WO2018124326A1 - Gas combustion device of torch, and torch including same - Google Patents

Abstract

The present invention relates to a gas combustion device for a torch, and a torch including the same, wherein: a gas nozzle structure is disposed at an upper end of a main bar structure for combustion, receives gas fuel to the inside thereof from the main bar structure for combustion, and includes a plurality of main injection holes for discharging the gas fuel supplied to the inside thereof on the upper side of the gas nozzle structure; the gas nozzle structure is disposed in a nozzle housing structure having a shape of an opened upper part; and an upper portion of the nozzle housing structure is covered by a nozzle cover structure having a plurality of cover plates, which are stacked while being spaced apart with a height difference therebetween. Therefore, the present invention prevents the torch from being extinguished by heavy rain, heavy snow, or strong wind and thus enables a stable torch relay.

Description

Gas burner of torch and torch equipped with gas burner

The present invention relates to a gas burner of a torch, and more particularly, a gas burner of a torch that burns flames with gas fuel in a torch used in various sports competitions such as Asian Games, Olympics, and the like. The invention relates to.

In general, not only international sports competitions such as the Asian Games and the Olympic Games, but also domestic sports competitions such as the national gymnasium keep the torch during the competition.

This keeps the tradition of the ancient Olympic spirit, and lighting the torch has become one of the events at the opening ceremony of the athletic competition, and serves to heighten the mood of the athletic competition.

The ignition event of the torch is completed by the first torch burning at the torch, and then the relay to the main stadium, where the final runners ignite the torch at the main stadium with the torch. The event will be digested to indicate the end of the competition.

In the most representative Olympics, for example, the torch is ignited in Olympiad, Greece, and then delivered to the venue. The venue may be transported by plane or ship, and the torch is relayed to the relay, and the final runner is the torch to the Olympic main stadium. Will ignite.

On the other hand, the torch rod is light, so that the relay runners are easy to run, a gas type torch for stably supplying the gas fuel to the ignited torch has been proposed.

The gas type torch is equipped with a gas fuel container on the handle part, and is configured to form a flame through a burner having a plurality of injection holes connected to the upper part of the handle part through a gas fuel container and a fuel supply pipe and injecting fuel.

However, the conventional gas-type torch rod has a problem that the gas is ejected only in the direction in which the injection hole is formed, and the injection hole is exposed to the upper surface of the burner, so that when the strong wind blows or the rain comes severely, the torch is turned off.

In addition, the conventional gas-type torch rod is formed so that the flame does not spread wide, but only toward the upper side, the shape of the flame is general, there was a problem of eating.

Disclosure of the Invention An object of the present invention is to provide a torch burner and a torch equipped with the gas burner, which can prevent an accident that the torch is extinguished in bad weather such as a strong wind or rainy weather, and relay the torch safely in bad weather. have.

In order to achieve the above object, the gas combustion device of the torch according to an embodiment of the present invention is connected to a gas container part and is provided on a combustion main rod body and an upper end of the combustion main rod body from the combustion main rod body. A gas nozzle body having a gas fuel supplied therein and having a plurality of main injection holes for discharging the gas fuel supplied therein on an upper surface thereof, positioned at an upper portion of the main rod body for combustion, and inside the gas nozzle body having an upper portion And a nozzle cover body covering and covering an open upper portion of the lower housing part, wherein the nozzle cover body is laminated with a plurality of cover plates spaced apart from each other by a height difference. The gaseous fuel is discharged to form a flame.

In the present invention, the gas nozzle body includes a nozzle main body portion having a plurality of main injection holes on the upper surface, a projection for fixing the cover protruding to the upper portion of the nozzle main body portion can be fixed to the nozzle cover body, A plurality of auxiliary injection holes may be provided on the outer circumferential surface of the cover fixing protrusion to be spaced apart from each other.

In the present invention, the cover fixing protrusion may be provided with a secondary injection portion provided with a plurality of auxiliary injection holes spaced apart on the outer circumference thereof as a portion formed to have a smaller diameter than other portions.

In the present invention, the gas nozzle body further includes a nozzle coupling portion protruding to the lower portion of the nozzle main body portion and coupled to an upper end of the main rod body for combustion, and the nozzle housing body introduces air into the outer surface. A plurality of air inlet holes are provided, and a through hole through which the nozzle coupling portion passes is provided at a lower surface thereof, and the nozzle housing body is connected to the nozzle coupling portion protruding downward through the through hole. It may be mounted to the gas nozzle body.

In the present invention, the nozzle cover body includes a cover support plate member formed with a plurality of flame holes and mounted to the cover fixing protrusion and supporting a plurality of cover plate members; And a partition plate member provided standing on an upper surface of the cover support plate member to divide the upper portion of the cover support plate member into a plurality of spaces each having a plurality of flame holes.

