KR101218024B1 - Burner of high thermal power - Google Patents

Abstract

PURPOSE: A high heating power gas burner is provided to improve the combustion efficiency of mixing gas with air by uniformly and efficiently mixing air, which is in an air housing space of an air supplying part, and air, which is in a gas housing space of a gas mixing part, inside an air and gas mixing space of an air and gas mixing part. CONSTITUTION: A high heating power gas burner comprises an air supplying part(10), an air gas mixing part(20), and a guide part(30). The air supplying part comprises an air housing space(102) and an air supplying pipe. The air supplying pipe supplies air to an annular air housing space. The air and gas mixing part comprises an air passing hole(201), an annular air and gas mixing space(202), jetting holes(204), and a gas supplying pipe(205). The air passing hole is connected with an air passing hole(101) of the air supplying part. The air and gas mixing space is positioned on the outside of the air passing hole and is connected with the air housing space of the air supplying part. The jetting holes are connected with the air and gas mixing space to jet gas mixed with the air. The gas supplying pipe supplies gas to the gas housing space. An air passing hole(301) of the guide part is connected with the air passing hole of the air and gas mixing part. The guide part guides gas, which is mixed with the air jetted from the jetting holes of the air and gas mixing part, to the upper part of the air and gas mixing part.

Description

BURNER OF HIGH THERMAL POWER}

According to the present invention, since the air in the air receiving space of the air supply part and the air in the gas receiving space of the air and gas mixing part are respectively supplied into the air and gas mixing space of the air and gas mixing part, respectively, they can be uniformly mixed with higher efficiency. Not only can the combustion efficiency of the gas mixed with the air be more improved, and in particular, the gas mixed with the air injected by the injection hole of the air and gas mixing part is an air communication port of the air supply part, the air and gas mixing part, and the guide part. The present invention relates to a high-burning gas burner that can be secondaryly mixed with external air passing through to improve the combustion efficiency of the gas mixed with the air.

In general, a small gas burner generates a high thermal power by an excessive supply of gas using a plastic supply pressure, and is used for a large amount of food production and rapid heating using the high thermal power.

These high-burning gas burners are manufactured to increase combustion efficiency by attaching nozzles for air supply to each crater, and generate high heating power by using 20 to 32 gas supply nozzles.

On the other hand, the high-burning gas burner has a variety of forms according to the use, mainly due to the gas injector to determine the performance of the gas jet injector according to the type of gas jet burner or Z-burner, cup burner, top burner, etc. Classify.

However, in the case of the high-heat gas burner as described above, there is a problem in that combustion efficiency is lowered because it is difficult to uniformly mix the air ejected by the air supply nozzle and the fuel gas injected by the gas supply nozzle.

The present invention was created in order to solve the above problems, and the air in the air receiving space of the air supply unit and the air in the gas receiving space of the air and gas mixing unit are respectively supplied into the air and gas mixing space of the air and gas mixing unit, respectively. Since it can be uniformly mixed at a higher efficiency, the combustion efficiency of the gas mixed with air can be greatly improved, and in particular, the gas mixed with the air injected by the injection hole of the air and gas mixing part is the air supply part. To provide a high-burning gas burner that can be further mixed with the outside air passing through the air communication ports of the air and gas mixing section and the guide section, so that the combustion efficiency of the gas mixed with the air can be further improved. For that purpose.

The present invention for achieving the above object is an air communication port is formed in the center, the annular air receiving space is formed inside to be located on the outside of the air communication opening, the air into the annular air receiving space on one side An air supply unit having an air supply pipe to supply the air supply unit; An air communication port seated on an upper part of the air supply part and communicating with an air communication port of the air supply part is formed in the center, and is located outside of the air communication port to communicate with the annular air receiving space of the annular air supply part. An annular air and gas mixing space and an annular gas receiving space located outside the annular air and gas mixing space to communicate with the annular air and gas mixing space are formed, and the annular air and gas mixing space is formed on the upper side. An air and gas mixing part communicating with the mixing space and having injection holes for injecting gas mixed with air at a predetermined interval, and having a gas supply pipe for supplying gas to the gas receiving space in an annular shape on one side; An air communication port is formed in the upper portion of the air and gas mixing portion, the air communication port communicating with the air communication port of the air and gas mixing portion is formed in the center, and the gas mixed with the air injected by the injection hole of the air and gas mixing portion of the air and It provides a high-burning gas burner comprising a; guide portion for guiding in the upper direction of the gas mixing portion.

