KR101274326B1 - Roaster for pellet combustion - Google Patents

Abstract

According to the present invention, the heat of combustion supplied to the combustion section of the combustion cylinder to be combusted by spark ignition is led to the center of the combustion cylinder so that the combustion efficiency of the pellets of the combustion section can be increased. This prevents the flame combustion from being conducted outside the circumference of the combustion cylinder, thereby preventing the flow of flame back to the pellet fuel storage container to which the pellet is supplied, thereby preventing safety accidents such as fire, and as a heating element mounted above the combustion cylinder. By preventing the combustion heat from being scattered to the outside until it is transmitted, the heat of combustion in the combustion tank is stored only in the heating grid heating network, thereby improving the efficiency of combustion heat and increasing the combustion efficiency and the heating efficiency of the pellets. The present invention relates to a roaster for pellet combustion, in which pellets are used to burn combustion vessels from a pellet fuel reservoir. A combustion flame induction having a jaw protruded toward the center on the inner circumferential surface of the combustion section 190 of the combustion cylinder 100 in the pellet combustion roaster, which is supplied to the combustion chamber and the pellet of the combustion section is burned by the spark ignition of the gas burner. A circumferential jaw 200 is formed, and the combustion flame of the pellet 400 combusted by the combustion unit 190 collides with the combustion flame induction barrier 200 to vortex with an upward flame at the center of the combustion unit 190. In the pellet combustion roaster that can cause the pellet of the combustion unit 190 to be re-burned, cylindrical combustion flame induction tube 500 is placed on the combustion flame guide duct 200, the combustion cylinder 100 Combustion flame of the pellet 400 is combusted in the combustion section 190 of the combustion flame guide tube 500 is guided and moved upward, the combustion heat is induced to the heating element 300 mounted above the combustion cylinder 100 In addition, the combustion flame induction pipe 500 of the present invention Silver is a cylindrical body of light down light, a pellet inlet hole 510 connected to the pellet inlet passage 110 connected to the pellet fuel storage cylinder 4 is formed, the pellet in the combustion section 190 of the combustion cylinder 100 400 is introduced, and the combustion flame of the combustion unit 190 is guided to the heating element 300.

Description

Roaster for pellet combustion "

The present invention relates to a pellet combustion roaster for supplying pellets to a combustion cylinder for combustion. More particularly, the combustion heat supplied to the combustion section of the combustion cylinder to be combusted by spark ignition is directed to the center of the combustion cylinder for combustion. The combustion efficiency of the negative pellets can be increased, and the heat of combustion of the combustion part is prevented from conducting flame combustion outside the circumference of the combustion cylinder by the combustion flame induction cylinder, thereby preventing the flow of the flame back into the pellet fuel storage container into which the pellet is supplied. It is possible to prevent safety accidents such as fire, and to prevent the heat of combustion from being scattered to the outside until it is transmitted to the heating element mounted on the upper part of the combustion cylinder, so that the heat of combustion of the combustion cylinder is stored only in the heating tube heating network. In addition, the efficiency of combustion heat can be further increased, and the combustion efficiency and heat generation efficiency of the pellets can be increased. It relates to the roster for pellet combustion can.

In general, the roaster can be classified into the use of charcoal exclusively, and the gas can be used as fuel, and also because the roaster is installed indoors, the combustion gas is circulated and filtered by a forced circulation of steam. Things are known.

The roaster which uses gas as a raw material has the drawback that it does not have meat taste compared with the above easy handling. On the contrary, charcoal tastes good with the radiation of far infrared rays.

In order to improve the above drawbacks, there is a roaster that can use both charcoal and gas, but the choice of using charcoal or gas is wide, but not all of the above drawbacks.

In addition, the pellet is used as an alternative fuel instead of charcoal, and the pellet is supplied from the pellet fuel reservoir to the combustion tank by an automatic pellet feeding device, and a gas burner is mounted under the combustion cylinder to ignite the gas burner. The gas is supplied to ignition and ignition is performed, and when the pellets of the combustion cylinder are combusted by gas combustion, the supply of gas is stopped and air is supplied by the fuel to burn the pellets. Pellets are fed and burned automatically without supplying the meat, which improves the taste of meat and is easy to handle.

