KR101238425B1 - Ignition apparatus for gas range - Google Patents

Abstract

The present invention, the gas inlet pipe through which the gas is supplied injection; A hand part including a body supporting the gas inlet pipe, a lever installed in and out through an opening formed in the lower surface of the body, and a piezoelectric element configured to press a button according to an operation of the lever to generate piezoelectric elements; And a gas passage formed therein, and a front end of the gas inlet tube is inserted into a rear end of the gas passage, and the primary air supply is introduced into the gas passage through the outer circumferential surface in front of the front end of the gas inlet tube. A hole is formed in the air mixer, and the gas passage and the gas flow hole therein is inserted into the front end of the air mixer in communication with the gas flow hole through the outer circumferential surface, through the gas flow hole A fireball having a main mixed gas flow discharged through the front and a flame mixed port discharged through the flame port to flow forward along the outer circumferential surface, and the peripheral mixed gas flow according to the operation of the piezoelectric element. A spark plug secured to the air mixer to provide a spark that ignites the Provides, buldae for a gas cooking appliance comprising a lighting unit provided with the flame guide beam of the open tubular holding a cooking zone having a yeomgu therein.

Description

Fireplace for gas stove {IGNITION APPARATUS FOR GAS RANGE}

The present invention relates to an ignition device for a gas stove, and more particularly, to a gas stove incinerator used for ignition in a commercial gas stove equipped with a plurality of burners.

In general, stoves are distinguished for household and commercial use. Commercial stoves are equipped with a plurality of burners to cook food quickly and in large quantities when compared to household stoves, and the gas pressure is set higher than that for the home to increase fire power. In general, the gas pressure used in kitchens, such as restaurants, is about 10 times higher than that used at home.

In household stoves, it is common to use a rotary knob that attaches ignition and fire control to the front of the stove. Turn the rotary knob to the maximum to generate sparks from the spark plug, and turn the rotary knob back to adjust the firepower to the desired intensity. This rotary knob type ignition method has the advantage that the ignition can be made stable, but there is a disadvantage that takes time to control the ignition and firepower.

In an environment where a commercial gas stove is used, such as a kitchen of a restaurant, since there are many foods to be cooked and orders are often made at the same time, a cooking environment is cooked on each burner almost simultaneously. Therefore, each burner needs to be ignited quickly in a commercial gas stove. In addition, the gas pressure supplied to the commercial gas stove is higher than the domestic gas stove, it is necessary that the ignition is stable to the gas ejected at a relatively high pressure. For this reason, restaurant kitchens that use commercial gas stoves generally use fire ignition.

A fire is a tubular member connected to a gas boom bay or a gas supply pipe with a gas hose, and the user ignites the fire using a lighter while the gas is opened through the valve. Ignite the burner valve while moving. Since several burners can be ignited at substantially the same time and the fire power provided is high, reliable ignition is possible even when the gas blowing pressure from the burners is high. In addition, in the case of a skilled cook it is possible to adjust the valve opening degree according to the required fire power, the heat control and ignition can be made at the same time.

Because of these advantages, in kitchens such as restaurants, the fire is recognized as the most convenient ignition device.

However, there is a disadvantage that the conventional incandescent does not require a separate ignition device, a separate ignition is required using a lighter or the like. In addition, since the thermal power formed at the same time as the ignition is strong, unskilled people may burn in case of fire ignition. In addition, there is a problem that the flame ignited by the fire is scattered or extinguished by the high gas pressure ejected through the burner. In particular, there is a tendency that the fire is not caught at a time when the ignition by using a lighter, etc. is high because the gas pressure ejected through the fire zone is high, there is a risk of explosion when the ignition by the gas ejected before ignition occurs.

The present invention is to provide a gas stove for the ignition can be stably ignited in the gas stove itself without a separate ignition tool such as a lighter.

In addition, the present invention is to provide a gas stove for burning a gas stove can be quickly ignited according to the operation of the lever to reduce the gas consumption.

In addition, the present invention is to provide a gas stove for the stove is configured in a form that can operate the lever as a whole finger is improved in ease of use.

In addition, the present invention can be ignited by the lever at the same time as the gas injection, it is to provide a gas stove incinerator that can eliminate the risk of explosion and fire caused by gas blowing.

In addition, the present invention is to provide a gas stove for burning the flame does not increase even during the movement.

In another aspect, the present invention is to provide a gas stove for burning the gas ignition by collecting the gas ejected through the crater of the gas stove without the gas injection through the gas stove for burning.

