KR20130126571A - Natural convection type firewood stove - Google Patents

Abstract

The present invention relates to a natural convection type firewood stove. The present invention prevents rapid combustion by arranging air to be supplied to a combustion chamber in the upper part of fuel instead of the lower part of the fuel; circulates flames and exhaust gas due to combustion inside a case before being discharged to the upper side; and improves combustion efficiency by allowing the exhaust gas to flow through the lower part of an ashpan for the complete combustion for incomplete combustibles on the lower part of a netlike fuel support member through the superheat of the lower part of an ashpan drawer.

Description

Natural Convection type firewood stove}

The present invention relates to a convection type firewood stove, by which exhaust heat generated by combustion is discharged from the rear of the combustion chamber, from the lower part of the combustion chamber, and again from the front of the combustion chamber to increase the discharge time of the exhaust heat, and without a separate heat exchange facility. It relates to a convection-type firewood stove that exhaust heat is exhausted while surrounding the combustion chamber to be discharged in the state where the heat stays as long as possible.

In general, stoves use oil and coal as the main fuels, but also firewood stoves, which use combustion heat of firewood, especially in rural areas.

A firewood stove must provide a space of a certain size so that the firewood can be burned well, a passageway is formed for the inflow of oxygen well, and a smoke discharge passage is formed so that the smoke generated in the combustion process can be discharged smoothly. do.

This firewood stove can increase the relatively strong firepower for a long time, the use of this is increasing in cities, as well as rural villages in recent years.

However, the conventional firewood stove has a problem that there is a limit to increase the heat holding power and heating efficiency by the flame is discharged through the communication due to the strong thermal power, causing gastric islands such as fire, and the heat of combustion is directly discharged through the communication.

As a technique for solving such a problem, "firewood stove" (Korean Patent Publication No. 10-2013-0081783, Patent Document 1), after the air is introduced into the combustion chamber from the lower combustion chamber, the exhaust heat is circulated in a zig-zag upper part By allowing the discharge to be prevented to directly discharge the flame out of the communication, and to improve the heat holding power to solve the above problems.

However, the problem of instantaneously generating a strong flame by supplying air to assist combustion to the lower part of the combustion chamber was not solved, and even a zigzag exhaust gas method only delayed a strong flame to some extent and was released. There was a problem that does not reduce the heat itself.

In addition, as a technology for minimizing unstable combustion, "firewood stove" (Korean Registered Utility Model Publication No. 20-0468604, Patent Document 2) is provided with a plurality of combustion chambers, the flow path is formed in a zigzag complex to completely burn In order to increase the combustion efficiency close to.

However, when a plurality of combustion chambers and flow paths are to be provided in the stove as described above, there is a problem in that the cost of making the stove rises rapidly and it is difficult to maintain.

In addition, if the ash that falls while accumulating in the zigzag flow path flows along with the exhaust gas, the flow path is blocked, which may cause a dangerous fire accident.

In particular, the firewood stove is not a small volume, and the shape of the firewood stove does not have a spherical shape, and the combustion is different depending on the degree of supply of air or the position of wood in the combustion chamber. As it is broken in the combustion is not completely burned, falling ash or incomplete combustion is generated, in order to prevent this conventionally, only the portion supporting the fuel in the form of a grill.

However, when the size of the incompletely burned fuel is large enough to pass through the grille, there is a problem that the incompletely burned fuel is included in the falling objects that are eventually dropped.

Moreover, users of firewood stoves are often small or economically inexpensive, and demand for lower operating costs, maintenance costs, and fuel costs, increasing combustion efficiency, maintaining heating, as well as simpler ones. Having a structure is also required.

KR 10-2013-0081783 (2013.07.18) KR 20-0168604 (2013.08.19)

Convection firewood stove of the present invention is to solve the problems caused in the prior art as described above, the air supplied to the combustion chamber is to be the upper side of the fuel rather than the lower side to prevent the rapid combustion, while the combustion The generated flame and exhaust gas are discharged while circulating inside the case without being discharged upward, and in particular, the exhaust gas moves through the lower part of the back drawer drawer so that the incomplete combustion product falling under the reticular fuel support member is recollected. The high heat of the bottom allows the complete combustion to be made to increase the combustion efficiency.

In addition, it has a relatively simple structure that simply installs two partitions and pipes penetrating up and down, and prevents rapid combustion of fuel. It will help to increase the combustion efficiency to meet various conditions such as equipment cost, heating maintenance cost.