Pellets of the combustion cylinder is the combustion flame is delivered to the pellets by the ignition and combustion of the gas to the gas burner, because it is usually transmitted through the air hole formed in the bottom of the combustion cylinder, only the part where the flame of the gas burner touches As the combustion flame is delivered, the combustion ignition time of the pellets increases, resulting in a lower combustion efficiency.

In addition, in the patent application No. 10-2010-0068766 proposed by the present applicant, the shatterproof net is formed in the combustion cylinder so that the ashes of the pellets are light so that they are extracted out of the combustion cylinder and blown to the grill of the roaster to prevent contamination of the room. The heat generation efficiency is enhanced by the smooth supply of oxygen to the heat generating cover mounted on the communication, but the heat of the combustion tank hits the heat generating cover and is forcibly stored, so that some heat is discharged through the heat generating hole. , Can increase the heating efficiency to some extent, but there is a problem in that the efficiency of heat transferred to the grill, etc. are deteriorated because there is a lot of time stored in the heating cover.

In addition, in the Utility Model Registration Application No. 20-2010-11514 proposed by the present applicant, the combustion cylinder is placed on the cylinder sheet on which the combustion cylinder is placed around the gas burner of the pellet combustion roaster and the cylinder sheet on which the combustion cylinder is placed. While allowing the cylinder to be placed, a flame induction barrier wall is formed inside the cylinder on which the combustion cylinder is placed, so that a combustion flame of the gas burner is guided to the flame induction barrier wall, and is introduced into the combustion cylinder through the flame inlet hole of the combustion cylinder. The pellet is heated by combustion, so that the heat of the burner is guided to the combustion cylinder by the cylinder on which the combustion cylinder is placed and the flame induction barrier wall, but the flame of the burner is induced intensively at the bottom of the combustion cylinder and its combustion heat is induced. A safety accident that causes the fire of the pellets in the pellet fuel storage container due to the backflow of the pellet fuel storage container through the pellet inlet passage along the bottom of the combustion container. There is a problem.

The present applicant has been a problem of a pellet combustion roaster that can further increase the combustion efficiency of the pellets, and also prevent the combustion flame from flowing back into the pellet fuel storage container in which the pellets are stored and supplied.

The present invention is to solve the above problems, by forming a combustion flame guided circumference in the combustion section of the combustion cylinder supplied by the pellet automatic supply device from the pellet fuel storage of the roaster to store the circulation air in the combustion cylinder The purpose is to increase the combustion efficiency of the pellets by causing the flame of the pellet to vortex to induce complete combustion of the pellets.

In addition, the present invention is to be equipped with a longitudinally long cylindrical combustion flame induction cylinder in the combustion cylinder, to guide the combustion flame of the combustion section of the combustion cylinder to the upper grill of the roaster, so that the pellet flows from the pellet fuel storage passage By preventing the combustion flame of the combustion portion to be supplied to the side through the conductive, the pellets of the pellet fuel storage container is to be burned to prevent a safety accident that causes a fire.

According to the present invention, a pellet is supplied from a pellet fuel storage tank to a combustion section of a combustion cylinder, and in a pellet combustion roaster in which pellets of the combustion section are combusted by spark ignition of a gas burner, the fuel is splashed toward the center of the inner circumferential surface of the combustion section of the combustion cylinder. Combustion flame guided jaw having emerged jaw is formed, the combustion flame of the pellet burning in the combustion section hits the combustion flame induction threshold, causing vortex with upward flame in the center of the combustion section and pellets of the combustion section are re-burned. In the roaster for pellet combustion, a cylindrical combustion flame induction cylinder is placed on the combustion flame induction circumference, and the combustion flame of the pellets burnt in the combustion section of the combustion cylinder is guided to the combustion flame induction cylinder and moved upward. The heat of combustion is induced to the heating element mounted above the combustion cylinder.

