KR200449554Y1 - a gas burner - Google Patents

Abstract

According to the present invention, the first and second rods protruding to the rear of the gas distributor and the ignition switch are configured to protrude so that the first and second rods are sequentially operated according to the pressing lever and the gas is supplied to the gas burner and the ignition nozzle. In addition, to provide a gas burner configured to ignite the gas burner and the ignition switch is the last switching operation.

Gas burner, Gas distributor, Ignition nozzle, Push lever, 1st, 2nd rod, Ignition switch

Description

Gas burner

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas burner, and more particularly, to a gas burner capable of supplying gas to a gas burner and igniting the supplied gas only by operation of a push lever.

As is well known, a gas burner used for a business is configured to extend the gas supply pipe to one side, and to control the supply of gas by installing a gas valve on the gas supply pipe.

However, the gas burner as described above has to be ignited by a torch such as a lighter while the gas is supplied during the initial ignition of the gas. .

Therefore, in recent years, a technique has been disclosed in which a separate ignition device is installed on a gas burner to perform ignition work at the same time as supplying gas, and typically, the applicant filed on May 16, 2000. There is a fire safety device for gas burners registered in 05. (Notification No. 20-0206984) (hereinafter referred to as prior art).

The prior art is a fire igniter, an ignition tube and a circuit breaker having a heat sensor is assembled, there is an injection hole through which gas is supplied, and a plug for opening and closing the internal passage is assembled in the handle, The first passage and the second passage are connected to the inside of the safety device from the injection hole, and the first passage and the second passage is divided in both sides in front of the second passage to form one or more outlets, opening and closing the entrance of the second passage It has a screw in the center and is assembled to the main body through the nipple, characterized in that consisting of a plug assembled in the serration shaft behind the handle.

According to the prior art having the above configuration, the push rod is pushed out by pressing the handle and opening the first passage to supply gas to the burner, and then the plug is pulled backward according to the rotating operation of the handle and the ignition tube At the same time as supplying gas to the piezo ignition device is activated to spark the gas supplied to the ignition tube to ignite the burner supplied to the burner.

However, the above-described prior art has a lot of trouble in operation by being able to ignite the supplied gas by supplying gas to the burner by operating the handle twice, that is, pressing the handle, and then rotating the handle to one side again. Will be imported.

Therefore, an object of the present invention for solving the problems as described above is to protrude the first and second rods protruding to the rear of the gas distributor and the ignition switch, the first and second rods sequentially in accordance with the pressing lever operation The present invention provides a gas burner which is configured to supply gas to the gas burner and the ignition nozzle, respectively, and the ignition switch is finally switched to ignite the gas burner.

The present invention for achieving the above object is a gas burner equipped with an ignition device, a gas distributor, a push lever hingedly coupled to the rear of the gas distributor and rotated, respectively formed in the gas distributor and the gas The gas supply passage and the ignition gas supply passage for discharging the gas injected from the inlet to the gas burner, the ignition nozzle, which is an ignition device, respectively, the flow passage constituting the gas supply passage and the gas inlet, and have a smaller diameter than the flow passage. And the front end is inserted into the flow path, and the end pushes the thermocouple which closes the outlet of the gas inlet by the pressing pressure according to the rotational operation of the push lever in a state configured to protrude rearward of the gas distributor to open the outlet of the gas inlet. 1 rod, the ignition gas supply passage has a smaller diameter and the tip is the ignition gas supply Inserted into the furnace, the end is formed on the second rod and the outer diameter of the end of the second rod to receive the pressing pressure according to the rotation operation of the push lever in the state configured to project the rear of the gas distributor and the inside of the ignition gas supply passage A blocking ring for opening the expansion pipe according to the movement of the second rod and a rear end of the gas distributor in a state in which the expansion pipe formed in the airtight part is configured to be closed, and switching at the pressing pressure of the push lever and It is characterized in that it comprises a ignition switch for applying a current to the spark pin is installed close to the outlet.

The end of the first rod is configured to protrude longer toward the rear of the gas distributor than the end of the second rod, the ignition switch is preferably configured to protrude to the rear of the gas distributor shorter than the end of the second rod.

