KR102080993B1 - Smokeless solid fuel stove - Google Patents

Abstract

The present invention relates to a lead-free solid fuel stove, an internal body composed of a fuel unit to which solid fuel is input, a combustion unit to burn the solid fuel, and a separation panel to separate the fuel unit and the combustion unit; And an outer casing into which the inner body is inserted and fixed, and configured to supply external air to the inner body.
According to the embodiment of the present invention, the smoke generated during combustion is performed by completely burning solid fuel such as wood by using a plurality of air regulators that separate the fuel part and the combustion part and adjust the amount of air supplied to the combustion part. As well as being able to minimize, as it is possible to easily maintain a high temperature above the ignition point, there is an effect that can maximize the combustion efficiency.

Description

Smokeless solid fuel stove

The present invention relates to a lead-free solid fuel stove, more specifically, a high temperature above the complete combustion and ignition point of solid fuel, such as wood, by a plurality of air regulators that separate the fuel portion and the combustion portion and regulate the amount of air supplied to the combustion portion. In addition to being able to maintain, it is configured to control the firepower and flame intensity of the stove, and through the double insulation structure, it is easy to maintain the internal temperature of the stove and to minimize the heat loss of combustion heat generated during combustion. It is about the fuel stove.

In general, in the case of a stove using solid fuel, biomass fuels such as wood, agricultural and livestock waste, livestock manure, and pellets are mainly used.

However, more than 1.5 million people die of lung diseases annually due to the smoke generated during the combustion of solid fuel as described above. In Africa, 70% of felled timber is used as fuel, which leads to rapid depletion of forest resources and environmental destruction. It is in progress.

Particularly, wood stoves are used in various fields in Korea, and accordingly, the development of solid fuel stoves capable of minimizing smoke generation by realizing the complete combustion of wood stoves has been variously performed.

For example, in Korean Patent No. 10-1204250, combustion products such as wood are burned, and an air inlet through which external air can be introduced is formed between the upper body to prevent the smoke and ash from rising during combustion. The lower body, one end is connected to the upper body, the other end is bent downward toward the ground and includes communication installed to prevent the discharge of smoke. The upper body is provided with a first exhaust port at the combustion inlet and the upper surface. , A smokeless wood stove has been published, characterized in that a fixing member having second and third exhaust ports is installed so that heat is exhausted through the first exhaust port.

However, according to the above-mentioned prior art documents, the upper and lower bodies that perform the functions of the fuel part and the combustion part are united, so that the intermediate fuel is not only inconvenient, and the combustion time of the combustible material is short, so that an excessive amount of combustible material is provided. There is a necessary problem.

In addition, even after the combustion of the combustion, the reuse of the combustion is difficult, and due to the short combustion time, the complete combustion of the combustion is not achieved, and the air decomposition for combustion of the combustion is not easy, so the thermal decomposition process for combustion is insufficient. Combustion efficiency is inevitably reduced.

Republic of Korea Registered Patent No. 10-1204250

In order to solve this problem, the present invention was devised by the above-described background technology, and the solid fuel such as wood is completely controlled by a plurality of air regulators that separate the fuel unit and the combustion unit and adjust the amount of air supplied to the combustion unit. It is an object of the present invention to provide a lead-free solid fuel stove capable of minimizing smoke generated during combustion by allowing combustion to be performed, and to easily maintain a high temperature above a ignition point.

In addition, the present invention is configured to control the firepower and the intensity of the flame of the stove, and through the double insulation structure, it is easy to maintain the internal temperature of the stove so that the heat loss of combustion heat generated during combustion can be minimized. The purpose is to provide.

In addition, the present invention provides a lead-free solid fuel stove capable of protecting forest resources and preserving the environment by minimizing the use of resources such as wood because it can provide continuous heat with only a small amount of fuel by maximizing combustion efficiency. There is a purpose.

In addition, the present invention is intended to provide a lead-free solid fuel stove in which solid fuel can be reused even after the use of the stove is completed by inducing carbonization of the solid fuel by inducing carbonization of the solid fuel by sealing the stove to block the inflow and out of air.

However, the object of the present invention is not limited to this, and it is of course included in the object or effect that can be grasped from the solution means or the embodiment of the subject even if not explicitly stated.

According to an embodiment of the present invention for achieving the above object, the internal body consisting of a fuel unit to which the solid fuel is injected, a combustion unit for burning the solid fuel, and a separation panel separating the fuel unit and the combustion unit; And an outer casing into which the inner body is inserted and fixed, and configured to supply external air to the inner body.

