KR20160103685A - Fuel intake assembly for fire wood type hot blaster boiler - Google Patents

Abstract

The present invention relates to a fuel intake assembly. The fuel intake assembly comprises: a support unit where a firewood fuel is stacked, having a flame inlet connected to a lower portion thereof; and a side air supply unit extended from both sides of the support unit to a side wall of a combustion chamber and having an air inlet supplying air to a plate surface by using the firewood fuel. The side air supply unit comprises: a base frame extended from the support unit to an inner surface of the combustion chamber; and a plurality of side support plates coupled to be attached to and detached from an upper surface of the base frame and having the air inlets formed on the plate surface. The side support plates are coupled to the base frame to be spaced from the adjacent side support plate at a predetermined interval.

Description

FIELD INTAKE ASSEMBLY FOR FIRE WOOD TYPE HOT BLASTER BOILER [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a firebox assembly for a firewood boiler, and more particularly, to a firebox assembly for a firebox boiler which can be stably used without being deformed even at high temperature generated when the firebox fuel is burnt.

Recently, energy prices such as electricity and oil have been rising steadily, and alternative energy is actively being developed. One of them is a low-cost, easy-to-use wood-based or pellet-based fuelwood boiler that can be used as fuel. Such a fellowship boiler is disclosed in the registered patent 10-0426046 and the registered patent 10-0679316.

The fossil fuel boiler is designed to load the fossil fuel in the combustion chamber, supply air and burn it, and then heat exchange the flame and combustion gas generated from the combustion with the heating medium such as air or water.

1 is a perspective view showing the construction of a firebox 10 installed in a combustion chamber of a conventional articulated boiler. Conventionally, the firebox 10 is provided with a redirecting plate 11 on which a fuel of a harmonious wood is loaded on the upper surface thereof and a side air supplying unit 13 which is disposed on both sides of the redriding plate 11 and supplies air as the greening fuel. Conventional fireplace 10 is ignited after fossil fuel is loaded on red lane 11, and air is supplied to air supply port 15 of side air supply unit 13 to burn the fossil fuel. The burned flame and the combustion gas are moved to the heat exchanger side through the lower part or the upper part of the redistriver 11.

However, the redirecting plate 11 and the side air supply unit 13, which form the conventional fire port 10, are formed of a metal material. There is a disadvantage in that when the hot plate 11 and the side air supply unit 13 are brought into contact with a hot flame generated by the combustion of the harmonics fuel, they are stretched, warped or melted due to thermal deformation.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems, and to provide a firebox assembly for a firefighter boiler which is designed in consideration of contact with a high-temperature flame generated by combustion, minimizes thermal deformation, .

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

The object of the present invention can be achieved by a crusher assembly provided in a combustion chamber of a harmonious boiler in which the harmonious fuel is burned. A culvert assembly of the present invention comprises: a support part having a flame inlet on which a harmonious fuel is loaded and communicated with a lower part; And a side air supply unit extending from both sides of the support unit to the side wall of the combustion chamber and having an air supply port for supplying air to the planar surface as a fossil fuel, and the side air supply unit is provided between the support unit and the inner wall surface of the combustion chamber A base frame extending from the base frame; And a plurality of side support plates detachably connected to the upper surface of the base frame and having the air supply holes formed in the plate surface. The plurality of side support plates are coupled to the base frame at a predetermined distance from the neighboring side support plates .

According to one embodiment, the base frame includes: a coupling bar in contact with a wall surface of the combustion chamber; And a plurality of engaging ribs spaced apart from each other by a distance between the supporting plate engaging holes and having a lower bolt engaging hole formed on the upper surface thereof along the longitudinal direction of the engaging bar, And the upper bolt coupling hole is formed larger in diameter than the lower bolt coupling hole.

According to an embodiment of the present invention, the plate surface of the side support plate is protruded upwardly to prevent the harmful fuel from closing the air supply port when the harmonic fuel is loaded.

According to one embodiment, the support portion includes: a support box of a metal material; And a plurality of heat resisting bricks disposed on the support box so as to form the flame inlet.

