KR101379312B1 - Non-Powered Pellit Combustion Apparatus - Google Patents

Abstract

According to an aspect of the present invention, a non-powered pellet combustion device includes a storage device for introducing pellets to a lower portion, a combustion device for burning the pellets introduced from the storage device, and a pre-combustion device therein, and is formed in a double case. In order to control the fire to burn the pellets put into the combustion device, a case for introducing air, and the air introduced through the case is circulated by the combustion circulation section and the air to control the fire power of the combustion device is circulated It may include a circulation unit having an air circulation for concentrating the fire.

Description

Non-Powered Pellit Combustion Apparatus

The present invention relates to a non-powered pellet combustor, and more particularly, to a non-powered pellet combustor for burning natural-friendly pellets in a structure in which air is circulated without using power such as electricity.

In general, wood pellets are produced by compression molding of wood by-products. Recently, due to energy problems caused by oil depletion and global warming due to increased carbon emissions, interest in environmentally friendly energy has increased, , Gasoline, and the like, which can substitute for fossil fuels, and a combustion system using fuel is widely used.

Among them, stove and boiler devices using pellets are mainly used, and most of the combustion chambers are provided, so that the pellets are continuously supplied while being burned. Especially, in a camping place or workplace, A non-powered pellet stove that uses natural convection to heat the pellets by burning is used.

And since the pellet has a similar heating value to anthracite and has a low ignition point, it is very easy to use and can reduce the fuel cost by a low price. Therefore, there is a growing demand for such a pellet as a fuel.

However, the problem of such a problem is that the non-powered furnace using the pellets is manually ignited, and there is a problem that the pellets are not completely burned at the initial stage of the ignition or during the normal combustion. In this case, It is inconvenient to check the combustion chamber periodically because a lot of charcoal is generated or clogging occurs at a portion where fuel is supplied.

In addition, since the supply amount of the pellets can not be controlled, it is difficult to control the thermal power and the combustion time, and therefore, it is very inconvenient to use.

Meanwhile, since the heat generated in the combustion chamber is heat-exchanged with the room air, the heating is performed. Therefore, the heating efficiency is improved as the heat is kept in the combustion chamber or the exhaust port. However, when the exhaust structure is complicated, There is a problem that the exhaust gas remains in the combustion chamber, and in this case, there is a problem that the exhaust gas that can not be exhausted flows backward.

In addition, in such a non-motor-driven stove, continuous combustion is performed using natural convection. Unless the exhaust gas is discharged in this way, the combustion is not properly performed, unburned fuel is generated much, and the heating efficiency is lowered.

The present invention has been made to solve the above problems, it is an object of the present invention to provide a non-powered pellet combustion apparatus that can control or concentrate the fire power by circulating air.

Still another object of the present invention is to provide a non-powered pellet combustion device in which smoke or heat generated when the air is circulated to burn the pellets is not released to the outside.

A non-powered pellet combustion apparatus according to an aspect of the present invention for achieving the above object is a storage device for injecting the pellets to the bottom, a combustion device for burning the pellets introduced from the storage device, and the internal combustion device It is formed in a double case and the case for introducing air to control the fire to burn the pellets injected into the combustion device, and the combustion of the air introduced through the existing case is circulated to control the fire power of the combustion device A circulation unit may include a circulation unit and an air circulation unit through which the air circulates to concentrate the fire.

The storage device is a fuel input unit for injecting the pellets into the combustion device;

A fuel storage unit which is coupled to a lower portion of the fuel input unit and narrows in diameter as it descends from the fuel input unit to a lower portion, and stores the pellets;

The fuel storage unit may have a circular hole formed in a quadrangle to circulate the smoke and heat generated from the lower portion to the lower side.

The case has a through hole through which the fuel storage unit penetrates, a fixing plate coupled to both inner sides of the case to fix the combustion device, and formed on a rear surface of the case and formed at a lower portion of the fixing plate to burn the pellets. An air inlet having a first air inlet for introducing the air for adjusting the thermal power and a second air inlet formed on an upper portion of the fixed plate, and the air being formed in a cylindrical shape on the front of the case and flowing into the air inlet; It may be provided with an air outlet that is discharged.

The first air inlet has an air conditioner for adjusting the amount of air to control the fire power, a handle for rotating the air conditioner, and a hinge for rotating the air conditioner at the first air inlet. can do.