Here, the air supply unit and the annular outer vertical bulkhead; An annular inner vertical bulkhead formed inside the annular outer vertical bulkhead; An annular horizontal bottom plate formed between a lower side of the annular outer vertical bulkhead and a lower side of the inner inner vertical bulkhead, wherein the air communication port is formed inside the annular inner vertical bulkhead. The annular air receiving space is formed between an inner circumferential surface of the outer vertical bulkhead and an outer circumferential surface of the inner inner vertical bulkhead, and the annular air receiving space communicates with the annular air receiving space on one side of the outer outer vertical bulkhead. It is preferable that the air supply pipe for supplying air to the space is provided.

And, the air and gas mixing unit and the lower air and gas mixing unit seated on the upper air supply; It is preferably configured as; the upper air and gas mixing portion seated on the lower air and gas mixing portion.

Here, the lower air and gas mixing portion and the annular lower outer vertical partition wall; An annular flange formed horizontally outwardly on an outer circumferential surface of the lower outer vertical partition wall of an annular shape; An annular lower inner vertical bulkhead formed inside the annular lower outer vertical bulkhead; An annular lower horizontal bottom plate formed between a lower side of the annular lower outer vertical bulkhead and a lower side of the lower inner inner vertical partition wall, wherein the upper air and gas mixing portion comprises an annular upper outer vertical partition wall; An annular upper inner vertical bulkhead formed inside the annular upper outer vertical bulkhead; An annular upper horizontal plate is formed between an upper side of the upper outer vertical barrier rib and an upper side of the upper inner vertical barrier rib.

The air communication port may include: a lower air communication port formed inside the annular lower inner vertical bulkhead; An upper air communication port formed inside the annular upper inner vertical bulkhead, wherein the annular air and gas mixing space is between an inner circumferential surface of the lower outer vertical bulkhead and an outer circumferential surface of the lower inner vertical bulkhead of the annular shape; A lower air and gas mixing space formed at the bottom; An upper air and gas mixing space formed between an inner circumferential surface of the annular upper outer vertical bulkhead and an outer circumferential surface of the upper inner inner vertical bulkhead annular, wherein the annular gas receiving space is formed inside the annular flange The injection hole has an outer injection hole formed at a predetermined interval on the upper side of the upper outer vertical bulkhead of the annular; An inner injection hole formed at a predetermined interval on an upper side of the upper inner vertical bulkhead of the annular shape and communicating with the annular gas receiving space to one side of the annular flange to supply gas to the annular gas receiving space It is preferable that the gas supply pipe is provided.

And an air guide for guiding the air received in the annular air receiving space to the annular air and gas mixing space by communicating the annular air receiving space and the annular air and gas mixing space to the annular lower horizontal bottom plate A ball is formed and communicates the gas contained in the annular gas receiving space to the annular air and gas mixing space by communicating the annular gas receiving space and the annular air and gas mixing space inside the annular lower outer vertical bulkhead. It is preferable that a gas guide hole is formed.

Further, the outer injection hole is inclined upward in the direction of the outer circumferential surface of the annular upper outer vertical bulkhead from the inner circumferential surface of the upper outer vertical bulkhead annularly from the lower side to the upper side, and the inner ejection hole is annular from the lower side to the upper side. It is preferable to incline upward from the outer circumferential surface of the upper inner vertical bulkhead toward the inner circumferential surface of the annular upper inner vertical bulkhead.

In addition, the guide portion and the annular guide flange which is accommodated in the upper portion of the air and gas mixing portion with the injection hole; The guide plate is vertically formed at a predetermined interval on the upper portion of the annular guide flange and seated on the upper surface of the air and gas mixing portion.

In addition, it is preferable that an inclined surface is inclined upwardly from the inner circumferential surface of the annular guide flange toward the outer circumferential surface of the annular guide flange toward the inner circumferential surface of the annular guide flange.

