KR102145074B1 - Moving smoke tube combustion apparatus - Google Patents

Abstract

The present invention relates to a wood combustion apparatus, in a combustion apparatus using wood fuel used in a stove, boiler, warmer, etc., in order to make the heat output of the combustion apparatus long and even, a pipe part is composed of an internal pipe and an external pipe, and a housing connected in the middle The operation unit that maintains the distance between the starting position of the internal pipe and the combustion zone of the wood fuel in a certain range during combustion by forcing it to contact one side of the wood fuel from the side of the wood fuel by connecting the position holder to the internal pipework. It relates to a wood burning apparatus comprising a.

Description

Associated Position Mobile Firewood Combustion Unit {MOVING SMOKE TUBE COMBUSTION APPARATUS}

The present invention relates to a firewood combustion apparatus,
In a combustion device that uses wood fuel used for stoves, boilers, and hot air fans, the combustion chamber is composed of internal and external flames so that wood fuel can be injected once and burned with uniform heat output for a long time. A position holder connected to the internal fire tube is provided, and the fire point (combustion zone) where combustion occurs at all times during combustion by forcing the position holder to contact one side of the wood fuel and the start position (head) of the internal pipe are within a certain distance range. It relates to a firewood combustion apparatus comprising an operation unit that keeps it to be me.

The number of households living in the city leaving the city to return to farming or returning to village is increasing. Compared to well-heated apartments in urban areas, single-family houses in rural villages lack insulation and do not supply cheap city gas, so they attempt to heat with relatively inexpensive firewood fuel instead of expensive oil.
However, firewood stoves with a simple structure generally sold on the market tend to burn fuel for a short period of time with one input of firewood, so they cannot maintain a uniform combustion state for a long period of time desired by the user, and the combustion efficiency and heat utilization rate are low. Will consume.
These low-efficiency firewood stoves are an important factor in deteriorating the air quality of the entire village when used in many houses in addition to the annual price.
And the simple structure firewood boiler widely popular in the market also has the same problems as the firewood stove and discharges low efficiency and excessive soot.
This low efficiency and waste of fuel are due to the location of the air supply port and the connection of the firewood combustion system irrespective of the change in the firewood combustion state.
Looking at this in more detail, the firewood stove of a general simple structure is made in a structure in which the air supply port is located below one side, firewood fuel is placed in the middle, and the firewood starts at the top of the other side when viewed through a cross section. So, when the fire is ignited, the fire spreads all over the firewood in the firebox, and the temperature of the firebox gradually rises. As the temperature of the firebox rises, the total combustion rate and the amount of heat radiated rapidly rise. As it decreases, the pattern of weakening firepower is repeated.
When viewed through the cross section of a firewood stove of another structure, there is an air supply port in the lower part of one side and a structure that starts the connection in the upper area on the same side. This stable and long-time combustion is possible, but at first, the air supply is smooth and the fire burns normally, but as the combustion position moves to the other side, the air supply is not smooth, so the combustion speed decreases and the amount of heat emission gradually decreases. The further away the combustion zone) is from the position of the air supply port, the heat output decreases due to the air lean phenomenon and the soot amount increases. Due to such a problem, the conventional firewood combustor in which the air supply port and the associated start position are fixed has a problem in that it is difficult to maintain a uniform thermal power for a long time.

Accordingly, the present invention was devised to solve the above-described problems, and when combustion is performed by filling the firebox with firewood fuel, the entire firewood is lit at once, so that the combustion proceeds only in a certain area without burning in a short time. It aims to maintain an even combustion state from the start of combustion to the end of combustion by supplying sufficient air.
In particular, in the present invention, the position of the air supply port is fixed for stable combustion for a long period of time, but the fire tube is divided into the firebox inside the firebox and the firebox outside the firebox. It is an object of the present invention to provide a firewood combustion apparatus that forces a start position (head) of an internal firewood to move from one side to another by interlocking with a fire point location of firewood fuel.
Further, an object of the present invention is to provide a firewood fuel combustion apparatus comprising an operation unit consisting of an internal fire extinguisher that operates according to a swing rotation of the internal fire extinguisher along a rotation axis of an upper part of the firebox, or an internal fire that operates by traction.

