KR20150048989A - a pellet stove reducing hazardous combustion gas - Google Patents

Abstract

The present invention relates to a pellet stove capable of reducing hazardous combustion gas by re-supplyling the combustion gas generated by the pellet stove into the combustion room and re-burning the gas to realize perfect combustion by significantly reducing CO and NOx. The pellet stove comprises: a combustion room (100); a combustion gas re-circulator (200); an external discharge gas pipe (300); a fuel container (400); and an external air inhalation device (500). The structure of the combustion gas re-circulator has a combustion gas discharge pipe (160) of the combustion room connected to an entry of nozzle (211), which is connected to the external discharge gas pipe (300). The gas pipe (300) is connected to a combustion gas re-circulation gas pipe (220), which is connected to the combustion room. Further, the combustion room has a combustion plate and sub-combustion plate. Moreover, the pellet stove is an environmental-friendly device, which has an exterior case.

Description

[0001] The present invention relates to a pellet stove reducing hazardous combustion gas furnace,

The present invention relates to a pellet stove, and more particularly, to a pellet stove capable of completely burning pellets by applying a technique of re-injecting combustion gas generated from a pellet stove into a combustion chamber to re- Pellet stove.

In recent years, as the burden of fuel cost has increased due to rising oil prices, factories and farmers who used diesel or anthracite mainly for heating have gradually increased the use of pellets made of wood as raw material instead of diesel or anthracite .

Generally, a pellet is a product obtained by crushing a plant or a tree into a small particle form such as sawdust, compacting it into a small granule shape without a separate adhesive and compressing it to a small and constant size, and is widely used as a fuel for heating and power generation .

These pellets are eco-friendly clean energy sources that replace fossil fuels such as coal and oil by not releasing harmful gases during combustion, which is an economical and environmentally friendly fuel as a renewable resource.

Particularly, since pellets have a similar heating value to anthracite, they have a low ignition point, are easy to use, and have a low price. Therefore, when replacing diesel or anthracite used as heating fuel, fuel cost can be greatly reduced. Demand for boilers and heaters has increased significantly.

However, the conventional pellet furnace using the above-described pellets as a fuel requires a relatively long preheating time during ignition, which makes it less convenient to use. Owing to the fact that the pellets are not completely burned during the initial or general combustion, ), NOx (nitrogen oxides), and the like. In particular, there is a technical problem that the combustion heat escapes as it is in a combustion furnace which is opened to the upper side and the thermal efficiency is lowered.

SUMMARY OF THE INVENTION The present invention is intended to solve the problems of the prior art described above.

Particularly, the present invention is intended to provide a pellet furnace capable of completely burning pellets and minimizing the generation of harmful gases such as CO (carbon monoxide) and NOx (nitrogen oxide).

Accordingly, the present invention maximizes the efficiency of heat generation by completely combusting the incompletely burnt combustion gas by re-introducing the combustion gas into the combustion chamber, thereby minimizing the generation of harmful gases such as CO (carbon monoxide) and NOx (nitrogen oxides) To provide a pellet stove.

Another object of the present invention is to provide an environmentally friendly pellet stove that allows natural combustion without using a separate mechanical device when the high-temperature combustion gas is re-introduced into the combustion chamber.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems,

The present invention provides an environmentally friendly pellet stove including a combustion chamber 100, a combustion gas recirculation device 200, an external exhaustion 300, a fuel cell 400, and an external air intake device 500.

The structure of the combustion gas recirculation system is such that the combustion gas outlet 160 of the combustion chamber is connected to the inlet 211 of the nozzle and the outlet 211 of the nozzle is connected to the external discharge cylinder 300, 300 is connected to the combustion gas recirculation flue 220 and the combustion gas recirculation flue is connected to the combustion chamber.

The combustion chamber also provides an environmentally friendly pellet furnace characterized by consisting of a combustion plate and a sub-combustion plate.

The present invention also provides an environmentally friendly pellet stove characterized by further comprising an outer case in the pellet stove.