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In addition, the present invention, the combustion flame induction cylinder is a cylindrical body of the light and down light, the pellet inlet hole is connected to the pellet inlet passage connected to the pellet fuel storage cylinder is formed, so that the pellet is introduced into the combustion section of the combustion cylinder, Combustion flames of the combustion section are guided to the heating element.

As described above, the present invention allows the heat of combustion supplied to the combustion section of the combustion cylinder to be combusted by spark ignition is led to the center of the combustion cylinder so as to increase the combustion efficiency of the pellets of the combustion section, and the combustion heat of the combustion section is also burned. The flame induction tube prevents the flame combustion from being conducted outside the circumference of the combustion cylinder to prevent the flow of the flame back to the pellet fuel storage container to which the pellet is supplied, thereby preventing a safety accident such as a fire. By preventing the combustion heat from being scattered to the outside until it is transferred to the heating element to be installed, the heat of combustion of the combustion cylinder is stored only in the heating tube heating network, thereby improving the efficiency of combustion heating and increasing the combustion efficiency of the pellet. The heat generation efficiency can be increased.

1 is a perspective view of a pellet combustion roaster of the present invention,
2 is a longitudinal sectional view of a roaster for pellet combustion according to the present invention,
3 is an enlarged cross-sectional view of a pellet combustion roaster of the present invention;
4 is a perspective view of the roaster for pellet combustion of the present invention,
5 is an enlarged cross-sectional view of another embodiment of the present invention;
6 is an exploded perspective view of another embodiment of the present invention;
7 is an exploded perspective view of yet another embodiment of the present invention;
8 is an enlarged cross-sectional view of another embodiment of the present invention.

Detailed examples of the present invention will be described below with reference to the accompanying drawings.

As shown in Figs. 1 to 4, the pellet combustion roaster 1 is equipped with a combustion cylinder 100 at the center of the box-shaped roaster case body 2, and a grill (not shown) on the combustion cylinder 100. Is formed, and the pellet fuel storage container 4 of the pellet automatic feeding device 3, which will be described later, is opened to the cover 8.

The pellet 400 of the pellet fuel storage cylinder 4 has a predetermined amount to the combustion unit 190 of the combustion cylinder 100 through the pellet inlet passage 110 of the combustion cylinder 100 described later in the pellet supply passage 9. It is intended to be achieved by intermittent operation which is supplied and interrupted.

In the pellet fuel reservoir (4) is mounted across the screw (7) rotated by the motor (5) and the reducer (6). The screw 7 is configured to form a thick wire in a spiral shape so that the pellet 400 can move between the valleys of the screw 7.

2 and 3, a gas burner 20 and a spark ignition thermocouple 30 connected to a gas supply device (not shown) at the center of the roaster case body 2 to ignite and turn off are shown. It is installed.

An air conditioning sheet 10 is formed on the circumferential surface of the gas burner 20, and a combustion cylinder mounting sheet 40 on which the combustion cylinder 100 is placed is formed on the air conditioning sheet 10. .

In the combustion cylinder 100 of the present invention, a dish-shaped combustion section 190 having a bottom triangular pyramidal shape is formed, and the combustion section 190 has a flame inlet hole 120 through which the flame of the gas burner 20 flows. ) Are pierced.

The flame inlet hole 120 has a small diameter, and the flame of the gas burner 20 passes through the small hole, thereby effecting a nozzle effect by circulating air of 략 (not shown) to increase the intensity of the flame.

In addition, the upper portion of the combustion section 190 of the combustion cylinder 100, the air flow hole 160 is bored in the body 150 of the cylindrical body, the heating element 300 is placed on the body 150.

The heating element 300 is a heat resistant mesh. Therefore, the heat of combustion of the combustion unit 190 of the combustion cylinder 100 is stored in the heating element 300 so as to be transferred to the grill which is placed on the opening of the roaster.