In order to achieve the above object, the firewood combustion apparatus according to the present invention
A combustion chamber in which firewood fuel is loaded;
A fire extinguishing unit disposed outside the combustion chamber and including an intermediate housing that connects the internal and external fire extinguishers and the internal and external fire extinguishers, which are provided with a location-holding tool and whose starting position (head) is variable;
An operation unit for forcing a position holder linked to the internal fire extinguisher to come into contact with one side of the firewood fuel so that a fire point, which is a combustion zone during combustion, and a start position of the internal fire extinguishing are always at a certain distance; It characterized in that it comprises a.
In addition, in the firewood combustion apparatus according to the present invention, the internal pipe is installed to swing through the shaft coupling portion under the intermediate housing,
The operation unit
It is provided in the shaft coupling portion and is composed of a turning means for forcing the internal combustion start position to rotate toward one side of the wood fuel, so that the fire point and the internal combustion start position during combustion are maintained at a predetermined distance.
And in the firewood combustion apparatus according to the present invention, the internal connection is made of a telescopic type,
The operation unit
By being configured with a traction means for forcing the internal associated start position to be traction toward one side of the wood,
It is characterized in that the internal combustion start position (head) and the fire point are maintained at a certain distance during combustion.
Further, in order to improve the uniform combustion of wood fuel in the firewood combustion apparatus according to the present invention, the starting part (head) of the internal fire tube is made in a shape that spreads widely like a floor cleaning nozzle of a vacuum cleaner,
It is characterized in that the internal connection position holder is detachably attached to the internal connection start portion (head).

In the firewood combustion apparatus according to the present invention, the entire firewood loaded in the combustion chamber is rapidly burned and exhausted by forcing the internal combustion start position (head) to be within a certain distance from the burning point (combustion zone) during combustion. By preventing the decrease in heat output due to leanness, it burns for a long time with even heat output from ignition to the point of extinguishing, and once firewood is put in, it is possible to obtain stable heat output for a long time, eliminating the inconvenience of frequently filling the combustor with fuel. Is done.
In particular, the firewood combustion apparatus according to the present invention is effective in saving firewood and preventing air pollution because the internal combustion start position and the fire point (combustion zone) are always within a certain distance range by the operation unit. .

1 to 3 schematically show the arrangement of an air supply port of a conventional firewood combustor and a firewood combustor.
4 to 5 schematically show a first embodiment of a combustion apparatus according to the present invention.
6 to 7 schematically show a second embodiment of a combustion apparatus according to the present invention.
FIG. 8 shows a detailed view of a position holder and a wheel connected to an internal connection in a second embodiment according to the present invention.