The pellet stove of the present invention is a technical feature of recycling the combustion gas by recycling to completely burn the incomplete combustion gas, thereby creating the effect of maximizing thermal efficiency.

The present invention minimizes the emission of CO (carbon monoxide), which is an incomplete combustion by-product, and reduces the air / fuel ratio by recirculating the combustion gas as the combustion gas recirculated and recycled. Nitrogen oxides) is remarkably reduced,

Further, in the conventional recirculation of the combustion gas, a separate recycling device, which is a mechanical device, is used, energy is consumed separately and there is a troublesome operation. However, in the combustion gas recycling apparatus of the present invention, It has a structure that flows into the combustion chamber, so there is no energy consumption and the operational convenience is remarkably improved.

Fig. 1 is an eco-friendly pellet stove structure according to the present invention. Fig.
Fig. 2 is a structural view showing the environmentally friendly pellet hearth in accordance with the present invention. Fig.
3 is a schematic view illustrating the structure and operation of a combustion gas recirculation apparatus according to the present invention.
4 is a detailed structural view of a combustion gas recirculation apparatus according to the present invention.
5 is an external view of an environmentally friendly pellet furnace with an outer case according to the present invention.

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

The present invention provides a carbon monoxide and nitrogen oxide-reduced environmentally friendly pellet furnace comprising a combustion chamber 100, a combustion gas recirculation device 200, an external exhaustion 300, a fuel cell 400, and an external air intake device 500.

The above-described combustion chamber 100 of the present invention means an apparatus or means capable of burning pellets.

As shown in FIG. 3, the combustion chamber has a space capable of burning the pellets, and is capable of burning when the pellets enter the combustion chamber.

In the present invention, a combustion plate 110 is provided in the combustion chamber.

The above-described combustion plate performs a function and an action to provide a place where the pellet is placed on top to be burnt.

Therefore, it is preferable that the combustion plate is in the form of a lattice or a grill, and it is in the form of a lattice or a grill so that unburned pellets or ashes can be discharged to the lower portion thereof.

The present invention is characterized in that the sub combustion plate 120 is provided in the combustion chamber.

As described above, unburned pellets in the combustion plate are discharged to the lower portion thereof, and perform the function of enabling complete combustion in the sub-combustion plate 120 of the present invention.

The sub-combustion plate of the present invention is preferably in the form of a lattice or a grill in the same or similar form as the above-mentioned combustion plate. The structure of the sub-combustion plate is such that the completely burned pellet is ashes and discharged to the lower portion do.

Also, since the heater rod 140 is installed in the combustion chamber of the present invention, the pellets introduced into the combustion chamber can be easily ignited by the combustion plate or the sub-combustion plate.

The heater rod 140 may be implemented as a gas-insulator by electric spark ignition or a heating plate by electric resistance.

In addition, the heater bar may have a function and structure capable of moving to the edge of the combustion plate or the sub-combustion plate when the pellet is ignited and the combustion continues.

Therefore, the heater bar may have a structure that can be located in the central portion of the combustion plate or the sub-combustion plate only when the ignition is performed, and can be positioned near the wall of the combustion chamber otherwise.

In the present invention, the check window 150 may be formed in the combustion chamber.

The confirmation window 150 functions and functions to visually confirm whether or not the pellet is burned in the combustion chamber.

The confirmation window 150 may be formed on the side surface of the combustion chamber and may be made of a ceramic material having high fire resistance and transparency.

Also, as shown in FIGS. 1 and 3, the present invention has a structure in which the ash receiving part 130 is provided at the lower end of the combustion chamber to store and remove the ash of the burned pellet.

Also, as shown in FIGS. 1 and 3, an external air inlet 500 is provided at a lower end of the combustion chamber to allow air to flow into the combustion chamber.

A major technical feature of the present invention is that a combustion gas recirculation apparatus 200 is provided to provide a pellet stove capable of significantly reducing the reduction of CO and NOx.

The combustion gas recirculation apparatus 200 of the present invention comprises a Coanda nozzle 210 and a combustion gas recirculation flue 220.