An annular outer projection jaw formed horizontally outwardly of the annular upper outer vertical bulkhead above the outer circumferential surface of the annular upper outer vertical bulkhead so as to be positioned in an upper direction of the injection hole; An annular protruding jaw consisting of an annular inner protruding jaw horizontally protruding into an inner side of the upper inner inner vertical bulkhead is formed on an inner circumferential surface of the annular upper inner vertical wall.

In addition, it is preferable that an annular protruding plate is formed on the outer circumferential surface of the annular upper outer vertical bulkhead so as to be located in the lower direction of the guide portion, and has an annular protrusion formed horizontally outward of the upper outer vertical bulkhead of the annular shape.

Further, it is preferable that an annular seating groove is formed on the upper surface of the air supply unit to seat the lower side of the air and gas mixing unit.

In addition, it is preferable that an annular seating groove in which the upper air and gas mixing parts are seated is formed on an upper surface of the lower air and gas mixing part.

In addition, it is preferable that an annular receiving groove is formed in the lower surface of the annular guide plate to accommodate the upper portion of the air and gas mixture.

According to the present invention, since the air in the air receiving space of the air supply part and the air in the gas receiving space of the air and gas mixing part are respectively supplied into the air and gas mixing space of the air and gas mixing part, respectively, they can be uniformly mixed with higher efficiency. Not only can the combustion efficiency of the gas mixed with the air be more improved, and in particular, the gas mixed with the air injected by the injection hole of the air and gas mixing part is an air communication port of the air supply part, the air and gas mixing part, and the guide part. Since it can be secondarily mixed with the external air passing through it has an effect that the combustion efficiency of the gas mixed with the air can be improved even more significantly.

1 is a perspective view schematically showing a high-burning gas burner which is an embodiment of the present invention;
Fig. 2 is a front view of Fig. 1,
3 is an exploded cross-sectional view of FIG.
4 is a cross-sectional view of the coupling of FIG.
5 is a cross-sectional view schematically showing the annular projection jaw and the annular projection plate,
6 is a cross-sectional view schematically showing the flow of air and gas.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

1 is a perspective view schematically showing a high thermal power gas burner according to an embodiment of the present invention, and FIG. 2 is a front view of FIG. 1.

High thermal power gas burner is an embodiment of the present invention as shown in Figure 1 and 2, largely comprises an air supply unit 10, air and gas mixing unit 20 and the guide unit 30.

3 is an exploded cross-sectional view of FIG. 2, and FIG. 4 is a cross-sectional view of the combination of FIG. 2.

First, as shown in FIGS. 3 and 4, an air communication port 101 having an upper side and a lower side opened in the center of the air supply unit 10 is vertically formed.

The outside air around the air supply unit 10 may be introduced into the air communication port 101.

Although not shown in the drawing to facilitate the inflow of external air around the air supply unit 10 into the air communication port 101, the air supply unit 10 is disposed on the lower surface of the air supply unit 10. The support for supporting a certain height from the ground may be vertically formed at a predetermined interval.

An annular air receiving space 102 is formed inside the air supply unit 10 so as to be located outside the air communication port 101.

One side of the air supply unit 10 is horizontally provided with an air supply pipe 103 for supplying air into the annular air receiving space 102.

Next, the air and gas mixing unit 20 is detachably seated on the upper portion of the air supply unit 10 by an operator.

As shown in FIG. 3, an air communication port 201 communicating with the air communication port 101 of the air supply part 10 is vertically formed at the center of the air and gas mixing part 20.

An annular air and gas mixing space communicating with the annular air receiving space 102 of the air supply unit 10 inside the air and gas mixing unit 20 so as to be located outside the air communication port 201. 202 is formed.

In addition, the inside of the air and gas mixing section 20 so as to be located outside the annular air and gas mixing space 202, the annular gas receiving space communicating with the annular air and gas mixing space 202 ( 203 is formed.

The upper side of the air and gas mixing unit 20 is in communication with the annular air and gas mixing space 202, the injection hole for injecting gas mixed with air in the upper direction of the air and gas mixing unit 20 ( 204 is formed at regular intervals.