The combustion apparatus includes a combustion case formed of a hexahedron having a fuel storage unit coupled to an upper portion thereof, a fuel support provided inside the combustion case and supporting the pellets introduced from the fuel storage unit, and provided at the front of the combustion case. It may be provided with a combustion outlet for discharging the fire generated when the pellets are stacked on top of the fuel support.

The fuel base is fixed to the upper portion of the combustion case, the pedestal is coupled to the holder to prevent the pellet from falling to the bottom is formed by bending at least one or more times, provided in the bent portion of the pedestal It may be provided with a reinforcing material for supporting.

The pedestal may cause the ash of the pellet to be lowered by shaking caused when the center portion is cut to a predetermined length and the pellet is burned.

The reinforcing material is a hollow hole therein so that the air introduced into the case can be discharged through the reinforcing material, and the air penetrated through the hollow hole is discharged into the combustion device to the thermal power to the combustion outlet A discharge hole for concentrating may be provided.

The non-powered pellet combustion device may further include an air discharge space formed between a combustion discharge port provided on the front surface of the combustion device and an air discharge port provided on the front surface of the case projecting outward from the combustion discharge port.

In the non-powered pellet combustion device, the air, which is introduced through the second air inlet provided at the rear of the case, is discharged to the air discharge space, and the fire combusted in the combustion device is discharged to the outside due to the pressure and the temperature difference generated. Can be.

According to the non-powered pellet combustion apparatus according to the present invention, by the air inlet provided in the rear of the case it is possible to adjust or concentrate the fire power burned in the combustion apparatus.

And, it is possible to prevent the smoke and heat generated when the pellet is burned by the circulation hole provided on one side of the fuel storage unit to the outside.

1 is a perspective view showing a non-powered pellet combustion apparatus according to an embodiment of the present invention.
Figure 2 is a perspective view showing the interior representation of the non-powerless pellet combustion apparatus shown in FIG.
3 is a perspective view showing a case according to an embodiment of the present invention.
4 is a perspective view showing a storage device according to an embodiment of the present invention.
5 is a perspective view showing a combustion device according to an embodiment of the present invention.
6 is a perspective view showing a combustion support of the combustion apparatus according to an embodiment of the present invention.
7 is a perspective view showing a reinforcing material having a hollow hole according to another embodiment of the present invention.
Figure 8 is an air flow diagram showing the air flow of the non-powered pellet combustion apparatus according to an embodiment of the present invention.
9 is an exemplary view showing a state in which a non-powered pellet combustion apparatus is installed in a stove according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a non-powered pellet combustion apparatus according to an embodiment of the present invention.

1 is a perspective view showing a non-powered pellet combustion apparatus according to an embodiment of the present invention, Figure 2 is a perspective view showing the interior of the non-powered pellet combustion apparatus shown in FIG.

As illustrated in FIGS. 1 and 2, the non-powered pellet combustion apparatus 10 according to an embodiment of the present invention includes a storage device 200 for feeding the pellets 20 downward and a storage device 200. Combustion apparatus 300 for combusting the pellets 20 to be formed, and the combustion apparatus 300 is provided therein and formed into a double case 100 and combusts the pellets 20 injected into the combustion apparatus 300. In order to control the fire (2) to have a case 100 for introducing the air (1), and the circulation unit 400 through which the air 1 introduced through the case 100 is circulated.

The non-powered pellet combustion device 10 is formed as a double case 100 by fixing the combustion device 300 inside the case 100 to the storage device 200 installed through the upper portion of the case 100. The injected pellet 20 fuel may be burned in the combustion apparatus 300. The non-powered pellet combustion device 10 circulates air 1 between the combustion device 300 and the case 100 so that the fire power is concentrated in front of the fire 2 burned by the combustion device 300. The pellet 20 may be burned and may be able to concentrate the fire 2 generated forward.

The storage device 200 penetrates the case 100 to be coupled to the upper portion of the combustion device 300, and can inject pellet 20, which is inexpensive and environmentally friendly energy, into the combustion device 300.

The case 100 may include a through hole 140 to allow the storage device 200 to pass therethrough and be coupled to the combustion device 300. The through hole 140 is formed with the same diameter as the storage device 200 or larger than the diameter of the storage device 200 and is formed in the same shape as the storage device 200 to reduce the gap and the through hole. The foreign material may not be introduced between the 140 and the storage device 200.