In order to solve the above problems, the convection-type firewood stove of the present invention is formed in a hollow cylinder shape, an exhaust port 11 is formed on the upper rear side, and an upper opening 12 is formed on the front upper portion. An upper door 12a for opening and closing the upper opening 12 is provided, and an air supply port 13 is formed in the lower portion of the upper opening 12, and in the lower part of the air supply opening 13, A fuel inlet 14 for injecting the firewood fuel 1 into the inside is formed, and a fuel inlet opening and closing door 14a for opening and closing the fuel inlet 14 is provided, and a drawer inlet below the fuel inlet 14. A case 10 in which 15 is formed; Since the inner space of the case 10 is installed in the horizontal direction at a height corresponding to the height between the upper opening 12 and the air inlet 13, the upper flow path 100 and the upper flow path 100 of the upper side of the case 10 are provided. The first opening 21 is formed at a position corresponding to the lower portion of the exhaust opening 11, and the opening and closing damper 21a opens and closes the first opening 21. The upper partition 20 is installed; It is installed in the horizontal direction inside the case 10 at a height corresponding to the fuel inlet 14 and the drawer inlet 15, and the firewood fuel (1) in the middle is combusted and is generated by combustion The front part 31 is provided with a reticular fuel support member 31a so that the ash falls, and is formed to be inclined upward while being integrally connected to the rear end of the front part 31, and an end of the case 10 is formed. The rear part 32 is spaced apart from the rear wall and forms a rear vertical flow path 400 between the rear wall of the case 10. The inner space of the case 10 is formed in the combustion chamber 200 and the lower part of the combustion chamber. A lower partition 30 to be divided into a lower flow path 300 of the lower partition; The ash generated by burning the wood fuel (1) seated on the fuel support member (31a) is installed so as to slide forward through the drawer inlet 13 while being installed under the lower partition (30). Re-accommodating space 41 is formed to accommodate the, the bottom surface is installed spaced apart above the bottom surface of the case 10, the back drawer drawer 40 to form a lower flow path 300 of the lower combustion chamber 200 and; The case 10 is installed in a vertical direction on both front sides, the upper and lower ends are connected to the upper flow path 100 and the lower flow path 300, the inside is made of a hollow tube form the upper flow path 100 and It is configured to include; connecting pipe 50 to form a front vertical flow path 500 for connecting the lower flow path (300).

In this case, the back drawer drawer 40 has a side wall surface spaced apart from the inner wall surface of the case 10, the auxiliary combustion hole 42 is formed on the side wall, the back drawer drawer 40 is made of aluminum It features.

In addition, it is installed in the rear vertical flow path 400 inside the case 10, and the heat medium oil is filled therein, and both sides are further provided with a heat exchange pipe 60 discharged to the outside of the case 10. It is characterized by.

According to the present invention, the air supplied to the combustion chamber is not the lower side but the upper side of the fuel to prevent sudden combustion, while the flame and exhaust gas generated by the combustion are discharged while circulating inside the case without being discharged upwards. In particular, the exhaust gas moves through the lower part of the drawer drawer so that incomplete combustion products dropped to the bottom of the reticular drawer can be completely burned by the high heat of the lower drawer drawer to increase combustion efficiency. do.

In addition, it has a relatively simple structure that simply installs two partitions and pipes penetrating up and down, and prevents rapid combustion of fuel. It also helps to increase the combustion efficiency to meet various conditions such as equipment cost, heating maintenance cost.

1 and 2 is a partially cut perspective view showing a convection type firewood stove of the present invention.
3 is a cross-sectional view showing a convection type firewood stove of the present invention.
Figure 4 is a cross-sectional view showing an installation example of the back drawer drawer in the present invention.

Hereinafter, the convection type firewood stove of the present invention will be described in detail with reference to the accompanying drawings.

The convection-type firewood stove of the present invention is largely comprised of a case 10, an upper partition 20, a lower partition 30, a back drawer 40 and a connecting pipe 50.

Case 10, which is a component of the present invention, is formed in a hollow cylinder shape as shown.

In addition, the case 10 has an exhaust port 11 formed on the upper rear side.

In addition, the upper opening 12 is formed in the upper front, and the upper door 12a for opening and closing the upper opening 12 is provided.

The upper opening 12 may be opened by opening the upper door 12a, and then cooked with sweet potatoes, potatoes, fish, meat, and the like.

An air supply port 13 is formed below the upper opening 12.

Although not shown in the air supply port 13, a fan may be installed to supply external air to the inside during an operation time.

Alternatively, although not shown, a damper may be installed to selectively adjust the amount of air introduced therein.

A fuel inlet 14 for injecting the firewood fuel 1 into the lower portion of the air supply port 13 is formed, and a fuel inlet / opening door 14a for opening and closing the fuel inlet 14 is provided.

