exhaust pipe, A foreign matter contained in the air supplied to the air supply unit and a filter unit for filtering moisture are provided so that external air can be forcedly introduced into the air intake fan through the air supply unit, And then the air, from which the foreign matter and moisture have been removed, is supplied to the combustion chamber via the intake fan, and then mixed with the gas and burned.

In order to accomplish the above object, the gas boiler according to the present invention comprises: a boiler housing having a hollow body and an exhaust pipe for sucking outside air and an exhaust pipe for discharging internal air to the outside; A combustion chamber installed at one side of the inside of the boiler housing and ignited by mixing air and gas supplied through the air supply tube; A heat exchanger installed in the upper portion of the combustion chamber and being heated by the combustion chamber; An intake fan installed at a front end of the combustion chamber and forcibly sucking air through the air intake and supplying the air to the combustion chamber; And a water supply device connected to the heat exchanger and supplying water to the heat exchanger, wherein the boiler housing further includes a filter unit for filtering foreign matter and moisture introduced into the boiler housing, .

In the gas boiler according to the present invention, the filter unit may include: an air induction housing closely attached to one side of the boiler housing and guiding air supplied to the air intake to the combustion chamber; And a filter installed on one side of the air induction housing to filter out foreign substances contained in the air.

In the gas boiler according to the present invention, the air induction housing of the filter unit may include a horizontal guiding part which is closely attached to the upper surface of the boiler housing and guides the air supplied through the air supply tube to the side of the wall surface of the boiler housing. And a vertical guide part formed in a hollow shape having an open front face and bent downward from an end of the horizontal guide part and guiding downward the air moving along the horizontal guide part, do.

In the gas boiler according to the present invention, the horizontal guide portion of the air induction housing is formed with an induction slope whose upper surface is gradually lowered from the air inlet to the wall surface of the boiler housing.

In the gas boiler according to the present invention, the vertical guide portion of the air induction housing may include a pair of rail grooves formed on the front surface thereof so as to be symmetrical with respect to each other in the longitudinal direction, So as to be capable of sliding.

In the gas boiler according to the present invention, the filter may include: a filter fixing frame slidingly coupled along the rail groove and fixed to the vertical guide portion; And a filter net installed on the front surface of the filter fixing frame in a mesh shape to filter out foreign substances contained in the air.

In the gas boiler according to the present invention, the filter fixing frame is formed so as to bend forward in an arch shape.

In the gas boiler according to the present invention, the vertically guiding portion of the air induction housing further has a step formed at the lower end thereof to block the inflow of moisture, which reaches the bottom of the vertical guiding portion, into the combustion chamber of the boiler housing .

In the gas boiler according to the present invention, the vertical guide portion of the air induction housing may further include a water discharge hole for guiding water, which flows down on the vertical guide portion, to fall down into the boiler housing. do.

According to the present invention, the foreign matter and moisture contained in the air are removed from the filter portion, air in a clean state is supplied to the combustion chamber, and foreign matter and moisture-free air pass through the intake fan to adhere foreign substances to the intake fan, There is no possibility that the intake fan is damaged due to the intake fan, and in particular, a constant amount of air is continuously supplied to the combustion chamber through the intake fan so that the mixture amount of gas and air is not changed, So that the gas boiler performance is maintained, thereby improving the reliability of the product.

1 is a schematic side cross-sectional view of a gas boiler according to the invention;
2 is a perspective view showing a state in which a filter unit is installed inside a boiler housing of a gas boiler according to the present invention;
3 is an exploded perspective view showing a filter unit of a gas boiler according to the present invention.
4 is a cross-sectional perspective view showing a state where air is passed through the filter unit of the gas boiler according to the present invention.
5 is a perspective view showing another embodiment of the filter of the gas boiler according to the present invention.

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

Referring to FIGS. 1 to 5, the boiler housing 100 has a hollow shape and forms an air intake pipe 101 for sucking outside air and an exhaust pipe 102 for exhausting the inside air to the outside.

The exhaust pipe 102 discharges the combustion gas burned in the combustion chamber 200 and the air supplied into the combustion chamber 200 through the air intake pipe 101 to the outside of the boiler housing 100.

The exhaust pipe (102) communicates with the combustion chamber (200).

The combustion chamber 200 is installed on one side of the inside of the boiler housing 100 and is operated by igniting the air supplied through the air supply pipe 101 and the gas.

The combustion chamber 200 is ignited to heat the heat exchanger 300 provided therein.

The combustion gas and the air in the combustion chamber 200 are discharged upward through the exhaust pipe 102.

The heat exchanger 300 is installed in the upper portion of the combustion chamber 200 and is heated by the combustion chamber 200.

The heat exchanger 300 forms a pipe 300a connected to the water supply device 500 at its periphery and transfers the water delivered from the water supply device 500 through the pipe 300a to the heat exchanger (300), and the water is heated by a heat exchange function.

The intake fan 400 is installed at the front end of the combustion chamber 200 and forcibly sucks air through the air intake port 101 and supplies the air to the combustion chamber 200.

