KR101709583B1 - Multipurpose firewood stove - Google Patents

Abstract

In accordance with an embodiment of the present invention, a multipurpose fireplace stove is provided. The fire fighting stove includes: a body portion having a fuel injection port formed at one side thereof and having a fire chamber therein capable of burning the injected fuel; And a crushing door for opening and closing the fuel injection port, wherein the body has a protrusion formed by extending a surface of the body part to a predetermined height along the periphery of the fuel injection port And at least a part of the lower side of the protruding portion is opened so that an air inflow portion that allows the air to flow into the artillery from the outside in accordance with the combustion of the fuel can be formed in a state in which the door is closed.

Description

MULTIPURPOSE FIREWOOD STOVE

The present invention relates to a multi-purpose fire fighting furnace, and more particularly, to a multipurpose fire fighting furnace capable of preventing soot of a sight window and improving combustion efficiency of fuel by forming a double air curtain through an air inlet portion and a flow passage plate .

The stove refers to a heating device that generates heat by burning fuel such as wood, coal, petroleum, or gas, or by using electricity. The stove can warm the room temperature by releasing a heated heat source inside the stove have. Recently, since the introduction of the five-day workweek, interest in weekend trips has increased, and as the demand for the use of power houses and pensions increases, conventional heating such as the stove has been reexamined. Especially, the firewood hearth is a fireplace using wood firewood such as wood firewood, and it is not only inexpensive cost of petroleum and city gas fuel, but also is an environmentally friendly heating device. It is becoming popular.

Generally, the firewood furnace is composed of a firebox for burning fuel, a firebox for discharging smoke and the like, and a retractable firebox door for supplying fuel into the firebox. The firebox door is formed with a sight window for confirming the internal combustion state to be.

However, the conventional sight window provided in the fire wood stove is easily contaminated due to smoke, soot, etc. generated as wood or the like is burned inside the fire room, and thus frequent cleaning is required. If the contaminated state is left for a long time, the window will not be able to exert its function to such an extent that the interior of the firebox can not be visually recognized, and the removal of contaminants such as soot becomes more difficult.

In addition, since the conventional fire wood stove has an internal structure formed by a single firebox, the heat generated by the burning can not stay in the firebox for a long time and is discharged to the outside through the burning-time, The longest time for burning firewood without re-input after re-input) is not only low in heat utilization efficiency but also has a problem that heating effect is also insignificant.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a multipurpose fire fighting stove capable of preventing the soot of the sight window and increasing the combustion efficiency of fuel by forming double air curtains through the air inlet portion and the flow path plate. .

It is another object of the present invention to provide a multipurpose fireplace furnace capable of maximizing the heating effect by allowing a flow of a plurality of bypass patterns while the heat generated by the combustion in the firebox is discharged through the upper body, .

The technical problems of the present invention are not limited to the above-mentioned technical problems, and other technical problems which are not mentioned can be understood by those skilled in the art from the following description.

In accordance with an embodiment of the present invention, a multipurpose fireplace stove is provided. The fire fighting stove includes: a body portion having a fuel injection port formed at one side thereof and having a fire chamber therein capable of burning the injected fuel; And a crushing door for opening and closing the fuel injection port, wherein the body has a protrusion formed by extending a surface of the body part to a predetermined height along the periphery of the fuel injection port And at least a part of the lower side of the protruding portion is opened so that an air inflow portion that allows the air to flow into the artillery from the outside in accordance with the combustion of the fuel can be formed in a state in which the door is closed.

The apparatus may further include a flow path plate disposed above the air inflow section and configured to form a plurality of air flow paths with respect to air introduced through the air inflow section.

Preferably, the air inflow portion is divided into a first inflow portion and a second inflow portion with respect to the flow path forming plate, and air passing through the first inflow portion is separated by the flow path forming plate at least partially from So that it is possible to prevent soot from being generated in the transparent window.

Preferably, the vertical portion is integrally formed on the upper portion of the body portion to guide the discharge flow of the heat generated by the combustion of the fuel, while the vertical portion communicates with a portion of the upper portion of the body portion, An upper body portion separated by the upper body portion; And a tank unit integrally formed on the rear portion of the body portion and adapted to be filled with water and heated by the heat generated by the combustion of the fuel, thereby utilizing the heated water as the circulating hot water of the boiler.

