KR20170001889U - Ignition device for gas range - Google Patents

Abstract

The present invention relates to a gas range ignition device, which comprises an ignition device formed in a gas range frame, a gas control knob provided so as to be exposed through a front surface of the gas range frame, and a gas supply pipe A gas valve installed at a predetermined interval in the gas supply pipe, a battery mounted on the gas range frame, an igniter for amplifying a voltage of a current supplied from the battery to a high pressure, A spark plug to which an electric current is supplied to generate an electric spark, a switch bundle in which a reed switch is incorporated, a gas auxiliary injection tube for injecting gas supplied from the gas supply pipe toward the spark plug, In a gas-range ignition device in which a main injection pipe is constituted,
The switch assembly includes a guide passage formed separately at a position spaced apart from the reed switch, and first and second cord installation holes formed to pass through the closed-end side of the guide passage. The guide passage is provided with a high- The first and second auxiliary high-voltage cords are inserted into the first and second cord mounting holes, respectively, and the connecting end of the first auxiliary high-voltage cord is connected to the main high-voltage cord And the freedom of the second auxiliary high-voltage cord is connected to the spark plug.

Description

[0001] Ignition device for gas range [0002]

The present invention relates to a gas range ignition device, and more particularly, to a gas burner that is selected from a plurality of gas burners mounted on a gas range, And a plurality of gas burners are selectively ignited one by one using a single battery. The present invention also relates to an improved gas range ignition device.

Generally, the gas range is configured to ignite the gas burner by the operation of rotating the counterclockwise while pressing the gas control knob.

Conventional gas ranges are equipped with one gas burner or a plurality of gas burners, and most of the conventional gas ranges have a single battery and a single high-pressure generating unit for amplifying the voltage of the battery to a high pressure. And a structure for mounting an igniter.

In addition, a conventional high-voltage cord connected to one or more high-pressure cords is used for the igniter mounted on the conventional gas range. However, the igniter gradually becomes expensive due to the number of high-voltage cords. For example, a grid with a single line of high-voltage cords is the cheapest, and the grid with the four high-voltage cords connected is the most expensive.

In the case of an igniter (hereinafter referred to as "one-row igniter ") to which a single high-pressure cord is connected as described above, it is installed in a gas range equipped with one gas burner, (Hereinafter abbreviated as "multi-row igniter ") to which a plurality of gas burners are attached.

Therefore, when a plurality of gas burners are to be ignited by a one-row high-pressure cord as described above, the one-row grenades must be installed in the same number as the plurality of gas burners, In order to ignite the gas burner, it is necessary to install the same number of grenades as the number of the plurality of gas burners. Therefore, there is a problem that the manufacturing cost of the gas range becomes expensive. On the other hand, When the gas burner is used in a gas range equipped with a gas burner, the plurality of gas burners can be separately ignited. In the conventional multi-row igniter, When the gas control knob installed on the selected gas burner is ignited and operated, It is the ignition spark generated at a plurality of spark plugs installed in each. Therefore, in order to ignite the selected one gas burner, when the gas range of the multi-row igniter is used, the remaining gas that is not selected when the gas control knob of the gas burner to be ignited is ignited It is pointed out that the life span of one battery installed in the gas range can be remarkably shortened because the spark plug provided in each of the burners generates an electron spark.

In order to use a gas range in which four or more gas burners are installed, a plurality of high-voltage lines are connected to the high- The installation cost of the gas range becomes very high.

The present invention has been made in order to solve all of the above problems, and it is possible to ignite all of a plurality of gas burners regardless of the number of installed gas burners by using one battery installed in the gas range The ignition flame is generated only in one spark plug provided in the selected gas burner when a selected one of the plurality of gas burners is to be ignited to ignite, thereby prolonging the service life of the battery remarkably The present invention has been made in view of the above problems.

The present invention, as a means for pursuing the above object,

A gas supply pipe connected to the ignition device to supply gas to the ignition device; and a gas supply pipe connected to the ignition device to supply gas to the ignition device, A gas valve connected to the gas supply pipe at regular intervals, a battery mounted on the gas range frame, an igniter for amplifying a voltage of a current supplied from the battery to a high pressure, And a reed switch for connecting and shorting the power source of the battery is contained in the switch assembly. The switch assembly includes a switch assembly Gas assisted to inject the gas supplied from the supply pipe toward the spark plug A gas range igniter, which is the main gas injection pipe configured to the officer, and a plurality of injection gas into a ball by a gas supplied to the gas burner when the rotation operation of the gas control knob is formed in the gas burner to be injected,

Wherein the switch bundle is formed with a guide passage separately formed at a position spaced apart from the reed switch and first and second cord mounting holes formed to pass through the closed mouth side of the guide channel,

Pressure guiding guide rod is movably inserted into the guide passage,

The first and second auxiliary high-voltage cords are inserted into the first and second cord mounting holes, respectively, and the connection end of the first auxiliary high-voltage cord is connected to the main high-voltage cord, The free is characterized by being connected to a spark plug.