In addition, the case 100 may install fixing plates 150 on both side centers of the case 100 to lift the combustion device 300 from the bottom of the case 100 by more than a predetermined time.

In addition, the case 100 may include an air inlet 110 through which the air 1 is introduced so that the air 1 may be circulated into the case 100. In addition, the front of the case 100 may be provided with an air outlet 130 through which the air 1 introduced through the air inlet 110 is discharged.

The combustion device 300 has an upper portion in a predetermined shape such that the storage device 200 is coupled and the pellet 20 introduced through the storage device 200 can be transferred into the combustion device 300. The combustion case 310 may be opened. The combustion device 300 may include the fuel pedestal 340 that supports the pellets 20 so that the pellets 20 can be burned without falling to the bottom of the case 100 and the combustion device 300. ) May be provided with a combustion outlet 360 through which heat and fire 2 generated when the pellets 20 are burned are transferred.

The non-powered pellet combustion device 10 has a predetermined interval between the air outlet 130 and the combustion outlet 360 of the case 100, the air flowing through the air inlet 110 of the case 100 (1) may be provided with an air discharge space (500).

3 is a perspective view showing a case according to an embodiment of the present invention.

As shown in FIG. 3, the case 100 of the non-powered pellet combustion apparatus 10 according to an embodiment of the present invention includes a through hole 140 through which the fuel storage unit 220 penetrates and the case ( A fixing plate 150 coupled to both inner side surfaces of the 100 to fix the combustion device 300, and an air inlet provided at the rear of the case 100 to introduce air 1 into the case 100 ( 110 and an air outlet 130 formed in a cylindrical shape on the front surface of the case 100 to discharge the air 1 introduced into the air inlet 110.

As shown in FIG. 3A, the through hole 140 is formed in the shape of a rectangle on the case 100 of the hexahedron and may have a predetermined diameter to allow the storage device 200 to pass therethrough.

The fixing plate 150 may be coupled to both inner side surfaces of the case 100 to fix the combustion device 300. The fixing plate 150 may be formed in plural so as to be coupled to both side surfaces of the case 100 so as to be coupled to both side surfaces of the combustion device 300. The fixing plate 150 is coupled to the case 100 and may be formed in a shape in which an end portion thereof extends vertically so as to be coupled to a side surface of the combustion device 300. Can be fixed using 341.

The air inlet 110 may be formed of a plurality of holes into which the outside air 1 is introduced so that the air 1 may be circulated into the case 100, and the air inlet 110 may be a combustion device ( When the pellet 20 is combusted at 300, the first air inlet 111 for introducing air 1 circulated so as to control the fire power and the fire power combusted by the combustion device 300 are circulated to the front. It may be provided with a second air inlet 112 for introducing the air (1) to be.

The first air inlet 111 is formed in the lower portion of the fixed plate 150 coupled to the inside of the case 100, as shown in Figure 3 (b) is the air (1) to the combustion device 300 Can be circulated. The first air inlet 111 may be provided with an air conditioner 120 to adjust the amount of air (1) to adjust the thermal power in the combustion device 300, as shown in the drawing, the air conditioner A handle 121 to allow the 120 to rotate and a hinge 122 to allow the air conditioner 120 to rotate at the first air inlet 111 may be provided.

The air conditioner 120 may be formed in various forms according to the shape of the first air inlet 111.

For example, when the shape of the first air inlet 111 is formed in a semicircle as shown in the drawing, the air conditioner 120 is formed in a semicircle to hinge the center of the first air inlet 111 ( 122) to adjust the amount of air (1) introduced into the first air inlet 111 by rotating the air conditioning apparatus 120. When the first air inlet 111 is formed in a square, the air conditioner 120 is also formed in a square so that the air conditioner 120 is moved horizontally from the first air inlet 111. 1 The amount of air 1 introduced into the air inlet 111 can be adjusted.

The air conditioner 120 may be rotatable with a handle 121 and the handle 121 may be formed of a material having low thermal conductivity. In addition, the handle 121 may be formed in various forms to smoothly move the air conditioner (120).

The second air inlet 112 is formed in the upper portion of the fixed plate 150, as shown in Figure 3 (b) and when the combustion device 300 is combined with the fixed plate 150 the combustion device 300 It may be formed on both sides of the) so that the air (1) does not flow into the combustion device (300). The second air inlet 112 may be formed in various forms, and the air 1 flowing into the second air inlet 112 circulates inside the case 100 to the air outlet 130. May be discharged.

