KR101570358B1 - Gas Burner For Cook - Google Patents

Abstract

The present invention relates to a cooking gas burner capable of increasing thermal power and thermal efficiency. The configuration includes a nozzle body 100; A main tube assembly (200, 300) connected to a lower portion of the nozzle body (100); And a gas connecting means installed at a lower end of the main tube assembly (200, 300) for connection with a fuel gas supply part (1), the cooking gas burner comprising: The main tube assembly comprising: A plurality of first air inflow holes 213 and 214 are provided along the circumferential direction as a tubular shape and a plurality of second air inflow holes 216 are provided along the circumferential direction below the first air inflow holes 213 and 214 A fuel gas hole 240 is provided at a central portion along the longitudinal direction of the main pipe 200 and screwed to the lower portion of the main pipe 200 to adjust the degree of screwing with the main pipe 200 And an air adjuster 300 for adjusting the width of the second air inflow hole 216.

Description

[0001] Description [0002] Gas Burner For Cook [0003]

The present invention relates to a gas burner, and more particularly, to a gas burner for cooking which can easily adjust the air pressure according to the type of the fuel gas and can increase thermal power and thermal efficiency.

A gas burner is a device that obtains heat by supplying fuel gas from a gas supply source and burning it, and is widely used for cooking in a business. LNG or LPG is used as fuel gas and electrons are supplied at a relatively lower pressure than the latter. The gas burner generally comprises a fuel mixing section for mixing air and gas and a nozzle section for jetting the mixed gas.

Many efforts have been made to improve thermal efficiency and thermal power for gas burners. However, the conventional gas burners have a complicated structure and thus require a large production cost. In addition, there is a problem that the flame is dispersed to the side and the thermal power is lowered, and the air and the fuel gas are not mixed uniformly, .

Korean Patent Application No. 10-2008-0045293 Korean Utility Model Registration Application No. 20-1999-0004666

The present invention has been made in view of the above problems and it is an object of the present invention to provide a cooking device capable of easily adjusting the air amount regardless of high pressure or low pressure, And to provide a gas burner for a gas burner.

The above object is accomplished by a fuel cell system comprising: a nozzle body for receiving a mixed gas formed by mixing fuel gas and air and discharging the mixture gas to the outside; A main pipe assembly connected to a lower portion of the nozzle body and mixing fuel gas and air; 1. A cooking gas burner comprising: a fuel gas supply unit for supplying a fuel gas; and a gas connection unit installed at a lower end of the main tube assembly for connection of the main tube assembly;

The main tube assembly comprising:

A main tube body having a plurality of first air inflow holes along a circumferential direction and having a plurality of second air inflow holes along a circumferential direction at a lower portion of the first air inflow hole,

A fuel gas hole is formed at a central portion along a longitudinal direction of the main pipe body and an air control port for opening and closing the second air inflow hole according to the degree of screwing with the main pipe body, The present invention relates to a cooking gas burner, and more particularly,

According to an aspect of the present invention,

A first mixed gas, which is a mixture of air introduced into the second air inflow hole and fuel gas supplied through the fuel gas hole, flows through the first air inflow hole and passes through a point where the first air inflow hole is installed, Further comprising a guide tube;

The induction tube guides the air flowing into the first air inflow hole toward the nozzle body through a space between the outer wall of the induction tube and the inner wall of the main tube.

According to still another aspect of the present invention,

Wherein the nozzle body comprises: a main tube coupling tube into which an upper end of the main tube is inserted; A nozzle housing provided at an upper end of the main tube coupling pipe to provide a mixed gas retention space, the nozzle housing having a wide top and a narrow bottom; And a nozzle cap mounted on the upper end of the nozzle housing and having a plurality of nozzle holes formed therein.

In this case, a cone-shaped dispersion oil tool for guiding the mixed gas passing through the main tube assembly to be radially dispersed may be formed in the lower part of the central portion of the nozzle cap, that is, protruding downwardly into the mixed gas retention space.