In addition, as shown in FIG. 2, the inclined pellet inlet passage 110 is welded and connected to the combustion cylinder 100 of the present invention, and the pellet inlet passage 110 is the pellet fuel storage cylinder 4 described above. It is mounted detachably with the pellet supply passage (9) of the. Therefore, the pellet 400 in the pellet fuel storage container 4 is transferred from the pellet supply passage 9 of the pellet fuel storage container 4 to the pellet inlet passage 110 of the combustion cylinder 100 by the pellet automatic supply device 3. The combustion unit 190 is made by an intermittent operation in which a certain amount is supplied to and shut off. The intermittent operation is performed by driving the motor 5, the reducer 6 and the screw 7 in accordance with a signal of a controller (not shown).

The pellet inflow passage 110 is a substantially U-shaped cross-section, the pellet 400, which is supplied from the pellet supply passage 9 of the pellet fuel storage cylinder 4 may be formed to a depth that does not discharge to the outside. The pellet inflow passage 110 may be formed in a cylindrical shape instead of a U-shaped cross section, and the shape thereof is not particularly limited.

In the combustion cylinder 100 of the present invention, a combustion flame guided jaw 200 having a jaw protruding toward the center is formed on the inner peripheral surface of the combustion section 190 of the combustion cylinder 100.

In addition, according to the present invention, the combustion flame induction tube 500 of the cylindrical body of the light and down light in the combustion cylinder 100 is mounted. The combustion flame induction tube 500 is installed on the combustion flame induction circumference 200 of the combustion cylinder 100 to stand.

The combustion flame induction tube 500 in the combustion cylinder 100 allows the combustion flame and the heat of combustion of the pellets 400 combusted by the combustion unit 190 of the combustion cylinder 100 to be guided upward in movement, and thus, the combustion cylinder 100. Induced to be conducted to the heating element 300 mounted above.

In other words, the pellet 400 of the combustion unit 190 of the combustion cylinder 100 passes through the flame inlet hole 120 of the combustion unit 190 of the combustion cylinder 100 by spark ignition of the gas burner 20. It is burned by the incoming flame. Combustion flame of the pellet 400 burned in the combustion unit 190 is moved downwards by hitting the combustion flame guided duct 200, confused with the upward flame of the central side of the combustion unit 190 causes the vortex The pellet 400 of 190 has the effect of reburning.

In addition, the combustion flame and the heat of combustion of the combustion unit 190 is the combustion flame induction pipe 500 by the air circulated from the lower side of the combustion cylinder 100 upward by the 홴 (not shown) mounted to the roaster (1). The guide is guided upward through the combustion passage of the light of the lower side of the upper side and is conducted to the heating element 300 above the combustion unit 190.

The combustion flame guide passage 500 is to prevent the flame is induced to the pellet inlet hole 510 into which the pellet 400 is introduced by the combustion passage of the light of the lower side, so that the flame toward the heating element 300 above. It is effective.

When the pellet 400 of the combustion part 190 of the combustion cylinder 100 burns by the ignition itself to some extent, supply of the gas of the gas burner 20 is interrupted | supplied, and it circulates supply by 홴 (not shown). It is burned by air. The control of the shock can be controlled automatically or manually by the controller.

4, a hemispherical pellet inlet 510 is drilled below the combustion flame induction pipe 500. As shown in FIG. The pellet inlet hole 510 is mounted on the pellet inlet passage 110 of the combustion cylinder 100 coupled to communicate with the pellet supply passage 9 of the pellet fuel storage cylinder 4, the pellet inlet passage 110 The pellet 400 moving in) is mounted so as not to interfere.

According to an embodiment of the present invention, without forming the body 150 of the cylindrical body formed on the combustion flame guided duct 200 of the combustion section 190 of the combustion cylinder 100, Figures 5 and 6 As shown, the heating element holding column 130 is welded and fixed on the combustion unit 190 of the combustion cylinder 100, and the heating element mounting ring 140 is welded and fixed on the heating element holding column 130.

As described above in the combustion flame induction barrier 200 of the combustion unit 190 of the combustion cylinder 100, the combustion flame induction tube 500 is placed on top of the heating element, while the heating element is placed on the heating element mounting ring 140. 300 may be placed.