Since the present invention can have various changes and modified forms when applied to an actual product,
The implementation (Example) will be described in detail in the text. However, this is not intended to limit the present invention to a specific form of disclosure, and should be understood to include all changes and substitutes included in the spirit and scope of the present invention.
In each drawing, the same reference numerals, in particular the tens and ones digits, or the tens digits, the ones digits, and the same alphabet, indicate members having the same or similar functions, and unless otherwise specified, each reference in the drawings The member indicated by the symbol may be grasped as a member conforming to these standards.
In addition, components in each drawing are expressed by exaggeratingly large (or thick) small (or thin) or simplified their size or thickness in consideration of convenience of understanding, but the scope of protection of the present invention is limited by this. Can't.
The terms used in this specification are only used to describe specific embodiments (or examples) and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.
In the present application, terms such as ~comprise~ or ~consist are intended to designate the existence of a feature number, step, operation, component, part, or a combination thereof described in the specification, but one or more other features or numbers. It is to be understood that the possibility of the presence or addition of step-operated component parts or combinations thereof is not precluded.
Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person of ordinary skill in the art to which the present invention belongs. Terms as defined in a commonly used dictionary should be construed as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in the present application.
The ~1~, ~2~, etc. described in the present specification will only be referred to to distinguish different constituent elements, and are not limited to the order of manufacture, and the names in the detailed description and claims of the invention It may not match.
In the description of the firewood combustion apparatus according to the present invention, for convenience, if a rough reference is specified with reference to Fig. 6 [B] of FIG. Unless otherwise specified in the detailed description and claims of the invention related to other drawings, directions are specified and described according to this standard.
Hereinafter, a firewood combustion apparatus according to the present invention will be described with reference to the accompanying drawings.
As shown in FIGS. 1 to 7, the combustion apparatus according to the present invention has a housing 10 having a combustion chamber 11 in which wood fuel W is largely loaded, and air installed on one side of the housing 10 Maintaining the distance between the supply port 12, the associated unit 20 from which exhaust gas is discharged after combustion, and the position maintaining tool 24 connected to the internal connection 22 and the fire point (combustion area) of wood fuel within a certain range. It comprises an operation unit (30).
The concept of a combustion device in the present invention is a device that can be used as a combustion device in all devices that use thermal power through combustion of fuel, such as a stove, a boiler, and a hot air fan, and as a discussion, only the combustion device of the present invention is used alone. In a broad sense, a heat exchange unit (a hot water supply unit that heats water by using thermal power or a hot air supply unit that heats air) is combined with the combustion device of the present invention to be used as a boiler heater, etc. In this specification, for convenience of explanation, only the concept of a stove in which a combustion device is used alone is described, but the interpretation of the rights of the present invention should not be limited thereto.
The fuel used in the combustion apparatus of the present invention is wood fuel, and as wood (W) fuel, firewood fuel such as firewood, firewood, etc., produced (or obtained) to have a certain size or more, and wood are of a certain size. All of the wood chips crushed with wood (WOOD CHIP) can be used.
The housing 10 is surrounded by panels in a box shape of a square or polygonal shape or a circular semicircular oval shape, and a combustion chamber 11 is provided therein, and a door (not shown) through which wood fuel (W) can be injected into one panel. Is installed and the combustion chamber 11 may further include a support plate (not shown) capable of taking out by-products such as charcoal or ash generated after combustion.
In addition, the bottom panel may be provided with a leg portion (not shown) for supporting the housing 10, and the upper panel may be separately opened to input wood fuel W or clean the combustion chamber 11.
The housing 10 combustion chamber 11 is manufactured to have a horizontal combustion chamber having a predetermined length in the left and right (horizontal) direction, and a combustion region on one side of the housing 10 in a state in which wood fuel W is loaded (B: an area where combustion is actually performed) Is formed and an internal associated starting point (head) 23 is disposed adjacent to the combustion region B so that air is concentrated in the lateral direction of the wood fuel W.
In the drawings in the present specification, a door is installed on the left panel 11A of the horizontal combustion chamber 11, and the internal associated start position 23 is arranged on the left side of the combustion chamber 11, and the position is shifted from left to right by the operation unit. It represents that exhaust gas is discharged while being displaced, and it is described based on this, and other configurations that may be added to the combustion device have been omitted for convenience of description.
Other configurations additionally provided in the combustion apparatus adopted for various types of products can be sufficiently predicted and reproduced by those skilled in the art (hereinafter referred to as those skilled in the art) to which the present invention belongs, and these additional configurations are essential of the present invention. There is little relevance to the core, so a detailed description is omitted.