"와 같이 일직선으로 경사지게 형성되거나 또는 "》" 형태로 꺾인 형태로 형성될 수 있다.
According to another aspect of the present invention, the nozzle hole is formed along the edge of the nozzle cap, and the opening direction of the nozzle hole is formed such that the flame is gathered toward the center of the nozzle cap,

"Or"""".

According to the above configuration, a gas burner is provided which is simple in structure and simple in flow path and easy to disassemble and assemble. Also, by rotating the air conditioner, it is possible to easily adjust the mixing amount of the air, so that a gas burner is provided which can adjust the gas burner to suit the use of either LNG or LPG. Also, since the opening direction of the nozzle hole provided in the nozzle cap is directed to the center, a gas burner is provided which can prevent the loss of thermal power due to the concentration of flames and consequently to improve the thermal efficiency.

1 is a perspective view of a cooking gas burner according to an embodiment of the present invention.
2 is an exploded perspective view of a cooking gas burner according to an embodiment of the present invention.
3 is a cross-sectional view of a cooking gas burner according to an embodiment of the present invention taken along line AA in FIG.
4 is a cross-sectional view taken along line BB in Fig.
5 is a bottom perspective view of a nozzle cap of a cooking gas burner according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 to 3 will be basically explained with reference to Figs. 4 to 5 where necessary.

The gas burner of the present invention can generally be used for cooking in the kitchen of the catering industry. However, the scope of the present invention should not be limited by its use.

The gas burner according to the present invention comprises a nozzle body 100 for supplying a mixed gas composed of a mixture of a fuel gas and air and ejecting the mixture gas to the outside, a main body 100 connected to a lower portion of the nozzle body 100, And a gas connection means for connecting the fuel gas supply unit to the lower ends of the main tube assemblies 200 and 300. Here, the main tube assemblies 200 and 300 include a main tube 200 and an air conditioner 300. A socket 400 as a gas connecting means is connected to the lower side of the main pipe assemblies 200 and 300, and the socket 400 is connected to the fuel gas supply part 1. The fuel gas is supplied from the fuel gas supply part (1). The fuel gas can be LNG or LPG and is blown upwards in the drawing by its own pressure. Each component will be described in detail below.

The nozzle body 100 includes a main body tube coupling pipe 122, a nozzle housing 120, and a nozzle cap 110. The main tubular body coupling pipe 122 is formed in the shape of a single end to be fitted to the upper end of the main tubular body 200. The nozzle housing 120 is integrally installed at the upper end of the main tube coupling pipe 122 and has a funnel shape with a wide top and a narrow bottom. Accordingly, the nozzle housing 120 provides the mixed-gas staying space 123 with a lower light-tight narrowness. The nozzle cap 110 is mounted on the upper end of the nozzle housing 120 to cover the opening of the mixed gas staying space 123. A plurality of nozzle holes 112 are formed in the nozzle cap 110 so that the mixed gas passes through the nozzle cap 110 in a direction perpendicular to the nozzle cap 110.

A cone shaped dispersion oil tool 115 for guiding the mixed gas passing through the main tube 200 to be radially dispersed or diffused as shown by the arrow in FIG. 2 is formed on the bottom surface of the central part of the nozzle cap 110 in a downward direction (See Fig. 5). Referring to FIG. 5, a step 114 is formed at the bottom edge of the nozzle cap 110 to widen the mixed gas staying space 123. A dome portion 113 is formed on the upper surface 111 of the nozzle cap 110 so as to protrude upward. The protrusion 113 is located at the center of the nozzle cap upper surface 111. This is to induce the flame upward so as to cause a smooth combustion, and to induce the flame to flow to the outer side when food or the like falls.

"와 같이 경사진 일직선 형태로 형성될 수 있다. 또한 노즐캡은 가스 유입과 분출을 원활하게 할 수 있도록 중간부위가 꺾이어 " 》" 형태로 형성될 수도 있다.
According to the embodiment of the present invention, the nozzle hole 112 is formed in an annular shape along the edge of the nozzle cap 110. As shown in Fig. 3, the opening direction of the jet port of the nozzle hole 112 is set so as to converge toward the center of the nozzle cap 110,

The nozzle cap may be formed in the form of an intermediate portion so as to facilitate the inflow and outflow of gas.

