KR101778661B1 - Fireplaces - Google Patents

Abstract

Disclosed is a fireplace, configured to be more easily and rapidly ignited when solid fuel such as firewood or fuel is combusted is a combustion chamber of a fireplace and configured to maintain the rapid flow speed of combustion air introduced through a connection hole of a grill to completely combust the solid fuel placed on the grill in order to maximize combustion efficiency of the solid fuel and heating efficiency.

Description

Fireplace {FIREPLACES}

The present invention relates to a fireplace, and more particularly, to a fireplace which is configured so as to be able to be ignited more easily and quickly when a solid fuel such as firewood or firewood is burnt in a combustion chamber of a fireplace, The present invention relates to a fireplace capable of maximizing the combustion efficiency and heating efficiency of a solid fuel by completely burning the solid fuel placed on the grill.

Generally, a fireplace is installed in an indoor wall of a building or a living room of a house, and is a heating device that radiates heat generated by burning a solid fuel such as firewood or firewood into a room to heat the room in winter.

In recent years, in addition to the type (burial type) of being buried in an indoor wall surface, a fireplace has a housing in which solid fuel is burnt and a communication hole for discharging the combustion gas from the indoor wall surface Or may be provided in various forms at various positions such as the edge of the indoor wall surface or the central position of the indoor space away from the wall surface.

In particular, recent fireplaces have been designed to make the appearance more beautiful by various designs, and are used not only for heating in the winter season but also for interior decoration for further enhancing the indoor atmosphere in the case of not using the summer season.

As shown in FIG. 1A, an example of a conventional fireplace is disclosed in Japanese Patent No. 852905. The fireplace 100 includes a housing for forming a combustion chamber for burning a solid fuel such as firewood or firewood, a material discharging hole for discharging the combusted material while the solid fuel is raised in the combustion chamber of the housing, A support plate provided at a lower side of the support plate to receive the ash discharged through the ash discharge hole and a passageway through which the air is introduced into the ash discharge hole at the time of opening, Wherein a roast tall capable of passing upwardly through the inside of the ash container is integrally formed on the lower side of the support plate in a re-discharge hole of the support plate, So that the upper side is relatively wide and the lower side is formed to have a relatively narrow cross-sectional area All.

1B is an enlarged cross-sectional view of a portion of the roast tall 123 in the conventional fireplace 100. Referring to the roast tall 123, a roast tall 123 having a substantially rectangular cross section is integrally formed on the lower side of the grill 122 And the roast tall 123 is formed in such a structure that the sectional area thereof is reduced while moving downward. Since the upper portion of the roaster 123 has a larger cross-sectional area and the lower portion has a relatively narrower cross-sectional area, the air sucked through the lower inlet of the roaster 123 flows through the enlarged passage portion of the roaster 123 Passes through the grill 122 of the rear discharge hole 121 and flows into the upper solid fuel 10 side. Air can not escape upwardly by the support plate 120 and returns downward, flows toward the lower inlet of the roaster 123, and flows upward through the roaster 123. At this time, (123), and then escapes to the outlet of the communication pipe (140).

However, the conventional fireplace 100 ignites the solid fuel placed on the grill 122 for ignition by using an ignition tool such as a match or a lighter, because the air flow speed at the ignition position of the fireplace is weak Since the solid fuel does not easily catch fire, there is a problem that it requires a lot of time and effort when igniting and inconvenience.

In addition, in the conventional fireplace, the flow of the outside air can not flow smoothly through the grill, so that the solid fuel is incompletely burnt and consequently, the combustion efficiency and the heating efficiency are deteriorated. Further, there is a problem that the solid fuel is incompletely burned and the combustion gas and soot are severely generated.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above problems, and it is an object of the present invention to provide a burner for burning a solid fuel such as firewood or firewood in a combustion chamber of a fireplace, The present invention provides a fireplace which can maximize combustion efficiency and heating efficiency of solid fuel by completely burning the solid fuel placed on the grill.