In addition, a drawer inlet 15 is formed below the fuel inlet 14.

The upper partition 20 which is a component of the present invention is installed in the horizontal direction inside the case 10 at a height corresponding to the upper opening 12 and the air inlet 13 as shown.

As shown in the upper partition 20, the inner space of the case 10 is divided into an upper flow path 100 and an combustion chamber 200 below the upper flow path 100.

In addition, the upper partition 20 has a first opening 21 formed at a position corresponding to the lower portion of the exhaust opening 11, and an opening and closing damper 21a for opening and closing the first opening 21 is provided. .

The opening / closing damper 21a may be selectively opened when the exhaust gas combusted in the combustion chamber 200 is to be discharged immediately without circulating, so that the exhaust gas of the combustion chamber 200 may be directly discharged to the exhaust port 11.

The upper partition 20 is preferably made of a metal material, the upper partition 20 can be cooked by using the heat of combustion by opening the upper door 12a and putting potatoes, sweet potatoes in the interior.

Lower partition 30 is a component of the present invention is composed of a front portion 31 and the rear portion (32).

As shown in the drawing, the front part 31 is installed in a horizontal direction inside the case 10 at a height corresponding to the fuel inlet 14 and the drawer inlet 15.

In addition, in the middle of the front part 31, the fuel support member 31a of the reticular form is provided so that the ash 2 generated by the combustion is lowered while the firewood fuel 1 is seated.

The rear part 32 is formed to be inclined upward while being integrally connected to the rear end of the front part 31, and an end portion thereof is spaced apart from the rear wall of the rear side of the case 10 so as to be rearward vertically between the rear wall of the case 10. The flow path 400 is formed.

At this time, as shown in the front portion 31 of the lower partition 30, the front surface is connected to the inner wall surface of the front side of the case 10, the side is connected to the inner wall surface of the side of the case 10 is burned in the combustion chamber 200 The flame and the exhaust gas generated afterwards may be moved to the lower passage 300 through the rear vertical passage 400 through the rear portion 32.

The lower partition 30 is connected to the front, side is in close contact with the inner wall surface of the case 10 to form a lower flow path 300 to the lower side of the combustion chamber 200.

The back drawer drawer 40, which is a component of the present invention, is installed to be slidably moved forward through the drawer inlet 13 while being installed under the lower partition 30 as shown.

As shown in FIG. 4, the rail 33 is installed at both lower sides of the lower partition 30, and the upper end of the side wall surface of the drawer drawer 40 is the rail 33. It can be fitted to the sliding movement is possible.

On the other hand, the redraw drawer 40 has a re-receiving space 41 is formed so as to accommodate the ash generated by the burning of the firewood fuel (1) seated on the fuel support member (31a).

The bottom drawer 40 is provided with a bottom surface spaced apart from the bottom of the case 10 so that the lower flow path 300 is formed.

As described above, the inner space of the case 10 is divided into an upper flow path 100, a combustion chamber 200, and a lower flow path 300 by the upper upper partition 20 and the lower partition 30.

In addition, the upper partition 20 that divides the space thus serves as a kitchen table to cook potatoes and sweet potatoes, and the lower partition 30 is connected to the back drawer drawer 40 in addition to the separation of space to receive the ashes. By doing so, it is possible to minimize the components required to separate the combustion space or the exhaust space of the exhaust gas.

Connector 50 of the present invention is installed in the vertical direction on both sides of the front inside the case 10, as shown in the upper and lower ends connecting the upper flow path 100 and the lower flow path 300 and , The inside is made of a hollow tube shape to form a front vertical flow path 500 connecting the upper flow path 100 and the lower flow path 300.

Looking at the partially cut perspective view of Figure 2, the upper case 20 and the lower case 30 has a shape in which both sides of the front side is bent so that the upper and lower ends of the connecting pipe 50 is fitted into the bent portion of the combustion chamber 200 The lower flow path 300 and the upper flow path 100 are not directly connected to the.

In the above configuration, as shown in FIGS. 3 and 4, the ash drawer 40 is a method for completely burning the firewood or incompletely burned ashes that are incompletely burned in the ash drawer 40. The side wall surface is spaced apart from the inner wall surface of the case 10, the auxiliary combustion hole 42 is formed on the side wall surface, the back drawer drawer 40 may be made of aluminum.

That is, the flame and exhaust gas are supplied to the outer circumference of the ash drawer 40, and the flame or exhaust gas is supplied to the inside through the auxiliary combustion hole 42, and the wall surface is made of aluminum having high thermal conductivity. By forming, it is possible to help complete combustion of incompletely burned ash.