Also, preferably, the body portion may have a first convection flow opening communicating with the upper body portion at an upper end of the rear side so that a discharge flow of heat generated by the combustion of the fuel may lead to the inside of the upper body portion.

Preferably, the upper body is provided with a hot-air passage communicating with the firebox, and the hot-air transforming plate for horizontally dividing the inner center of the hot-air transformer to flow upwardly in the hot- have.

Preferably, the heat exchanger is provided with a primary bypass and a secondary bypass divided into upper and lower portions, respectively, in accordance with the formation of the heat exchange plate, and the secondary bypass for the mutual communication of the primary and secondary bypass circuits A convection sphere may be formed on one side.

According to the present invention, by forming double air curtains spontaneously by using the air inlet and the flow path plate, it is possible to prevent the soot of the sight window and to improve the combustion efficiency of the fuel by smooth oxygen supply.

In addition, according to the present invention, since the heat generated by the combustion in the firebox is discharged through the upper body portion and is provided to have a plurality of flows of the bypass pattern, the heat can be released for a long time through the fireplace, can do.

Further, according to the present invention, water is stored in a hot water chamber formed so as to surround the outer side of the firebox, and hot water heated according to the combustion of the fuel can be used as the boiler circulation water, have.

BRIEF DESCRIPTION OF THE DRAWINGS A brief description of each drawing is provided to more fully understand the drawings recited in the description of the invention.
1 and 2 illustrate a multipurpose fireplace furnace according to an embodiment of the present invention.
FIG. 3 illustrates an embodiment of an air inlet and a flow path forming plate in a multi-purpose fire fighting furnace according to an embodiment of the present invention.
FIG. 4 illustrates an exemplary operation of an air inlet and a flow path plate in a multi-purpose fire fighting stove according to an embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described with reference to the accompanying drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference numerals whenever possible, even if they are shown in different drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the difference that the embodiments of the present invention are not conclusive. In addition, embodiments of the present invention will be described below, but the technical idea of the present invention is not limited thereto and can be variously modified by those skilled in the art.

Throughout the specification, when a part is referred to as being "connected" to another part, it includes not only "directly connected" but also "indirectly connected" . Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

1 and 2 illustrate a multipurpose fireplace furnace according to an embodiment of the present invention. Specifically, FIG. 1 shows the outer structure of a multi-purpose firewood stove, and FIG. 2 shows an internal structure of a multi-purpose firewood stove.

1 and 2, a multi-purpose fire fighting stove A according to an embodiment of the present invention includes a body part 1, a fire door 2, an upper body part 3, and a tank part 4 .

The body part 1 is for injecting fuel of a harmony (for example, firewood) in order to generate heat required for raising the room temperature (heating), burning it by burning it, A fuel injection port 11 for opening and closing a fuel injection port 11 for opening and closing the fuel injection port 11 may be provided. Here, the body part 1 may be configured as a horizontal cylindrical shape, but it is not limited thereto, and may have various shapes according to an embodiment to which the present invention is applied.

A protruding portion 12 is formed at one side of the body portion 1 where the fuel inlet 11 is formed and along the periphery of the fuel inlet 11 so that the surface of the body portion 1 is extended outward by a predetermined height . At least a part of the tip end of the projecting portion 12 is brought into close contact with the inner surface of the fire door 2, so that the fuel inlet 11 can be opened and closed. At this time, at least a part of the lower side of the protruding portion 12 is opened at the protruding portion 12, so that an air inflow portion (13 in Fig. 3) of a predetermined shape can be formed. The air inlet portion 13 shown in Fig. 3 has a structure in which the inner surface of the crater door 2 is in close contact with at least a part of the front end of the projecting portion 12, Air can be introduced into the artificial room 1a from the outside according to the combustion.