1 is a firewood stove structure of the simplest structure, wood fuel (W) is loaded in a horizontal combustion chamber (11), an air supply port (12) is arranged in the lower left, and a related part (20) is arranged in the upper right to ignite. Afterwards, the entire firewood fuel is ignited, releasing high heat for a short period of time, and burning rapidly, and the whole is transferred from the charcoal to the ash stage.
Because of its simple structure and low price, it is widely manufactured and sold today, but it is a stove that requires frequent input of firewood and a large amount of unburned soot, resulting in high fuel costs.
Figure 2 is a form of an improved stove, wood fuel (W) is loaded in the horizontal combustion chamber (11), the air supply port (12) is arranged in the lower left, and the associated part (20) is arranged in the upper part of the same side after ignition. It is a structure that enables stable combustion for a long time by forming a combustion zone (B) in a certain area rather than rapid combustion.
However, after a certain period of time has passed and the firewood combustion zone (B) has progressed inward a lot as shown in FIG. 3, the air that has entered through the air supply port (12) reaches the combustion zone (B), but some of them are immediately passed to the associated part (20). The output decreases due to the leanness of the air due to the occurrence of an outgoing part and lack of oxygen required for combustion.
That is, at first, sufficient heat output is achieved, but a pattern in which heat output gradually decreases over time is repeated.
In FIG. 4, the present invention allows the combustion region (B) to be formed on one side of the wood fuel (W) through the horizontal combustion chamber (11), and the position holder (24) in close contact with the combustion region (B) to be within a certain range. By maintaining a combustion environment suitable for combustion, it always provides a combustion environment suitable for combustion.This is a characteristic of a general pipe, which inhales the surrounding gas with a constant suction power like a vacuum cleaner. The air supplied through the air supply port also starts internal connection by this suction power. Since it is moved to the position 23 and a fire point, that is, the combustion zone B is formed immediately below it, the oxygen supply required for the combustion zone B in an appropriate range is smoothly made, thereby creating suitable combustion conditions at all times.
In FIG. 5, at a point in time after the combustion process has progressed quite a bit, even when the firewood fuel loaded in the combustion chamber 11 burns to the right, the air supplied through the air supply port 12 passes through the combustion zone (B) After passing through, a pattern similar to the first discharged through the internal pipe 22 is maintained.
On the other hand, the internal pipe 22 may be configured in the same shape from the beginning to the end, and when the internal pipe starting position is wide and narrowly converged and gathered as shown in FIG. 4, the combustion uniformity of the entire combustion region increases.
On the other hand, the operation unit 30 of the present invention is made in a variety of ways, for example, in order to use a method in which the position holder 24 is automatically adjusted as the wood fuel W is burned using an electric motor, a separate sensor And, since various electronic control devices for precise control of the electric motor must be added, the present invention introduces a mechanical method as an inexpensive method.
Accordingly, the present invention is a first embodiment of the operation unit 30, as shown in FIGS. 4 to 5,
The internal pipe 22 is installed to swing through the shaft coupling part 25 at the upper part of the combustion chamber,
The operation unit 30 is provided in the shaft coupling portion 25 and is a turning for forcing the position holder 24 connected to the other end of the internal pipe 22 to turn toward one side of the wood fuel (W). By being composed of means,
It is characterized in that the distance between the internal associated start position 23 and the wood fuel W during combustion is maintained within a certain range.
Looking at this in more detail, the upper surface of the housing 10 is provided with an auxiliary housing (10A) forming a space for swing rotation of the internal pipe, and the upper portion of the internal pipe (22) under the auxiliary housing (10A) The shaft coupling portion 25 passing through the shaft is formed.
An external pipe 21 is coupled to the other side of the auxiliary housing to induce exhaust gas to the outside.
In the lower portion of the auxiliary housing 10A, there is an opening through which the internal pipe 22 can protrude from the combustion chamber.
The internal connection start position 23 is the work of the wood fuel (W) while the internal connection is rotated by the rotation means 31 of the shaft coupling part 25 by the connection position holder 24 is coupled to the lower part Forced to turn towards the side,
Accordingly, as the combustion of the wood fuel (W) proceeds, the by-products of the combustion zone (B) fall and the position of the combustion zone is displaced, and the position holder 24 contacts one side of the new wood fuel by the swing of the internal pipe. Meanwhile, the distance between the start position 23 and the combustion zone B is adjusted within a certain range.
At this time, the turning means 31 is preferably composed of one or more turning weights 32 that are installed on the shaft coupling part 25 and rotate through their own weight to automatically swing the internal pipe 22 to swing.
In addition, the pivot weight 32 is provided to be detachably attached to the shaft coupling portion 25, and the pivot weight 32 is replaced according to the type of wood fuel W to be used, thereby maintaining the internal associated position. It is preferable that the pressure and speed (the force pushing the wood fuel W, hereinafter referred to as torque) can be kept constant.
This is because the torque value of the position retainer 24 is determined by the weight of the pivot weight 32, so the torque value of the position retainer 24 is too weak by adjusting the weight of the pivot weight. The position is not displaced due to the failure to push the by-products or the position holder (24) torque value is too strong to prevent the firewood fuel (W) from being pushed before the firewood fuel (W) is burned, causing the position to be excessively displaced, resulting in incomplete combustion It is a configuration for.