In addition, the high-pressure induction guide rod, which is movably installed in the guide path formed in the switch bundle, is made of an insulating material, and a metal terminal for high-pressure induction is fixedly attached to an end of the body. The insertion end of each of the inserted first and second auxiliary high-voltage cords is movably installed in the guide passage while being spaced apart from each other such that a high-voltage current flowing through the first and second auxiliary high- Pressure induction guide bar is moved between the insertion ends of the first and second auxiliary high-voltage cords, the high-pressure inducing metal rod is fixed to the end of the high- And a current is induced to the second auxiliary high-voltage cord.

According to the present invention, even if a battery and an igniter are installed one by one in a gas range in which a plurality of igniters are installed, it is possible not only to ignite the plurality of igniters, but also to ignite one of the plurality of igniters It is possible to remarkably extend the service life of the battery by making it possible to ignite only the selected one ignition device. In addition, by using one igniter provided in the gas range frame, It is possible to reduce the manufacturing cost of a gas range installed in a kitchen such as a restaurant or the like as well as a gas range installed in a kitchen of a hotel or the like as well as to reduce the maintenance cost of the gas range .

1 is a plan view showing an embodiment in which a plurality of ignition devices are provided in a gas range frame for explaining the present invention;
2 is a side view of an ignition device installed on a gas range frame according to the present invention
Figs. 3 and 4 are circuit diagrams of a battery of the ignition device of the present invention, a wire cord of the igniter, a high-voltage cord and a switch bundle,
3 is a state in which the reed switch of the switch bundle is short-circuited
Fig. 4 shows a state in which the reed switch of the swash plate assembly is turned on
5 is a perspective view of a switch bundle of the ignition apparatus of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, specific embodiments of a gas range control apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

Reference numeral 1 denotes an ignition device, wherein the ignition device 1 is installed at a predetermined interval on the inside of the gas range frame 2.

1 shows a plan view of a part of the front surface of the gas range frame 2. A plurality of ignition devices 1 are provided at predetermined intervals on the inner surface of the front surface of the gas range frame 2, A gas supply pipe 21 is disposed inside the front surface of the frame 2 and a battery 3 and an igniter 4 are fixed to the inside of the front surface of the gas range frame 2, A power supply cord 31 and a power supply cord 32 connected to the battery 3 and the igniter 4 and a wiring rail 5 on which a main high voltage cord 40 is installed are provided on the inside of the front surface of the main body 2.

The positive terminal 30 of the battery 3 is connected to the positive terminal side 41 of the igniter 4 and the ground terminal 43 of the igniter 4 is connected to the positive The wire cord 31 is grounded to the frame 2 and connected to the negative terminal 33 of the battery 3 and the negative terminal side 44 of the magnet 4 Each of the connected wire cords 32 is disposed in a wiring rail 5 disposed inside the front surface of the gas range frame 2 and is connected to the positive A single main high voltage cord 40 connected to and connected to the wiring rail 42 is provided in a straight line on the wiring rail 5. (See FIGS. 3 and 4)

A gas valve 6 is connected to the gas supply pipe 21 at a predetermined interval in the ignition device 1. The gas valve 6 is provided with a gas control knob The gas valve 6 is provided at its upper end with a gas discharge port (not shown) protruded to connect with the gas main discharge pipe 62. A gas- And a gas injection port 65 is connected to the free end of the gas assisted injection tube 64. The gas control structure of the ignition device 1 configured as described above is a structure in which the ignition A detailed description thereof will be omitted. However, in order to explain the present invention, the operation of controlling the supply of gas in the operation of the gas control knob 61 of the ignition device 1 will be briefly described If so, In the figure, the gas regulating knob 61 is not operated. At this time, the gas regulating knob 61 protrudes away from the front surface of the gas range frame 2 by the elastic force of the spring 6 shows an operating state in which the gas regulating knob 61 is pushed toward the front of the gas range frame 2. At this time, the gas valve 6 is connected to the gas- The gas supplied to the gas supply pipe 21 is supplied to the gas assisted spray pipe 64. When the gas control knob 61 is rotated in the counterclockwise direction in a state where the gas control knob 61 is pushed, The auxiliary spray tube 64 is closed so that the supply of gas is shut off and the gas main spray tube 62 is opened so that the gas is supplied. The gas control knob 61 is configured to adjust the amount of gas injected into the gas main injection pipe 62 by adjusting the rotation angle of the gas control knob 61 in the counterclockwise direction, The gas control knob 61 is projected in a direction away from the front of the gas range frame 2 by the elastic force of the spring 66 and the gas main injection pipe 62 and the gas auxiliary injection pipe 64 .