The body 1 may be provided with a collecting chamber 1b for collecting drops generated by combustion of the fuel w to the lower side of the collecting chamber 1b, The ash receiving unit 14 may be further provided to receive and process the ash of the fuel w falling down to the lower side of the fire room 1a. A first convection flow passage 1c communicating with the upper body portion 3 is formed in the upper end of the rear side of the body portion 1 so that the discharge flow of the heat resulting from the convection action can lead to the inside of the upper body portion 3. [ Can be opened.

The crater door 2 is for opening and closing the fuel inlet 11 and can be hinged to one end of the protrusion 12. [ Specifically, the crater door 2 can be opened or closed in such a manner that the inner surface thereof comes into close contact with or separates from at least a part of the tip end of the projecting portion 12 through the rotation movement about the hinge coupling portion, So that the fuel inlet 11 can be opened or closed. A window 21 for allowing a user or an administrator to visually confirm the state of the combustion in the fire room 1a may be provided in a central area of the crater door 2. [ At this time, the viewing window 21 may be made of heat-resistant glass, but it is not limited thereto and may be made of various materials according to the embodiment to which the present invention is applied.

On the other hand, a passage forming plate (22 in Fig. 3) can be coupled to the crater door 2 so as to form a predetermined spaced gap from the inner surface of the crater door 2. 3) is vertically arranged to the upper side of the air inflow portion (13 in FIG. 3) in the state where the fireplace door 2 is closed, and the air introduced through the air inflow portion (13 in FIG. 3) It is possible to form a plurality of air passages with respect to the air passage.

The specific configuration and operation of the air inlet portion (13 in Fig. 3) and the flow path plate (22 in Fig. 3) will be described below with reference to Fig. 3 to Fig.

The upper body 3 guides the discharge flow of the heat generated by the combustion of the fuel w, so that the heat source necessary for heating the room can be prevented from staying in the stove for a long time and being wasted as waste heat. The upper body part 3 is integrally formed on the upper side of the body part 1 and can be formed into an "a" shape composed of a horizontal part and a vertical part. At this time, the end of the vertical part is in communication with a part of the upper end of the body part 1, that is, the first convection opening 1c opened at the upper end of the rear part of the body part 1. On the other hand, the horizontal part is separated from the body part 1 by the spacing space 3a so that the bottom surface of the horizontal part is not in close contact with the upper end surface of the body part 1. This is to prevent the evaporation of water due to the self-heating temperature during contact with the tank portion 4 in which the water is stored so as to surround the outer side of the fireproof chamber 1a and to prevent the property change on the surface of the body portion 3 due to moisture contact to be.

In addition, the upper body portion 3 may be provided with a hot air passage 3b connected to the upper side of the first convectionair 1c so as to be parallel to the body portion 1, and the center of the hot air passage 3b A heat flow conversion plate 31 for dividing in the horizontal direction can be formed. The heat exchange plate 31 extends from the rear inner end surface of the hot runner 3b and is formed so as not to touch the inner end surface of the heat exchanger 3b, The primary bypass circuit 3b-1 and the secondary bypass circuit 3b-2 that are divided by the primary bypass circuit 3b-1 and the secondary bypass circuit 3b- And a secondary convection opening 3b-3 for allowing the air to flow into the bypass passage 3b-2. In addition, the upper end of the upper portion of the upper body 3 may be formed with a flue 32 upwardly protruding therefrom, through which communication for discharging harmful gas such as carbon dioxide generated by combustion of the fuel w can be connected.

Through the constitution of the upper body 3, the heat generated by the combustion of the fuel w can have a three-pass pattern of movement flow inside the fire wood stove A. Specifically, the heat generated by the combustion of the fuel w has a flow of movement from the front to the back inside the original fire chamber 1a, and then flows through the primary bypass line 1c to the primary bypass line 3b-1 (2b-2) through the second convection flow passage (3b-3), and then the flow direction is changed from the front to the rear direction again And is discharged through the flue 32 to the outside. Thus, the fire wood stove (a) according to the embodiment of the present invention allows the heat to stay in the fire wood stove A for a longer time, so that the heat is not wasted as waste heat, The effect of heating can be maximized.

On the other hand, the upper body portion 3 is provided with a grill receptacle which is housed in a form slidable outward from the front end portion of the upper body portion 3 and is capable of baking foods such as sweet potatoes using the heat moving through the hot passage 3b. (33) is further provided.