According to an embodiment of the present invention, the upper portion of the outer casing is characterized in that the fuel portion cover is further provided for sealing the fuel portion.

According to an embodiment of the present invention, the outer casing has a first air control unit for supplying primary external air to the lower portion of the inner body, an opening and closing amount of the first air control unit is adjusted, and the solid fuel is opened. Characterized in that it further comprises a primary air conditioning member for collecting the material,

According to an embodiment of the present invention, on one side of the outer casing is formed outside the combustion unit, a second air control unit for supplying secondary external air heated by the heat of the combustion unit to the combustion unit, and It is formed on the second air control unit, it characterized in that it further comprises a secondary air supply hole configured to allow the introduction of the secondary external air.

According to an embodiment of the present invention, the lower portion of the combustion unit is characterized in that it further comprises a support panel for allowing the external air to flow in, or to block the inflow of the external air.

The separation panel is characterized in that a high-temperature heating plate is further configured to increase the temperature of the ignition unit and heat-storage to maintain a high temperature state.

According to an embodiment of the present invention, the combustion unit is characterized in that the combustion unit cover is further configured to seal the upper portion.

According to the embodiment of the present invention, the smoke generated during combustion is performed by completely burning solid fuel such as wood by using a plurality of air regulators that separate the fuel part and the combustion part and adjust the amount of air supplied to the combustion part. As well as being able to minimize, as it is possible to easily maintain a high temperature above the ignition point, there is an effect that can maximize the combustion efficiency.

In addition, according to an embodiment of the present invention, it is configured to adjust the firepower and flame intensity of the stove, and through the double insulation structure, it is possible to minimize the heat loss of combustion heat generated during combustion as it is easy to maintain the internal temperature of the stove. It has an effect.

In addition, according to an embodiment of the present invention, since the combustion efficiency is maximized to provide continuous heat with only a small amount of fuel, the effect of protecting forest resources and preserving the environment by minimizing the use of resources such as wood There is.

In addition, according to an embodiment of the present invention, the stove is sealed to block the inflow and outflow of air, thereby inducing carbonization of the solid fuel to reuse the solid fuel even after the use of the stove is completed.

In addition, various and beneficial advantages and effects of the present invention are not limited to the above, and will be more easily understood in the course of describing the specific embodiments of the present invention.

1 is an exploded perspective view showing a lead-free solid fuel stove according to an embodiment of the present invention,
Figure 2 is a cross-sectional view showing a lead-free solid fuel stove according to an embodiment of the present invention,
3 is a perspective view showing a fuel part and a combustion part of a lead-free solid fuel stove according to an embodiment of the present invention,
4 is a view showing the internal configuration of the fuel portion and the combustion portion of the lead-free solid fuel stove according to an embodiment of the present invention,
Figure 5 is an enlarged view showing a secondary air conditioning member of a lead-free solid fuel stove according to an embodiment of the present invention,
6 and 7 is a view showing a state equipped with a high-temperature heating plate of a lead-free solid fuel stove according to an embodiment of the present invention,
8 is a perspective view showing a high-temperature heating plate of a lead-free solid fuel stove according to an embodiment of the present invention,
Figure 9 is another embodiment showing a secondary air conditioning member of a lead-free solid fuel stove according to an embodiment of the present invention,
10 is a view showing an insulating panel of a lead-free solid fuel stove according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, when adding reference numerals to the components of each drawing, it should be noted that the same components have the same reference numerals as possible even though they are displayed on different drawings. In addition, in describing the present invention, when it is determined that detailed descriptions of related well-known structures or functions may obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

In addition, in describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are only for distinguishing the component from other components, and the nature, order, or order of the component is not limited by the term. When a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected to or connected to the other component, but another component between each component It should be understood that elements may be "connected", "coupled" or "connected".

1 and 2 are views showing a lead-free solid fuel stove according to an embodiment of the present invention, and FIGS. 3 to 5 are views showing a fuel part and a combustion part of a lead-free solid fuel stove according to an embodiment of the present invention. 6 and 7 are views showing a state in which a high-temperature heating plate of a lead-free solid fuel stove according to an embodiment of the present invention is provided, and FIG. 8 is a secondary air conditioning member of a lead-free solid fuel stove according to an embodiment of the present invention Another embodiment shown, Figure 9 is a view showing a heat insulating panel of a lead-free solid fuel stove according to an embodiment of the present invention.