Hereinafter, the main tube assemblies 200 and 300 connected to the lower portion of the nozzle body 100 will be described.

The main body 200 has a tubular shape and is formed so that its diameter increases toward the upper side. In other words, the main tube 200 is structured such that the inner diameter increases stepwise toward the upper part. The upper end of the main tube 200 is provided with an upper coupling part 211 to be fitted into the seating groove 124 of the main tube coupling pipe 122 of the nozzle body 100 and the air inlet holes 213, ). On the inner circumferential surface of the lower end engaging portion 215 of the main tube 200 is formed a female screw for screw connection with the air regulator 300 (see FIG. 2).

A plurality of air inflow holes 213, 214 and 216 are provided along the circumferential direction on the side wall of the main tube 200 and are constituted by first air inflow holes 213 and 214 and a second air inflow hole 216. Four first air inflow holes 213 and 214 and a second air inflow hole 216 are provided at intervals of 90 degrees along the circumferential direction of the main tube 200. Of course, this number is only an example. The second air inflow hole 216 is provided below the first air inflow holes 213 and 214, and more specifically, is provided in a section where a female screw is formed.

As shown in the drawing, the first air inflow holes 213 and 214 are provided in two rows in the upper and lower directions, and are disposed at positions staggered from each other. Accordingly, the outside air flows into the main tube 200 uniformly along the circumference of the main tube 200 as a whole.

And an air control port 300 formed with outer threads 310 and 330 on the outer circumferential surface thereof is screwed to the lower portion of the main tube 200. A fuel gas hole 340 is formed in the center of the air conditioner 300 along its longitudinal direction. A main nut 320 is provided at the center of the air conditioner 300. The air conditioner 300 may be integrally formed. It is possible to easily rotate the air conditioner 300 using the main nut 320. The opening width of the second air inflow hole 216 can be adjusted according to the degree of the screw connection between the air conditioner 300 and the main tube 200. That is, by rotating the air conditioner 300 clockwise or counterclockwise, the amount of air introduced from the outside can be adjusted. For reference, when the LNG having relatively low pressure is used, the second air inflow hole 216 is opened a lot and when the LPG having relatively high pressure is used, the second air inflow hole 216 is opened little.

As shown, the auxiliary nut 350 is coupled to the top of the main nut 320. The auxiliary nut 350 can perform the same function as a lock nut. That is, if the auxiliary nut 350 is brought into close contact with the lower end of the main tube 200, the air conditioner 300 can not be easily rotated.

The air introduced into the second air inlet hole 216 and the fuel gas supplied through the fuel gas hole 340 are mixed to produce a primary mixed gas. The primary mixed gas flows upward along the main tube 200.

According to the embodiment of the present invention, a narrow induction pipe 220 is further inserted and fixed inside the main tube 200. The induction pipe 220 is intended to allow the primary mixed gas to pass through the first air inflow holes 213 and 214 without being influenced by the outside.

The induction pipe 220 is installed at the center of the main tube 200. In particular, the induction pipe 220 is installed such that an annular air inflow space S is provided between the outer wall of the induction pipe 220 and the inner wall of the main tube 200. The induction pipe 220 may be spaced apart from the inner wall of the main tube 200 by a support block 217 protruding from the inner wall of the main tube 200. The outside air introduced into the first air inflow holes 213 and 214 is guided to the nozzle body 100 through the air inflow space S between the outer wall of the induction pipe 220 and the inner wall of the main tube 200 . For reference, the outside air is introduced into the main tube 200 through the first air inflow holes 213 and 214 by a negative pressure generated by a rising air flow of the primary mixed gas.

The primary mixed gas flows into the lower end of the induction pipe 220 and exits through the upper end. Then, the primary mixed gas exits the induction pipe 220 and is mixed with the external air introduced through the first air inlet holes 213 and 214 to be a secondary mixed gas. That is, the fuel gas is mixed with the outside air sequentially through the main tube assemblies (200, 300).