It is another object of the present invention to provide a refractory brick which is formed by refracting the inside of a combustion chamber with refractory bricks which emit anion and far-infrared rays to form an inner wall, wherein the refractory bricks are made of yellow loess as a main material and ilite and anion stone are mixed therein, Is used as a binder to enhance the heat stability and fire resistance while enhancing the far-infrared radiation characteristic and anion generation to enhance the human body benefit, and in particular, to provide a fireplace for enhancing the heating effect by securing the heat accumulation property by forming pores during molding will be.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a combustion apparatus for a solid fuel, And a grill provided with a plurality of communication holes at an upper portion thereof, the passage being provided at a lower side of the combustion chamber to receive ashes from the combustion chamber and to introduce air into the combustion chamber, Wherein the grill is provided in at least two stages in at least two stages in the vertical direction on the roaster, and the communication hole formed in the grill is formed in the uppermost grill and the upper grill, The size of the grill gradually decreases from the lower side to the upper side of the multi-stage grill The can be achieved by providing a fireplace, it characterized in that the narrowed configuration thereby accelerating the flow rate of combustion air to the cross-sectional area of the communication hole of the grill to the combustion air passage.

And an air supply tube portion extending downward from the ash discharge hole to form a hollow portion hollowed out so that the air can pass upward, And a grill mount jaw protruding from the upper portion of the inner circumferential surface toward the center, wherein a grill located at the uppermost end of the grill is mounted on the grill mount jaw and installed in multiple stages through a support rod connecting the grills, And a support rail groove is formed along the longitudinal direction on both sides of the support rail, and the support rail is provided at its upper and lower ends with a fit-in portion slidably engaged with the assembly rail groove of the support frame, The nut is fastened and the fitting portion is fitted into the assembly rail groove, It is configured to be fixedly coupled to the upper and lower ends of the support ilhom preferred.

The refractory brick is composed of 70 wt% of loess powder having a particle size of 0.1-0.2 mm, a particle size of 0.1-0.2 mm, and an inner diameter of 0.1-0.2 mm. The refractory brick is made of a refractory brick that emits anion and far- , 5 wt% of an anionic grit having a particle size of 0.1-0.2 mm, and the balance methylpentene polymer resin is molded into a refractory brick, and the basic component includes the loess powder 100 5 parts by weight of the wollastonite powder, 3 parts by weight of the potassium silicate, 4 parts by weight of the pearlite powder, 10 parts by weight of the clay powder, 3 parts by weight of the tourmaline powder, 3 parts by weight of the talc powder, 4 parts by weight of staple fiber of zirconium, 4 parts by weight of polyethylene terephthalate fiber of 1.5-2 cm length containing zirconium, 5 parts by weight of silicon nitride in which boron nitride of amorphous nanoparticle size was dispersed, 4 parts by weight of the ytterbium oxide powder, and the base component was added with 4 parts by weight of the microspheres of 2-3 cm in length to 100 parts by weight of the loess powder in order to further strengthen the heat-shrinking property, and 4 parts by weight of methacrylic resin and polypropylene resin 4 parts by weight of methacryl-polypropylene hollow yarn obtained by spinning the mixed mixture at a weight ratio of 2: 1 is further preferably added.

Since the combustion air supplied from the ash receiving chamber is passed through the multi-stage grill installed in the rocket, the flow rate of the combustion gas is remarkably increased and supplied to the combustion chamber, so that the combustion chamber of the fireplace burns solid fuel such as firewood or firewood It is easier and quicker to ignite. Further, since the solid fuel is ignited at a high speed, the fuel efficiency of the ignited solid fuel is improved by controlling the thermal power of the ignited solid fuel.

Further, in the fireplace according to the present invention, the combustion air introduced through the communication hole of the multi-stage grill can be injected more quickly and smoothly into the solid fuel through the roast tall, and more air can be more smoothly supplied and passed through the solid fuel So that the solid fuel placed on the grill is completely burned to maximize the combustion efficiency and the heating efficiency of the solid fuel.

In addition, the fireplace according to the present invention is constituted by refractory bricks inside the combustion chamber, wherein the refractory brick is made of yellow loam as a main material and ilite and anion stone are mixed therein, and polystyrene resin is used as a binder to improve heat stability and fire resistance It is possible to obtain an effect of increasing the heating effect by enhancing the far-infrared radiation characteristic and the anion generation to enhance the human body benefit and securing the heat accumulation property by forming the pore during molding.

FIGS. 1A and 1B show a conventional fireplace,
2 is a sectional view of a fireplace according to the present invention,
3 is a graphical representation of air and air flow rates in a multi-stage grill installed in a roll stall in a fireplace in accordance with the present invention;
4 and 5 are views for explaining another preferred embodiment of a grill installed in a roll stall in a fireplace according to the present invention;
6 is a sectional view showing another preferred embodiment of the fireplace according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a sectional view showing a fireplace according to the present invention, and FIG. 3 is a view showing the speed of air flow and air flow in a multi-stage grill installed in a roll stall in a fireplace according to the present invention, 5 is a view for explaining another preferred embodiment of a grill installed in a roll stall in a fireplace according to the present invention.