The present invention, in order to solve the above problems, the gas inlet pipe is gas supply injection; A hand part including a body supporting the gas inlet pipe, a lever installed in and out through an opening formed in the lower surface of the body, and a piezoelectric element configured to press a button according to an operation of the lever to generate piezoelectric elements; And a gas passage formed therein, and a front end of the gas inlet tube is inserted into a rear end of the gas passage, and the primary air supply is introduced into the gas passage through the outer circumferential surface in front of the front end of the gas inlet tube. A hole is formed in the air mixer, and the gas passage and the gas flow hole therein is inserted into the front end of the air mixer in communication with the gas flow hole through the outer circumferential surface, through the gas flow hole A fireball having a main mixed gas flow discharged through the front and a flame mixed port discharged through the flame port to flow forward along the outer circumferential surface, and the peripheral mixed gas flow according to the operation of the piezoelectric element. A spark plug secured to the air mixer to provide a spark that ignites the Provides, buldae for a gas cooking appliance comprising a lighting unit provided with the flame guide beam of the open tubular holding a cooking zone having a yeomgu therein.

According to the present invention, the flame guide may be formed in a form in which a secondary air supply hole for providing air to the surrounding mixed gas flow is formed.

In addition, the flame guide is formed in a form in which a lower side is opened at the front end and a gas collecting portion protruding forward is formed at the front side so that the gas introduced through the lower opening is collected by the gas collecting portion. In this configuration, since the gas collecting unit collects the gas supplied from the burner to create a favorable atmosphere for ignition, ignition is possible without the gas provided in the fire.

According to the present invention, the fireball having the flame port is inserted into an insertion groove formed at the front end of the gas passage of the air mixer, wherein a gap is formed between the inner circumferential surface and the outer circumferential surface of the first half of the insertion groove. It is formed in the gap portion, the inner circumferential surface of the gas flow hole therein, the inner diameter is narrowed toward the front of the flame opening is formed, the step is formed, the peripheral mixed gas flow discharged through the gap on the outer circumferential surface located outside A radially protruding diffuser plate is formed to flow forward along the outer circumferential surface and strike and spread.

According to the invention, the body of the hand portion is formed in the form of being wrapped by the palm, the lever is fixed to the hinge portion formed in the lower rear side of the lower body inner surface to be rotatable, the front of the opening of the body in the front end With a locking end in contact with the side, applying a force in the form wrapped by the finger is formed rotatably around the hinge portion.

According to the present invention, since ignition can be performed without a separate ignition tool such as a lighter, convenience and stability are improved.

In addition, the user can ignite by operating the lever while supplying the gas to the gas stove fire zone, it is possible to prevent the gas is ejected in the unignitioned state. Accordingly, it is possible to reduce the gas consumption, it is possible to prevent the explosion and fire caused by the gas collected in the room in the unignitioned state.

In addition, the present invention is to move the entire finger in the state of wrapping the hand portion with the palm of the hand to operate the lever, it can be prevented to give a wrist or fingers even for a long time use.

Further, according to the present invention, since the flame serves to hold the main flame, there is an advantage that the flame does not occur even under the influence of movement or ambient airflow.

According to the present invention, there is an advantage that gas is easily collected in the gas collecting portion of the flame guide, so that the burner can be ignited even when no gas is supplied to the fire zone. That is, it is possible to use variously according to the use environment, thereby increasing the convenience of use.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing the appearance of a gas stove incinerator according to the present invention.
2 is a cross-sectional view of the gas stove in accordance with the present invention.
Figure 3 is a cross-sectional view of the combined fireball having an air mixer and flame in the stove for gas stove according to the present invention.
4 is a view showing an example of a flame guide in the gas stove for incineration according to the present invention.
5 is a view showing another example of a flame guide in the gas stove for incineration according to the present invention.
6 is a view for explaining the flow of gas and the ignition process in the gas stove for stove according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing the appearance of a gas stove incinerator according to the present invention, and FIG.

Referring to FIGS. 1 and 2, the gas stove incinerator according to the present invention includes a gas inflow pipe 10, a hand part 20, and an ignition part 30.

The gas inflow pipe 10 is a hollow tubular member in which a gas flow passage 11 is formed. It is provided with a nipple (12, nipple) is connected to the gas hose (not shown) at the rear end, and the gas nozzle 13 is provided at the front end. The gas hose connected through the nipple 12 is provided with a valve (not shown). Therefore, when the valve is opened, gas is introduced into the gas inlet pipe 10 through the gas hose.