The ignition device 1 is also provided with a switch bundle 7 to which a reed switch 71 for supplying power of the battery 3 to the igniter 4 is attached is fixed to the upper end of the gas valve 6 And the switch bundle 7 is connected by the magnetic force of the magnet 67 formed on the operating plate 63 which is moved by the operating axis 62 of the gas regulating knob 61, 67 are not in contact with each other.

The feature of the present invention resides in that the high voltage current flowing in the main high voltage cord 40 can be supplied to the spark plug 8 to the switch bundle 7.

To this end, the switch bundle 7 is provided with a guide passage 73 into which a high-pressure induction guide rod 72 is movably inserted and a first auxiliary high-voltage cord 74 connected to the main high- A second cord mounting hole 77 into which a second auxiliary high-voltage cord 76 connected to supply a high-voltage current to the spark plug 8 is inserted; And the first and second cord installation holes 75 and 77 are formed so as to penetrate in opposite directions on both sides of the guide passage 73 (see FIG. 5).

First and second auxiliary high-voltage cords 74 and 76 are inserted into the first and second cord mounting holes 75 and 77, respectively, so as to face each other. The first and second auxiliary high- The first and second auxiliary high pressure cords 74 and 76 are spaced apart from each other by a distance substantially equal to the inner diameter of the guide passage 73. In this state, 73, the high-voltage current flowing to the first auxiliary high-voltage cord 74 is not guided to the second auxiliary high-voltage cord 76. However, when the interval between the first auxiliary high-voltage cord 74 and the first auxiliary high-voltage cord 76 is narrowed, The high voltage current flowing to the cord 74 can be guided to the second auxiliary high voltage cord 76. To this end, the high voltage current flowing into the cord 74 is movably inserted into the guide passage 73, A high-pressure induction guide rod 72 fixedly attached to an operating plate 63 to be actuated, A high voltage induction metal terminal 72a for inducing a high voltage current flowing in the first auxiliary high voltage cord 74 to the second auxiliary high voltage cord 76 is formed at the end of the high voltage induction guide bar 72. [

Each of the connection cords 34 and 35 connected to the reed switch 71 mounted on the switch bundle 7 is connected to a power cord (not shown) connected to the negative terminal 33 of the battery 3 31 of the inverter 4 and the (-) terminal side 44 of the igniter 4 are connected to the power cord 32.

The igniter 4 is installed in a structure in which a negative terminal is connected to the gas range frame 2 by a ground terminal 43.

Hereinafter, the operation of the present invention will be described.

The ignition device 1 may be installed at one or more inner sides of the gas range frame 2 and at least one gas burner (not shown) is installed at a predetermined interval in the gas range frame 2, The apparatus 1 is connected to each of at least one gas burner (not shown) installed inside the gas range frame 2, and is installed to supply gas.

The ignition device 1 is configured to select one of a plurality of gas burners arranged at regular intervals inside the gas range frame 2 to select one gas burner to be ignited and ignite one by one .

In a state where a plurality of ignition devices 1 installed at regular intervals in the gas range frame 1 are not operated as described above, each of the ignition devices 1 is controlled in a gas regulating manner as shown in the left- The grip 61 is maintained in a state of being moved in the direction away from the front of the gas range frame 2 in the direction of the arrow. 1, the reed switch 71 installed in the switch bundle 7, one for each of the ignition devices 1, as shown in the enlarged view of FIG. 3, The high voltage inducing metal terminal 72a formed at the end of the high voltage inducing guide rod 72 is inserted into the first and second cord installing holes 75 and 77, The first The high voltage current flowing into the first auxiliary high voltage cable 74 is not guided to the second auxiliary high voltage cable 76 because the second auxiliary high voltage cable 74 is in a position away from the second auxiliary high voltage cable 74 will be.

In order to select and operate any one of the ignition devices 1 provided at predetermined intervals inside the gas range frame 2 as described above, first, the ignition device 1, which is provided in the selected one ignition device 1 The gas control knob 61 is rotated counterclockwise while pushing the gas control knob 61 in the direction of the arrow as shown in the right side of FIG. (Not shown) formed in the gas valve 6 by the movement of the operating shaft 62 when the gas control knob 61 is pushed in the direction of the arrow as shown in FIG. 2) The gas is supplied to the gas-assisted discharge pipe 64 connected to the bottom of the gas valve 6, The magnet 67 moves the reed switch 71 on by the magnetic force as the operation shaft 62 moves the operation plate 63 toward the switch bundle 7 as shown in the enlarged view of FIG. The guide bar 72 for guiding the high pressure fixed to the operation plate 63 is also moved into the guide channel 73 formed in the switch bundle 7. At this time, The high voltage inducing metal terminal 72a formed at the end of the first auxiliary high voltage cable 74 enters the space between the first and second cord installing holes 75 and 77 so that the high voltage current flowing to the first auxiliary high voltage cord 74 flows into the high voltage inducing metal The high voltage electric current induced in the second auxiliary high voltage cord 76 is applied to the spark plug 8 so that the spark plug 8 is prevented from being damaged. The electronic flame is generated intermittently.