As illustrated, the lead-free solid fuel stove according to the present invention includes an outer casing 110 configured to allow a certain amount of air to flow in when solid fuel such as wood is combusted, and a fuel part embedded in the outer casing 110 210 and the combustion unit 230 is configured to include an internal body 200 is configured to be separated respectively.

The outer casing 110 forms the outer shape of the lead-free solid fuel stove, and the mounting groove 112 is formed so that the inner body 200 is inserted and fixed by being formed in an open top.

At this time, the upper side of the mounting groove 112 is coupled to the combustion unit cover 250 of the inner body 200, which will be described later, so that the combustion unit 230 of the inner body 200 can be fixed to the outer casing 110. Cover fixing groove 114 is formed.

Here, the internal space of the mounting groove 112, when the inner body 200 is coupled, the fuel portion of the inner body 200 by the slit 242 of the separation panel 240 forming the inner body 200 The outer surfaces of the 210 and the combustion unit 230 are configured independently of each other.

In addition, the mounting groove 112 is configured to form a second air control unit 118 at a position where the combustion unit 230 is coupled in a space divided by the division slit 242.

Here, the second air control unit 118 is made of a space formed between the inner surface of the outer casing 110 and the outer surface of the inner body 200, and by supplying a certain amount of air to the interior of the combustion chamber 230, It is configured to allow the initial ignition and complete combustion of the solid fuel, and to control the intensity of the spark generated during combustion.

The second air regulating unit 118 is a combustion unit in which the supplied secondary external air moves upward along the outer surface of the combustion unit 230 and the inner surface of the outer casing 110, and is heated to a predetermined temperature or more ( 230) to be supplied to the inside.

That is, the secondary external air is heated by the heat generated when the solid fuel is burned in the combustion unit 230, and only the heated secondary external air can be supplied to the interior of the combustion unit 230. will be.

Meanwhile, a secondary air supply hole 140 is formed at a lower portion of the second air control unit 118 so that external air may be introduced into the interior, and a plurality of secondary air supply holes 140 spaced apart at predetermined intervals.

The secondary air supply hole 140 is configured to communicate with the second air control unit 118 by the secondary air control member 222 provided on the support panel 220.

In addition, the outer casing 110 of the present invention is formed to be opened to the lower front so that the combustion material generated during combustion of solid fuel is discharged to the lower portion, and the combustion portion 230 of the internal body 200 receives a certain amount of external air during initial ignition. ), The first air control unit 116 is introduced.

That is, the outer body 110 of the present invention is configured to be divided into a first air adjustment unit 116 and a second air adjustment unit 118, and the first air adjustment unit 116 is provided on the support panel 220. It is formed in the space divided by the second air control unit 118 is formed by the split slit 242, the solid fuel as it is possible to control the amount of air supplied during initial ignition or combustion of solid fuel, respectively Incomplete combustion of the product is prevented from occurring, so that complete combustion is possible.

Here, the first air control unit 116 is the collection of the combustion material is made, is inserted into the first air control unit 116, the primary air conditioning member 130 is configured to be able to adjust the supply of external air do.

When the primary air conditioning member 130 is initially ignited, sliding information is made along the inner wall surface of the first air conditioning unit 116 to open, close or close the first air conditioning unit 116. It is configured to control the supply of external air.

The primary air conditioning member 130 is formed with a combustion material receiving groove 132 so that combustion materials generated when combustion occurs after initial ignition of solid fuel are formed, and the opening of the first air control unit 116 is formed. A shielding plate 134 is opened or closed.

In addition, the external air supplied by the operation of the primary air conditioning member 130 is formed to be inclined by a predetermined angle to the front end portion of the combustion material receiving groove 132 toward the combustion portion 230 of the inner body 200. A blocking plate 136 is formed to prevent entry.

The outer casing 110 of the present invention configured as described above may be configured in a form in which a normal heat insulating sheet is attached to the inner surface to minimize heat loss.

In addition, the outer casing 110 may be composed of an outer and inner casing, and an insulating structure composed of soil or sand may be formed between the outer and inner casings.

The inner body 200 is coupled to the inside of the outer casing 110, is configured to be input and combustion of solid fuel such as wood, and allows the complete combustion of the solid fuel, and at the same time the flame generated during combustion It is configured to control the intensity.