At this time as well, the pellet 400 of the combustion section 190 of the combustion cylinder 100 is the flame inlet hole 120 of the combustion section 190 of the combustion cylinder 100 by spark ignition of the gas burner 20. It is combusted by the flame flowing through. Combustion flame of the pellet 400 burned in the combustion unit 190 is moved downwards by hitting the combustion flame guided duct 200, confused with the upward flame of the central side of the combustion unit 190 causes the vortex Pellet 400 of 190 is reburned.

In addition, the combustion flame and the heat of combustion of the combustion unit 190 is the combustion flame induction pipe 500 by the air circulated from the lower side of the combustion cylinder 100 upward by the 홴 (not shown) mounted to the roaster (1). Guided by) will be conducted to the heating element 300 above the combustion unit 190.

In addition, according to another embodiment of the present invention, without forming the body 150 of the cylindrical body formed on the combustion flame guided duct 200 of the combustion section 190 of the combustion cylinder 100, 7 and As shown in FIG. 8, the combustion flame induction tube 500 is directly placed on the combustion unit 190 to fix the welding. The combustion cylinder 100 is configured by the combustion flame induction tube 500 constitutes a combustion path of the upper and lower light beams.

At this time, the heating element placing ring 140 that can be combined to put the heating element 300 on the combustion flame induction tube 500 is formed, so as to enable separation and coupling of the heating element 300 from the combustion flame induction tube 500. . In addition, the heating element 300 may be installed to be fixed through the fixing member of the heating element mounting ring 140 on the combustion flame induction pipe 500 without being separated and coupled as described above.

Also, the pellet 400 of the combustion unit 190 of the combustion cylinder 100 passes through the flame inlet hole 120 of the combustion unit 190 of the combustion cylinder 100 by spark ignition of the gas burner 20. It is burned by the incoming flame. Combustion flame of the pellet 400 burned in the combustion unit 190 is moved downwards by hitting the combustion flame guided duct 200, confused with the upward flame of the central side of the combustion unit 190 causes the vortex Pellet 400 of 190 is reburned.

In addition, the combustion flame and the heat of combustion of the combustion unit 190 is the combustion flame induction pipe 500 by the air circulated from the lower side of the combustion cylinder 100 upward by the 홴 (not shown) mounted to the roaster (1). Guided by) will be conducted to the heating element 300 above the combustion unit 190.

1: roaster 3: pellet automatic feeding device
4: pellet fuel storage container 9: pellet supply passage
20: gas burner 100: combustion cylinder
110: pellet inlet passage 120: flame inlet hole
130: heating element holding pillar 140: heating element mounting ring
150: body of the cylindrical body 160: air flow hole
200: combustion flame guided circumference 190: combustion part
300: heating element 400: pellet
500: combustion flame induction tube 510: pellet inlet hole

Claims (3)

delete In a pellet combustion roaster in which pellets are supplied from a pellet fuel reservoir to a combustion section of a combustion cylinder and the pellets of the combustion section are burned by spark ignition of a gas burner, an inner circumferential surface of the combustion section 190 of the combustion cylinder 100 is used. Combustion flame guided jaw 200 having a jaw protruding toward the center is formed, the combustion flame of the pellet 400 burned in the combustion section 190 hits the combustion flame guided jaw 200 to the combustion section ( In the furnace for pellet combustion in which a vortex is generated with the upward flame at the center of the 190 and the pellet of the combustion unit 190 can be reburned,
Cylindrical combustion flame guide tube 500 is placed on the combustion flame guided jaw 200, so that the combustion flame of the pellet 400 that is burned in the combustion section 190 of the combustion cylinder 100 is the combustion flame guide tube ( Guided to 500) is moved upward, the combustion furnace roaster, characterized in that the heat of combustion is guided to the heating element (300) mounted above the combustion cylinder (100). The method of claim 2, wherein the combustion flame induction cylinder 500 is a cylindrical body of light and down light, the pellet inlet hole 510 is connected to the pellet inlet passage 110 connected to the pellet fuel storage container 4 is formed, The pellet 400 is introduced into the combustion unit 190 of the combustion cylinder 100, and the combustion flame of the combustion unit 190 is characterized in that the combustion flame is guided to the heating element (300).

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