Referring to FIGS. 1 and 2, a fireplace according to the present invention includes a housing 100, a roast tall 200, a receptacle 300, and a communication port 400.

The housing 100 forms a combustion chamber 110 for burning a solid fuel 10 such as firewood or firewood therein. Here, the housing is configured such that the combustion chamber 110 can be opened and closed by a door (not shown), and the solid fuel 10 such as firewood or firewood is inserted into the combustion chamber 110 while the door is opened. The housing 100 is divided into a combustion chamber 110 through a support plate 150 and a re-receiving chamber 120 in which a re-receiving chamber 300 to be described later is received.

The roast tall 200 is a passage for discharging the combusted material in the combustion chamber 110 of the housing and is a passage for air flow from the lower side to the upper side at the time of combustion and has a plurality of communication holes 251 formed thereon, (250). The roast tall 200 may be mounted on the support plate 150. Although the roast tall 200 according to the present invention is generally shown as a rectangular frame, it may be formed in various shapes such as circular, elliptical, rhombic, and polygonal shapes that can be seated on the support plate 150 Of course it is. In addition, although the communication hole formed in the grill is illustrated as a square, it may be formed in various shapes such as a triangle, a circle, a polygon, a diamond, and a polygon.

More specifically, the roast tall 200 includes a seating plate 210 formed with a re-discharge hole 211 at the center thereof, and a discharge plate 210 extending downward from the re-discharge hole 211 to allow air to pass upward And a grill mounting jaw 230 protruding from the upper portion of the inner circumferential surface of the air supply tube 220 toward the center. In other words, the roast tall 200 according to the present invention is installed in the support plate 150 and moves along the movement path for the combustion air supplied from the re-receiving chamber 120 to the combustion chamber 110 through the air supply tube 220 While providing a discharge path of the material falling from the combustion chamber 110 toward the re-receiving chamber 120. For this purpose, the air supply tube 220 has a size and a variety of cross-sectional shapes corresponding to the re-discharge holes 211.

According to the present invention, as shown in FIG. 3, the grill 250 installed in the roaster table 200 is installed on the roaster table in at least two stages in the vertical direction at a plurality of stages 250-1, 250-2 and 250-3 And the communication holes 251-1, 251-2 and 251-3 formed in the grill 250 are formed so as to gradually decrease in size from the lowermost grill 250-1 to the upper grill 250-3 .

In this case, the flow rate of the combustion air can be varied in the process of supplying the combustion air guided to the lower portion of the air supply tube 220 of the roast tall to the upper side of the air supply tube 220. That is, the cross-sectional area of the grill communication holes 251-1, 251-2 and 251-3 through which the combustion air passes from the lower side of the multi-stage grilles 250-1, 250-2 and 250-3 to the upper side is narrowed, Since the speed is inversely proportional to the cross-sectional area of the communication holes 251-1, 251-2 and 251-3, the moving speed of the combustion air becomes faster as the cross-sectional area of the communication holes 251-1, 251-2 and 251-3 becomes narrower. Therefore, since the grilles 250-1, 250-2, and 250-3 are provided in multiple stages and have the communication holes 251-1, 251-2, and 253 that gradually decrease in size toward the upper grill, It flows through the installed multi-stage grill and the flow rate is significantly increased and supplied to the combustion chamber.

As described above, according to the present invention, the combustion air supplied from the ash receiving chamber 130 passes through the multi-stage grilles 250-1, 250-2, and 250-3 installed in the roaster tall 200, So that it is possible to ignite more easily and quickly when the solid fuel such as firewood or firewood is burned in the combustion chamber 110 of the fireplace. That is, even if a lower amount of underfire is used compared to the conventional one, it is easy to ignite, and even a single match can be ignited. In addition, since the solid fuel is ignited at a high speed, there is an advantage that the fuel efficiency is improved by controlling the thermal power of the ignited solid fuel. In addition, the combustion air introduced through the communication holes 251-1, 251-2, and 253 of the multi-stage grill can be injected more quickly and smoothly toward the solid fuel 10 through the roast tall 200, 10), so that the solid fuel placed on the grill can be completely burned to maximize the combustion efficiency and heating efficiency of the solid fuel.