When the gas control knob 61 of the ignition device 1 is pressed as described above, the gas is supplied to the gas assisted injection tube 64 connected to the bottom of the gas valve 6, and at the same time, The operation in which the switch 71 is connected and the operation of the high voltage induction metal terminal 72a formed at the end of the high voltage induction guide bar 72 are switched to the high voltage current flowing in the first auxiliary high voltage cord 74 to the second auxiliary high voltage cord 76 The gas injected into the gas injection port 65 connected to the end of the gas assisted spraying tube 64 is injected into the spark plug 8 through the spark plug 8, When the gas regulating knob 61 is pressed and rotated in the counterclockwise direction, the supply of gas to the gas assisted spraying tube 64 is blocked and the gas main spraying tube 62 is blown, And the gas is supplied The gas supplied to the main spray tube 62 is injected into the gas burner and injected into the gas assisted spray tube 64 so that the gas flame which was ignited by the electron flame is transferred to the gas injected from the gas burner, When the gas regulating knob 61 is in the pressed state, the spark plug 8 is intermittently generated in the spark plug 8. Therefore, the gas spark is ignited by the gas injected from the plurality of nozzles formed in the gas burner.

The ignition device 1 has a structure in which a high-voltage current supplied from a line of magnets 4 provided inside the gas range frame 2 is supplied to the respective spark plugs 2, When one of the ignition devices 1 is to be selectively ignited, one of the gas control knobs 61 provided on the selected ignition device 1 is depressed So that only one gas burner can be ignited, so that the service life of the battery 3 can be remarkably extended.

1: Ignition device 2: Gas range frame
21: gas supply pipe 3: battery
30: (+) terminals 31 and 32: Power cord
33: (-) terminal 34,35: connection terminal
4: Magnetor 40: Main high voltage cord
41: (+) Terminal side 42: (+) High voltage terminal
43: Ground terminal 44: (-) terminal side
5: wiring rail 6: gas valve
61: gas control knob 62: operating shaft
63: Actuator plate 64: gas assisted spray gun
65: gas jet opening 66: spring
67: magnet 7: switch bundle
71: Reed switch 72: Guide rod for high pressure induction
72a: metal terminal for high pressure induction 73: guide passage
74: First auxiliary high-voltage cord 75: First cord installation ball
76: first auxiliary high-voltage cord 77: second cord mounting ball
8: Spark plug

Claims (2)

A gas supply pipe connected to the ignition device to supply gas to the ignition device; and a gas supply pipe connected to the ignition device to supply gas to the ignition device, A gas valve connected to the gas supply pipe at regular intervals, a battery mounted on the gas range frame, an igniter for amplifying a voltage of a current supplied from the battery to a high pressure, And a reed switch for connecting and shorting the power source of the battery is contained in the switch assembly. The switch assembly includes a switch assembly Gas assisted to inject the gas supplied from the supply pipe toward the spark plug A gas range igniter, which is the main gas injection pipe configured to the officer, and a plurality of injection gas into a ball by a gas supplied to the gas burner when the rotation operation of the gas control knob is formed in the gas burner to be injected,
Wherein the switch bundle is formed with a guide passage separately formed at a position spaced apart from the reed switch and first and second cord mounting holes formed to pass through the closed mouth side of the guide channel,
Pressure guiding guide rod is movably inserted into the guide passage,
The first and second auxiliary high-voltage cords are inserted into the first and second cord mounting holes, respectively, and the connection end of the first auxiliary high-voltage cord is connected to the main high-voltage cord, Wherein the free spark plug is configured to be connected to a spark plug.
The method according to claim 1,
The high-pressure induction guide rod, which is movably installed in the guide passage formed in the switch bundle, is made of an insulating material, and a metal terminal for high-pressure induction is fixedly attached to an end of the body. Wherein the first and second auxiliary high-voltage cords each have an insertion end that is movably installed in the guide passage in a state where the first and second auxiliary high-voltage cords are spaced apart from each other by a distance at which a high-voltage current flowing through the first and second auxiliary high- Pressure guiding rod is moved between the insertion end of each of the first and second auxiliary high-voltage cords, a high-voltage current flowing through the first auxiliary high-voltage cord by the high-voltage inducing metal terminal fixedly attached to the end of the high- And the second auxiliary high-pressure cord is guided to the second auxiliary high-pressure cord.

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