The tank portion 4 is formed integrally on the rear side of the body portion 1 for heating the water through the heat generated by the combustion of the fuel w to be utilized as the circulating hot water of the boiler. At this time, the hot water chamber 41 may be provided to fill the water by the partition wall which separates the entire inner space of the body part 1 so as to surround the outer side of the fireproof room 1a. At this time, it is preferable that a plurality of hot water pipes (42) are formed at at least one end so as to circulate the water heated by the hot water in the hot water chamber (41) to the boiler hot water.

FIG. 3 illustrates an embodiment of an air inlet and a flow path forming plate in a multi-purpose fire fighting furnace according to an embodiment of the present invention. In FIG. 3, for simplicity of explanation, only a part of the fire fighting stove including the projection and the fire door (open state) is enlarged.

3, the body 1 may be provided with a protrusion 12 formed along the periphery of the fuel inlet 11 such that the surface of the body 1 extends outward by a predetermined height. For example, the fuel inlet 11 may be formed in a rectangular shape, as shown in FIG. 3, in which case the protruding portion 12 formed along the periphery of the fuel inlet 11 has four faces The branch has a rectangular frame shape.

On the other hand, at least a part of the lower side of the protruding portion 12 is cut open in the transverse direction to open the protruding portion 12, so that the air inflow portion 13 can be formed. 3, the lower surface of the protrusion 12 on which the air inflow portion 13 is formed has a structure in which the protrusion height from the surface to the tip of the body portion 1 is lower than the protrusion height of the other surface . Therefore, when the crater door 2 is opened and closed by the hinge movement, the tip of the other surface of the projecting portion 12 comes into close contact with the inner surface of the crater door 2 while the air inlet 13 is formed The tip of the lower side of the projecting portion 12 is spaced apart from the inner surface of the crater door 2 by the height of the air inflow portion 13 and the fuel w in the airtight chamber 1a is burned, The outside air can be introduced into the fire room 1a through the opening 13.

On the other hand, the passage forming plate 22 may be coupled to the crush door 2 so as to form a predetermined spaced-apart gap from the inner surface of the crush door 2. For example, the flow path forming plate 22 may be formed of a plate having a predetermined thickness, and both ends of the protruded flow path forming plate 22 may be formed on the inner surface of the crater door 2 So that the passage forming plate 22 forms a predetermined spaced-apart gap from the inner surface of the fire door 2. The passage forming plate 22 is vertically disposed above the air inlet 13 in the state where the fire door 2 is closed as described with reference to FIG. 4) and the second inlet (13-2 in Fig. 4), it is possible to form a plurality of air passages with respect to the air flowing through the air inlet 13 .

FIG. 4 illustrates an exemplary operation of an air inlet and a flow path plate in a multi-purpose fire fighting stove according to an embodiment of the present invention.

4 shows a partial cross-sectional view of the gas inlet door 2 and the protruding portion 12 when the gas inlet door 2 of the fire fighting stove A is closed, Lt; / RTI >

First, referring to FIG. 4, the principle of air inflow from outside through the air inlet 13 into the fire room 1a will be described in detail as follows.

When the crater door 2 is closed, only the air inlet 13 is opened as the inner surface of the crater door 2 comes into close contact with the tip of the projecting portion 12. Then, when the combustion of the fuel w is started, some of the oxygen contained in the air inside the firebox 1a is consumed for burning the fuel w, As described above, is raised by the convection phenomenon and moves to the upper body part 3 communicating with the body part 1 and finally exits through the flue 32 to the outside. As the combustion continues due to the consumption of oxygen and / or the movement of the air, the pressure in the interior of the firebox 1a decreases as compared with the outside. Therefore, the air flowing in through the air inflow portion 13 opened in the lower direction of the body portion 1 The outside air can naturally flow into the interior of the fireproof room 1a.