A socket 400 having a female screw at both ends may be coupled to the lower end of the air conditioner 300. The socket 400 may include a gas connection 400 connecting the fuel gas supply part 1 and the main tube assembly 200, It is means. 1, a nipple 2 is formed in the fuel gas supply part 1 for screw connection with the socket 400. As shown in FIG. The forms of the fuel gas supply part 1 and the nipple 2 do not limit the scope of the present invention as a matter of selection as required by a person skilled in the art.

Hereinafter, the operation will be described with reference to FIG. The fuel gas flows into the air control port 300 along the direction of the first arrow A1 through the socket 400 and flows through the second air inlet hole 216 in the direction of the second arrow A2 And thereby a primary mixed gas is produced. After passing through the induction pipe 220, the primary mixed gas is mixed again with the air flowing along the third arrow A3 through the first air inlet holes 213 and 214 to be a secondary mixed gas. The secondary mixed gas is uniformly mixed again in the mixed gas staying space 123 and then injected upward in the direction of the fourth arrow A4 through the nozzle hole 112. [

The fuel gas may be mixed with the air sequentially by mixing with the outside air, thus contributing to complete combustion. The flame is gathered toward the center of the gas burner by the nozzle hole 112, so that the phenomenon of wasting thermal power can be greatly reduced.

The above-described embodiments may be varied depending on the necessity or restriction conditions of those skilled in the art. That is, various modifications are possible based on the disclosed embodiments. It should be understood, however, that such modifications are included in the scope of the present invention as long as the practical technical idea of the present invention is utilized.

100: nozzle body 110: nozzle cap
112: nozzle hole 113; Dome
115: dispersion oil tool 120: nozzle housing
123: mixed gas retention space 200: main tube body
213, 214: first air inflow hole 216: second air inflow hole
217: Support block 220: Guide tube
300: air control valve 320: main nut
340: fuel gas hole 350: auxiliary nut
400: Socket S: Air inlet space

Claims (5)

delete delete delete delete A nozzle body for ejecting a mixed gas formed by mixing fuel gas and air to the outside; A main pipe assembly connected to a lower portion of the nozzle body and mixing fuel gas and air; 1. A cooking gas burner comprising: a fuel gas supply unit for supplying a fuel gas; and a gas connection unit installed at a lower end of the main tube assembly for connection of the main tube assembly;
The main tube assembly comprising:
A main tube body having a plurality of first air inflow holes along a circumferential direction and having a plurality of second air inflow holes along a circumferential direction at a lower portion of the first air inflow hole,
A fuel gas hole is formed at a central portion along a longitudinal direction of the main pipe body and an air control port for opening and closing the second air inflow hole according to the degree of screwing with the main pipe body, Including,
A first mixed gas, which is a mixture of air introduced into the second air inflow hole and fuel gas supplied through the fuel gas hole, flows through the first air inflow hole and passes through a point where the first air inflow hole is installed, Further comprising:
Wherein the guide pipe guides the air flowing into the first air inflow hole toward the nozzle body through a space between the outer wall of the guide pipe and the inner wall of the main tube,
Wherein the nozzle body comprises:
A main tube coupling pipe into which the upper end of the main tube is inserted; A nozzle housing provided at an upper end of the main tube coupling pipe to provide a mixed gas retention space, the nozzle housing having a wide top and a narrow bottom; And a nozzle cap which is mounted on an upper end of the nozzle housing and in which a plurality of nozzle holes are perforated,
A cone shaped dispersion oil tool for guiding the mixed gas passing through the main tube assembly to be radially dispersed is protruded from the bottom of the central portion of the nozzle cap to the mixed gas stay space,
Wherein the nozzle hole is formed along an edge of the nozzle cap, the opening direction of the nozzle hole is formed in a shape of an incline so as to be inclined so as to converge toward the center of the nozzle cap,
Wherein the induction pipe is spaced apart from an inner wall of the main tube by a support block protruding from the inner wall of the main tube.

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