The gas nozzle 13 fixed to the front end of the gas inlet pipe 10 is detachably coupled to the gas inlet pipe 10 by a screw type or the like. The gas introduced into the gas inlet pipe 10 is discharged into the gas flow path 11 through the gas nozzle 13. Since the gas nozzle 13 is detachably configured, the gas nozzle 13 can be replaced according to the type of gas.

The present invention includes a hand part 20 fixed to the gas inlet pipe 10. The hand portion 20 includes a body 22 through which the gas inlet pipe 10 is supported, and a lever 25 and a piezoelectric element 28 rotatably coupled to the body 22.

Body 22 is a gas inlet pipe 10 is supported therein, the nipple 12 is protruded to the rear end. Therefore, the gas inlet pipe 10 is fixed therein in such a way that the nipple 12 protrudes to the rear end of the body 22.

The body 22 is formed to be wrapped in the palm of the user, and the lever 25 is installed to be accessible to the inside of the body 23 through an opening formed in the lower surface thereof.

The lever 25 is pressed into the inside of the body 23 through an opening formed in the lower surface of the body 22 and operates to return to the outside by the repulsive force of the button of the piezoelectric element 28. A hinge portion 24 is formed at a rear side thereof so that the rear end of the lever 25 is rotatably fixed, and a locking end 27 is formed at the front end of the lever 25 so that the locking end 27 is formed of the body 22. In contact with the inner surface of the front of the opening to prevent the lever 25 from being separated out of the body (22).

Therefore, when the user grabs the hand portion 20 and presses the lever 25 with a finger, the lever 25 is pressed toward the inside of the body 22 while the lever 25 operates about the hinge portion 24, and the force is applied. If removed, return to the original position.

The hand portion 20 includes a piezoelectric element 28 inside the body 22. The piezoelectric element 28 is installed in the installation groove 29-3 formed in the body 22 to install the piezoelectric element 28 by inserting the gas through the installation groove 29-3. Inlet pipe 10 passes. Therefore, when the piezoelectric element 28 is installed in the installation groove 29-3, the electrode 29-2 on the rear surface of the piezoelectric element 28 is installed to be in contact with the gas inflow pipe 10. At this time, the button 29-1 on the front surface of the piezoelectric element 28 is installed to be in contact with the inner surface of the lever 25.

Therefore, when the lever 25 is pressed, the electrode of the spark plug 60 connected through the lead wire 61 extending into the guide tube 65 while the button 29-1 of the piezoelectric element 28 is pressed is positive (+). The crater 50 having the flame opening connected to the gas inlet tube 10 and the air mixer 40 contacting the rear electrode 29-2 of the piezoelectric element 28 is an electrode. In the meantime, a discharge is generated between them and a spark is generated.

When the force for pressing the lever 25 is removed, the button 25-1 of the piezoelectric element 28 returns to this position while the lever 25 returns to the original position.

 The ignition unit 30 for the stove for gas stove according to the present invention includes an air mixer 40, a fireball 50 having a flame port, a spark plug 60 and a flame guide 70.

3 is a cross-sectional view of the combination of the air mixer 40 and fireball 50 having a flame opening in the gas stove for the stove according to the present invention.

1 to 3, the air mixer 40 is a hollow member having a gas passage 40-1 formed therein, and is concentric with the gas passage 40-1 at the rear end of the gas passage 40-1. As a result, a coupling groove 41 into which an end of the gas inlet pipe 10 is inserted and coupled is formed. The coupling groove 41 is formed to have an inner diameter larger than that of the gas passage 40-1 to form a step 42 between the gas passage 40-1. The gas nozzle 13 in front of the gas inlet pipe 10 has a step 13-1 that is engaged with the step 42 of the coupling groove 41 on the outer circumference thereof and is inserted and fixed in the coupling groove 41. The front end of the nozzle 13 is inserted into the gas passage 40-1.

The primary air supply hole 43 is formed in the air mixer 40. The primary air supply hole 43 passes through the outer circumferential surface of the air mixer 40 and communicates with the internal gas passage 40-1. The front end of the gas inlet pipe 10 inserted into the rear side, that is, the gas nozzle ( 13) is formed in front of the shear. Therefore, when gas is injected through the gas inlet pipe 10, the air is sucked through the primary air supply hole 43 by the pressure difference, and the gas is mixed with the air to form a mixed gas to form the interior of the air mixer 40. It flows along the gas passage 40-1.