The firebox assembly for a firewood boiler according to the present invention is formed so as to withstand a flame generated upon combustion of the harmonious fuel. The culvert assembly can enhance the durability of the flame inlet area by allowing the flame brick to surround the flame inlet where the flame is directly moved.

Further, it is possible to divide the side support plate for supporting the harmonic fuel into small areas and to provide a space between them to minimize damage due to thermal deformation.

1 is a perspective view showing a conventional hearth boiler,
FIG. 2 is an exemplary view showing an example of a fellowship boiler in which a culvert assembly according to the present invention is used;
FIG. 3 is a perspective view showing a state of engagement of the culvert assembly according to the present invention,
FIG. 4 is an exploded perspective view of the construction of a culvert assembly according to the present invention,
FIG. 5 is an exemplary view showing the flow of air and combustion gas through the culvert assembly according to the present invention. FIG.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

The culvert assembly 100 of the present invention can be used in combination with a harmony fuel boiler, The crane assembly 100 is provided in the combustion chamber 240 and is used to load and burn the harmonious fuel.

2 is an exemplary view showing an example of the fellowship boiler 200 provided with the culvert assembly 100 of the present invention. As shown in the figure, the fellowship boiler 200 includes an outer housing 210, a combustion chamber 240 disposed at the front end of the outer housing 210 and combusting the harmonic fuel, A refueling door 230 disposed at a lower portion of the fuel inlet door 220 and discharging the combusted material to the outside; a combustion chamber 240 disposed at one side of the combustion chamber 240, A heat exchange chamber 250 in which heating water is heat-exchanged, and a communication 260 connected to the heat exchange chamber 250 to exhaust the combustion gas to the outside. Heating water W is provided between the outer housing 210 and the combustion chamber 240 and the heat exchange chamber 250 to exchange heat with the heat of the flame F and the combustion gas A '.

The burner assembly 100 of the present invention is installed inside the combustion chamber 240. The firebox assembly 100 receives the air introduced through the air inlet 231 of the reed door 230 and supplies the air to the harmonious fuel M to burn the harmonious fuel M. [

3 is an assembled perspective view illustrating the assembled state of the culvert assembly 100 of the present invention, and FIG. 4 is an exploded perspective view illustrating the structure of the culvert assembly 100 in an exploded manner.

The culvert assembly 100 according to the present invention includes a support unit 110 horizontally disposed in a combustion chamber 240 and a side air supply unit 120 disposed obliquely on both sides of the support unit 110 . The pedestal part 110 is loaded with the harmonious fuel M on the upper surface thereof and moves the flame F and ashes generated when the harmonic fuel M is burned to the lower part of the combustion chamber 240.

The pedestal 110 is disposed at a predetermined height from the bottom of the combustion chamber 240. Although not shown in the drawing, the pedestal 110 is fixed to the inside of the combustion chamber 240 by a fixing member (not shown). The pedestal 110 is directly exposed to a high temperature of 800 to 1200 DEG C by the combustion of the harmonics fuel M. [ Therefore, even if exposed to a high temperature over a long period of time, the structure is formed so as not to change. To this end, the receiving unit 110 includes a supporting box 111 and a plurality of refractory bricks 115 disposed inside the supporting box 111.

The support box 111 supports the refractory bricks 115 so that the refractory bricks 115 can be maintained in a deployed state. The support box 111 is formed of a metal material. A through hole (not shown) corresponding to the shape of the flame inlet 113 is formed on the bottom surface of the support box 111.

The plurality of refractory bricks 115 supports the upper surface of the upper surface so that the harmonious fuel M can be loaded. A plurality of refractory bricks 115 are disposed on the left and right sides of the flame inlet 113 to form the flame inlet 113 in the middle region. The high temperature flame F and the combustion gas A 'generated by the combustion of the harmonics fuel M are transferred to the lower space of the combustion chamber 240 through the flame inlet 113 and then passed through the combustion gas transfer path 251, To the heat exchange chamber (250).

The high temperature flame F is directly transferred through the flame inlet 113. [ The refractory brick 115 has durability to withstand high temperature flames and can be used stably without thermal deformation.

Here, the spacing space between the refractory brick 115 and the support box 111 may be filled with a filler such as cement or soil to fix the position.