In particular, as shown in Fig. 4, in the section in which the position holder 24 swings downward as the combustion of the wood fuel W proceeds when the position holder 24 is displaced by the pivoting weight 32 While the torque value being rotated is increased due to the weight of the pivoting weight 32 and the weight of the internal connection part,
In the section in which the position holder 24 swings upward, the weight of rotating the slewing weight 32 decreases due to the weight of the internal linkage part, thereby reducing the actual torque value.
In order to keep the turning torque value of the position holder 24 constant, the turning means 31 includes one or more first turning weights 32A and one or more second turnings that are lighter than the first turning weights 32A. Weight (32B) and,
The first pivoting weight (32A) is provided at the end of the first pivoting rod (32a) connected to the shaft coupling portion (25) so as to be spaced apart from the inner shaft (22) at a predetermined angle upward,
The second pivoting weight (32B) is provided at the end and is spaced apart from the first pivoting rod (32a) at an appropriate angle, and comprises a second pivoting rod (32b) connected to the shaft coupling portion (25). .
Therefore, in the downward swing section of the positioning tool 24, the weight of the first turning weight 32A acting as the turning torque value of the positioning tool and the weight of the downward swing of the internal linkage 22 are the second turning. The torque value is reduced according to the potential energy displacement of the first and second pivoting weights 32A and 32B while the weight 32B decreases due to the upwardly rotating weight and the turning torque value of the position holder 24 is reduced. Is determined,
In the upward swing section of the position holder 24, the weight at which the first pivotal weight 32A acting as a turning torque value rotates downward is reduced by the weight of the upward swing, but the second pivotal weight 32B is Since the torque value is determined according to the potential energy displacement of the first and second pivoting weights 32A and 32B in the state that the pivoting torque value of the position holder 24 is increased again due to the downwardly rotating weight,
The torque value can be kept constant regardless of the section in which the position maintenance tool 24 swings and turns.
Meanwhile, the torque value of the positioning tool 24 is the weight of the first and second pivoting weights 32A and 32B, the weight of the positioning tool, and the length and weight of the internal linkage first and second pivoting rods 32a. Since it is determined according to the length and angle of formation of (32b), it can be adjusted in consideration of the strength of by-products after combustion of firewood fuel, and the overall swing turning angle of the internal associated position holder 24, and such adjustment is sufficiently predicted and reproduced by those skilled in the art. This can be done, so a detailed description is omitted.
Next, the present invention is a second embodiment of the operation unit 30, as shown in Figs. 6 to 7, the internal connection 22A is made of a telescopic type, and the operation unit 30 Is composed of a traction means 33 forcing the position holder 24 to be traction toward one side of the wood fuel W, so that between the starting point 23 and the wood fuel W during combustion It is characterized in that the interval is kept constant.
Looking at this in more detail, one side (left in the drawing) of the housing 10 is provided with an auxiliary housing 10B in which the powders of the telescopic type internal pipe 22A are accommodated, and the housing 10 and the auxiliary housing 10A ) On the left panel to which (11A) the internal pipe (22A) is arranged to allow entry and exit is formed, and the internal pipe (22A) is pulled by a traction means, so that the position holder (24) becomes the wood fuel By being forced to move forward toward one side of (W), the distance between the starting point of the internal connection 23 and the wood fuel (W) is kept constant within a certain range.
An external pipe 21 is arranged and connected to the other surface of the auxiliary housing 10B to discharge exhaust gas exiting through the internal pipe 22A.
And the traction means (33) has one end connected to the internal pipe (22A) or the position holder (24) and the wire 34, and is installed on the other side of the housing (10) to the other end of the wire (33) A first roller (35A) that guides to and a second roller (35B) installed on the upper portion of the housing to catch the other end of the wire, and a weight that is fixed to the other end of the wire (33) to pull the wire through its own weight It consists of (36).
Therefore, when one side of the wood fuel (W) is burned and its by-products fall and the position of the combustion zone (B) is displaced, the internal pipe (22A) is the work of the wood fuel by the load of the weight 36 by the displaced distance. It is pulled toward the side and accordingly, the powders of the telescopic type internal pipe 22A are separated from each other and the length is increased, so that the distance between the internal pipe starting point 23 and the wood fuel W can be maintained within a certain range.
At this time, the length of the support portion on which the second roller 35B is installed (that is, the initial formation height of the weight 36) is the same as the forward movement distance of the internal pipe 22A, that is, the final length of the internal pipe 22A. Is preferably formed,
Since the forward thrust of the position holding unit 24 is determined by the weight of the weight, the weight 36 is formed to be detachable to the other end of the wire 34 to suit the type of wood fuel used. It is more preferable to replace and use 36), and since the weight adjustment of the weight 36 can be sufficiently predicted and reproduced by those skilled in the art, a detailed description will be omitted.
In addition, the present invention uses the wire 34 as a material that can be stretched and introduces a motor (not shown) that adjusts the degree of stretch of the wire in place of the weight 36, so that the motor The nozzle can be traction by adjusting the length of the wire.
Meanwhile, in the second embodiment of the present invention, since the position holder 24 moves forward through the wire 34, the position holder 24 has a wheel that contacts the bottom surface of the combustion chamber to help the position holder move forward. The unit 26 may be further provided.