On the rear side of the primary air supply hole 43, a fastening hole 44 is formed through the outer circumferential surface of the air mixer 40, and a fastening member fastened through the fastening hole 44 forms an outer circumferential surface of the gas nozzle 13. By fixing, the gas inlet pipe 10 and the air mixer 40 are fixed to each other.

According to the present invention, the front end of the air mixer 40 is installed in a form in which the crater 50 having a flame port is partially inserted. The fireball 50 having the flame port is formed of a hollow member having a gas flow hole 51 communicating with an internal gas passage 40-1 of the air mixer 40. The front end is formed with an insertion groove 46 is inserted into the crater 50 having a flame ball. The insertion groove 46 is formed to have an inner diameter larger than the gas passage 40-1 so that the first step portion 47-1 is formed between the gas passage 40-1 and the fire tool 50 having the flame port. The rear end of the outer circumferential surface is seated on the first stepped portion 47-1. Preferably, the insertion groove 46 is formed so that the inner diameter is increased in the middle portion so that the second stepped portion 47-2 is formed therein, and an annular protrusion protruding radially on the outer circumferential surface of the crater 50 having the prosthesis. The ring 52 is caught by the second step portion 47-2. The annular ring 52 serves as a boundary between the outer circumferential surface in close contact with the inner circumferential surface of the rear half of the insertion groove 46 and the inner circumferential surface of the first half of the insertion groove 46 and the outer circumferential surface forming the gap 48.

The fireball 50 having the flame port is assembled to the insertion groove 46 of the air mixer 40 by being forcibly fitted and prevented from being separated, but the fastening member or the like fastened through the outer circumferential surface of the air mixer 40. It is also possible to be fixed by.

As described above, a gap 48 is formed between the inner circumferential surface of the insertion groove 46 and the outer circumferential surface of the crater 50 having the flame hole, and the gap 48 is a gas inside the crater 50 having the flame hole. A gas flow passage distinguished from the flow hole 51 is formed.

On the outer circumferential surface of the crater 50 having the flame port, a flame hole 54 in the form of a through hole through which gas is discharged toward the gap 48 is formed. Through the inlet port 54, a part of the mixed gas flowing along the gas flow hole 51 is discharged into the gap 48 and flows forward while being guided by the gap 48.

Preferably, the stepped portion 56 is formed in the interior of the crater 50 having the flame port as the inner diameter is narrowed toward the front of the formation position of the flame port 54. When the mixed gas that flows along the edge of the gas flow hole 51 collides with the step 56, the stirring flow occurs, and thus, the mixed gas may be smoothly discharged through the flame port 54 disposed behind the mixed gas. .

According to the present invention, since the fireball 50 having the flame port includes the flame hole 54, the main mixed gas flow A discharged by flowing forward along the inside of the gas flow hole 51, and the flame port 54. And form an ambient mixed gas stream (B) flowing forward through the gap 48.

According to the present invention, the front end of the fireball 50 having the flame port includes a diffusion plate 58 protruding radially. The diffuser plate 58 allows the surrounding mixed gas flow flowing along the outer circumferential surface of the crater 50 having the flame to collide with the diffuser plate 58 to diffuse. The diffused ambient mixed gas stream B merges with the main mixed gas stream A discharged through the gas flow hole 51 while passing through the diffuser plate 58.

As will be described later, the surrounding mixed gas stream B forms an ignition flame to ignite the main mixed gas stream, and forms a flame to serve to hold the main flame by the main mixed gas stream.

According to the present invention, the crater 50 having the flame port is formed with a contracted outer diameter portion 57 whose outer diameter is reduced along the outer circumferential surface to the rear side of the diffusion plate 58, wherein the contracted outer diameter portion 57 is a peripheral mixed gas flow. (B) is guided closer to the outer circumferential surface to increase the diffusion effect by the diffusion plate 58.

Referring back to FIG. 2, the ignition unit 30 for the gas stove according to the present invention includes a spark plug 60.

The spark plug 60 is fixed on the outer circumferential surface of the air mixer 40 and provides spark to the surrounding mixed gas flow B to ignite. The spark plug 60 is connected to the piezoelectric element 28 through the lead wire 61.

Preferably, sparking is made easier by providing a spark to the surrounding mixed gas stream B that is diffused by the diffuser plate 58.