In the present invention, the cover support plate member has an outer diameter equal to or greater than the outer diameter of the open upper portion of the nozzle housing body, and the cover plate located at the bottom of the plurality of cover plates is equal to the outer diameter of the cover support plate member or It can be formed to have a large outer diameter.

In the present invention, the partition plate member may be disposed so that two partition plates cross each other.

In the present invention, the plurality of cover plates are located at the top and have a circular central disc member and a first hollow portion having an inner diameter smaller than the outer diameter of the central disc member, which are formed at the center, and have an outer diameter larger than the outer diameter of the central disc member. It may include a first hollow plate member spaced apart from the central disk member to the upper side, and spaced apart from the upper portion of the nozzle housing body to the lower side.

In the present invention, the plurality of cover plates are spaced apart to the lower side of the first hollow plate member, the second hollow portion of the inner diameter smaller than the outer diameter of the first hollow plate member is formed in the center, the first hollow A second hollow plate member may be further formed to have an outer diameter larger than that of the mold plate member and positioned to be spaced apart from an upper portion of the nozzle housing body.

In the present invention, the central disk member is provided with a first slope inclined downward to allow rain water to flow down, and the first hollow plate member is provided with a second slope inclined downward to allow rain water to flow down. The double-hole plate member may be provided with a third inclined portion inclined downward so that rain water flows down.

In the present invention, the first inclined portion, the second inclined portion, and the third inclined portion may be arranged side by side with the same slope.

In the present invention, the partition plate member may be provided with a plurality of plate seating portions which are formed stepped stepwise so that a plurality of cover plate members are respectively seated to maintain height differences of the plurality of cover plate members.

The main rod body for combustion in the present invention, the container connecting rod member is detachably coupled to the gas container portion and provided with a first gas supply passage portion in a longitudinal direction therein, an intermediate connecting rod member located above the connecting rod member, and A nozzle connecting rod member positioned above the intermediate connecting rod member and having a second gas supply passage portion coupled to a gas nozzle body at an upper end thereof and connected to a gas passage portion of the gas nozzle body in a longitudinal direction therein, and one end of which supplies the first gas. A gas supply pipe member and the gas connected to a flow path part, the other end of which is connected to the second gas supply flow path part to supply gas fuel in the gas container part from the first gas supply flow path part to the second gas supply flow path part; It may include a flow path opening and closing valve for adjusting the amount of gas fuel supplied to the nozzle body.

In the present invention, the gas supply pipe member may be provided with a vaporization portion passing through the upper side of the main injection hole in the nozzle housing body.

In the present invention, the vaporization unit may be located between the main injection hole and the auxiliary injection hole.

Torch is provided with a gas combustion device according to an embodiment of the present invention to achieve the above object is a torch with a handle that can be held by the user at the bottom of the main rod for combustion in the gas combustion device of the torch. It is characterized in that it is inserted into the main rod body.

The present invention covers the gas injection hole exposed toward the upper portion with a cover plate, the cover plate is laminated in multiple stages spaced apart to generate a flame between the cover plate to prevent the torch is turned off by heavy rain, heavy snow or strong winds, stable torch There is an effect that allows for shipping.

The present invention is laminated to be spaced apart in a multi-stage, the flame is generated between the cover plate to form a unique flame shape has the effect of greatly improving the decorative beauty and aesthetic effect, the satisfaction during the event progress.

1 is a perspective view showing a gas combustion device of the torch in accordance with the present invention.

Figure 2 is an exploded perspective view showing a gas combustion device of the torch in accordance with the present invention.

Figure 3 is a longitudinal sectional view showing a gas combustion device of the torch in accordance with the present invention.

Figure 4 is an enlarged perspective view of the nozzle housing body in the gas combustion device of the torch according to the present invention.

Figure 5 is an enlarged longitudinal sectional view of the nozzle housing body in the gas combustion device of the torch according to the present invention.

Figure 6 is an enlarged cross-sectional view showing a nozzle housing body in the gas combustion device of the torch according to the present invention.

7 is a state diagram used for the gas combustion device of the torch in accordance with the present invention.

8 is a perspective view showing a torch with a gas combustion apparatus according to the present invention.

Figure 9 is a longitudinal cross-sectional view showing a torch with a gas combustion apparatus according to the present invention.