The internal body 200 is configured to be separated from the fuel unit 210 and the fuel unit 210 to which the solid fuel is injected, and a combustion unit configured to release flame by combustion of the solid fuel ( 230), a support panel 220 forming the bottom surface of the inner body 200 and allowing the inflow of primary and secondary external air supplied from the primary and secondary air conditioning members 130 and 222, It comprises a separation panel 240 configured to separate the fuel unit 210 and the combustion unit 230, and to ignite the solid fuel.

The fuel unit 210 is formed with a fuel inlet 212 formed so that the upper portion is opened so that the input of solid fuel is made, and is formed in communication with the first air control unit 116 to the lower portion of the primary air conditioning member 130 The primary air inlet hole 214 is formed to supply the primary external air depending on whether or not it is operated.

The fuel unit 210 is formed to be inclined toward one side of the upper casing facing the outer casing 110, preferably is formed to be inclined toward the combustion unit 230, the solid is injected from the fuel inlet 212 The fuel is configured to be disposed at a position adjacent to the combustion unit 230 toward the lower portion.

The combustion unit 230 is configured to be independent of the fuel unit 210 by the separation panel 240, and is a component that burns solid fuel injected into the fuel unit 210 while maintaining a high temperature above the ignition point.

The combustion unit 230 is composed of a combustion chamber 232 in which the combustion of the solid fuel is made, and a hot air outlet configured to discharge combustion heat to the upper portion of the combustion chamber 232 or discharge of sparks ( 232a) is formed.

In addition, the combustion unit 230 has a sealing cover 234 that is fixed to the cover fixing groove 114 formed in the outer casing 110 as an upper outer surface and seals the second air control unit 118 at the same time. It is configured, a secondary air inlet hole 236 is formed between the combustion chamber 232 and the hot air outlet (232a).

The secondary air inlet hole 236 is configured such that secondary external air heated to a predetermined temperature or higher in the second air control unit 118 flows into the upper portion of the combustion chamber 232, and the outer surface of the combustion unit 230 It is composed of a plurality of spaced apart at a predetermined interval.

This is, wood gas is generated from the solid fuel incomplete combustion in the fuel unit 210, when the wood gas moves to the hot air outlet 232a side of the combustion unit 230, secondary external air made of a constant temperature By making the combustion of the wood gas while being in contact with, it is possible to minimize the generation of smoke by the wood gas during combustion of the solid fuel, and at the same time, complete combustion of the solid fuel is possible.

The support panel 220 forms the bottom surface of the inner body 200, in particular is configured to form the bottom of the combustion unit 230, a conventional combustion device, or an ignition device (not shown) to enable ignition and combustion of solid fuel City) is configured to be provided.

The support panel 220 is configured to contact the inner surface of the rear side of the outer casing 110, and in particular, secondary air conditioning with a secondary air conditioning hole 222a selectively communicating with the secondary air supply hole 140 Member 222 is constructed

The secondary air conditioning member 222 may be configured to perform a sliding movement in the width direction of the support panel 220, and the secondary air supply hole 140 and the secondary air conditioning hole 222a by the sliding movement ) Are configured to communicate with each other so that secondary external air flows into the second air control unit 118.

At this time, in the present invention, it is formed on the outer casing 110, the guide rail 150 to guide the upper surface of the secondary air conditioning member 222 to facilitate sliding movement from the support panel 220, A guide protrusion 226 formed to protrude upward from the support panel 220 and supporting the sliding movement of the lower surface of the secondary air conditioning member 222 may be further configured, but is not limited thereto.

In addition, the support panel 220 may be configured integrally with the bottom surface of the fuel unit 210.

At this time, it is preferable that the primary air inlet hole 214 formed in the combustion unit 210 is formed in the support panel 220, and primary primary air is introduced by the operation of the primary air conditioning member 130. And blocking may be possible.

However, the present invention is not limited thereto, and may be configured to be separated from the bottom surface of the fuel unit 210 like the fuel unit 210 and the combustion unit 230.

Meanwhile, as illustrated in FIG. 9, the secondary air conditioning member 222 may also be configured on the upper portion of the primary air conditioning member 130. At this time, when the secondary air conditioning member 222 is configured on top of the primary air conditioning member 130, the secondary air conditioning member 222 is configured to perform the function of the primary air conditioning member 130 This is preferred, and the primary air conditioning member 130 is preferably configured to perform the collecting function of the combustion material as a main function.

That is, the secondary air conditioning member 222 may be configured on both sides of the support panel 220.