The gas burner according to the present invention comprises the first and second rods protruding to the rear of the gas distributor and the ignition switch, so that the first and second rods are sequentially operated according to the pressing lever and the gas is burned to the gas burner and the ignition nozzle. And supply the ignition switch and the last switching operation to ignite the gas burner, thereby realizing the effect of ignition and combustion of the gas in one push operation.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.
1 is a view showing the overall configuration of a gas burner having an ignition device to be implemented in the present invention.
As shown, the gas burner 10 is a pipe having a ring shape, the gas supply pipe 12 is coupled to one side, and the plurality of injection nozzles 14 are provided on the upper circumferential surface. The gas supply pipe 12 is coupled to the gas valve 18 installed in the gas distributor 20 to supply the gas discharged from the gas valve 18 to the gas burner 10, and the injection nozzle ( 14 are released by burning the gas supplied to the gas burner (10) to the outside.
2 is a view showing in three dimensions the configuration of the gas distributor provided in the gas burner, Figure 3 is a view showing the internal structure of the gas distributor shown in FIG.
As shown, the gas distributor 20 is a means for distributing and supplying the gas supplied from the outside to the gas valve 18 connected to the gas supply pipe 12 and the ignition nozzle 42 as ignition means, respectively. The gas inlet 22, the flow path 26, the 1st fastening hole 28, the gas supply flow path 34, the ignition gas supply flow path 36, and the 2nd fastening hole 46 are formed inside, respectively.
The gas inlet 22 injects gas supplied from the outside into the gas distributor 20.
The outlet of the gas inlet 22 is configured by closing with a thermocouple 24. The thermocouple 24 is pushed in one direction according to the operation of the first rod 30 to be described later, and configured to open the outlet of the gas inlet 22.
One end of the flow path 26 is connected to the gas inlet 22, and the other end of the flow path 26 is connected to the gas supply passage 34 formed in the gas distributor 20. The gas injected through is discharged to the gas supply passage 34.
One end of the first fastening hole 28 is in communication with the flow path 26, and the other end is formed by passing through the gas distributor 20 rearward.
The first rod 30 is inserted into the first fastening hole 28. The first rod 30 is pushed in one direction by pressurization of the push lever 60 to be described later, and moves the thermocouple 24 closing the outlet of the gas inlet 22 to move the outlet of the gas inlet 22. Will be opened. At this time, the first rod 30 is made to have a diameter smaller than the diameter of the passage 26 so that the gas introduced into the opening of the gas inlet 22 opens a gap between the first rod 30 and the passage 26. Preferably configured to be injected into the gas supply passage 34 through.
The first spring 32 is fitted to the outer diameter of the first rod 30. The first spring 32 elastically supports the first rod 30 pushed in one direction by the pressure of the push lever 60, and at the same time as the pressure release of the push lever 60, the first rod 30 Will return to the initial state.
The gas supply passage 34 is connected to the other end of the above-described flow path 26, and the plurality of gas valves 18 installed at the front of the gas distributor 20 to discharge the gas discharged from the flow path 26. And, it is supplied to the ignition gas supply passage 36 formed in the gas distributor 20.
The gas valve 18 is opened and closed by the operation of the rotary lever 19 installed at the upper end in the state of being fastened to the outlet of the gas supply passage 34 and the gas supply pipe (34) 12 is discharged to the gas burner (10).
The ignition gas supply passage 36 receives a part of the gas supplied to the gas supply passage 34 through the connection passage 38 in a state in which the gas supply passage 34 is connected to the connection passage 38. It is discharged to the ignition nozzle 42 which is a means for igniting. At this time, the center of the ignition gas supply passage 36 is configured by expanding the pipe 40, the expansion pipe 40 is configured by closing the blocking ring 52 formed in the outer diameter of the second rod 48 to be described later. do.
One end of the ignition nozzle 42 is connected to the outlet of the ignition gas supply passage 36, and the other end of the gas supplied from the ignition gas supply passage 36 is positioned close to the gas burner 10. Will be discharged to the outside.
The spark pin 44 is provided at the end of the ignition nozzle 42. The spark pin 44 receives a current according to the switching operation of the ignition switch 54 to be described later to generate a spark necessary for ignition.
On the other hand, one end of the second fastening hole 46 communicates with the ignition gas supply passage 36, and the other end is formed by passing through the gas distributor 20 rearward.
The second rod 48 is inserted into the second fastening hole 46. The second rod 48 inserted into the second fastening hole 46 is positioned to penetrate the inside of the ignition gas supply passage 36. At this time, the second rod 48 is the ignition gas supply passage ( 36) is formed to a smaller diameter to form a gap through which the gas can pass between the second rod 48 and the ignition gas supply passage 36.
In the outer diameter of the end of the second rod 48 is formed a blocking ring 52 having a larger diameter than the second rod 48, the blocking ring 52 is the expansion portion of the ignition gas supply passage 36 The expansion pipe 40 is closed in close contact with the 40 to block the gas from being supplied to the ignition nozzle 42.