* Description of the major symbols in the drawings *

1: gas container part 100: main rod body for combustion

110: container connecting rod member 111: first gas supply passage portion

120: intermediate connecting rod member 130: nozzle connecting rod member

131: second gas supply passage portion 140: gas supply pipe member

141: vaporization unit 150: flow path opening and closing valve

200 gas nozzle body 200a main injection hole

200b: auxiliary injection hole 210: nozzle main body

220: cover fixing projections 221: auxiliary injection portion

230: nozzle coupling portion 240: housing mounting nut member

250: gas flow path part 251: main gas flow path part

252: upper gas flow path 253: horizontal gas flow path

300: nozzle housing 310: air inlet hole

320: screw through hole 400: nozzle cover body

410: cover support plate member 411: flame hole

420: partition plate member 421: first plate seating portion

421a: plate engaging projection 422: second plate seating portion

423: third plate seating portion 430: central disc member

431: Flat part 431a: Stone tube hole

432: first inclined portion 440: first hollow plate member

441: First Hollow 442: Second Inclination

450: second hollow plate member 451: second hollow part

452: third slope 500: torch main rod

Hereinafter, the present invention will be described in more detail.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention. Prior to the detailed description of the invention, the terms or words used in the specification and claims described below should not be construed as limiting in their usual or dictionary meanings. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 is a perspective view showing a gas burning device of the torch according to the present invention, Figure 2 is an exploded perspective view showing a gas burning device of the torch according to the present invention, Figure 3 is It is a longitudinal cross-sectional view showing the gas combustion device of the torch.

1 to 3 will be described in detail one example of the gas combustion device of the torch according to the present invention.

The gas combustion device of the torch according to the present invention includes a combustion main rod body 100 connected to the gas container part 1 and a gas nozzle body 200 provided on an upper end of the combustion main rod body 100.

The main rod body 100 for combustion has a gas supply flow path part for supplying the gas fuel in the gas container part 1 to the gas nozzle body 200 provided at the upper end.

The gas nozzle body 200 receives a gas fuel from the main rod body 100 for combustion therein, and a plurality of main injection holes 200a for discharging the gas fuel supplied therein are provided on an upper surface thereof.

The gas nozzle body 200 includes a gas flow path part 250 connected therein to a gas supply flow path part of the main rod body 100 for combustion, and the gas flow path part 250 includes a gas from the main rod body 100 for combustion. The fuel is supplied to the main injection hole (200a) to move the gas fuel to be injected through the main injection hole (200a).

The gas nozzle body 200 protrudes to the upper portion of the nozzle main body portion 210 and the nozzle main body portion 210 having a plurality of main injection holes 200a on the upper surface thereof, and the nozzle cover body 400 is coupled thereto. It includes a cover fixing protrusion 220 that can be fixed.

For example, the main injection holes 200a may be spaced apart from each other at the same radius about the cover fixing protrusion 220 on the upper surface of the nozzle main body.

The outer circumferential surface of the cover fixing protrusion 220 is provided with a plurality of auxiliary injection holes 200b spaced apart from each other so that a flame may be formed in the gas nozzle body 200.

The gas nozzle body 200 may be formed with a flame by the gas fuel injected from the main injection hole 200a and a flame by the gas fuel injected from the auxiliary injection hole 200b to generate the flame more stably and generate a strong wind. Even in bad weather or during rainy weather, the fire can be prevented.

In addition, the gas nozzle body 200 may further include a nozzle coupling portion 230 protruding to a lower portion of the nozzle main body portion 210 and coupled to an upper end of the main rod body for combustion 100 on a lower surface thereof. For example, the nozzle coupling unit 230 is screwed to the upper end of the main rod body 100 for combustion.

In the gas nozzle body 200, the nozzle coupling part 230 is screwed to the upper end of the main rod body 100 for combustion, so that the gas flow path part 250 is provided in the inside of the main rod body 100 for combustion. For example, it has a structure connected to.

The nozzle housing body 300, in which the gas nozzle body 200 is located, is positioned above the main rod body 100 for combustion. The nozzle housing 300 is formed in a hemispherical shape with a flat bottom surface, and has an open top surface such that the gas nozzle body 200, more specifically, the nozzle main body 210 and the cover fixing protrusions. There is a space in which 220 can be located.

In addition, the nozzle housing 300 is provided with a plurality of air inlet holes 310 for introducing air for burning the flame therein, and the nozzle coupling portion 230 of the gas nozzle body 200 passes through the lower surface thereof. Through holes are provided.

The nozzle main body 210 and the cover fixing protrusion 220, in which gas fuel is injected from the gas nozzle body 200 to form a flame, are positioned inside the nozzle housing 300, and the gas nozzle body 200 is located in the nozzle housing 300. The nozzle coupling portion 230 of the) protrudes through the lower surface of the nozzle housing body 300 and is screwed to the upper end of the main rod body 100 for combustion.

In addition, the nozzle housing 300 is an example of being mounted to the gas nozzle body 200 by a housing mounting nut member 240 screwed to the nozzle coupling portion 230 protruding toward the lower side.

The nozzle housing 300 is pressed and fixed between the housing mounting nut member 240 and the nozzle main body 210 by a housing mounting nut member 240 fastened to the nozzle coupling portion 230.

The nozzle cover body 400 is screwed to the upper portion of the cover fixing protrusion 220 to cover the open upper portion of the nozzle housing 300.