3, the Coanda nozzle 210 is connected to the combustion gas outlet 160 of the combustion chamber and is connected to the external discharge cylinder 300 and the external discharge cylinder 300 is connected to the combustion gas recirculation cylinder 220 ).

The above-mentioned Coanda nozzle 210 of the present invention means a nozzle whose diameter gradually increases or decreases.

4, the diameter of the inlet 211 of the nozzle is smaller than the diameter of the outlet 212 of the nozzle, and the diameter gradually increases from the inlet to the outlet of the nozzle.

As described above, according to the present invention, the combustion gas outlet 160 of the combustion chamber is connected to the inlet 211 of the nozzle, the outlet 211 of the nozzle is connected to the external discharge cylinder 300 and the external discharge cylinder 300 is connected to the combustion gas And is connected to the recirculation flue 220.

The combustion gas recirculation flue 220 is connected to the combustion chamber as shown in FIG. 3, and functions to perform the function of re-introducing the combustion gas into the combustion chamber.

More preferably, the combustion gas recirculation flue can enjoy the effect of complete combustion when connected to the lower end of the sub-combustion flue.

The present invention realizes a system in which the combustion gas is recirculated by the above-described structure.

In general, the combustion gases are discharged to the discharge year if the temperature is much higher than the atmosphere and connected to the discharge year.

Therefore, even if the combustion gas recirculation flue as in the present invention is installed in the general discharge year, the combustion gas discharged at a high temperature can not be recirculated to the combustion chamber.

However, according to the present invention, since the Coanda nozzle is connected to the combustion gas outlet, the combustion gas discharged at a high temperature is recirculated to the combustion chamber.

That is, in the Coanda nozzle of the present invention, the diameter of the inlet 211 of the nozzle is smaller than the diameter of the outlet 212 of the nozzle, the diameter gradually increases from the inlet to the outlet of the nozzle, The outlet 211 of the nozzle is connected to the outlet 300 and the outlet 300 is connected to the combustion gas recirculation 220. As a result, The action and effect of recirculating the gas to the combustion chamber is created.

This is because the velocity of the gas discharged by the Bernoulli effect by the Coanda nozzle decreases at the outlet of the Coanda nozzle, and the pressure is relatively higher than that of the combustion chamber.

According to the structure of the present invention, a part of the combustion gas discharged from the combustion gas outlet of the combustion chamber is re-introduced into the combustion chamber by the combustion gas recirculation cycle.

As the combustion gas is recirculated and introduced into the combustion chamber, a complete combustion effect is generated.

Therefore, the effect of reducing CO (carbon monoxide), which is incomplete combustion material, is remarkably reduced.

Also, in the case of NOx (nitrogen oxide), since the combustion gas is recirculated and introduced into the combustion chamber, the air / fuel ratio can be reduced, thereby remarkably reducing the generation of NOx.

In the present invention, the hot-air device 230 may be installed in the combustion gas recirculation device 200 so that the hot-air device directly emits hot air.

As shown in FIGS. 1 and 2, the hot air supply unit 230 is connected to the external discharge flue 300 and has a structure capable of performing heat exchange with the discharged flue gas, that is, a radiator structure.

Therefore, the above-described hot air apparatus can be equipped with a blowing device, which can double the function of introducing air into the hot air apparatus and heat-exchanging the heat with the heat of the exhaust gas at a high temperature and discharging it again.

As described above, the exhaust gas is only heat-exchanged in the radiator of the hot air apparatus, and is not introduced into the room.

Such a function of the hot air device has high efficiency in heating the room.

The present invention is connected to a fuel supply pipe (410) at a side portion of the combustion chamber.

The above-mentioned fuel supply pipe performs a function and an action to flow the fuel pellets into the combustion chamber.

As shown in FIGS. 1 and 2, the fuel supply pipe 410 may be attached to the combustion chamber in an inclined form so that the pellet can be freely dropped and placed on the combustion plate.

In the present invention, the fuel supply pipe 410 is connected to the fuel cell 400.

The fuel cell 400 refers to a tool or a device that performs the function of providing fuel to the combustion chamber when the pellet is stored as fuel.