In addition, the second spring 50 is fitted to the outer diameter of the second rod 48. The second spring 50 elastically supports the second rod 48 pushed in one direction by the pressure of the push lever 60, and simultaneously releases the pressure of the push lever 60 and the second rod 48 Will return to the initial state.
The second rod 48 having the above-described configuration is pushed in one direction by the pressure of the push lever 60 to be described later, and closes the blocking ring 52 closing the expansion part 40 of the ignition gas supply passage 36. It moves to open the expansion portion 40, so that the gas supplied from the gas supply passage 34 passes through the gap between the second rod 48 and the ignition gas supply passage 36, and then opened It can be supplied to the ignition nozzle 42 through the expansion pipe (40).
On the other hand, the rear of the gas distributor 20 is further provided with an ignition switch 54 and the push lever 60. The ignition switch 54 is switched according to the pressing operation of the push lever 60 in a state in which the spark pin 44 and the cable 56 are connected, and generates a spark by applying current to the spark pin 44. Let's go.
The push lever 60 rotates about the hinge 62 in a state in which the gas distributor 20 and the hinge 62 are coupled to each other, and the first and second levers 30, which protrude to the rear of the gas distributor 20. 48) and then pressurizes the ignition switch 54 in sequence.
That is, the ends 30a and 48a of the first and second rods 30 and 48 fitted into the first and second fastening holes 28 and 46 of the gas distributor 20 are partially moved from the rear of the gas distributor 20 to the outside. The end 30a, 48a of the first and second rods 30, 48, which protrude out of the gas distributor 20, is in contact with the inner surface of the push lever 60, which rotates. In response to the pressure of the push lever 60, the first and second rods 30 and 48 are moved in one direction. In this case, the ends 30a and 48a of the first and second rods 30 and 48 protruding to the outside of the gas distributor 20 may protrude to different lengths, preferably the ends 30a of the first rod 30. ) Is configured to protrude longer behind the gas distributor 20 than the end 48a of the second rod 48, which is the first lever 30 when the push lever 60 rotates. ) Is brought into contact with the inner surface of the push lever 60 first, and then the second lever 48 is brought into contact with the inner surface of the push lever 60 so that the first and second levers are operated according to the operation of the push lever 60. 30, 48) to be pushed out sequentially.
In addition, the ignition switch 54 is also configured to protrude from the rear of the gas distributor 20 to the outside to be configured to operate by switching the pressure of the push lever 60 in contact with the inner surface of the push lever 60 to rotate. do. At this time, the protruding length of the ignition switch 54 may be configured to be shorter than the above-described second lever 48 so that the first and second levers 30 and 48 move, and finally, the switching operation. Do.
On the other hand, the push lever 60 is rotated starting from the hinge 62, the first and second rods 30, 48 and the ignition switch 54 after pressing the operation is shown in the gas distributor 20 is installed The stopper is not caught, and the pressing operation of the first and second rods 30 and 48 and the ignition switch 54 is continuously maintained.
Hereinafter, the operation of the gas burner equipped with the ignition device according to the present invention will be described with reference to FIGS. 4A to 4C.
Operation of the gas burner 10 equipped with the ignition device according to the present invention is the first rod 30, the second rod 48 and the ignition switch 54 in accordance with the rotation angle of the push lever 60 step by step When the first rod 30 is operated, the outlet of the gas inlet 22 is opened to supply gas to the gas burner 10. When the second rod 48 is operated, the ignition gas is supplied. The expansion part 40 of the flow path 36 opens and supplies gas to the ignition nozzle 42. Finally, when the ignition switch 54 switches, the spark pins 44 cause sparks to burn the gas burner. Will ignite (10).
First, as shown in FIG. 4A, when the push lever 60 is rotated by hand by pressing the hinge 62, the end 30a of the first rod 30 protruding to the rear of the gas distributor 20 is pressed. Pressed in contact with the inner surface of the lever 60 and moves in one direction to pressurize the thermocouple 24 closing the outlet of the gas inlet 22 to open the outlet of the gas inlet 22.
When the outlet of the gas inlet 22 is opened, the gas is supplied to the gas supply passage 34 through the flow passage 26, and then the gas burner through the gas supply pipe 12 according to the opening operation of the gas valve 18. 10) is discharged.
Next, as shown in FIG. 4B, when the push lever 60 is continuously pressed and rotated, the end 48a of the second rod 48 is pressed while being in contact with the inner surface of the push lever 60. The blocking ring 52 formed at the end of the second rod 48 opens the expansion portion 40 of the ignition gas supply passage 36. When the expansion part 40 of the ignition gas supply passage 36 is opened, a part of the gas supplied to the gas supply passage 34 passes through the connection passage 38 to the ignition gas supply passage 36 and the second rod 48. After passing through the gap formed between the) is discharged to the ignition nozzle 42 via the open expansion portion 40.
Subsequently, as shown in FIG. 4C, when the push lever 60 is continuously pressed and rotated, the ignition switch 54 is pressed while being in contact with the inner surface of the push lever 60 to perform a switching operation. The spark pins 44 connected to the cable 54 and 54 generate a spark by receiving a current to ignite the gas discharged from the ignition nozzle 42, and the spark ignites the injection of the gas burner 10. The gas discharged through the nozzle 14 will be ignited.