On one side of the air and gas mixing unit 20 is provided with a gas supply pipe 205 for supplying gas to the gas receiving space 203 of the annular horizontal.

Next, the guide portion 30 is detachably seated by an operator on the upper portion of the air and gas mixing portion 20 as shown in Figures 3 and 4.

In the center of the guide portion 30 is an air communication port 301 communicating with the air communication port 201 of the air and gas mixing unit 20 is vertically formed.

The guide part 30 guides the gas mixed with the air injected by the injection hole 204 of the air and gas mixing part 20 toward the upper direction of the air and gas mixing part 20.

Next, the air supply unit 10 may be composed of an annular outer vertical bulkhead 110, an annular inner vertical bulkhead 120 and an annular horizontal bottom plate 130 as shown in FIG.

The annular outer vertical bulkhead 110 may be vertically formed at a predetermined length in the vertical direction.

The annular inner vertical bulkhead 120 may be vertically formed vertically at a predetermined length in the up and down direction inside the annular outer vertical bulkhead 110 while maintaining a predetermined distance from the annular outer vertical bulkhead 110. .

The annular horizontal bottom plate 130 may be integrally formed horizontally between the lower side of the annular outer vertical bulkhead 110 and the lower side of the annular inner vertical bulkhead 120.

The air communication port 101 may be formed inside the annular inner vertical bulkhead 120.

The annular air receiving space 102 may be formed between an inner circumferential surface of the annular outer vertical partition wall 110 and an outer circumferential surface of the inner annular vertical partition wall 120.

The air supply pipe 103 which is connected to the air receiving space 102 of the annular to one side of the outer vertical bulkhead 110 of the annular to supply air to the air receiving space 102 of the annular to be connected horizontally Can be.

Next, the air and gas mixing unit 20 may be composed of a lower air and gas mixing unit 210 and an upper air and gas mixing unit 220 as shown in FIG.

The lower air and gas mixing unit 210 may be detachably seated by an operator on an upper portion of the air supply unit 10.

The upper air and gas mixing unit 220 may be detachably seated by an operator on the upper portion of the lower air and gas mixing unit 210.

Next, the lower air and gas mixing unit 210 is an annular lower outer vertical bulkhead 211, an annular flange 212, an annular lower inner vertical bulkhead 213 and an annular lower part as shown in FIG. 3. It may be composed of a horizontal bottom plate (214).

The lower outer vertical bulkhead 211 of the annular shape may be vertically formed at a predetermined length in the vertical direction.

The annular flange 212 may be horizontally projected to a predetermined length from the outer circumferential surface of the annular lower outer vertical bulkhead 211 to the outside of the annular lower outer vertical bulkhead 211.

The annular lower inner vertical bulkhead 213 is vertically formed at a predetermined length in the vertical direction inside the annular lower outer vertical bulkhead 211 while maintaining a constant distance from the annular lower outer vertical bulkhead 211. Can be.

The annular lower horizontal bottom plate 214 may be integrally horizontally formed between the lower side of the lower outer vertical bulkhead 211 of the annular and the lower side of the lower inner vertical bulkhead 213 of the annular shape.

Next, the upper air and gas mixing unit 220 is composed of an annular upper outer vertical bulkhead 221, an annular upper inner vertical bulkhead 222 and an annular upper horizontal plate 223. Can be.

The annular upper outer vertical bulkhead 221 may be vertically formed at a predetermined length in the vertical direction.

The annular upper inner vertical bulkhead 222 is vertically formed at a predetermined length in the vertical direction in the inner side of the upper outer vertical bulkhead 221 of the annular shape while maintaining a predetermined distance from the upper outer vertical bulkhead 221 of the annular shape. Can be.

The annular upper horizontal plate 223 may be integrally horizontally formed between an upper side of the upper outer vertical partition wall 221 and an upper side of the upper inner vertical partition wall 222 of the annular shape.

Next, the air communication port 201 of the air and gas mixing unit 20 may be composed of a lower air communication port 201a and an upper air communication port 201b as shown in FIG.