The side air supply unit 120 is disposed between the support unit 110 and the sidewall of the combustion chamber 240 to support the harmonic fuel M and supply air to the harmonic fuel M to allow the combustion to proceed. The side air supply unit 120 includes a base frame 121 disposed between the support unit 110 and the sidewalls of the combustion chamber 240 and a plurality of side support plates 123 coupled to the upper surface of the base frame 121.

The base frame 121 includes a coupling bar 121a formed along the longitudinal direction of the receiving unit 110 and a plurality of coupling ribs 121c extending downward from the coupling bar 121a as shown in FIG. do. The coupling bar 121a and the plurality of coupling ribs 121c are integrally formed of a metal material. The number of the engaging ribs 121c is adjusted according to the number of the side supporting plates 123 to be engaged. A support plate coupling hole 121b through which the side support plate 123 is coupled is formed through the adjacent engagement ribs 121c. A lower bolt fastening hole 121d is formed through the plate surface of the engaging rib 121c.

The side support plate 123 is coupled onto the adjacent engaging rib 121c. The side support plate 123 is coupled to a pair of adjacent engagement ribs 121c and the upper surface of the engagement bar 121a. At this time, the adjacent side support plates 123 and 123 'are spaced apart from each other by a predetermined distance d to the base frame 121. This is considered that the side support plate 123, which is a metal material, is thermally deformed and expanded after being exposed to high temperatures.

Therefore, even when the side support plate 123 is inflated, there is a spacing distance d, so that the neighboring side support plates 123 can be prevented from bending or twisting due to contact with each other.

On the plate surface of the side support plate 123, an upper bolt fastening hole 123a is formed corresponding to the position of the lower bolt fastening hole 121d. At this time, the upper bolt fastening hole 123a is also formed larger in diameter than the lower bolt fastening hole 121d. This is because the side support plate 123 is exposed to a high temperature and the upper bolt fastening hole 123a is contracted.

On the surface of the side support plate 123, a helmet mounting projection 123b and an air supply port 123c are provided. The air supply port 123c supplies the air introduced through the air inlet 231 of the re-discharge door 230 to the fossil fuel M. 5, the air introduced through the air inlet 231 is moved to the lower portion of the side support plate 123, and then the air is supplied to the upper upper support fuel M of the side support plate 123 through the air supply port 123c .

The plurality of fellow mounting projections 123b are coupled along the longitudinal direction of the side support plate 123. [ The fixing unit 123b protrudes from the side supporting plate 123 at a predetermined height. Accordingly, when the harmonic fuel (M) is loaded, it is spaced apart from the plane surface of the side supporting plate 123 by the height of the looped mounting projections 123b. Therefore, it prevents the harmful fuel M from clogging the air supply port 123c, so that the air is smoothly supplied to the harmful fuel M.

On the other hand, an air guide plate 123d is formed obliquely on the upper part of the fixed object mounting protrusion 123b. The air guide plate 123d is inclined downward to guide the air introduced into the air supply port 123c toward the receiving unit 110 side. The air introduced into the air supply port 123c of the side support plate 123 can be supplied to the side of the harmonic fuel M without being moved to the upper portion of the combustion chamber 240. [

The bolt 125 engages the side support plate 123 with the base frame 121. Since the side support plate 123 of the present invention is detachably coupled to the base frame 121 by the bolts 125, when the damages occur during use, only the side support plates 123 can be unlocked and replaced by the bolts 125.

Here, the base frame 121 is fixed to the side wall of the combustion chamber 240 and the support box 111 by welding or the like.

The operation of the firebox assembly 100 according to the present invention having such a configuration will be described with reference to FIGS. 2 to 5. FIG.

4, a plurality of refractory bricks 115 are disposed in the support box 111 with the flame inlet 113 as a center, and a plurality of refractory bricks 115 are disposed on the right and left sides of the support box 111 And a plurality of side support plates 123 are assembled to the base frame 121 by bolts 125. [

At this time, the plurality of side support plates 123 are divided into a small area with respect to the area of the entire base frame 121. Further, the adjacent side support plates 123 are coupled to each other at a predetermined distance d. By this spacing interval, it is possible to prevent the side support plate 123 from being bent or twisted even when it is expanded due to thermal deformation due to its high temperature.