1 is a plan view showing the overall configuration of a gas burner according to the present invention.

FIG. 2 is a diagram three-dimensionally showing the configuration of the gas distributor shown in FIG. 1; FIG.

3 is a view showing the internal structure of the gas distributor by cutting along the line A-A of FIG.

4a to 4c are views sequentially showing the operation of the gas burner according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: gas burner 20: gas distributor

22: gas inlet 26: euro

28: first fastening hole 30: first rod

34: gas supply passage 36: ignition gas supply passage

40: expansion part 42: ignition nozzle

44: spark pin 46: the second tightening hole

48: second rod 52: blocking ring

54: ignition switch 60: push lever

Claims (2)

In a gas burner equipped with an ignition device, A gas distributor 20; A push lever 60 coupled to the rear of the gas distributor 20 by a hinge 62 to rotate; The gas supply passage 34 and the ignition gas which are respectively formed in the gas distributor 20 and discharge the gas injected from the gas inlet 22 to the gas burner 10 and the ignition nozzle 42 which is the ignition device, respectively. A supply passage 36; A flow passage 26 connecting the gas supply passage 34 and the gas injection port 22; The diameter is smaller than the flow path 26 and the tip is inserted into the flow path 26, the end 30a is pressed in accordance with the rotation operation of the push lever 60 in a state configured to project toward the rear of the gas distributor 20. A first rod (30) for pushing the thermocouple (24) closing the outlet of the gas inlet (22) to open the outlet of the gas inlet (22) by the pressure; The presser lever 60 is manufactured to have a diameter smaller than that of the ignition gas supply passage 36, and the tip is inserted into the ignition gas supply passage 36, and the end 48a is protruded to the rear of the gas distributor 20. A second rod 48 which receives the pressing pressure according to the rotation operation of the second rod 48; It is formed at the outer diameter of the end of the second rod 48 and is expanded according to the movement of the second rod 48 in a sealed configuration of the expansion pipe 40 formed in the ignition gas supply passage 36. Block ring 52 for opening the pipe portion 40 and; An ignition switch installed at the rear of the gas distributor 20 and switching at the pressing pressure of the push lever 60 and applying a current to the spark pin 44 which is installed near the outlet of the ignition nozzle 42. Gas burner, characterized in that comprising a 54). The method of claim 1, The end (30a) of the first rod (30) is configured to protrude longer behind the gas distributor (20) than the end (48a) of the second rod (48); The ignition switch 54 is a gas burner having an ignition device, characterized in that configured to protrude to the rear of the gas distributor 20 shorter than the end (48a) of the second rod (48).

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