It is preferable that the wheel part 26 is additionally installed at both ends of the positioning tool 24 as shown in the drawing. When a guide means (for example, a guide rail to which an internal fire slidably engages) is introduced between the upper part of the internal pipe 22A and the upper part of the combustion chamber, the wheel part 26 may be omitted.
Subsequently, the present invention introduces a locking means for limiting the positional displacement of the internal pipe 22, so that the operation unit can be prevented from being operated during the input operation of wood fuel in the first and second embodiments.
Hereinafter, a locking means installed on the shaft coupling part 25 in the first embodiment will be described as a representative, and the adoption of such locking means is applied in the same manner to the second embodiment, and this configuration is applied to the first and second embodiments. Since all of the examples are identical, those skilled in the art can reproduce the locking means described later by modifying and replacing the first and second rollers 35A, 35B, or the telescopic type internal linkage 22A, etc. In connection with the detailed description will be omitted.
The locking means is composed of a fixed handle (not shown) that restricts the rotation of the first turning rod (32a) or the second turning rod (32b) or the internal pipe (22).
The fixed handle is fastened to one side of the shaft coupling part 25 in the auxiliary housing 10A in a screw connection manner to limit the rotation of the turning rod 32a, 32b or the internal pipe 22 when fastened, and rotate when separated. Allow restrictions to be lifted.
Therefore, when the wood fuel (W) is injected into the combustion chamber, the user adjusts the position holder 24 to be placed in the initial position, and then tightens the fixing handle to limit rotation. Separate to allow the operating unit to operate.
In addition, by limiting the positional displacement of the starting point 23 of the internal connection through the locking means, a stronger heat output can be achieved by frequently inputting wood fuel W, especially firewood fuel, to enable combustion.
That is, the internal combustion start position 23 is fixed at a predetermined position on the combustion chamber through the locking means, and then a small amount of firewood fuel is injected into the combustion chamber, and firewood fuel is repeatedly injected like a conventional stove or an oven. There is an effect that the combustion device can be operated while saving.
Next, since it is preferable that the distance between the internal associated start position 23 and the fire point (combustion zone) be different according to the type of wood fuel used, the position maintenance tool 24 maintains the position as shown in FIG. 8. It is preferable that the sphere is detachably coupled with respect to the inner associated start (head) 23.
In other words, in the case of firewood fuel, combustion conditions are easily achieved even though the internal combustion starting part and the burning point are slightly distanced, so it is desirable that the internal combustion starting point 23 be kept at an appropriate distance to the left from the burning point (combustion area).
In the case of wood chip fuel, it is advantageous for combustion conditions that the internal associated starting point 23 is located slightly to the right after passing through the fire point (combustion zone).
Therefore, by introducing a fastening means to the internal connection starting point (head) 23, it is possible to select and use the position maintenance tool 24 according to the fuel used (W).
Since the fastening means includes various fastening means including a fixing pin method and is a known technique, a detailed description will be omitted.
On the other hand, since the position holder 24 is a portion that directly contacts the fire point (combustion region), it is preferable to be made of cast iron, chromium alloy steel, etc. that are resistant to heat.
In addition, it is preferable that the wheel part 26 added to the positioning tool of the second embodiment is also made of heat-resistant cast iron, chromium alloy steel, or the like.
In the above description of the present invention, a firewood fuel combustion apparatus having a specific shape and structure has been mainly described with reference to the accompanying drawings, but the present invention allows various modifications, changes and substitutions by those skilled in the art, and such modifications, changes and substitutions Should be construed as belonging to the scope of the present invention.

W: Wood fuel B: Combustion zone
10: housing 11: combustion chamber
12: air supply port
20: related unit 21: external connection
22, 22A: internal connection 23: internal connection start position (head)
24: position holding tool 25: shaft coupling portion
26: wheel part
30: operation unit 31: turning means
32: pivoting weight 33: traction means
34: wire 35A, 35B: roller
36: weight

Claims (4)

A combustion chamber in which a certain amount of firewood fuel is preloaded;
A firebox external firebox disposed outside the combustion chamber, a firebox internal firebox having a position holding device and a variable start position of the firebox, and an intermediate housing connecting the firebox inside and the outside firebox;
The starting position of the internal connection is always a certain distance from the fire point as the fire point, which is the combustion zone, moves during combustion by forcing the position holder linked to the internal fire to contact one side of the firewood fuel located in the direction where air is supplied. The internal pipe is installed to swing through the shaft coupling part in the lower part of the intermediate housing and provided to the intermediate housing shaft coupling part to move the internal pipework in a horizontal direction so that the start position of the internal pipework is forced to turn toward one side of the wood fuel. An operation unit, characterized in that the fire point during combustion and the start position of the internal connection are maintained at a predetermined distance by being configured with a turning means;
A firewood combustion device comprising:
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