The nozzle cover body 400 covers the open upper portion of the nozzle housing body 300 to cover the main injection hole 200a formed in the upper surface of the nozzle main body portion 210, and the inside of the nozzle housing body 300. To prevent rainwater from entering.

The nozzle cover body 400 is stacked with a plurality of cover plates spaced apart from each other by a height difference, and gas fuel is discharged between the cover plates to form a flame.

The nozzle cover body 400 has an outer diameter equal to or greater than the outer diameter of the open upper portion of the nozzle housing 300 to drain the rainwater to the outside of the nozzle housing 300 so that the rainwater is discharged into the nozzle housing 300. Block incoming

In more detail, the nozzle cover body 400 further includes a cover support plate member 410 on which a plurality of flame holes 411 are formed, mounted on the cover fixing protrusion 220, and supporting a plurality of cover plates.

The cover support plate member 410 is an example of being screwed and fixed to the upper end of the cover fixing protrusion 220.

The cover support plate member 410 has an outer diameter equal to or larger than the outer diameter of the open upper portion of the nozzle housing body 300, and the cover plate positioned at the bottom of the plurality of cover plates has an outer diameter of the cover support plate member 410. It is formed to have the same or greater outer diameter as the contrast.

In addition, the nozzle cover body 400 is provided on the upper surface of the cover support plate member 410 to divide the upper portion of the cover support plate member 410 into a plurality of spaces each provided with a plurality of flame holes 411. It further comprises a partition plate member 420.

The partition plate member 420 is an example in which two partition plates are arranged to cross each other to divide the upper surface of the cover support plate member 410 into four spaces, and provided in the cover support plate member 410 in each space. A plurality of flame holes 411 are positioned.

More specifically, the partition plate member 420 is formed so that the two partition plates cross each other and have a cross shape, and the flame in combustion is covered by the flame hole 411 located in each space in an independent form. As an example of dividing the upper surface of the support plate member 410 into four spaces, a plurality of flame holes 411 provided in the cover support plate member 410 are positioned in each space.

The partition plate member 420 divides a plurality of spaces so that the flames can be independently burned on the cover support plate member 410 so that the wind is transmitted to another space even if the flame of one space is turned off by the direction of the wind. To prevent burning flames in other spaces. As a result, even when the wind blows in any direction and the flame of any one space on the cover support plate member 410 is turned off, the wind is blocked by the partition plate member 420 to maintain the flame of the other space as it is. In addition, after the wind is weakened, the flame is ignited again in the space where the flame is turned off by the flame in the other space, so that the flame is generated, so that the flame may not be turned off by the strong wind and may be stably maintained.

The plurality of cover plates are positioned at the top thereof, and a circular central disc member 430 and a first hollow portion 441 having an inner diameter smaller than the outer diameter of the central disc member 430 are formed in the center, and the central disc member 430 The first hollow plate member 440 may be formed to have an outer diameter larger than an outer diameter and spaced apart from the central disc member 430 at an upper side thereof, and spaced apart from an upper portion of the nozzle housing 300 at a lower side thereof.

In addition, the plurality of cover plate members are positioned to be spaced apart to the lower side of the first hollow plate member 440, the second hollow portion 451 of the inner diameter smaller than the outer diameter of the first hollow plate member 440 is in the center And a second hollow plate member 450 formed to have an outer diameter greater than that of the first hollow plate member 440 and positioned to be spaced apart from an upper portion of the nozzle housing 300 at a lower side thereof. .

The plurality of cover plate members may be disposed around the outer side of the circular central disc member 430, the first hollow plate member 440, and the first hollow plate member 440 protruding around the outer periphery of the central disc member 430. Rain water flows down from the central disc member 430 through the first hollow plate member 440 and the second hollow plate member 450, including the second hollow plate member 450 protruding from the nozzle housing body ( By falling out of the 300, rainwater is prevented from flowing into the nozzle housing 300.

In addition, between the central disc member 430 and the first hollow plate member 440, between the first hollow plate member 440 and the second hollow plate member 450, the second hollow plate member ( The flame is burned between the 450 and the nozzle housing 300 to be exposed to the outside.

The main rod body for combustion 100 is detachably coupled to the gas container part 1 and has a container connecting rod member 110 having a first gas supply passage part 111 in a longitudinal direction therein, and an upper portion of the connecting rod member. The intermediate connecting rod member 120, which is positioned above the intermediate connecting rod member 120, is coupled to the gas nozzle body 200 at the upper end thereof, and the gas flow passage part 250 of the gas nozzle body 200 in the longitudinal direction therein. A nozzle connecting rod member 130 having a second gas supply passage 131 connected thereto, one end of which is connected to the first gas supply passage 111, and the other end of which is connected to the second gas supply passage 131. And a gas supply pipe member 140 for supplying the gaseous fuel in the gas container part 1 to the second gas supply passage part 131 from the first gas supply passage part 111.