1 to 4, the ignition unit 30 of the gas ignition mechanism according to the present invention includes a flame guide 70. The flame guide 70 is fixed to the outer surface of the air mixer 40 as a cylindrical member whose front and rear ends are opened, and extends to the front side surrounding the periphery of the fireball 50 having the flame port.

According to the present invention, a secondary air supply hole 75 is formed on the outer circumferential surface of the flame guide 70, specifically, on the lower surface thereof. The secondary air supply hole 75 supplies air to the surrounding mixed gas stream at the spark generation position. In order for the ignition to be stably and reliably, sufficient air must be mixed in the gas, but in the case where the primary air is insufficient, the ignition cannot be made stably. However, according to the present invention, by additionally supplying secondary air to the mixed gas stream to be ignited, sufficient air necessary for ignition may be supplied to make the ignition stable.

The flame guide 70 prevents diffusion of the flame formed by ignition of the surrounding mixed gas stream B of the fireball 50 having the flame hole into the surrounding, and the flame is integrated with the main flame formed by the main mixed gas flow. To be guided forward. In addition, the flame is prevented from being shaken by the airflow generated when the fire stove for the stove is moved.

5 shows another example of a flame guide in a gas stove for gas stove according to the present invention.

Flame guide 70 according to another embodiment of the present invention is formed to be inclined in the downward direction inclined from the middle portion of the front end, the lower side is opened and the upper side is formed to form a gas collecting portion 78 protruding forward. The gas collecting unit 78 collects gas inwardly, and the front end of the spark plug 60 is disposed adjacent to the lower opening 77.

This arrangement makes it possible to use the gas stove incinerator according to the present invention as an ignition mechanism without the injection of gas, while opening the valve connected to the burner to inject gas from the burner. When the flame guide is adjacent to the burner, the gas introduced into the lower opening 77 is collected by the gas collecting unit 78, and when the lever 25 of the hand unit 30 is pressed, the ignition plug 60 is ignited. The burner will ignite.

Therefore, the gas stove fire stove according to the present invention can ignite the burner not only in the environment in which gas is supplied to the fire zone, but also in a state in which gas is not supplied to the fire zone. The user can use the burner according to their needs when ignition.

 6 is a view for explaining the flow of gas and the ignition process in the gas stove for stove according to the present invention. 1 to 6 will be described the operation of the gas stove incinerator according to the present invention.

The stove for gas stove according to the present invention is connected to the gas pipe via a gas hose, the gas hose is provided with an on-off valve.

When the user intends to ignite the burner of the gas stove using the gas stove for gas stove according to the present invention, the valve is opened by pressing the lever 25 of the hand part 20 while supplying gas to the gas stove. The burner is then ignited using the burned fire.

The gas supplied through the gas inlet pipe 10 is injected into the gas passage 40-1 inside the air mixer 40 through the gas nozzle 13, and at this time, a primary air supply hole formed in the air mixer 40. As the outside air flows into the gas passage 40-1 of the air mixer 40 through the 43, the gas and the air are mixed to form the mixed air.

The mixed gas flowing through the gas passage 40-1 of the air mixer 40 flows into the gas flow hole 51 of the crater 50 having the flame port, and a portion of the mixed gas flows through the gas flow hole ( 51 is discharged to the gap 48 along the inlet port 54 penetrated to the outer circumferential surface, and the discharged mixed gas flows forward along the gap 48.

Accordingly, in the crater 50 having the inlet port, the main mixed gas flow A and the inlet port 54 discharged through the gas flow hole 51 and the surrounding mixed gas flowing forward along the gap 48 are provided. Flow B is formed.

The surrounding mixed gas stream (B) is discharged outside the gap 48 and flows forward along the outer circumferential surface of the crater 50 having the flame port, and then diffuses to the surrounding while colliding with the diffuser plate 58, where the spark plug ( Ignition by 60) takes place.

As such, in the gas stove incineration according to the present invention, the initial ignition takes place on the surrounding mixed gas stream (B). The complexed ambient mixed gas stream B travels over the diffuser plate 58 towards the main mixed gas stream A and ignites the main mixed gas stream A to form the main flame. At this time, the flame guide 70 prevents the flame from being scattered to the outside by the surrounding airflow.