The lower air communication port 201a may be vertically formed inside the lower inner vertical bulkhead 213 in an annular shape.

The upper air communication port 201b may be vertically formed inside the upper inner vertical bulkhead 222 of the annular shape.

Next, the air and gas mixing space 202 of the annular shape of the air and gas mixing unit 20 is the lower air and gas mixing space 202a and the upper air and gas mixing space 202b as shown in FIG. Can be made.

The annular lower air and gas mixing space 202a may be vertically formed between an inner circumferential surface of the lower outer vertical rib 211 and an outer circumferential surface of the lower inner vertical bulkhead 213 of the annular shape.

The annular upper air and gas mixing space 202b is annular to the inner circumferential surface of the upper outer vertical bulkhead 221 and the upper inner vertical water barrier 222 so as to communicate with the lower air and gas mixing space 202a. It may be vertically formed between the outer peripheral surface of the).

Next, the annular gas receiving space 203 of the air and gas mixing unit 20 may be vertically formed inside the annular flange 212 as shown in FIG.

Next, the injection hole 204 of the air and gas mixing unit 20 may be composed of an outer injection hole 204a and an inner injection hole 204b as shown in FIG. 3.

The outer injection hole 204a may be formed at a predetermined interval on the upper side of the upper outer vertical partition wall 221 of the annular shape.

The inner injection hole 204b may be formed at a predetermined interval on the upper side of the upper inner vertical vertical wall 222.

One side of the annular flange 212 may be connected to the gas receiving space 203 of the annular to the gas supply pipe 205 for supplying gas into the gas receiving space 203 of the annular may be horizontally connected. .

Next, an air guide hole 40 may be vertically formed on the central surface of the lower horizontal bottom plate 214 of the annular shape as shown in FIG. 3.

The air guide hole 40 communicates the annular air receiving space 102 with the annular air and gas mixing space 202 of the annular air and gas mixing space 202 so that the annular air receiving space 102 is formed. The air contained in) is guided into the air and gas mixing space 202a below the annular air and gas mixing space 202.

Next, the gas guide hole 50 may be horizontally formed in the inner center of the annular lower outer vertical bulkhead 211.

The gas guide hole 50 communicates the annular gas receiving space 203 with the annular air and gas mixing space 202 of the annular air and gas mixing space 202 so that the gas receiving space 203 has an annular shape. ), The gas contained in the guide is guided into the air and gas mixing space 202a below the annular air and gas mixing space 202.

Next, as shown in FIG. 3, the outer injection hole 204a has the annular upper outer vertical bulkhead at the inner circumferential surface of the upper outer vertical bulkhead 221 annular from the lower side to the upper side. It may be formed to be inclined upward in the direction of the outer peripheral surface of (221).

In addition, the inner injection hole 204b may be formed to be inclined upward in the direction of the inner circumferential surface of the upper inner vertical vertical wall 222 of the annular from the outer circumferential surface of the upper inner vertical bulkhead 222 of the annular toward the upper side.

Next, the guide portion 30 may be composed of an annular guide flange 310 and the guide plate 320 as shown in FIG.

The upper portion of the air and gas mixing portion 20 together with the injection hole 204 is inside the annular guide flange 310 in a state of maintaining a constant interval with the annular guide flange 310 in a horizontal state Can be accommodated.

The guide plate 320 is vertically integrally formed at a predetermined interval on an upper portion of the annular guide flange 310 in a horizontal state to form an upper portion of the upper air and gas mixing portion 220 of the air and gas mixing portion 20. The face may be detachably seated by an operator.

Next, an inclined surface 330 may be formed on the inner circumferential surface of the annular guide flange 310 as shown in FIG. 3.

The inclined surface 330 may be formed to be inclined upward in the direction of the outer circumferential surface of the annular guide flange 310 from the inner circumferential surface of the annular guide flange 310 from the lower side to the upper side.

While the gas mixed with the air injected by the injection hole 204 of the air and gas mixing part 20 collides with the inclined surface 330 formed on the inner circumferential surface of the annular guide flange 310, the velocity decreases and vortex Since it is injected in the upper direction of the air and gas mixing unit 20 while generating a flame, a phenomenon in which the flame rises when the flame is generated is not generated.