In addition, the main rod body 100 for combustion may further include a flow path opening and closing valve 150 for adjusting the amount of gas fuel supplied to the gas nozzle body 200, the flow path opening and closing valve 150 is a container connecting rod member ( It is provided as an example to adjust the amount of supply of gas fuel by opening and closing the first gas supply passage 111.

The first gas supply passage part 111 and the second gas supply passage part 131 may be inserted into the container connecting rod member 110 and the nozzle connecting rod member 130 by a pipe having a flow path formed therein, respectively, and may be disposed in the container. The connecting rod member 110, the nozzle connecting rod member 130 may be formed integrally in the shape of the passage respectively penetrated, it will be understood that it can be carried out by various modifications to the structure forming any known flow path.

On the other hand, Figure 4 is an enlarged perspective view of the nozzle housing body 300 in the gas combustion device of the torch according to the present invention, Figure 5 is an enlarged view of the nozzle housing body 300 in the gas combustion device of the torch according to the present invention. 6 is a longitudinal sectional view, and FIG. 6 is an enlarged cross-sectional view of the nozzle housing 300 in the gas combustion device of the torch according to the present invention.

An embodiment of the nozzle housing 300, the gas nozzle body 200, and the gas supply pipe member 140 will be described in more detail below with reference to FIGS. 4 to 6.

At least a portion of the gas supply pipe member 140 passes through an upper side of the main injection hole 200a in the nozzle housing 300 to pass through the first gas supply passage 111 and the second gas supply passage 131. Connect it.

The gas supply pipe member 140 includes a vaporization part 141 passing through an upper side of the main injection hole 200a, that is, an upper side of the nozzle main body part 210 in the nozzle housing 300.

The gas fuel is heated and vaporized by the flame combusted in the main injection hole 200a while passing through the vaporization unit 141, and is supplied to the second gas supply passage 131.

In addition, the gaseous fuel is supplied to the second gas supply passage 131 in a vaporized state through the vaporization unit 141 and injected into the main injection hole 200a and the auxiliary injection hole 200b, thereby without a separate vaporizer. The flame can be stably combusted, there is no need to configure a separate vaporizer, the structure is simplified and the manufacturing cost can be minimized.

The cover fixing protrusion 220 is a portion formed to have a smaller diameter than the other portion, and the auxiliary injection part 221 is provided on the outer circumferential surface to be spaced apart from the plurality of auxiliary injection holes 200b.

The auxiliary injection part 221 is formed in a concave shape by forming a groove shape around the outer circumference of the cover fixing protrusion 220 so that the auxiliary injection hole 200b is completely covered from rain water from the upper part. As a result, the auxiliary flame can be stably combusted by being protected from rain or strong winds.

In addition, the vaporization portion 141 of the gas supply pipe member 140 is located between the main injection hole (200a) and the auxiliary injection hole (200b), the gas fuel is overheated by the auxiliary flame burned from the auxiliary injection hole (200b) Prevent it.

The gas flow path part 250 of the gas nozzle body 200 is disposed in the vertical direction and is disposed on the upper side of the main gas flow path part 251 and the main gas flow path part 251 connected to the second gas supply flow path part 131. Positioned to connect the main gas passage part 251 and the auxiliary injection hole 200b to the upper gas passage part 252, and positioned horizontally to connect the main gas passage part 251 to the main injection hole 200a The gas flow passage part 253 may be included.

The gaseous fuel introduced into the main gas passage 251 through the second gas supply passage 131 is formed through a plurality of horizontal gas passages 253 horizontally branched from the center of the main gas passage 251. It is supplied to the main injection hole (200a) is injected, and is supplied to each of the auxiliary injection hole (200b) through the upper gas flow path 252 located above the main gas flow path unit 251 is injected.

The main gas passage part 251, the upper gas passage part 252, and the horizontal gas passage part 253 may be inserted into the gas nozzle body 200 by a pipe having a flow path formed therein, respectively, or may be disposed in the gas nozzle body. Each of the inside of the 200 may be formed integrally with a flow path-shaped space, it will be understood that it can be carried out by various modifications to the structure forming any known flow path.

On the other hand, the central disc member 430 is provided with a first inclined portion 432 is inclined downward so that rain water flows down, the second hollow plate member 440 is a second inclined downward so that rain water flows down The inclined portion 442 is provided, and the second hollow plate member 450 is provided with a third inclined portion 452 inclined downward so that rain water can flow down.

The first inclined portion 432, the second inclined portion 442, and the third inclined portion 452 are disposed parallel to each other with the same inclination, so that the center disc member 430 and the first hollow plate member 440 are disposed. Between the first hollow plate member 440 and the second hollow plate member 450, and between the second hollow plate member 450 and the nozzle housing body 300, respectively This constant allows the flame to be stably released to the outside and combusted.