The primary and secondary air conditioning members 130 and 222 of the present invention configured as described above have been described as being configured under the lead-free solid fuel stove, but are not limited thereto, and the outer casing 110 or the outer body 200 ), Or may be formed in the middle.

The separation panel 240 penetrates through the central portion of the inner body 200, separates the fuel portion 210 and the combustion portion 230 to be located in separate spaces, and controls the second air to the inner space of the outer casing 110 It is configured to form the unit 118 so that the supply of secondary air heated to the combustion unit 230 is performed.

In addition, the separation panel 240 of the present invention is a thin single panel so that the high temperature heat generated by the combustion unit 230 is transferred to the fuel unit 210 to heat the solid fuel stored in the fuel unit 210. It is preferably made of.

The separation panel 240 is formed to protrude on both sides, and is configured to be in close contact with the inner wall surface of the outer casing 110 while the mounting groove 112 is equipped with a space where the fuel unit 210 is mounted and a combustion unit 230 is mounted. The split slit 242 is configured such that the second air control unit 118 is formed into a space where the combustion unit 230 is mounted at the same time as dividing it into a space.

At this time, the split slit 242 may be fused to the inner wall surface of the outer casing 110 by welding or the like, but is not limited thereto, and the split slit 242 is used as the inner wall surface of the outer casing 110. An insertion groove or an insertion protrusion (not shown) to allow coupling by insertion may be further configured.

In addition, the separation panel 240 is formed in the shape of a predetermined groove in the lower portion is configured to be connected to the fuel unit 210 and the combustion unit 230, the initial ignition of the solid fuel stored in the fuel unit 210 An ignition portion 244 is formed to be made.

At this time, the ignition unit 244 is preferably formed so that the primary external air introduced from the primary air inlet hole 214 can be supplied to the combustion unit 230 side.

The separation panel 240 of the present invention is disposed in the ignition unit 244, as shown in FIGS. 6 and 7, by allowing the temperature of the ignition unit 244 to maintain a high temperature state, a solid A high temperature heating plate 260 that further improves the combustion efficiency of the fuel may be further configured.

The high-temperature heating plate 260 is an ignition groove 264 located in the ignition part 244 of the separation panel 240 and a high-temperature maintenance panel 266 that keeps the internal temperature of the ignition groove 264 constant. It is composed.

At this time, the ignition groove 264 is configured to perform the same function as the ignition unit 244, it may be configured to form a part of the solid fuel stored in the fuel unit 210 is entered.

In addition, the high-temperature holding panel 266 is configured to form both sides of the high-temperature heating plate 260, and is in close contact with the lower inner wall surface of the fuel unit 210 of the inner body 200 and the lower inner wall surface of the combustion unit 230. It is configured and configured to be heated to a high temperature while the heat of the combustion unit 230 is transmitted, so that the solid fuel is changed while the internal temperature of the ignition groove 264 changes according to the temperature of the primary external air supplied to the ignition groove 264 side. It is possible to prevent the incomplete combustion of.

The high-temperature maintenance panel 266 may be composed of a single panel or a plurality of panels.

In addition, the high-temperature heating plate 260 may guide the primary external air supplied from the primary air conditioning member 130 to flow into the combustion unit 230, but is not limited thereto.

As shown in FIG. 8, the high-temperature heating plate 260 of the present invention forms a bottom surface and a high-temperature holding panel 266 is coupled to both sides of the upper side, and the primary external air flows into the ignition groove 264 A bottom plate 265 having an external air inlet hole 265a formed to communicate with the primary air inlet hole 214 and a rear portion to form a rear portion, the high temperature holding panel 266 and the bottom plate 265 The blocking plate 268 may be further configured to close the rear portion of the high temperature heating plate 260 and guide the heated air inside the ignition groove 264 to move upward.

In addition, the separation panel 240 of the present invention is made of a plurality of panels, as shown in Figure 10, by selectively allowing the fuel unit 210 and the combustion unit 230 to communicate, the combustion unit 230 The heat insulation panel 310 and the support panel so that the heat of the heat is supplied to the fuel unit 210 so that heating of solid fuel is performed, or the heat generated by the combustion unit 230 can be blocked from being supplied to the fuel unit 210. 320 may be further configured.

The support panel 320 is configured to be spaced a predetermined distance behind the separation panel 240, and serves to separate the fuel unit 210 and the combustion unit 230 together with the separation panel 240, and an insulating panel 310 is formed between the separation panel 240 and the support panel 320, it is configured to move up and down.