According to the present invention, the grilles 250 are connected to each other through a support table 270 to be installed in multiple stages. Preferably, the grill 250 is connected to the four corners of the grill 250 through a support 270 and is assembled into the multi-stages 250-1, 250-2, and 250-3.

To this end, the grill is mounted on the grill mounting jaw 230 at the uppermost position, and the grill 250-3 is installed in the multi-stage through the supporting rods 270 connecting between the grilles 250-1, 250-2, 252-3 and 253-3 are formed on the upper and lower surfaces of the grilles 250-1, 250-2, and 250-3 along the longitudinal direction of the grilles 250-1, 250-2, and 250-3.

The supporter 270 is formed at its upper and lower ends with a fitting portion 271 slidably engaged with the assembly rail grooves 252-1 252-2 and 253-3, A nut 272 is fastened to the lower side and the upper side and the assembly rail grooves 252 -252 and 254 are fastened by tightening the nut 272 in a state where the fitting fixing portion 271 is fitted in the assembly rail grooves 252-1, 1, 252-2, and 252-3 are fixedly coupled to the upper and lower ends of the support table 270.

According to this configuration, the grilles 250-1, 250-2, and 250-3 installed in multiple stages can be easily assembled through the support table 270 in a prefabricated manner. If necessary, the grilles can be installed in two, three, Or more.

The ash receiving cylinder 300 is provided below the combustion chamber 110 to receive ashes in the combustion chamber and serves as a passage for introducing air. That is, the ash receiving cylinder 300 is provided in a drawer form in the ash receiving chamber 120 so as to be able to be pulled out by holding the handle when collecting the ashes. In the opened state, the roast tall 200 and the grill And serves as an air inflow passage for allowing air to flow into the solid fuel 1 in the combustion chamber 110 through the communication hole 251 of the solid fuel.

The communication passage 400 is configured to discharge smoke, gas, soot, and the like generated from the solid fuel 10, such as firewood or firewood, which is installed long from the housing 100 and burned in the combustion chamber 110.

According to the present invention, it is preferable that the combustion chamber 110 is formed with a refractory brick 500 that emits anion and far-infrared rays to form an inner wall of the combustion chamber 110.

The refractory brick (500) applied to the present invention is characterized in that the heat generated from the fireplace is stored for a long time without using an expensive platinum catalyst to increase the duration of heating, Not only contributes to health promotion but also binds powder components with a high heat resistant resin. Therefore, even when used for a long period of time, there is no microcracks, so that it is not broken, so that the life span can be achieved.

To this end, the refractory brick 500 is composed of a basic component composed of 70% by weight of loess powder, 10% by weight of anilite powder, 5% by weight of an anionic stone powder, and the balance resin (Resin). At this time, the powder described in the present invention has a particle size of 0.1-0.2 mm for moldability and porosity. Therefore, the powders described below are all 0.1-0.2 mm in particle size except for the case where the particle size is specifically limited.

In particular, the loess is a well-known far-infrared and anion emitting material. Here, as described later, when the loess is fired, about 200 million or more microorganisms (including bacteria) living in the loess are removed, so that only the far-infrared radiation characteristic and the anion emission characteristic effect can be obtained.

The above-mentioned ilite is a cloud-type clay mineral widely distributed in marine shale and related sediments. It is excellent in far-infrared ray emitting ability and anion releasing ability even at room temperature and not only contributes to cell activation and immunity enhancement when radiated to human body, And has excellent toxic gas adsorption / deodorizing ability and is used in the present invention.

In addition, the anion stone refers to the blue quartzite, which is a turquoise rock raised above the sea surface due to the crustal change after components such as lava, seaweed, seaweed, , And it is a substance having anionic and far-infrared radiation properties of 93% at around 40 ° C, so it is used in the present invention. In addition, there is also a characteristic of adsorbing and decomposing a water vapor film, a pollutant, an organic matter, a germ and the like by causing a capillary phenomenon.

The methylpentene polymer resin is a resin material having a low viscosity and high fluidity, which is easy to mold, and has a very high melting point of 235 DEG C and a mechanical strength at a high temperature of It is superior to PP or PC, has excellent heat stability, and has excellent bonding strength.

The basic components of the refractory bricks thus formed were thoroughly stirred at a speed of 100-120 rpm through a stirrer, and then water was kneaded and molded through a brick molding machine. The molded body was finally fired at a temperature of about 800 DEG C to form a porous refractory brick Is made.

