KR102365135B1 - Heat distributed brazier - Google Patents

Abstract

The present invention relates to a heat dispersing furnace, and more particularly, to a heat dispersing furnace in which heated air is dispersed by inducing it to move upward along the inner surface of the furnace.
The heat dissipation furnace according to the present invention includes: a body portion having an open upper portion and forming a combustion space in which fuel is burned; a grill installed on the upper portion of the body and supporting a heating object; a grate installed in the lower part of the body, the fuel is placed, and the combustion ash produced after the fuel is burned downwards; and a heat dissipating unit that allows the air heated in the combustion space to move upward along the inner surface of the body to heat the edge of the grill.

Description

Heat distributed brazier

The present invention relates to a heat dispersing furnace, and more particularly, to a heat dispersing furnace in which heated air is dispersed by inducing it to move upward along the inner surface of the furnace.

With the recent spread of camping culture, various camping tools such as tents, cooking utensils, and outdoor bedding are being developed. In particular, there is a tendency to cook various kinds of grilling outdoors, that is, roasting or smoking pork, beef, chicken, etc., and various outdoor braziers for this purpose have been developed and sold.

In general, the brazier puts a grate on which fuel such as charcoal, firewood, wood pellets, pine husk, coal, and solid alcohol is mounted inside the furnace body formed into a cylindrical body. It is a form of cooking food.

As an example of such a brazier, it is variously disclosed in Republic of Korea Registered Utility Model No. 20-0481248 and Korean Patent Publication No. 10-2019-0132597.

However, such a furnace has a disadvantage in that the flame and heat generated by burning fuel are concentrated in the center of the grill installed on the upper portion, so that the heating target located in the grill is not evenly heated.

Republic of Korea Registered Utility Model No. 20-0481248 Republic of Korea Patent Publication No. 10-2019-0132597

The present invention is to solve the above problems, and it is an object of the present invention to provide a heat dissipation furnace that disperses the heated air by inducing the rising air heated inside the furnace to move upward along the inner surface of the furnace. .

The heat dissipation furnace of the present invention for achieving the above object, the upper portion is opened, and a body portion forming a combustion space in which fuel is burned; a grill installed on the upper portion of the body and supporting a heating object; a grate installed in the lower part of the body, the fuel is placed, and the combustion ash produced after the fuel is burned downwards; and a heat dissipating unit for heating the edge of the grill by moving the air heated in the combustion space upward along the inner surface of the body.

In the present invention, the heat dissipation unit is provided with a spiral upward guide groove formed in a helical lead on the inner surface of the body portion so that the air heated in the grate rises spirally along the inner surface of the body portion.

And the heat dissipating part has a hollow cylindrical shape and is spaced apart from the inner surface of the body so that an airflow of the rising air heated in the grate is dispersed to the center and the edges; An air flow distribution pipe support for supporting the inner surface of the body portion and spaced apart from the upper portion of the grate is provided.

And the body part has an open lower part, and a height adjusting part capable of adjusting the separation distance between the lower part of the body part and the ground in order to adjust the amount of air flowing into the body part from the lower part of the body part; .

In this case, the height adjusting unit includes a screw having a screw thread formed on an outer circumferential surface, and a screw inlet member having a screw thread therein and fixed to the grate to which the screw is introduced.

And the grill has a lower plate having first plates arranged side by side at the same interval, and second plates installed to correspond to the first plates, and is rotatably installed on the lower plate at an angle rotated with respect to the lower plate. A top plate capable of adjusting the amount of direct fire, which is the amount of direct flame in contact with the heating target, is provided, wherein the first plates and the second plates are disposed orthogonally to the heating target according to the angle at which the top plate is rotated with respect to the lower plate. It is divided into a direct fire state exposed to a flame, and a conduction state in which the first and second plates are arranged in parallel so that the heating object is heated by the heated first and second plates without being exposed to the flame.

The heat dissipation furnace according to the present invention can prevent the concentration of heat by inducing the flow of the rising air heated inside the furnace to be dispersed.

And by rotating the upper plate with respect to the lower plate, it is possible to control the amount of direct fire in which the heating object is in direct contact with the flame. there is.

1 is a perspective view showing a separate heat dissipation furnace according to a first embodiment of the present invention,
Figure 2 is a cross-sectional view of the heat dissipation furnace of Figure 1,
3 is a perspective view showing a separate heat dispersing furnace according to a second embodiment of the present invention;
4 is a cross-sectional view of the heat dissipation furnace of FIG. 3;
5 is a perspective view showing a separate heat dispersing furnace according to a third embodiment of the present invention;
Figure 6 is a plan view showing the grill of Figure 5,
7 is a perspective view showing a separate heat dissipation furnace according to a fourth embodiment of the present invention;
8 is a cross-sectional view of the heat dissipation furnace of FIG. 7 .