4 is a perspective view showing a storage device according to an embodiment of the present invention.

As shown in FIG. 4, the storage device 200 of the non-powered pellet combustion device 10 according to an embodiment of the present invention includes the fuel input unit 210 for introducing the pellet 20 into the combustion device 300. ), A fuel storage unit 220 for storing the pellets 20, and a circulation hole 230 formed in a quadrangle at one side of the fuel storage unit 220.

The storage device 200 may input or store the pellets 20 used as fuel of the non-powered pellet combustion device 10 and deliver them to the combustion device 300.

The fuel input unit 210 may be formed in the shape of a rectangular tetrahedron to insert the pellet 20. The fuel input unit 210 may store the fuel up to the fuel input unit 210 when the fuel storage capacity of the fuel storage unit 220 is exceeded, so that the height of the fuel input unit 210 may be varied.

The fuel storage unit 220 is in the form of a square pyramid narrower than the bottom diameter of the fuel input unit 210 in order to deliver the pellet 20 introduced through the fuel input unit 210 to the combustion device 300. It may be formed and the fuel storage unit 220 may be coupled to the end of the combustion device (300).

The circulation hole 230 is formed in a square on one side of the fuel storage unit 220 may circulate the smoke and heat generated from the bottom to the bottom. Fire (2) and smoke generated when the pellets 20 are combusted in the combustion device 300 by the circulation hole 230 may rise to the upper portion so that the fuel is not transferred to the fuel storage unit 220. have.

For example, if there is no circulation hole 230, the smoke having a characteristic of rising to the upper portion is to rise to the fuel storage unit 220 coupled to the upper portion of the combustion device 300 when the pellet 20 is burned. Therefore, the air 1 introduced from the outside by the circulation hole 230 circulates downward by the pressure of concentrating the fire 2 toward the front of the combustion device 300 and the smoke is not the top. Can be turned to

The circulation hole 230 is formed in a size smaller than the diameter of the pellet 20 so that the pellet 20 is not discharged to the outside and may be installed in the combustion storage unit. In addition, the circulation hole 230 may be formed to be inclined downward so as to be circulated downward when the air 1 is introduced into the circulation hole 230.

The storage device 200 may be provided with a locking device so as not to be damaged by an external impact.

In addition, although not shown in the drawing, the storage device 200 may include a fuel throttle plate for adjusting the amount of fuel input.

The fuel control plate may be installed at the lower end of the fuel storage unit 220 to push or pull the fuel control plate to transfer the amount of the pellets 20 to the combustion device 300. In addition, the fuel throttle plate may prevent the fire 2 generated when the pellet 20 is burned in the combustion device 300 from being transferred to the fuel storage. The fuel control plate may be formed in various forms such as formed in a circular shape.

5 is a perspective view showing a combustion device according to an embodiment of the present invention, Figure 6 is a perspective view showing a combustion support of the combustion device according to an embodiment of the present invention.

5 to 6, the combustion apparatus 300 of the non-powered pellet combustion apparatus 10 according to the embodiment of the present invention has a combustion case formed of a hexahedron in which the fuel storage unit 220 is coupled to the upper portion ( 310 and a fuel support 340 and 320 provided inside the combustion case 310 to support the pellet 20 introduced from the fuel storage unit 220 and the front of the combustion case 310. It may be provided with a combustion outlet 360 for discharging the fire (2) generated when the pellet 20, which is provided on the fuel pellets (340, 320) stacked on top of the combustion (20).

The combustion device 300 may increase the heating effect by burning the pellet 20 and may be formed of a material that can withstand the temperature generated when the pellet 20 burns. The combustion device 300 is fixed to the inside of the case 100 may be formed as a double case 100 and is coupled to the fixing plate 150 of the case 100 is a predetermined at the bottom of the case 100 It can be fixed at a height.

The combustion case 310 may form both side plates 312, the top plate 313, and the front plate 311 to be fixed to the fixing plate 150 of the case 100. Both side plates 312 of the combustion case 310 are fastened and fixed to a surface extending perpendicular to the end of the fixing plate 150, and the lower ends of the side plates 312 are burned by the pellet 20 It may be formed by bending a predetermined angle inward to fall without spreading when. The upper plate 313 formed on the combustion case 310 is coupled with the storage device 200, and the upper plate 313 may extend from the front plate 311 to extend less than both side plates 312. have. In addition, an elliptical hole may be provided at an upper end of both side plates 312 not covered with the upper plate 313 so that the fuel pedestals 340 and 320 may be fixed. The front plate 311 may be opened in a circular shape so that the fire 2 combusted in the combustion device 300 may be concentrated and discharged to the front.