Rain water dropped on the central disc member 430 flows along the first inclined portion 432 and falls to the second inclined portion 442 of the first hollow plate member 440, and the first hollow plate member 440 is disposed therein. Rainwater falling on the phase flows along the second inclined portion 442 and falls to the third inclined portion 452 of the second hollow plate member 450.

Rain water falling on the second hollow plate member 450 flows through the third inclined portion 452 and is discharged to the outside of the nozzle housing 300.

That is, the rain water dropped on the central disc member 430, the first hollow plate member 440, and the second hollow plate member 450 may include the first inclined portion 432, the second inclined portion 442, and the first inclined portion. Smoothly flowing through the three inclined portion 452 is discharged to the outside of the nozzle housing 300 as quickly as possible.

On the other hand, the partition plate member 420 is provided with a plurality of plate seating portion formed stepped step by step so that each of the plurality of cover plate member is seated to maintain the height difference of the plurality of cover plate member.

The plurality of plate seating portions are positioned on the upper side of the partition plate member 420, and the first plate seating portion 421 and the lower side of the first plate seating portion 421 on which the central disc member 430 is seated and fixed thereon. Of the second plate seating portion 422 and the second plate seating portion 422 provided to protrude outward from the first plate seating portion 421 to be seated and fixed to the first hollow plate member 440 thereon. For example, it is formed stepped stepwise, including a third plate seating portion 423 is provided to protrude to the outside of the second plate member on the lower side is seated and fixed to the second hollow plate member 450 on the top. do.

The central disc member 430 is mounted to the first plate seating portion 421, and includes a flat portion 431 formed by bending the first inclined portion 432 downwardly around the outside.

The first plate seating part 421 is provided with a plate engaging protrusion 421a which penetrates through the central disc member 430, and the flat part 431 has a protrusion through which the plate engaging protrusion 421a can penetrate. 431a is formed.

The central disc member 430 may be firmly fixed to the partition plate member 420 by the plate coupling protrusion 421a penetrating through the protrusion pipe hole 431a.

In addition, the first hollow plate member 440 is provided with a second inclined portion 442 which is inclined downward from the first hollow portion 441, and is formed in a cone shape, and an upper end thereof is formed on the second plate seating portion 422. It is seated and fixed.

In addition, the second hollow plate member 450 is provided with a third inclined portion 452 inclined downward from the second hollow portion 451 to be formed in a cone shape, and an upper end thereof is formed on the third plate seating portion 423. It is seated and fixed.

The central disc member 430, the first hollow plate member 440, and the second hollow plate member 450 may have an upper end portion, that is, an inner circumferential portion of the first hollow portion 441 and the second hollow portion 451. Since the first plate seating part 421, the second plate seating part 422, and the third plate seating part 423 are respectively seated and fixed, the distance between them can be stably maintained.

The flame in the nozzle housing 300 is between the first hollow plate member 440 and the second hollow plate member 450 through the first hollow portion 441 and the second hollow portion 451, respectively. It is possible to be discharged between the first hollow plate member 440 and the central disc member 430.

In addition, the partition plate member 420 may be formed in a cross shape to firmly support the center disc member 430, the first hollow plate member 440, and the second hollow plate member 450. The external disk member 430, the first hollow plate member 440, and the second hollow plate member 450 may be fixed so as to be stably maintained.

On the other hand, Figure 7 is a state road for the gas combustion device of the torch according to the present invention the gas fuel injected through the main injection hole (200a) and the auxiliary injection hole (200b) of the gas nozzle body 200 is ignited flame This is an example of the occurrence.

Referring to FIG. 7, the gas fuel injected through the main injection hole 200a and the auxiliary injection hole 200b is ignited from another torch rod, that is, torch burning before the torch rod, to burn the flame.

The gas nozzle body 200 includes a plurality of main flames combusted from the plurality of main injection holes 200a on the upper surface of the nozzle main body part 210, and a plurality of auxiliary injection holes provided in the cover fixing protrusion 220. A plurality of auxiliary flames combusted from 200b are combusted and generated.

Even if the main flame is turned off, the main flame can be re-ignited by the secondary flame, preventing the flame from extinguishing by strong winds or rain.

In addition, the flame combusted in the nozzle housing 300 in the gas nozzle body 200 flows into the nozzle cover body 400 through the flame hole 411 of the cover support plate member 410, and the nozzle cover. The flame introduced into the sieve 400 is divided into a plurality of spaces separated by the partition plate member 420.

As an example, the flames are formed separately in four spaces separated by the partition plate member 420.

Even if the flame in any one space is turned off by the direction of the wind among the plurality of flames formed separately, it is assumed that the wind is transferred to the other space by the partition plate member 420, so that the other flames burning in the other space are protected.