Meanwhile, the present invention exhibits the same effects as described above. In order to further enhance the functionality (microcrack-preventing property, heat resistance and durability), the following functional additive may be further added to the base component. 5 parts by weight of wollastonite powder, 3 parts by weight of potassium silicate, 4 parts by weight of pearlite powder, 10 parts by weight of white clay powder, 3 parts by weight of tourmaline powder and 3 parts by weight of talc powder were mixed with 100 parts by weight of the loess powder, , 4 parts by weight of staple fibers of 2-3 cm in length made of polyamide fibers, 4 parts by weight of polyethylene terephthalate fibers of 1.5-2 cm in length containing zirconium, 5 parts by weight of silicon nitride in which amorphous nanoparticles of boron nitride were dispersed, And 4 parts by weight of calcined ytterbium powder.

Here, the wollastonite is low in hygroscopicity and excellent in dimensional stability since it has no crystal number, and is added to induce stabilization after molding. In addition, the potassium silicate is added for imparting and enhancing the nonflammability of the inorganic material, contributing to the prevention of dew condensation and consequently the suppression of fungal growth. The pearlite is added to enhance the heat insulation, heat shielding function and flame retardancy, which is one of the volcanic rocks, and the quartz surface rock is glassy. In addition, the white clay is known to have an efficacy 20 times better than that of loess as a material emitting anions, as well as far infrared rays. Above all, since it has the ability to absorb and decompose heavy metals, it has a characteristic of enhancing human benefit. The tourmaline is a mineral belonging to the hexagonal system having crystal structure such as quartz, and is known as a material which permanently generates electromagnetic waves having a wavelength band of approximately 4 to 14 microns. Electromagnetic waves in the wavelength band of 4 to 14 microns It has been reported that it has the effect of activating plant cells, synthesizing proteins, or purifying polluted water. In order to contribute to the health promotion of the user, the present invention is added in consideration of moldability and electromagnetic wave emission characteristics.

The talc powders were found to be useful minerals containing silicon oxide, magnesium, calcium and other substances, and as a result, they were found to be medicinal minerals having a far infrared emissivity of 93% only in the talc itself. It has been reported that there is pharmacological effect that diuretic, branching, anti-inflammation, antimicrobial (typhi bacteria, meningococcal strain) acts when taking medicine by taking medicines in particular and it is possible to expand the capillary blood by the adsorption and convergence action of magnesium only by contact, It is known that there is also an effect of promoting the activation of cells by the release of anions, and it is added for functional enhancement.

Further, a staple fiber of 2-3 cm in length made of polyamide fiber has high tensile strength and high heat resistance characteristic with a melting point of 310 ° C., excellent dispersibility, and excellent smoothness, so anchored bindings of bound inorganic materials To the surface of the substrate. In addition, zirconium-containing polyethylene terephthalate fibers having a length of 1.5-2 cm have a very high melting point of 290 ° C, a stretching force, excellent heat resistance at high temperature, and can be heat-treated with heat and purifying function, It is added for heat stabilization. In particular, zirconium has a characteristic of enhancing heat resistance because it has a very high heat absorption rate in a short wavelength range of infrared rays (visible light) or 95% of sunlight. In addition, silicon nitride in which amorphous nano-sized boron nitride is dispersed has a characteristic of absorbing and resisting thermal shock up to a temperature of 1000 ° C, thereby absorbing thermal shock at the time of high-temperature expansion, thereby suppressing generation of micro cracks in the refractory brick. The calcined ytterbium oxide is added as a rare earth metal having a high heat resistance to a melting point of 824 DEG C to enhance the durability of the refractory brick because it increases the strength through grain refinement.

In order to further enhance the heat-shrinking property, 4 parts by weight of tin-sulphate microfibers of 2-3 cm in relation to 100 parts by weight of the loess powder and a mixture of methacrylic resin and polypropylene resin in a weight ratio of 2: 4 parts by weight of a cryl-polypropylene hollow fiber can be further added. At this time, the microspheres of the tin-sulphate function as a heat chamber functioning to secure a space for the minute electrostatic force between the fibers to trap heat, and the methacrylic resin is excellent in heat resistance. Therefore, the heat resistance of the polypropylene resin It is constructed in the form of hollow fiber to enhance the heat resistance by performing the function of the heat chamber.

Hereinafter, examples will be described.