As shown in FIG. 6, the fuel pedestals 340 and 320 are coupled to an upper portion of the combustion case 310, and the pellets 20 are lowered to the lower portion of the combustion case 310. It may be provided with a pedestal 340 to prevent the fall is formed at least once, and the reinforcement 350 is provided in the bending portion of the pedestal 340 to support the pedestal 340.

The holder 330 may be fixed to an ellipse hole formed at an upper end of both side plates 312 of the combustion case 310 to be coupled to the pedestal 340. The holder 330 may be formed to have the same diameter as the hole of the ellipse so as not to be moved or separated from the hole of the ellipse. In addition, the holder 330 may be formed of a circular pipe having a larger diameter than the pedestal 340 so that the pedestal 340 is coupled to one side.

An end of the pedestal 340 is coupled to one side of the holder 330 fixed to the upper end of the combustion case 310 and the other end of the pedestal 340 is formed below the holder 330 to the The pedestal 340 may be formed to be inclined. The pedestal 340 may be formed to be inclined so that the pellet 20 introduced from the storage device 200 may be transferred downward to be formed at a lower side of the pedestal 340. The pedestal 340 may be formed by a plurality of hardware 341 is coupled to the holder 330 and the plurality of hardware 341 may be formed at equal intervals.

In addition, the hardware 341 of the pedestal 340 is a predetermined at the end of the first extension portion 342 and the first extension portion 342 extending at a predetermined angle from the end that is coupled to the fixing 330. A second extension part 343 extending at an angle and a third extension part 344 that rises upward from the second extension part 343 to prevent the pellet 20 from being separated from the pedestal 340. can do. The pedestal 340 may be provided with a plurality of extensions according to the number of times of bending.

In addition, the hardware 341 formed at the center of the plurality of hardware 341 forming the pedestal 340 has a predetermined length at an extension formed at a lower portion of the extension rising upward from the extension formed at the lower portion. The ash of the pellets 20 may be lowered to the lower portion of the case 100 by the vibration generated when the pellets 20 are burned by the cutting.

For example, when there is no iron 341 to be cut to a predetermined length in the pedestal 340, when the pellet 20 is made of ash, the ashes may not aggregate and fall downward. Therefore, the ashes may be cut by cutting the iron 341 to a predetermined length and by shaking of the iron 341 generated when the pellet 20 is newly introduced or when the pellet 20 is newly injected. Can fall between 341.

The reinforcement 350 may be coupled to the bent portion of the pedestal 340 or the lower portion of the extension to prevent the pedestal 340 from sagging and may be coupled to both side plates 312 of the combustion case 310. have.

The combustion outlet 360 may be coupled to the front plate 311 in a cylindrical shape having the same diameter in a circular open hole formed in the front plate 311 of the combustion case 310. The combustion outlet 360 may be formed of a material resistant to heat because the fire power of the fire 2 generated when the pellet 20 stacked on the combustion support 340 is burned is concentrated.

7 is a perspective view showing a reinforcing material having a hollow hole according to another embodiment of the present invention.

As shown in FIG. 7, the combustion pedestal 340 according to the embodiment of the present invention includes a pedestal 330 fixed to the combustion case 310 and a pedestal 340 coupled to the pedestal 330 and the pedestal ( It may be provided with a reinforcing material 350 is coupled to the lower portion of the 340.

The holder 330 may be fixed to the upper end of both side plates 312 of the combustion case 310 and the pedestal 340 is formed to be inclined downward by coupling to the end of the holder 330 and the pedestal 340 The other end of) may be formed by bending upwards.

The reinforcing material 350 may be coupled to the lower portion of the pedestal 340 and may be coupled to the lower portion of the bent portion of the pedestal 340. In addition, the reinforcement member 350 may be provided with a hollow hole 351 therein, as shown in the enlarged view of FIG. 7, so that the air 1 introduced through the hollow hole 351 may be discharged. A plurality of discharge holes 352 may be provided.