The water supply device 500 is connected to the heat exchanger 300 to supply water to the heat exchanger 300.

The water in the water supply device 500 is heated by the heat exchanger 300 and then supplied to the hot water or circulated to the heating pipe 300a via the pipe 300a formed around the heat exchanger 300. [ And the room is heated.

A filter unit 600 is provided on one side of the inside of the boiler housing 100 to filter foreign matter and moisture flowing into the air supply unit 101.

The water filtered by the filter unit 600 is condensed at the end of the air supply pipe 101 and enters the air supply pipe 101 or the rainwater flowing through the air supply pipe 101.

The filter unit 600 includes an air induction housing 610 closely attached to one side of the inside of the boiler housing 100 to guide air supplied to the air supply unit 101 to the combustion chamber 200, And a filter 620 installed on one side of the air induction housing 610 to filter foreign substances contained in the air.

The air induction housing 610 guides the air supplied to the air supply tube 101 to move in the "?" Direction.

The air induction housing 610 of the filter unit 620 is closely adhered to the upper surface of the boiler housing 100 to guide the air supplied through the air supply pipe 101 to the wall surface side of the boiler housing 100, (611), a hollow shape having a front surface opened, a lower guide part (611) bent downward from the end of the horizontal guide part (611), guiding downward the air moving along the horizontal guide part (611) 620 provided in the vertical guide portion 612.

The horizontal guide portion 611 of the air induction housing 610 forms an induction slope 611a whose upper surface is gradually lowered from the air intake port 101 toward the wall surface of the boiler housing 100.

The induction slope 611a induces air and moisture supplied through the air supply pipe 101 to move in the direction of the boiler housing 100.

The vertical guide portion 612 of the air induction housing 610 is formed with a pair of rail grooves 612a symmetrically and symmetrically formed on its front surface in the longitudinal direction so that the filter 620 can be vertically So as to be attachable.

The vertical guide portion 612 of the air induction housing 610 is prevented from flowing into the combustion chamber 200 of the boiler housing 100 through the front surface of the lower portion of which the moisture reaching the bottom of the vertical guide portion 612 is opened. A step 612b is formed.

The vertical guide portion 612 of the air induction housing 610 has a water discharge hole 612c for guiding water falling down on the vertical guide portion 612 to fall into the boiler housing 100 .

The step 612b guides the water reaching the bottom of the vertical guide portion 612 to move to the water discharge hole 612c.

The upper and lower ends of the filter 620 are slid along the rail groove 612a and detached from the front of the vertical guide part 612. [

The filter 620 includes a filter fixing frame 621 slidably coupled along the rail groove 612a to be fixed to the vertical guide portion 612 and a filter fixing frame 621 installed on the front surface of the filter fixing frame 621 in a net shape, Thereby forming a filter net 622 for filtering out foreign matter.

A handle (not shown) capable of being gripped is further formed on one side of the filter fixing frame 621.

The filter fixing frame 621 is bent in an arcuate shape toward the front.

The gas range according to the present invention configured as above is used as follows.

First, when the boiler is operated to operate the suction fan 400 provided in the boiler housing 100, the suction air is sucked through the air inlet 101 of the boiler housing 100 by the suction pressure of the suction fan 400, Is forcibly sucked.

At this time, the air sucked through the air supply duct 101 is guided to the air induction housing 610 of the filter unit 600, passes through the filter 620, and then moves to the suction fan 400.

The air induction housing 610 guides the flow of air to the horizontal induction unit 611 so that air moves toward the wall surface of the boiler housing 100 and then reaches the wall surface side of the boiler housing 100 One air is guided by the vertical guide part 612 and is moved downward and passes through the filter 620 installed in front of the vertical guide part 612. [

Particularly, the filter fixing frame 621 of the filter 620 is bent in an arcuate shape toward the front, so that a predetermined amount of air flows into the space between the vertical guide portion 612 and the filter net 622.

The foreign matter contained in the air passing through the filter net 622 of the filter 620 is filtered by the filter net 622 and thus clean air is supplied into the combustion chamber 200.

A part of the air that has passed through the intake fan 400 and is supplied into the combustion chamber 200 is mixed with the gas in the combustion chamber 200 to generate a mixed gas and a part of the air is introduced into the combustion chamber 200 through the combustion chamber 200, And is discharged to the outside through the casing 102.

At this time, the mixed gas generated in the combustion chamber 200 is ignited in the combustion chamber 200 to generate a flame, and the flame heats the heat exchanger 300 provided in the combustion chamber 200, The heat exchanger 300 is heated.

The water supplied to the water supply device 500 is supplied to the pipe 300a formed around the heat exchanger 300 and the water passing through the pipe 300a is heat exchanged with the heat exchanger 300 And then flows into the heating pipe to raise the temperature of the room, or to discharge the hot water through the piping such as a kitchen or a bathroom.

Here, the combustion gas generated while being ignited in the combustion chamber 200 is discharged to the outside of the boiler housing 100 through the exhaust pipe 102.