Hereinafter, a furnace for heat dissipation according to the present invention will be described in more detail with reference to the accompanying drawings.

1 to 2 show a heat dissipation furnace according to a first embodiment of the present invention.

1 to 2, the heat dissipation furnace 1 according to the first embodiment of the present invention includes a body portion 10 having a combustion space 11 in which fuel is burned, and the body portion 10. The grill 20 installed in the upper part, the grate 30 installed in the lower part of the body part 10, and the grill 20 by dispersing heat generated by the fuel burned in the combustion space 11 It is provided with a heat dissipation unit 40 to transfer to.

The body portion 10 has an open top and a bottom and has a cylindrical shape. An opening through which air can be introduced is formed in a side surface of the body portion 10 . The body portion 10 is formed to be drawn in spirally along the inner surface to improve durability against external force and/or load. A combustion gas discharge hole (not shown) through which combustion gas generated in the combustion space 11 is discharged may be formed in the upper portion of the side surface of the body portion 10 .

The grill 20 includes a grill body 21 installed on the body portion 10 , a flange 23 formed on an upper end of the grill body 21 , and a fixing fixed to an upper surface of the flange 23 . Plates 22 are provided. The grill body 21 has a hollow cylindrical shape. The flange 23 is formed at the upper end of the grill body 21 , and a through hole having a size corresponding to the hollow formed in the grill body 21 is formed. When the grill body 21 is inserted into the body portion 10 , the upper end of the body portion 10 is in contact with the flange 23 so that the grill body 21 is placed on the upper end of the body portion 10 . is fixed The fixing plates 22 are arranged in a grid shape and fixed to the upper surface of the flange 23 . The fixing plates 22 support the heating object. The heat generated while the fuel is burned in the combustion space 11 passes through the through hole of the flange 23 and is transferred to the heating target above the fixing plate 22 . The fixing plates 22 are arranged in a grid shape so that a gap is formed by a gap between the fixing plates 22, and the flame generated in the combustion space 11 passes through the gap to directly heat the heating object. there is.

The fixing plate 22 according to an embodiment of the present invention is preferably formed in a rectangular plate shape, but is not limited to the embodiment. In addition, the fixing plate may be formed in various shapes such as a rod shape having a circular or rectangular cross section. there is.

The grate 30 is installed under the body portion 10 . The grate 30 includes a grate body 31 installed on the body portion 10, an extension plate 32 extending from the grate body 31, and a support plate installed on the extension plate 32 ( 33) are provided. The grate body 31 is installed in the lower portion of the body portion (10). The extension plate 32 is formed to extend from the lower end of the grate body 31 in a direction away from the center. The upper surface of the extension plate member 32 is installed in the body portion 10 in contact with the lower end of the body portion 10 . The support plates 33 are arranged in a grid shape at the lower end of the grate body 31 and are fixed to the extension plate member 32 . The support plates 33 support fuel. In addition, the combustion ash is discharged through the gap formed as the support plates 33 are arranged in a grid.

The support plate 33 according to an embodiment of the present invention is preferably formed in a rectangular plate shape, but is not limited to the embodiment. In addition, the support plate may be formed in various shapes such as a rod shape having a circular or rectangular cross section there is.

The heat dissipation unit 40 is provided with a spiral upward guide groove 41 for guiding the airflow generated inside the body portion 10 to be spirally formed. The spiral upward guide groove 41 is spirally formed along the inner surface of the body portion 10 . When fuel is burned in the combustion space 11 , the air in the combustion space 11 is heated and rises along the spiral upward guide groove 41 formed on the inner surface of the body 10 .

The spiral upward guide groove 41 guides the air heated in the combustion space 11 to rise spirally along the inner surface of the body 10 . The spiral upward guide groove 41 allows the heated air to move along the inner surface of the body 10 so that the heated air is not concentrated in the center of the body 10 and It disperses inside and causes it to rise. In addition, the air flow of the combustion space 11 is formed in a spiral shape to facilitate air circulation and to actively burn fuel.

Meanwhile, FIGS. 3 to 4 show a heat dissipation furnace according to a second embodiment of the present invention.

Components having the same functions as in the drawings shown above are denoted by the same reference numerals, and detailed descriptions thereof will be omitted.