5 is a cross-sectional view schematically showing the annular projection jaw 60 and the annular projection plate 70.

Next, as illustrated in FIG. 5, an annular protrusion jaw 60 including an annular outer protrusion jaw 610 and an annular inner protrusion jaw 620 may be further provided.

The annular outer projection jaw 610 is horizontally outward of the annular upper outer vertical bulkhead 221 on the outer circumferential surface of the annular upper outer vertical bulkhead 221 so as to be positioned in an upper direction of the injection hole 204. It can be protruding.

The annular inner protruding jaw 620 is horizontally inward of the annular upper inner vertical bulkhead 222 above the inner circumferential surface of the annular upper inner vertical bulkhead 222 so as to be positioned in an upper direction of the injection hole 204. It can be protruding.

Foreign matter, including some of the food being cooked, is introduced into the injection hole 204 through the protruding jaw 60 of the annular shape, thereby preventing the injection hole 204 from being clogged more easily.

Next, as shown in FIG. 5, the outer circumferential surface center of the annular upper outer vertical bulkhead 221 is positioned in the lower direction of the annular guide flange 310 of the guide part 30. An outer protruding plate 70 having a horizontal protrusion formed at a predetermined length to the outside of the 221 may be provided.

Through the annular protruding plate 70, foreign matters, including a portion of food being cooked, may be more easily prevented from falling downward of the annular protruding plate 70.

Next, in order to prevent the air and gas mixing unit 20 seated on the upper portion of the air supply unit 10 from shaking, the air and gas mixing unit is disposed on the upper surface of the air supply unit 10 as shown in FIG. An annular mounting groove 80 in which the lower side of the 20 is seated may be recessed to a predetermined depth in the downward direction of the air supply unit 10.

The annular seating groove 80 may be in communication with the annular air receiving space (102).

Next, in order to prevent the upper air and gas mixing unit 220 seated on the upper portion of the lower air and gas mixing unit 210 from being shaken, as shown in FIG. An upper surface of the annular seating groove 90 in which the upper air and gas mixing part 220 is seated may be recessed to a predetermined depth in the lower direction of the lower air and gas mixing part 210.

The annular seating groove 90 may be in communication with the annular lower air and gas mixing space 202a.

Next, in order to prevent the guide plate 320 of the guide part 30 seated on the upper air and gas mixing part 220 of the air and gas mixing part 20 from being shaken, the guide flange of an annular shape ( An annular receiving groove 100 accommodating an upper portion of the air and gas mixing part 20 has a lower surface of the annular guide plate 320 so as to be located inside the annular guide plate 320. Can be recessed to a certain depth into the upper room.

6 is a cross-sectional view schematically showing the flow of air and gas.

In the present invention configured as described above, as shown in FIG. 6, the air in the air receiving space 102 of the air supply unit 10 and the air in the gas receiving space 203 of the air and gas mixing unit 20 are respectively. Since the air and gas mixing spaces 202 of the air and gas mixing spaces 202 are respectively supplied and can be uniformly mixed with higher efficiency, the combustion efficiency of the gas mixed with air can be further improved. ,

In particular, the gas mixed with the air injected by the injection hole 204 of the air and gas mixing unit 20 is the air supply unit 10, the air and gas mixing unit 20 and the guide unit 30 Since it can be secondaryly mixed with the external air passing through the air communication ports 101, 201, and 301, there is an advantage that the combustion efficiency of the gas mixed with the air can be further improved.

10; Air supply unit 20; Air and gas mixing unit,
30; Guide section.