Assuming that there is no surrounding mixed gas flow (B), the ignition should be made directly to the mixed gas injected along the gas flow hole 51, the ignition is difficult to be made stably because the mixed gas is injected at a high pressure Does not occur, and the flame is formed not apart from the front end of the fireball but is formed apart. In this case, if you move quickly with a fire to ignite several burners quickly, the flame may be scattered and the flame may go out.

However, according to the present invention, since the flame complexed to the surrounding mixed gas stream (B) ignites the main mixed gas stream (A), ignition can be made stably and reliably, and the flame caused by the surrounding mixed gas stream (B) Since the function of the flame to hold the main flame by the mixed gas flow (A), it is possible to prevent the case that the flame is turned off.

In addition, at this time, the amount of entrained air is increased by the secondary air supplied through the secondary air supply hole 75 or the lower opening 77 formed in the flame guide 70 so that the ignition is made stable.

On the other hand, in the case where the structure shown in FIG. 5 employs another flame guide 70, it is possible to easily collect and ignite the gas ejected from the burner by the gas collecting unit 78 without supplying gas, thus making it impossible to burn. It can be used even in an environment where no gas is supplied to the gas. That is, the user can use the gas stove for the gas stove according to the present invention as an ignition mechanism while supplying gas or not supplying gas in the burner state.

10: gas inlet pipe 20: hand part
22: body 25: lever
30: ignition unit 40: air mixer
50: fireball having flame plug 60: spark plug
70: Flame Guide

Claims (5)

A gas inlet pipe 10 through which gas is supplied and injected,
A body 22 supporting the gas inlet pipe 10, a lever 25 installed in and out of the opening through an opening formed on a lower surface of the body 22, and according to the operation of the lever 25. A hand portion 20 including a piezoelectric element 28 for pressing a button to generate piezoelectricity,
A gas passage 40-1 is formed therein, a front end of the gas inlet pipe 10 is inserted into a rear end of the gas passage 40-1, and an outer circumferential surface of the gas inlet pipe 10 is forwardly forward. An air mixer 40 having a primary air supply hole 43 through which air is introduced into the gas passage 40-1;
The gas passage 40-1 and the gas flow hole 51 therein are communicated with the front end of the air mixer 40, and the flame port 54 communicates with the gas flow hole 51 through the outer circumferential surface thereof. ), The main mixed gas stream A discharged forward through the gas flow hole 51 and the peripheral mixed gas stream B discharged through the inlet port 54 and flowing forward along the outer circumferential surface thereof are Crater 50 having a flame ball to be formed,
A spark plug 60 fixed to the air mixer to provide a spark that ignites the ambient mixed gas flow B in accordance with the operation of the piezoelectric element 28;
It is fixed to an outer circumferential surface of the air mixer 40 and has a flame tool 50 having the flame inside therein and has an open cylindrical flame guide 70 extending forward than the front end of the fire tool 50. One ignition unit 30,
The fireball 50 having the flame port is inserted into the insertion groove 46 formed at the front end of the gas passage 40-1 of the air mixer 40, and the inner circumferential surface and the outer circumferential surface of the first half of the insertion groove 46. A gap 48 is formed therebetween, and the flame hole 54 is formed in the gap 48, and an inner diameter of the inner flame surface of the gas flow hole 51 therein is forward of the flame hole 54. The narrowing step 56 is formed, and the radially protruding diffusion is formed on the outer circumferential surface of the front end portion which is located outside so that the surrounding mixed gas flow discharged through the gap 48 flows forward along the outer circumferential surface and collides with and spreads. A plate (58) is formed, wherein the spark plug (60) provides a spark that ignites the surrounding mixed gas stream (B) diffused by the diffuser plate (58). The method of claim 1,
The main surface of the flame guide 70 is a gas stove for incineration, characterized in that the secondary air supply hole (75) for providing air to the surrounding mixed gas stream (B) is formed. The method of claim 1,
The front end of the flame guide 70 is formed in a form in which the lower side is opened and the gas collecting portion 78 protruding forward is formed in the upper side so that the gas introduced through the lower opening 77 enters the gas collecting portion 78. A gas stove for fire, characterized in that configured to be collected by. The method of claim 1,
The body 22 of the hand portion is formed in a form wrapped by the palm,
The lever 25 has a rear end rotatably fixed to a hinge portion 24 formed at a lower rear side of the inner surface of the body 22, and a locking end 27 contacting the inner surface of the front side of the opening of the body 22 at a front end thereof. And a force applied in a form wrapped by a finger, the gas stove being rotatably formed around the hinge part 24. delete

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