3 to 4 , except for the heat dissipation unit 140 of the heat dissipation furnace 101 according to the second embodiment of the present invention, other configurations are the same as the heat dissipation furnace according to the first embodiment of the present invention. has

The heat dissipating unit 140 further includes a cylindrical air flow distribution pipe 142 and an air flow distribution pipe support 143 supporting the air flow distribution pipe 142 . The air flow distribution pipe 142 is introduced into the body portion 10 and is supported by the air flow distribution pipe supporter 143 . The air flow distribution pipe support 143 protrudes from the inner surface of the body portion 10 and is connected to the outer surface of the air flow distribution tube 142 . The air flow distribution tube 142 is spaced apart from the body portion 10 by the air flow distribution tube supporter 143 . Between the air flow distribution pipe 142 and the body 10, air heated by the heat generated in the combustion space 11 of the body 10 is dispersed and moved to the edge of the body 10. A heat dissipation passage 144 is formed. The lower end of the air flow distribution pipe 142 is installed higher than the upper end of the opening formed in the body portion 10 . The air flow distribution pipe support 143 protrudes from the inner surface of the body portion 10 and is connected to the air flow distribution pipe 142 .

In general, the heat generated in the combustion space is concentrated in the center of the main body as it moves upward. However, since the heat dissipation furnace 101 according to the second embodiment of the present invention includes the air flow distribution pipe 14 , the air that is heated from the lower part of the body 10 and rises passes through the heat dissipation passage 144 . to induce it to move upwards. Therefore, the air heated in the lower part of the body part 10 is dispersed and rises to the upper part of the body part 10 .

Four air flow distribution pipe support 143 according to an embodiment of the present invention is preferably formed along the inner circumferential surface of the body portion 10 at equal intervals, but is not limited to the embodiment.

Meanwhile, FIGS. 5 to 6 show a heat dissipation furnace according to a third embodiment of the present invention.

Components having the same functions as in the drawings shown above are denoted by the same reference numerals, and detailed descriptions thereof will be omitted.

5 to 6, the configuration other than the direct fire area control grill 220 of the heat dissipation furnace 201 according to the third embodiment of the present invention is the heat dissipation furnace according to the first embodiment of the present invention and have the same structure.

The direct fire area control grill 220 includes a lower plate 221 mounted on the upper end of the body 10 , an upper plate 225 mounted on the lower plate 221 , and the lower plate 221 . The upper plate 225 is provided with a rotation guide 228 for rotatably guiding.

The lower plate 221 includes a lower body 222 having a cylindrical shape, a plate fixing part 223 formed by bending at the upper end of the lower body 222, and fixedly installed on the upper surface of the plate fixing part 223 . A plurality of first plates 224 are provided. The lower body 222 has a cylindrical shape and has a smaller diameter than the body portion 10 . The plate fixing part 223 is formed on the upper end of the lower body 222 . The plate fixing part 223 is formed to extend in a direction away from the center of the upper end of the lower body 222 . When the lower plate 221 is inserted into the body part 10 , the upper end of the body part 10 is in contact with the fixing part 223 of the plate so that the lower plate 221 is placed on the upper part of the body part 10 . is fixed The first plates 224 are arranged in parallel to the plate fixing part 223 at equal intervals and fixed thereto.

The upper plate 225 includes an upper body 226 having a larger area than the lower plate 221 , and a plurality of second plates 227 fixed to the upper body 226 . The upper body 226 has a hollow disk shape. The plurality of second plates 227 are disposed to correspond to the first plates 222 and fixed to the upper body 226 . The upper plate 225 may adjust the amount of direct fire, which is the amount of contact with the flame to the heating target, according to the rotation angle with respect to the lower plate 221 .

The rotation guide 228 corresponds to a pair of guide protrusions 228a protruding upward from the plate fixing part 223 and the pair of guide protrusions 228a at the edge of the upper body 226 . A pair of guide grooves 228b formed through the positions are provided. The pair of guide protrusions 228a are installed on both sides along the direction in which the first plates 224 are arranged. The pair of guide protrusions 228a extend longer than the thickness of the upper body 226 . The pair of guide grooves 228b extend counterclockwise along the outside of the upper body 226 at positions corresponding to the pair of guide protrusions 227a, and the second plates 227 are disposed. It extends to both ends of the upper body 226 in a direction orthogonal to the given direction.

In the direct fire area control grill 220 , the first plates 224 and the second plates 227 are disposed orthogonally to each other according to the angle at which the upper plate 225 is rotated with respect to the lower plate 221 to be heated. In a state of direct fire exposed to this flame, the first and second plates 224 and the first and second plates 224 are arranged in parallel so that the object to be heated is heated without being exposed to the flame. (227) is divided into a heated conduction state.

In the direct fire state, the first plates 224 and the second plates 227 are arranged orthogonally, the first plates 224 and the second plates 227 form a lattice shape, and the A gap is created between the first plates 224 and the second plates 227 so that the flame generated in the combustion zone 11 can reach the upper portions of the first and second plates 224 and 227 . .

In the conductive state, the first plates 224 and the second plates 227 are arranged in parallel, and the first plates 224 and the second plates 227 are alternately arranged in parallel. The upper portion of the body portion 10 is sealed by the first and second plates 222 and 225 so that the flame generated in the combustion zone 11 is generated by the first and second plates 224 . (227) does not reach the top. Accordingly, the flame heats the first and second plates 224 and 227, and the heating object on the first and second plates 224 and 227 is heated to the first and second plates 224. (227) is heated.