[Example 1]

In order to confirm the characteristics of the refractory brick 500 applied to the present invention, 70 wt% of loess powder having a particle size of 0.1-0.2 mm, 10 wt% of Illite powder having a particle size of 0.1-0.2 mm, 5 wt.% Of an anionic grit having a particle size of 5 nm and a residual methylpentene polymer resin was molded into a refractory brick sample through a general refractory brick manufacturing process.

[Example 2]

5 parts by weight of wollastonite powder, 3 parts by weight of potassium silicate, 4 parts by weight of pearlite powder, 10 parts by weight of clay powder and 3 parts by weight of tourmaline powder were mixed with 100 parts by weight of the loess powder in the same manner as in Example 1, , 3 parts by weight of talc powder, 4 parts by weight of staple fibers of 3 cm in length made of polyamide fibers, 4 parts by weight of polyethylene terephthalate fibers of 2 cm in length containing zirconium, 5 parts by weight of silicon nitride in which amorphous nano- And 4 parts by weight of calcined ytterbium powder were further added to prepare a refractory brick sample.

[Example 3]

In the same manner as in Example 2, 4 parts by weight of tin sulphate microfine of 3 cm in relation to 100 parts by weight of the loess powder was mixed with the base component, and a mixture of methacrylic resin and polypropylene resin in a weight ratio of 2: And 4 parts by weight of methacryl-polypropylene hollow fiber were further added to prepare a refractory brick sample.

In order to measure the refractories of the samples of Examples 1, 2 and 3, fire resistance was measured according to ISO 170 using PCE 428 (refractometer).

As a result of the measurement, results of SK 26 in Example 1, SK 32 in Example 2, and SK 31 in Example 3 were obtained. At this time, SK 26 stands for a characteristic that can withstand at 1580 ° C. Therefore, it has been confirmed that the firebrick according to the present invention has sufficient fire resistance.

In addition, far-infrared emission characteristics and anion emission characteristics of the samples of Examples 1, 2, and 3 were confirmed.

At this time, far-infrared rays were measured by infrared spectrometry, and Example 1 showed radiation energy of 3.48 × 10 ² (W / m 2), Example 2 showed radiation energy of 5.39 × 10 ² (W / And the radiation energy of Example 3 was 4.89 × 10 ² (W / m 2). As a result, it was confirmed that the radiation characteristics were excellent.

In addition, the anion used was an anion meter (COM-3300A), Example 1 was 1,100 IONS / CC, Example 2 was 2,100 IONS / CC and Example 3 was 2,085 IONS / CC. It is confirmed that this is excellent in anion release property as the number of anions obtained in the forest bath field.

To confirm the heat resistance, the fireplace was operated for 30 minutes, the fire was turned off, and the temperature change of the refractory brick was measured with an infrared thermometer.

As a result of the measurement, in Example 1, the temperature dropped significantly at the time when 30 minutes passed after the digestion. In the case of Example 2, the temperature significantly dropped at 40 minutes after the digestion. Minute, the temperature dropped significantly.

As a result, it was confirmed that there is a thermal storage property.

100: housing 200: roastole
300: ashtray 400: communicating
500: Refractory brick

Claims (3)

A housing for forming a combustion chamber for burning a solid fuel such as firewood or firewood therein; a passage for discharging the combusted material in the combustion chamber of the housing, A roaster to which a grill having a plurality of communication holes formed therein is installed; a re-receiving passage provided below the combustion chamber and serving as a passage for introducing air into the re-receiving portion of the combustion chamber; Respectively,
Wherein the grill is provided in at least two stages in at least two stages in the vertical direction and the communication hole formed in the grill is formed so as to gradually decrease in size from the lowermost grill to the upper grill, Sectional area of the communication hole of the grill through which the combustion air passes, thereby accelerating the flow velocity of the combustion air,
An air supply tube which extends downward from the ash discharge hole and forms a hollow portion hollowed out so that the air can pass upward; And a grill mounting jaw protruding from the upper side toward the center side,
The grill has a grill at the uppermost end thereof mounted on the grill mount jaw and installed in multiple stages through a support rod connecting the grilles. On both sides of the upper and lower surfaces of the grill, an assembly rail groove is formed along the longitudinal direction And the support base is provided at its upper and lower ends with a fit-in portion slidably engaged with the assembly rail groove. A nut is fastened to the lower and upper sides of the fit-in fixture so that the fit- And the upper and lower ends of the support frame are fixedly coupled to the assembly rail groove through the fastening of the nut. delete delete

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