In addition, the hollow hole so that the air (1) flows into the hollow hole 351 of the reinforcing material 350 in both side plates 312 of the combustion case 310 to which both ends of the reinforcing material 350 is coupled It may be provided with a hole that opens to the same diameter as 351.

The hollow hole 351 is formed by an open hole formed at a position where the air 1 introduced from the second air inlet 112 of the case 100 is coupled to the combustion case 310 and the reinforcement 350. Air 1 can be introduced.

The discharge hole 352 may be provided in plural intervals in the reinforcement 350 so that the air (1) introduced through the hollow hole 351 of the reinforcement 350 is discharged. The position of the discharge hole 352 may be directed toward the combustion outlet 360 so that the fire 2 of the pellet 20 combusted by the combustion support 340 can be concentrated on the combustion outlet 360. The air 1 discharged through the discharge hole 352 may serve as a catalyst when the pellet 20 burns.

In addition, although not shown in the drawing, the holder 330 also has a hollow hole 351 therein and a discharge hole 352 at a position where the pedestal 340 is not connected to the pellet 20 to be burned. The air 1 may be discharged downward so that smoke or heat generated at the time does not flow into the storage device 200.

8 is an air flow diagram showing the air flow of the non-powered pellet combustion apparatus according to an embodiment of the present invention.

As shown in FIG. 8, in the non-powered pellet combustion device 10 according to an embodiment of the present invention, the air 1 introduced through the case 100 circulates to adjust the fire power of the combustion device 300. It may be provided with a circulation section 400 having a combustion circulation section 410 and the air circulation section 420 to circulate the air (1) to concentrate the fire (2).

The circulation unit 400 is a catalyst when the air (1) introduced through the first air inlet 111 is raised to the lower portion of the combustion support 340 of the combustion device 300 to burn the pellet 20 It may be provided with an air circulation portion 420 to discharge the air (1) introduced through the combustion circulation portion 410 and the second air inlet 112 to control the thermal power to the air discharge space (500). have.

The combustion circulation unit 410 adjusts the amount of air 1 through the air conditioner 120 provided in the first air inlet 111 to introduce air 1 into the case 100. May rise to the pellets 20 which are stacked and burned on the combustion support 340 of the combustion device 300. The air (1) may be the air (1) introduced from the bottom due to the characteristic to rise to the upper rises to the combustion device 300 and the pellet by the air (1) raised when the pellet 20 is burned Can control the fire power of (20).

The air circulation unit 420 is the air of the case 100 is installed in the front of the air (1) introduced from the second air inlet 112 installed in the rear of the case 100 moves from the hot place to the cold place It may be discharged to the air discharge space 500 formed between the discharge port 130 and the combustion discharge port 360 of the combustion case 310. At this time, the thermal power of the pellet 20 burned by the combustion device 300 by the pressure and temperature difference of the air (1) discharged to the air discharge space 500 may be concentrated in the combustion outlet (360). By this circulation, the air 1 flows into the second air inlet 112, and the thermal power of the pellet 20 may be concentrated in the combustion outlet 360 through the combustion outlet 360.

In addition, when the air 1 penetrating the air circulation part 420 is discharged to the air outlet 130 installed in the front of the case 100, the pressure is increased to increase the pressure of the pellet 20 in the combustion device 300. When the combustion is combusted, the air outlet 130 may be formed to protrude outward from the combustion outlet 360 so as to concentrate the thermal power, and the end of the air outlet 130 may be formed by bending the center. In addition, the front plate 311 of the combustion case 310 between the case 100 and the predetermined so as to penetrate the air circulation portion 420 so that the air (1) can move smoothly to the air outlet 130. It can be formed at intervals.

In addition, in the non-powered pellet combustion device 10, the air 20 introduced by the circulation hole 230 formed in a square on one side of the fuel storage unit 220 is illustrated in FIG. 8. In the same way that the thermal power of the heat is concentrated to the combustion outlet 360, the air 1 may be circulated to the combustion device 300 to concentrate the thermal power when the pellets 20 are burned. Smoke, heat, etc. generated when burned may be prevented from entering the storage device 200.

9 is an exemplary view showing a state in which a non-powered pellet combustion apparatus according to another embodiment of the present invention is installed in a stove.

As illustrated in FIG. 9, the non-powered pellet combustion device 10 according to an embodiment of the present invention may be installed in a variety of ways such as a stove and a burner.