Meanwhile, FIGS. 7 to 8 illustrate a heat dissipation furnace according to a fourth embodiment of the present invention.

Components having the same functions as in the drawings shown above are denoted by the same reference numerals, and detailed descriptions thereof will be omitted.

7 to 8 , the configuration other than the height adjustment unit 350 of the heat dissipation furnace 301 according to the fourth embodiment of the present invention is the same as that of the heat dissipation furnace according to the first embodiment of the present invention. have a structure

The height adjustment unit 350 includes a screw 351 having a screw thread formed on an outer circumferential surface, and a screw inlet member 352 fixed to the extension plate 32 and into which the screw 351 is introduced.

The screw 351 is provided with a handle that can be rotated by the user at the upper end, and a rubber cover is provided at the lower end to prevent damage to the end.

The screw inlet member 352 is formed to protrude upward from the upper surface of the extension plate member 32, and has a screw thread formed therein.

When the screw 351 installed through the screw inlet member 352 is rotated clockwise or counterclockwise, the screw 351 rises or falls with respect to the screw inlet member 352, so that the body relative to the ground. The height of the part 10 can be adjusted.

Four height adjustment units 350 according to an embodiment of the present invention are preferably installed at the same intervals on the extension plate 32 along the outer peripheral surface of the grate 30, but the embodiment is not limited thereto.

The height adjustment unit 350 according to the fourth embodiment of the present invention may also be applied to the heat dissipation grates 101 and 201 according to the second and third embodiments.

In this way, the heat dispersing furnace according to the present invention can be prevented from being concentrated by inducing a flow of air that is heated and rises from the inside to be dispersed. And by rotating the upper plate with respect to the lower plate, it is possible to control the amount of direct fire in which the heating object is in direct contact with the flame. there is.

In the above, the present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent embodiments are possible therefrom. Accordingly, the true protection scope of the present invention should be defined only by the appended claims.

The heat dissipation furnace according to the present invention has a simple structure and is applicable to a small-scale camping furnace or a large-scale incinerator for waste incineration.

1: heat dissipation furnace 10: body
20: grill 30: grate
40: heat dissipation unit 41: spiral upward guide groove

Claims (6)

a body portion having upper and lower portions open and forming a combustion space in which fuel is combusted;
a grill installed on the upper portion of the body and supporting a heating object;
a grate installed in the lower part of the body, the fuel is placed, and the combustion ash produced after the fuel is burned downwards;
and a heat dissipating part for heating the edge of the grill by moving the air heated in the combustion space upward along the inner surface of the body part;
The grate includes a grate body which is inserted into and installed under the body portion, an extension plate extending from the grate body, and support plates installed on the extension plate and arranged in a grid shape,
The heat dissipation unit has a spiral upward guide groove formed helically on the inner surface of the body so that the air heated from the grate rises spirally along the inner surface of the body, and a hollow cylindrical shape inside the body. an air flow distribution pipe that is spaced apart from the side and disperses the air flow of the rising air heated by the grate to the center and the edges, and the air flow distribution pipe at the top of the grate to be spaced apart from the inner surface of the body An air flow distribution pipe support protruding from the inner surface of the body portion and connected to the air flow distribution tube, and formed between the air flow distribution tube and the body portion, the heated air rising from the lower portion of the body portion is dispersed to the edge of the body portion Heat dissipation furnace, characterized in that it has a heat dissipation passage for guiding it to move upward. delete delete According to claim 1, wherein in order to control the amount of air flowing into the interior of the body from the lower portion of the body, a height adjustment unit capable of adjusting the separation distance between the lower portion of the body and the ground; characterized in that it further comprises: heat dissipation furnace. The heat dissipation furnace according to claim 4, wherein the height adjustment unit includes a screw having a screw thread formed on an outer circumferential surface, and a screw lead-in member having a thread formed therein and fixed to the grate into which the screw is introduced. According to claim 1, wherein the grill is provided with a lower plate having first plates arranged side by side at the same interval, and second plates installed to correspond to the first plates, and is rotatably installed on the lower plate to be mounted on the lower plate. A top plate capable of adjusting the amount of direct fire, which is the amount of contact with a flame to a heating object, according to the rotated angle with respect to it;
According to the angle at which the upper plate is rotated with respect to the lower plate, the first plates and the second plates are arranged orthogonally to a direct fire state in which a heating object is exposed to a flame, and the first plates and the second plates are parallel Heat dissipation furnace, characterized in that the heat dissipation furnace, characterized in that the heating target is divided into a conductive state that is heated by the heated first and second plates without being exposed to the flame.

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