Claims (14)

An air communication port 101 is formed in the center, and an annular air receiving space 102 is formed therein so as to be located outside of the air communication opening 101, and the annular air receiving space 102 is formed at one side. An air supply unit 10 having an air supply pipe 103 for supplying air;
An air communication port 201 which is seated on an upper portion of the air supply unit 10 and communicates with the air communication port 101 of the air supply unit 10 is formed in the center, and the air communication port 201 is formed therein. Located in the outer side of the annular air and gas mixing space 202 and the annular air and gas mixing space 202 communicated with the annular air receiving space 102 of the air supply unit 10 The annular gas receiving space 203 is formed in communication with the annular air and gas mixing space 202, the upper side is in communication with the annular air and gas mixing space 202 to inject the gas mixed with air An injection hole 204 formed at a predetermined interval, and an air and gas mixing part 20 having a gas supply pipe 205 for supplying gas to the gas receiving space 203 in an annular shape on one side thereof;
The air and gas mixing part 20 is seated on the upper portion, the air communication port 201 is formed in communication with the air communication port 201 of the air and gas mixing unit 20, the air and gas And a guide part 30 for guiding the gas mixed with the air injected by the injection hole 204 of the mixing part 20 to the upper direction of the air and gas mixing part 20.
The air supply unit 10 has an annular outer vertical bulkhead 110;
An annular inner vertical bulkhead (120) formed inside the annular outer vertical bulkhead (110);
And an annular horizontal bottom plate 130 formed between the lower side of the annular outer vertical bulkhead 110 and the lower side of the annular inner vertical bulkhead 120.
The air communication port 101 is formed inside the annular inner vertical bulkhead 120,
The annular air receiving space 102 is formed between an inner circumferential surface of the annular outer vertical bulkhead 110 and an outer circumferential surface of the inner annular vertical bulkhead 120.
One side of the annular outer vertical bulkhead 110 is in communication with the annular air receiving space 102 is characterized in that the air supply pipe 103 for supplying air to the annular air receiving space 102 is provided High-burning gas burner.
An air communication port 101 is formed in the center, and an annular air receiving space 102 is formed therein so as to be located outside of the air communication opening 101, and the annular air receiving space 102 is formed at one side. An air supply unit 10 having an air supply pipe 103 for supplying air;
An air communication port 201 which is seated on an upper portion of the air supply unit 10 and communicates with the air communication port 101 of the air supply unit 10 is formed in the center, and the air communication port 201 is formed therein. Located in the outer side of the annular air and gas mixing space 202 and the annular air and gas mixing space 202 communicated with the annular air receiving space 102 of the air supply unit 10 The annular gas receiving space 203 is formed in communication with the annular air and gas mixing space 202, the upper side is in communication with the annular air and gas mixing space 202 to inject the gas mixed with air An injection hole 204 formed at a predetermined interval, and an air and gas mixing part 20 having a gas supply pipe 205 for supplying gas to the gas receiving space 203 in an annular shape on one side thereof;
The air and gas mixing part 20 is seated on the upper portion, the air communication port 201 is formed in communication with the air communication port 201 of the air and gas mixing unit 20, the air and gas And a guide part 30 for guiding the gas mixed with the air injected by the injection hole 204 of the mixing part 20 to the upper direction of the air and gas mixing part 20.
The air and gas mixing unit 20 includes a lower air and gas mixing unit 210 seated on the upper portion of the air supply unit 10;
A high thermal power gas burner, characterized in that consisting of; upper air and gas mixing portion 220 which is seated on the upper portion of the lower air and gas mixing portion (210).
The method of claim 2,
The lower air and gas mixing unit 210 includes an annular lower outer vertical bulkhead 211;
An annular flange 212 formed horizontally outwardly on an outer circumferential surface of the annular lower outer vertical bulkhead 211;
An annular lower inner vertical bulkhead 213 formed inside the annular lower outer vertical bulkhead 211;
An annular lower horizontal bottom plate 214 formed between the lower side of the annular lower outer vertical bulkhead 211 and the lower side of the lower inner vertical bulkhead 213.
The upper air and gas mixing unit 220 has an annular upper outer vertical bulkhead 221;
An annular upper inner vertical bulkhead 222 formed inside the annular upper outer vertical bulkhead 221;
And an annular upper horizontal plate (223) formed between an upper side of the annular upper outer vertical partition wall (221) and an upper side of the annular upper inner vertical partition wall (222).