The water contained in the air flowing through the air supply pipe 101 drops down on the guide slope 611a of the horizontal guide portion 611 and then flows in the oblique direction of the guide slope 611a, (612).

The water dropped on the bottom surface of the vertical guide part 612 is blocked by the step 612b formed on the bottom surface of the vertical guide part 612 and moved in the direction of the suction fan 400 through the front of the vertical guide part 612 But moves laterally along the step 612b and falls into the boiler housing 100 through the water discharge hole 612c.

That is, before the moisture contained in the air sucked into the air intake pipe 101 flows into the intake fan 400 or the combustion chamber 200, the intake fan 400 is blocked by the vertical induction unit 612, It is prevented that electrical damage is caused by moisture and water is prevented from flowing into the combustion chamber 200 to deteriorate the combustion performance of the mixed gas.

As described above, the structure in which the filter unit 600 for filtering the foreign substances and moisture contained in the air supplied through the air supply / exhaust port 101 is formed on one side of the inside of the boiler housing 100, The cleaned air is supplied to the combustion chamber 200 and the air with the foreign substances and moisture removed passes through the intake fan 400 to adhere foreign matter to the intake fan 400. Alternatively, The intake fan 400 is prevented from being damaged. Particularly, a constant amount of air is continuously supplied to the combustion chamber 200 through the intake fan 400, so that the amount of mixture of gas and air is not changed, State mixed gas is continuously generated and gas boiler performance is maintained.

The above-described gas boiler according to the present invention is not limited to the above-described embodiments, and various modifications and changes may be made without departing from the scope of the present invention as defined in the following claims. There is a technical spirit to the extent that it can be implemented.

100: boiler housing 101:
102: Exhaust pipe 200: Combustion chamber
300: heat exchanger 300a: piping
400: Intake fan 500: Water supply device
600: filter part 610: air induction housing
611: horizontal guide portion 611a: guide slope
612: vertical guide portion 612a: rail groove
612b: step 612c: water discharge hole
620: filter 621: filter holder
622: filter network

Claims (9)

A boiler housing (100) having an air supply pipe (101) for sucking outside air in an upper portion thereof and an exhaust pipe (102) for discharging the inside air to the outside;
A combustion chamber 200 installed at one side of the inside of the boiler housing 100 and ignited by mixing air and gas supplied through the air supply pipe 101;
A heat exchanger 300 installed in the upper portion of the combustion chamber 200 to be heated by the combustion chamber 200;
An intake fan 400 installed at a front end of the combustion chamber 200 for forcibly sucking air through the engine 101 and supplying the air to the combustion chamber 200; And
A water supply device 500 connected to the heat exchanger 300 to supply water to the heat exchanger 300;
In the gas boiler,
The boiler housing 100 further includes a filter unit 600 for filtering foreign matter and moisture flowing into the air supply unit 101,
The filter unit 600 includes:
A horizontal guide part 611 which is in close contact with the upper surface of the boiler housing 100 and guides the air supplied through the air supply pipe 101 to the wall surface side of the boiler housing 100, And a vertical guide part 612 bent downward from a distal end of the horizontal guide part 611 and guiding downward the air moving along the horizontal guide part 611 to install a filter 620 on the opened front face, An air induction housing (610) closely attached to one side of the inside of the boiler housing (100) and guiding air supplied to the air supply train (101) to the combustion chamber (200);
A filter 620 disposed on one side of the air induction housing 610 to filter out foreign substances contained in the air;
Wherein the gas boiler is a gas boiler. delete delete The method according to claim 1,
The horizontal guiding portion 611 of the air induction housing 610 may be formed,
And an induction slope (611a) whose upper surface is gradually lowered from the air supply pipe (101) toward the wall surface of the boiler housing (100). The method according to claim 1,
The vertical induction portion 612 of the air induction housing 610 may be formed of,
And a pair of rail grooves (612a) formed along the longitudinal direction so as to be symmetrical to each other on the entire surface thereof, and the filter (620) is slidably coupled so as to be detachable and attachable in the horizontal direction. 6. The method of claim 5,
The filter (620)
A filter fixing frame (621) slidably coupled along the rail groove (612a) and fixed to the vertical guide portion (612);
A filter net 622 installed on the front surface of the filter fixing frame 621 in a mesh shape to filter foreign substances contained in the air;
≪ / RTI > The method according to claim 6,
Wherein the filter fixing frame (621) is bent in an arcuate shape forward. The method according to claim 1,
The vertical induction portion 612 of the air induction housing 610 may be formed of,
And a step 612b is formed at the lower end thereof to block the inflow of the water reaching the bottom of the vertical guide part 612 into the combustion chamber 200 of the boiler housing 100 through the opened front face. Gas boiler. The method according to claim 1,
The vertical induction portion 612 of the air induction housing 610 may be formed of,
And a water discharge hole (612c) for guiding water falling down on the vertical guide part (612) to drop down into the boiler housing (100).

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