On the other hand, the passage forming plate 22 is vertically disposed above the air inlet 13 as shown in Fig. 4 in a state where the fire door 2 is closed, thereby forming a plurality of air passages . Specifically, the air inlet 13 is formed in a space between the inner surface of the furnace door 2 and the flow path forming plate 22, with the flow path forming plate 22 vertically disposed at the upper center of the air inlet 13 as the center, And a second inflow portion 13-2 which is a space between the first inflow portion 13-1 and the flow path forming plate 22 and the front end of one lower surface of the protruding portion 12. [ At this time, the air passing through the first inlet 13-1 passes through the space between the inner surface of the narrow and long furnace door 2 and the flow path forming plate 22, and at least a part of the air passes through the inner surface of the furnace door 2 In particular, the first air passage 5a which is adjacent to the viewing window 21 by a considerable height and then flows into the interior space of the artificial chamber 1a can be formed. The first air passage 5a thus formed serves as a kind of air curtain for blocking the smoke or the like generated during combustion from approaching the fire door 2, It is possible to prevent the occurrence. On the other hand, the air passing through the second inlet portion 13-2 can pass through the space between the flow path plate 22 and the tip end of the lower side of the protruding portion 12 to form the second air flow path 5b. At this time, the second air passage 5b flows upward along the first passage forming plate 22 and does not rise by the first air passage 5a, and flows into the interior space of the firebox 1a.

As described above, the fire wood stove (A) according to the embodiment of the present invention naturally uses the air inlet portion 13 and the flow path plate 22 to form the first air passage 5a and the second air passage 5b , It is possible to prevent the soot of the transparent window 21 and to improve the combustion efficiency of the fuel by supplying the oxygen smoothly.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

A: Relief stove 1: Body part 1a:
1b: collecting chamber 1c: primary convection bulb 2: crater door
3: upper body part 3a: spacing space 3b:
3b-1: primary bypass 3b-2: secondary bypass 3b-3: secondary bypass
4: tank portion 5a: first air passage 5b: second air passage
11: fuel inlet 12: protrusion 13: air inlet
13-1: first inlet portion 13-2: second inlet portion 14:
21: viewing window 22: flow path forming plate 31:
32: Year 33: Grill 41: Hot water chamber
42: Hot water pipe

Claims (7)

A body portion in which a fuel injection port is opened at one side and a firebox capable of burning the injected fuel is provided therein; And
And a fire door for opening and closing the fuel inlet,
Wherein the body portion is provided with a protrusion formed by extending a surface of the body portion to a predetermined height outside along the periphery of the fuel inlet,
At least a part of the lower surface of the projecting portion is opened to form an air inflow portion for allowing air to flow from the outside into the artificial chamber in accordance with the combustion of the fuel in a state in which the fire door is closed,
The duct-shaped plate is coupled to the duct-shaped door so as to form a predetermined spaced-apart gap from the inner surface of the furnace door, and the duct-shaped plate is disposed to extend upward by a predetermined length from the air- A plurality of air flow paths are formed in the air flowing through the air inflow portion by dividing the air inflow portion into a first inflow portion and a second inflow portion with the flow path forming plate as a center,
Wherein an air flow path is formed in the air passing through the first inlet so that at least a part of the air passing through the first inlet is moved adjacent to the transparent window so as to prevent the occurrence of soot on the transparent window. delete delete The method according to claim 1,
Wherein the vertical portion is communicated with a part of the upper end of the body portion while the horizontal portion is separated from the other upper end portion of the body portion by the spacing space, part; And
Further comprising a tank part integrally formed at a rear part of the body part and adapted to be filled with water and heated by heating by combustion of the fuel so as to be utilized as circulating hot water for boiler circulation. 5. The method of claim 4,
Wherein a first convection flow passage communicating with the upper body portion is opened at an upper end of a rear side so that a discharge flow of the heat generated by the combustion of the fuel can be led into the upper body portion in the body portion. 5. The method of claim 4,
Wherein the upper body is provided with a hot air passage communicating with the firebox,
Wherein the heat exchange plate for making the flow of heat in the hot passageway ascend is formed to horizontally divide the center of the inside of the hot passageway. The method according to claim 6,
The hot runner is provided with a primary bypass and a secondary bypass which are divided into upper and lower parts, respectively, in accordance with the formation of the heat exchange plate,
And a second convection flow passage for communicating the first and second bypass circuits is formed at one side of the furnace.

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