In addition, the heat exchange pipe 60 is installed in the rear vertical flow path 400 inside the case 10, filled with a heat medium oil, and both sides are discharged to the outside of the case 10 as shown. It is installed.

Heat medium oil may be applied to the general water, oil type, etc., the heat exchange pipe 60 may be a heat pipe, etc., both ends of the heat exchange pipe 60 may be connected to a hot water supply device or the like by a heating pipe. .

Convection-type firewood stove of the present invention configured as described above the upper partition 20 and the lower partition 30 for fixing the fuel support member 31a to the case 10 to serve to eat potatoes, such as baked potatoes And, through the connecting pipe 50 of a simple structure installed between the flame from the combustion chamber 200 in the order of the rear vertical flow path 400, the lower flow path 300, the front vertical flow path 500 and the upper flow path (100). Exhaust gas is emitted, which not only increases heating efficiency but also reduces the risk of flame emission.

In addition, the lower flow path 300 provides a flame or exhaust gas to the ash drawer 40 to reburn the incomplete combustion product dropped into the ash drawer 40 so as to provide high combustion efficiency even though air is supplied from top to bottom. It's what you get.

1: firewood fuel 2: ash
10 case 11 exhaust port
12: upper opening 12a: upper door
13 air supply port 14 fuel inlet
14a: fuel opening and closing door 15: drawer opening
20: upper partition 21: first opening
21a: opening and closing damper 30: lower partition
31: front part 31a: fuel support member
32: rear part 40: drawer drawer
41: recommissioning space 42: auxiliary combustion hole
50: connector 60: heat exchange pipe
100: upper flow path 200: combustion chamber
300: vertical vertical flow path 400: lower flow path
500: Forward vertical flow path

Claims (3)

In the convection type firewood stove,
The inside is formed in a hollow cylinder shape, the exhaust opening 11 is formed in the upper rear side, the upper opening 12 is formed in the upper front, and the upper door 12a for opening and closing the upper opening 12 It is installed, the air supply port 13 is formed in the lower portion of the upper opening 12, the fuel inlet 14 for injecting the firewood fuel 1 into the lower portion of the air supply opening 13 is formed. A case 10 having a fuel injection opening / closing door 14a for opening and closing the fuel injection opening 14 and having a drawer injection opening 15 formed below the fuel injection opening 14;
Since the inner space of the case 10 is installed in the horizontal direction at a height corresponding to the height between the upper opening 12 and the air inlet 13, the upper flow path 100 and the upper flow path 100 of the upper side of the case 10 are provided. The first opening 21 is formed at a position corresponding to the lower portion of the exhaust opening 11, and the opening and closing damper 21a opens and closes the first opening 21. The upper partition 20 is installed;
It is installed in the horizontal direction inside the case 10 at a height corresponding to the fuel inlet 14 and the drawer inlet 15, and the firewood fuel (1) in the middle is combusted and is generated by combustion The front part 31 is provided with a reticular fuel support member 31a so that the ash falls, and is formed to be inclined upward while being integrally connected to the rear end of the front part 31, and an end of the case 10 is formed. The rear part 32 is spaced apart from the rear wall and forms a rear vertical flow path 400 between the rear wall of the case 10. The inner space of the case 10 is formed in the combustion chamber 200 and the lower part of the combustion chamber. A lower partition 30 to be divided into a lower flow path 300 of the lower partition;
The ash generated by burning the wood fuel (1) seated on the fuel support member (31a) is installed so as to slide forward through the drawer inlet 13 while being installed under the lower partition (30). Re-accommodating space 41 is formed to accommodate the, the bottom surface is installed spaced apart above the bottom surface of the case 10, the back drawer drawer 40 to form a lower flow path 300 of the lower combustion chamber 200 and;
The case 10 is installed in a vertical direction on both front sides, the upper and lower ends are connected to the upper flow path 100 and the lower flow path 300, the inside is made of a hollow tube form the upper flow path 100 and Consists of; comprising a connecting pipe 50 to form a front vertical flow path 500 for connecting the lower flow path 300,
Convective firewood stove.
The method of claim 1,
The back drawer drawer 40 has a side wall surface spaced apart from the inner wall surface of the case 10, an auxiliary combustion hole 42 is formed in the side wall drawer, and the back drawer drawer 40 is made of aluminum. doing,
Convective firewood stove.
The method of claim 2,
It is installed in the rear vertical flow path 400 in the case 10, the heat medium oil is filled therein, both sides are further provided with a heat exchange pipe 60 is discharged to the outside of the case 10. Made,
Convective firewood stove.

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