The method of claim 3,
The air communication port 201 includes a lower air communication port 201a formed inside the annular lower inner vertical bulkhead 213;
And an upper air communication port 201b formed inside the upper inner vertical wall 222 of an annular shape.
The annular air and gas mixing space 202 is a lower air and gas mixing space 202a formed between an inner circumferential surface of the annular lower outer vertical bulkhead 211 and an outer circumferential surface of the annular lower inner vertical bulkhead 213. and;
And an upper air and gas mixing space 202b formed between an inner circumferential surface of the annular upper outer vertical bulkhead 221 and an outer circumferential surface of the annular upper inner vertical bulkhead 222.
The annular gas receiving space 203 is formed inside the annular flange 212,
The injection hole 204 and the outer injection hole (204a) formed at a predetermined interval on the upper side of the upper outer vertical partition wall (221) of the annular;
An inner injection hole 204b formed at a predetermined interval on an upper side of the upper inner vertical wall 222 of an annular shape,
The gas supply pipe 205 is provided on one side of the annular flange 212 is in communication with the annular gas receiving space 203 for supplying gas to the annular gas receiving space 203. Thermal gas burners.
The method of claim 3,
The annular lower horizontal bottom plate 214 communicates with the annular air receiving space 102 and the annular air and gas mixing space 202 so that the air received in the annular air receiving space 102 is annular to the An air guide hole 40 for guiding the air and gas mixing space 202 is formed,
The annular gas receiving space 203 and the annular air and gas mixing space 202 communicate with each other in the annular lower outer vertical bulkhead 211 so that the gas contained in the annular gas receiving space 203 is annular. High thermal power gas burner, characterized in that the gas guide hole 50 is guided to the air and gas mixing space 202 is formed.
5. The method of claim 4,
The outer injection hole 204a is inclined upward in the direction of the outer circumferential surface of the annular upper outer vertical bulkhead 221 from the inner circumferential surface of the upper outer vertical bulkhead 221 in an annular direction from the lower side to the upper side,
The inner injection hole 204b is inclined upward in the direction of the inner peripheral surface of the annular upper inner vertical bulkhead 222 from the outer peripheral surface of the annular upper inner vertical bulkhead 222 toward the upper side from the lower side to the upper side burner.
3. The method according to claim 1 or 2,
The guide part 30 includes an annular guide flange 310 in which an upper portion of the air and gas mixing part 20 is accommodated together with the injection hole 204;
Highly-powered gas burner, characterized in that consisting of; guide plate 320 is vertically formed on the upper portion of the annular guide flange 310 at a predetermined interval to be seated on the upper surface of the air and gas mixing portion (20).
8. The method of claim 7,
On the inner circumferential surface of the annular guide flange 310 toward the bottom from the upper side toward the outer circumferential surface direction of the annular guide flange 310 of the annular guide flange 310 is inclined upwardly inclined surface 330 is formed High-burning gas burner characterized by.
The method of claim 3,
An annular outer projection jaw 610 which is formed horizontally outwardly of the annular upper outer vertical bulkhead 221 on the outer circumferential surface of the annular upper outer vertical bulkhead 221 so as to be positioned in an upper direction of the injection hole 204. )and;
Annular projection jaw (60) consisting of an annular inner protruding jaw (620) protruding horizontally to the inside of the annular upper inner vertical bulkhead 222 on the inner circumferential surface of the annular upper inner vertical bulkhead (222) High thermal power gas burner characterized in that it is provided.
The method of claim 3,
An annular protruding plate 70 formed horizontally outwardly of the annular upper outer vertical bulkhead 221 on the outer circumferential surface of the annular upper outer vertical bulkhead 221 so as to be positioned in the lower direction of the guide part 30. High thermal power gas burner characterized in that it is provided.
3. The method according to claim 1 or 2,
High thermal power gas burner, characterized in that the annular seating groove (80) is formed on the upper surface of the air supply unit 10 is seated on the lower side of the air and gas mixing unit (20).
The method of claim 2,
High thermal power gas burner, characterized in that the annular seating groove 90 is formed on the upper surface of the lower air and gas mixing unit 210 is seated.
8. The method of claim 7,
High thermal power gas burner, characterized in that the annular receiving groove (100) for receiving the upper portion of the air and gas mixing portion 20 is formed on the lower surface of the annular guide plate (320). delete

Images