Since the plurality of side support plates 123 are detachably coupled to the base frame 121 by the bolts 125, the side support plates 123 can be easily replaced.

The crane assembly 100 of the present invention is disposed in the combustion chamber 240 of the fellowship boiler 200. The user opens the fuel inlet door 220 and loads the harmonious fuel M on the support portion 110 and the side air supply portion 120 as shown in FIG. When the harmonized fuel M is ignited, the air A is introduced through the air inlet 231 of the ash discharge door 230. The air A is moved through the air supply port 123c of the side supporting plate 123 through the lower portion of the receiving portion 110 as shown in FIGS.

The air (A) is supplied to the harmonic fuel (M) to accelerate the combustion of the harmonic fuel (M). The flame F and the combustion gas A 'generated by the combustion of the harmonics fuel M are moved downward through the flame inlet 113 between the refractory bricks 115. The flame F and the combustion gas A 'moved to the lower portion of the combustion chamber 240 are moved to the heat exchange chamber 250 through the combustion gas transfer path 251 connecting the combustion chamber 240 and the heat exchange chamber 250 do.

At this time, the space between the outer housing 210, the heat exchange chamber 250, and the combustion chamber 240 is filled with the heating water W. The heating water W is heat-exchanged with the high-temperature combustion gas and the flame transferred to the heat exchange chamber 250. The combustion gas is discharged to the outside through the communication pipe (260).

As described above, the firebox for a firewood boiler according to the present invention is formed to withstand the flames generated during the combustion of the harmonics fuel. The fire brigade encloses the flame inlet, in which the flame is directly moved, so that the durability of the flame inlet area can be improved.

Further, it is possible to divide the side support plate for supporting the harmonic fuel into small areas and to provide a space between them to minimize damage due to thermal deformation.

The above-described embodiments of the firebox assembly for a fire fighting boiler according to the present invention are merely illustrative and those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the invention. You will know very well. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

100: Culvert assembly for a firewood boiler 110:
111: support box 113: flame inlet
115: Heat resistant brick 117: Filler
120: side air supply unit 121: base frame
121a: coupling bar 121b: supporting plate coupling hole
121c: engaging rib 121d: lower bolt fastening hole
123: side supporting plate 123a: upper bolt fastening hole
123b: Heated protrusion 123c: Air supply port
123d: air guide plate 125: bolt
125a: Washer 200: Fuel Boiler
210: outer housing 220: fuel inlet door
230: Re-discharge door 231: Air inlet
240: combustion chamber 250: heat exchange chamber
251: combustion gas transfer path 260:

Claims (4)

A firebox assembly provided in a combustion chamber of a harmony fuel boiler in which a harmonic fuel is burnt,
And a flame inlet through which the harmonious fuel is loaded and communicated with the lower portion;
And a side air supply unit extending from both sides of the support unit to the sidewall of the combustion chamber and having an air supply port for supplying air to the plate surface as a fossil fuel,
The side air supply unit includes:
A base frame extending from the receiving portion to the inner wall surface of the combustion chamber;
And a plurality of side support plates detachably coupled to the upper surface of the base frame,
Wherein the plurality of side support plates are coupled to the base frame at a distance from adjacent side support plates.
The method according to claim 1,
The base frame includes:
A coupling bar in contact with a wall surface of the combustion chamber;
And a plurality of engaging ribs spaced apart from each other by an interval of the supporting plate engaging holes along the longitudinal direction of the engaging bar and having a lower bolt engaging hole formed on the upper surface thereof,
The side support plate
An upper bolt coupling hole corresponding to the lower bolt coupling hole is formed,
Wherein the upper bolt coupling hole is formed larger in diameter than the lower bolt coupling hole.
3. The method of claim 2,
Wherein the upper surface of the side support plate is coupled to the upper surface of the side support plate so as to protrude upwardly to prevent the ventilation hole from being closed when the ventilation fuel is loaded.
The method of claim 3,
[0030]
A metal support box;
And a plurality of heat resisting bricks disposed on the support box to form the flame inlet.

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