That is, even if the wind blows in any direction and the flame of any one space divided by the partition plate member 420 on the cover support plate member 410 is turned off, the flames of the other space divided by the partition plate member 420 remain intact. It is kept in a burned out state, and the holding flame is ignited in the space where it is extinguished so that it can be burned.

And the flame is between the first hollow plate member 450 and the nozzle housing 300, and through the first hollow portion 441, the second hollow portion 451 and the first hollow plate member 440 and It is released between the second hollow plate member 450, between the first hollow plate member 440 and the central disc member 430 to form a unique flame shape to improve the decorative and aesthetic effect.

On the other hand, the rain water falls on the central disc member 430, the first hollow plate member 440, the second hollow plate member 450, and then the first slope portion 432, the second slope portion 442, It flows smoothly through the third inclined portion 452 and is discharged to the outside of the nozzle housing 300 as quickly as possible, and does not flow into the nozzle housing 300.

The central disc member 430, the first hollow plate member 440, and the second hollow plate member 450, which are arranged in multiple stages spaced apart by a plurality of layers, have an outer circumference of the one positioned at the upper side of the lower plate. Located outside the inner circumferential surface and overlapped with each other, the rainwater does not flow into the interior through the first hollow portion 441 and the second hollow portion 451.

In addition, the gas combustion apparatus according to the present invention is located inside the nozzle housing body 300 by penetrating through the nozzle housing body 300 in which the flame is combusted in the gas supply pipe member 140 for supplying gas to the gas nozzle body 200. The vaporization unit 141 is provided to vaporize the gas fuel by using the thermal energy of the flame that is burned by itself so that the gas fuel can be stably injected even in a low temperature environment, and in particular, an athletic event performed in winter, such as the Winter Olympics. It can be used stably at.

Figure 8 is a perspective view showing a torch with a gas combustion apparatus according to the present invention, Figure 9 is a longitudinal cross-sectional view showing a torch with a gas combustion apparatus according to the present invention.

Referring to FIGS. 8 and 9, in the torch having a gas combustion apparatus according to the present invention, the main rod body for combustion 100 of the gas combustion apparatus according to the present invention is located therein, and the user manually touches the lower part. Torch further comprises a torch main bar body 500 is provided with a handle.

The torch main rod body 500 is formed to have a length that can hold the gas container part 1 therein, so that the gas container part 1 is minimally exposed to the outside to secure an aesthetic appearance.

In addition, the torch main rod 500 is manufactured so that only the gas supply pipe member 140 of the main rod body 100 for combustion is partially exposed to maximize the portability by minimizing weight by minimizing the weight.

The torch main rod 500 is provided with a valve through hole so that the flow path opening and closing valve 150 protrudes, and the flow rate control lever of the flow path opening and closing valve 150 protrudes to the outside through the valve through hole and is exposed.

In use, the size of the flame can be easily adjusted by controlling the amount of gas fuel supplied to the gas nozzle body 200 by manipulating the flow rate control lever that protrudes outward from the torch main rod body 500.

The gas container part 1 is positioned to be partially exposed to the lower side of the torch main rod 500 and to be easily rotated by the user.

Since the gas container part 1 is detachably mounted by being screwed to the lower end of the main rod body 100 for combustion, the gas container part 1 may be separated or combined with the main rod body 100 for combustion according to the rotating direction.

When the gaseous fuel in the gas container part 1 is consumed, the gas container part 1 is simply rotated in a direction of separating from the main rod body 100 for combustion, and thereafter, the new gas container part 1 is newly opened. After inserting into the inside of the 500, it is possible to simply complete the replacement operation of the gas container part 1 by rotating in the direction coupled to the main rod body 100 for combustion.

The present invention covers the gas injection hole exposed toward the upper portion with a cover plate, the cover plate is laminated in multiple stages spaced apart to generate a flame between the cover plate to prevent the torch is turned off by heavy rain, heavy snow or strong winds, stable torch Allow for shipping.

The present invention is laminated to be spaced apart in a multi-stage, the flame is generated between the cover plate to form a unique flame shape greatly enhances the decorative beauty and aesthetic effect, the satisfaction during the event.

The present invention is not limited to the above-described embodiments, and various changes can be made without departing from the gist of the present invention, which is understood to be included in the configuration of the present invention.

Claims (16)

1. A main rod body connected to the gas container part for combustion;

   A gas nozzle body provided at an upper end of the main rod body for combustion and supplied with gas fuel from the main rod body for internal combustion, and having a plurality of main injection holes for discharging the gas fuel internally supplied to the upper surface;

   A nozzle housing positioned above the main rod body for combustion and having the gas nozzle body positioned therein and having an open top; And

   A nozzle cover body covering and covering the open upper portion of the lower housing part;

   The nozzle cover body is a plurality of cover plates are stacked spaced apart with a difference in height so that the gas fuel is discharged between the cover plate to form a flame of the torch.
2. The method according to claim 1,

   The gas nozzle body includes a nozzle main body portion having a plurality of main injection holes on an upper surface thereof, and a cover fixing protrusion which protrudes to an upper portion of the nozzle main body portion to which the nozzle cover body is coupled and fixed.