At this time, the separation panel 240, the heat dissipation hole 330 to release the heat of the combustion unit 230 into the interior of the fuel unit 210 when the heat insulation panel 310 moves upward so that heating of the solid fuel is made This is formed, the support panel 320 is formed with a hot air inlet hole 340 is introduced so that the heat of the combustion unit 230 can be discharged.

In addition, the upper portion of the separation panel 240 and the support panel 320 may be further configured with a handle groove 350 to easily move up and down of the heat insulation panel 310.

The internal main body 200 of the present invention configured as described above injects solid fuel into the fuel unit 210 and closes the inside of the fuel unit 210 using the fuel unit cover 120, and then the primary air conditioning member Ignition is performed while both the 130 and the secondary air conditioning member 222 are opened.

At this time, the opening amount of the primary air conditioning member 130 and the secondary air conditioning member 222 is preferably 80% of the opening based on the maximum opening amount, but is not limited thereto, and the maximum opening ( 100%).

Thereafter, when the combustion of solid fuel proceeds while the internal temperature of the combustion unit 230 is heated to a predetermined temperature or higher by ignition, only the primary air conditioning member 130 may be opened to less than 50% based on the maximum opening amount. The first air control unit 116 is blocked to regulate the supply amount to the primary external air.

Meanwhile, the combustion unit 230 continues to burn solid fuel while maintaining a high temperature above the ignition point, and heats the secondary external air by the heat generated at this time to generate from the solid fuel by the heated secondary external air. By allowing the wood gas to be burned, the generation of smoke during combustion of the solid fuel is minimized, and at the same time, the complete combustion of the solid fuel is achieved.

In addition, when the combustion of solid fuel is made, the primary air conditioning member 130 and the secondary air conditioning member 222 are operated to control the supply of primary and secondary external air to control the amount of thermal power or flame. In addition to being able to adjust, as the size (intensity) of the flame can be adjusted, it may be used for various functions such as cooking, lighting, or campfire.

In addition, the solid fuel can be carbonized by sealing both the fuel unit 210 and the combustion unit 230 through the fuel unit cover 120 and the combustion unit cover 250 during combustion of the solid fuel. Accordingly, it may be configured to produce charcoal using solid fuel.

The terms "comprise", "consist" or "have" as described above mean that the corresponding component can be inherent unless otherwise stated, and do not exclude other components. It should be interpreted that it may further include other components, and all terms, including technical or scientific terms, unless otherwise defined, are generally understood by those skilled in the art to which the present invention pertains. It has the same meaning as that.

In addition, the above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention. . Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the claims below, and all technical spirits within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

110: outer casing 120: fuel compartment cover
130: primary air conditioning member 140: secondary air supply hole
150: guide rail 200: inner body
210: fuel unit 220: support panel
230: combustion unit 240: separation panel
250: combustion unit cover 260: high temperature heating plate
310: insulation panel 320: support panel
330: hot air discharge hole 340: hot air inlet hole
350: handle groove

Claims (7)

An internal body composed of a fuel part to which solid fuel is input, a combustion part to burn the solid fuel, and a separation panel to separate the fuel part and the combustion part; And
The inner body is inserted and fixed, and an outer casing configured to supply external air to the inner body.
The outer casing,
The first air control unit for supplying primary external air to the lower portion of the inner body, and the sliding movement along the inner wall surface of the first air control unit, adjusts the degree of opening of the first air control unit to control the amount of external air. A shielding plate for controlling the supply amount, a combustion material receiving groove for collecting combustion material generated after initial ignition of solid fuel, and a front end of the combustion material receiving groove are inclined by a predetermined angle, and the external air flows into the combustion unit side Primary air conditioning member consisting of a blocking plate to prevent being formed, and configured on one side of the outer casing and formed on the outside of the combustion unit, to supply the secondary external air heated by the heat of the combustion unit to the combustion unit Second air control unit and secondary air formed on the second air control unit and configured to allow the inflow of the secondary external air Lead-free solid fuel stove, characterized in that it further comprises a supply hole.
According to claim 1,
A lead-free solid fuel stove, characterized in that the upper portion of the outer casing is further provided with a fuel portion cover for sealing the fuel portion.
delete delete According to claim 1,
A lead-free solid fuel stove further comprising a support panel for blocking the inflow of the outside air or the outside of the outside of the combustion unit.
According to claim 1,
Lead-free solid fuel stove, characterized in that the separation panel is further configured to increase the temperature of the ignition and heat storage to maintain a high temperature state.
delete

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