The non-powered pellet combustion device 10 may be installed in various heating apparatuses such as a stove, a burner, and may use heat generated by burning the pellets 20 in the non-powered pellet combustion device 10 as heating.

When the pellets 20 are burned by the combustion device 300, the air 1 introduced from the case 100 is circulated in the circulation part 400, and the fire 2 generated when the pellets 20 are burned. It is possible to heat the stove by focusing its firepower to the front.

In addition, the heat and smoke generated by the combustion device 300 can be moved to the front surface by the circulation of the air (1) can create a comfortable environment even when used indoors.

In the above description of the non-powered pellet combustion apparatus according to an embodiment of the present invention, the spirit of the present invention is not limited to the embodiments presented herein. Those skilled in the art, who understands the spirit of the present invention, can readily suggest other embodiments by adding, changing, deleting, adding, or the like of components within the scope of the same idea, I would say.

10 powerless pellet burner 20 pellets
100: case 110: air inlet
111: first air inlet 112: second air inlet
120: air conditioner 130: air outlet
140: through hole 150: fixed plate
200: storage device 210: fuel injection unit
220: fuel storage unit 230: circulation hole
300: combustion apparatus 310: combustion case
320: fuel base 330: fixed base
340: pedestal 350: reinforcement
360: combustion outlet 400: circulation
500: air discharge space

Claims (10)

A storage device for injecting pellets downwards,
A combustion device for burning the pellets introduced from the storage device;
A case in which the combustion device is provided inside and formed into a double case and inflowing air to control a fire burning the pellets introduced into the combustion device;
A circulation unit including a combustion circulation unit for circulating the air introduced through the case to adjust the thermal power of the combustion device and an air circulation unit for circulating the air to concentrate the fire;
And an air discharge space formed between a combustion discharge port provided at the front of the combustion device and an air discharge port provided at the front of the case projecting outward from the combustion discharge port.
The method according to claim 1,
The storage device is a fuel input unit for injecting the pellets into the combustion device;
A fuel storage unit which is coupled to a lower portion of the fuel input unit and narrows in diameter as it descends from the fuel input unit to a lower portion, and stores the pellets;
It is formed in a square on one side of the fuel storage unit is a non-powered pellet combustion apparatus comprising a circulation hole for circulating the smoke and heat generated from the lower portion.
3. The method of claim 2,
The case has a through hole through which the fuel storage unit passes;
A fixing plate coupled to both inner side surfaces of the case to fix the combustion device;
An air inlet provided on a rear surface of the case and having a first air inlet formed at a lower portion of the fixed plate to introduce the air to control the fire power of the pellets, and a second air inlet formed on an upper portion of the fixed plate; ,
It is formed in a cylindrical shape on the front of the case is a non-powered pellet combustion apparatus characterized in that it comprises an air outlet for the air discharged into the air inlet is discharged.
The method of claim 3,
The first air inlet is an air conditioner for adjusting the amount of air to control the thermal power,
A handle for rotating the air conditioner,
And a hinge for allowing the air conditioner to rotate at the first air inlet.
The method according to claim 1,
The combustion device is a combustion case formed of a hexahedron coupled to the fuel storage unit on the top;
A fuel base provided inside the combustion case and supporting the pellets introduced from the fuel storage unit;
And a combustion discharge port provided at the front of the combustion case and emitting the fire generated when the pellets stacked on the fuel support are burned.
6. The method of claim 5,
The fuel holder is fixed to the upper portion of the combustion case;
A pedestal coupled to the holder to prevent the pellet from falling down and being formed by bending at least one inside thereof;
And a reinforcing material provided at the bent portion of the pedestal to support the pedestal.
The method according to claim 6,
The pedestal is a non-powered pellet combustor, characterized in that the center portion is cut into a predetermined length to lower the ash of the pellet by the vibration generated when the pellet is burned.
8. The method of claim 7,
The reinforcing material and the hollow hole therein so that the air flowing into the interior of the case can be discharged through the reinforcing material,
And a discharge hole for discharging the air penetrating through the hollow hole into the combustion device and concentrating thermal power to the combustion discharge port.
delete The method according to claim 1,
In the non-powered pellet combustion device, the air, which is introduced through the second air inlet provided at the rear of the case, is discharged to the air discharge space, and the fire combusted in the combustion device is discharged to the outside due to the pressure and the temperature difference generated. Non-powered pellet combustion apparatus characterized in that the.

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