   Gas burner of the torch, characterized in that a plurality of auxiliary injection holes are provided on the outer circumferential surface of the cover fixing projection.
3. The method according to claim 2,

   The cover fixing projection portion is a portion formed to have a smaller diameter than the other portion is a gas combustion device of the torch, characterized in that the auxiliary injection portion provided with a plurality of auxiliary injection holes spaced apart on the outer peripheral surface.
4. The method according to claim 2,

   The gas nozzle body,

   Protruding to the lower portion of the nozzle main body portion further comprises a nozzle coupling portion coupled to the upper end of the main rod body for combustion on the lower surface,

   The nozzle housing body has a plurality of air inlet holes for introducing air into the outer surface, the through hole through the nozzle coupling portion is provided on the lower surface,

   And the nozzle housing body is mounted to the gas nozzle body by a housing mounting nut member fastened to the nozzle coupling portion protruding downward through the through hole.
5. The method according to claim 2,

   The nozzle cover body

   A cover support plate member having a plurality of flame holes formed therein and mounted to the cover fixing protrusion and supporting a plurality of cover plate members; And

   And a partition plate member which is provided on an upper surface of the cover support plate member and divides an upper portion of the cover support plate member into a plurality of spaces each having a plurality of flame holes. .
6. The method according to claim 5,

   The cover support plate member has an outer diameter equal to or greater than the outer diameter of the open upper portion of the nozzle housing body, and the cover plate located at the bottom of the plurality of cover plates has the same or greater outer diameter than the outer diameter of the cover support plate member. Gas burner of the torch, characterized in that formed to have.
7. The method according to claim 5,

   The partition plate member is a gas combustion device of the torch, characterized in that the two partition plates are arranged to cross each other.
8. The method according to claim 5,

   The plurality of cover plates,

   A circular central disc member positioned at the top thereof; And

   The first hollow portion having an inner diameter smaller than the outer diameter of the central disc member is formed at the center, is formed with an outer diameter larger than the outer diameter of the central disc member, and is spaced apart from the central disc member at an upper side, and spaced apart from an upper portion of the nozzle housing body at a lower side. Torch gas combustion device comprising a first hollow plate member.
9. The method according to claim 8,

   The plurality of cover plates,

   A second hollow portion having an inner diameter smaller than the outer diameter of the first hollow plate member is disposed at a center and spaced apart from the lower side of the first hollow plate member, and has an outer diameter larger than that of the first hollow plate member. And a second hollow plate member formed on the lower side and spaced apart from the upper portion of the nozzle housing body.
10. The method according to claim 9,

    The central disc member is provided with a first slope inclined downward so that rain water can flow down,

    The first hollow plate member is provided with a second slope inclined downward so that rain water flows down,

    The second hollow plate member gas burner of the torch, characterized in that the third inclined portion is provided with an inclined downward so that rain water flows down.
11. The method according to claim 10,

    And the first inclined portion, the second inclined portion, and the third inclined portion have the same inclination and are arranged in parallel with each other.
12. The method according to claim 5,

    The partition plate member is provided with a plurality of cover plate member is provided with a plurality of plate seating step formed step by step step to maintain the height difference of the plurality of cover plate member respectively seated burner.
13. The method according to claim 2,

    The main rod body for combustion,

    A container connecting rod member detachably coupled to the gas container part and having a first gas supply passage part in a length direction thereof;

    An intermediate connecting rod member positioned above the connecting rod member;

    A nozzle connecting rod member positioned above the intermediate connecting rod member and having a second gas supply passage part coupled to a gas nozzle body at an upper end thereof and connected to a gas flow path part of the gas nozzle body in a longitudinal direction therein;

    One end is connected to the first gas supply passage, and the other end is connected to the second gas supply passage to supply gas fuel in the gas container portion from the first gas supply passage to the second gas supply passage. A gas supply pipe member; And

    And a flow path opening / closing valve for controlling the amount of gas fuel supplied to the gas nozzle body.
14. The method according to claim 13,

    The gas supply pipe member is a gas combustion device of the torch, characterized in that the vaporization portion passing through the upper side of the main injection hole in the nozzle housing body.
15. The method according to claim 14,

    And the vaporization unit is positioned between the main injection hole and the auxiliary injection hole.
16. The gas combustion device of any one of claims 1 to 15, wherein the combustion main rod body is inserted into a torch main rod body having a handle part which can be grasped by a user at a lower portion thereof. Torch.

Images