The present invention is characterized in that a fuel supply unit 420 is formed at the lower end of the fuel cell.

The fuel supply unit 421 constitutes a fuel supply unit 421 and functions to supply fuel (pellets) of the fuel tank to the combustion chamber.

The fuel supply device 421 is formed of a skew or the like and performs a function of moving the fuel to the fuel supply pipe.

Therefore, the fuel supply device 421 operates in conjunction with the device 422 that generates power such as a motor.

The power generation device 422 includes a control unit to perform a function of controlling the supply of fuel.

The present invention has a technical feature that the outer case 600 having the above-described structure is not wrapped around the stove and is not directly exposed to the user of the stove to solve the safety problem of the image and the like, .

As shown in FIG. 5, the outer case 600 of the present invention has a structure that does not enclose the pellet stove.

A through hole 660 through which the external discharge flue 300 is passed is formed in the upper portion of the outer case 600.

In addition, a lid portion 670 is provided at an upper portion of the outer case so as to close the fuel cell and to open the fuel cell.

A heating plate 620 may be formed on the upper portion of the outer case.

The heating plate is formed on the upper part of the combustion gas recirculation device 200 mounted inside the outer case.

Since the heating plate can directly receive the temperature of the exhaust gas of the combustion gas recirculation device, the heating plate performs a function and an action to boil a liquid such as water by placing a kettle or the like on a heating plate.

In addition, the present invention is characterized in that a hot air bulb 630 is formed in the front portion of the outer case to perform the function of providing hot air generated from the above-described hot air apparatus 230 to the room.

In addition, according to the present invention, a bean bag 610 is formed in the front portion of the outer case, and performs a function and an action to allow a baked food such as potatoes, potatoes, and the like to be placed and processed.

The above-mentioned cigarette is provided with a space for placing food such as rubber mug, potato, etc., and is formed inside the outer case.

Therefore, the cask can be formed in various shapes such as a tubular shape and a tubular shape, and is formed close to the combustion chamber.

In addition, a ceramic door 650 is formed on the front portion of the outer case of the present invention so that the combustion chamber can be seen with the naked eye.

Further, an air inlet 640 communicating with the external air inlet is formed in the lower part of the outer case of the present invention.

The air introduced from the air intake port is automatically introduced into the combustion chamber through the external air intake port.

As described above, the pellet stove of the present invention provides a pellet stove that completely solves the problem of safety in the conventional stove.

The present invention is a very useful invention for an industry that produces, manufactures, sells, distributes and repairs heating devices such as a fireplace.

Particularly, the present invention is a very useful invention for an industry that produces, manufactures, sells, distributes and repairs a pellet furnace that uses heating pellets as a regenerating fuel.

100: combustion chamber 110: combustion plate
120: sub combustion plate 130:
140: heater rod 150: confirmation window
160: Combustion gas outlet
200: Flue gas recirculation device 210: Coanda nozzle
211: inlet of the nozzle 212: outlet of the nozzle
220: Flue gas recirculation flue 230:
300: External discharge year 400: Fuel tank
410: fuel supply pipe 420: fuel supply part
421: fuel supply device 422: power generating device
500: External air intake device
600: outer case 610:
620: Heating plate 630:
640: Air inlet 650: Ceramic door

Claims (4)

An environmentally friendly pellet stove comprising a combustion chamber (100), a combustion gas recirculation device (200), an external discharge cylinder (300), a fuel cylinder (400) and an external air intake device (500).
The method according to claim 1,
The structure of the combustion gas recirculation system is such that the combustion gas outlet 160 of the combustion chamber is connected to the inlet 211 of the nozzle and the outlet 211 of the nozzle is connected to the external discharge cylinder 300, Characterized in that the combustion gas recirculation flue (220) is connected to the combustion gas recirculation flue (220) and the combustion gas recirculation flue is connected to the combustion chamber.
The method according to claim 1,
The combustion chamber (100) is characterized by comprising a combustion plate (110) and a sub combustion plate (120).
The method according to claim 1 or 3,
An environmentally friendly pellet stove further comprising an outer case (600).

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