JPS584055Y2 - gas automatic igniter - Google Patents

Description

[Detailed description of the invention] The present invention relates to an automatic gas ignition device used in appliances with multiple gas burners, such as gas staples with grills, etc., and uses a dry battery as a power source and performs single-motion ignition by continuous discharge using a high-voltage generating transformer. It is related to the device.

Conventionally, in order to save on high pressure generation transformers, it has been necessary to ignite multiple gas burners with one high pressure generation transformer.

Conventionally, switches 16 and 17 were connected to the gas burner A20 as shown in FIG. switch 19
(switch 16, switch 17, switch 18
(and switch 19 are interlocked) When switch 17 is pressed, switch 16 is also pressed and both are turned on.

When the switch is turned on, power from the dry battery 22 is supplied to the primary side of the high voltage transformer 1', and high voltage is generated on the secondary side.

A spark is then generated between the electrode A23 and the gas burner A20.

Similarly, when switches 18, 19 are turned on, a spark is generated between electrode B 24 and gas burner B21, igniting the gas burner.

The reason why switches are provided on the high pressure side and low pressure side is to protect the contacts on the high pressure side, and by operating the burner cock to discharge electricity, the high pressure side is turned on first, and then the low pressure side is turned on. The low pressure side was turned off before the high pressure side was turned off.

However, if a failure occurs where switch 17 is pressed (turned on), another switch 18 (19
), the spark will flow between electrode A23 and gas burner A20.
Since the spark flies between the electrode B24 and the gas burner B21 where it is easier to fly, the spark may or may not reach the gas burner B21, which has the disadvantage that it is difficult to discover a malfunction in the switch.

The purpose of this invention is to eliminate the above-mentioned drawbacks and provide an automatic gas ignition device that prevents the high-pressure switch from burning out due to sparks, etc. The device is installed on the shaft of a gas cock that communicates with multiple gas burners. A sliding body that is slid by a push plate is provided in the switch unit, and a high voltage switch is connected to the upper part of the sliding body in this switch unit, and a low voltage switch is connected to the lower part of the sliding body. A parallel circuit of a plurality of low-voltage switches is connected, and a plurality of high-voltage switches are connected in series to the secondary circuit of the transformer, and a discharge electrode is connected in parallel with the plurality of high-voltage switches near the gas burner. The present invention is characterized in that by operating the sliding body, the high pressure switch is turned off before the low pressure switch is turned on.

An embodiment of the present invention will be described below with reference to the drawings.

In Figure 1, 1 is a high voltage generation transformer, 2 and 2
' is a low voltage switch, and the parallel circuit of each low voltage switch 2, 2' is connected in series to the primary side circuit of the high voltage generating transformer 1.

3 and 3' are discharge electrodes attached to the gas burner 5 and the gas burner 5' (not shown);
3' is connected to the secondary circuit of the high voltage generating transformer 1 in parallel with the high voltage switches 4 and 4'.

6 is a gas cock communicating with the gas burner 5, and 7 is a push plate attached to the shaft 6a of the gas cock.

Reference numeral 8 denotes a sliding body that is provided in the switch section 9 and is slid upwardly and downwardly by the push plate 7, and a high-pressure switch operating section 12 is connected to the upper part of the sliding body, and a low-pressure switch operating section 11 is connected to the lower part thereof. It is provided.

10 is a pressure spring that urges the sliding body 8 downward; 13.1
Reference numeral 4 denotes a low voltage switch terminal and a high voltage switch terminal provided opposite to the low voltage switch operating section 11 and the high voltage switch operating section 12.

The gap between the contacts of the high voltage switch 4 is set larger than the gap between the discharge electrodes 3.

Since the present embodiment has the above-described structure, when the sliding body 8 is raised via the push plate 7 by operating the gas knob,
Before the low-pressure switch operating section 11 turns on the low-pressure switch 2 via the low-voltage switch terminal 13, the high-pressure switch 4 is turned off via the high-voltage switch terminal 14 by the high-pressure switch operating section 12.

When the low-pressure switch 2 is turned on, the contact gap of the high-pressure switch 4 is larger than the gap between the discharge poles 3, so sparks are generated between the discharge poles 3.

After the ignition is completed, the low voltage switch 2 is turned off while the contact gap of the high voltage switch 4 is larger than the gap between the discharge electrodes 3.

As mentioned above, each switch is used for the purpose of preventing the high voltage side switch from being worn out due to spark discharge due to on/off operation, and the low voltage switch 2 and high voltage switch 4 are used to perform on/off operation on the high voltage side before energizing. , the low pressure switch 2' and the high pressure switch 4' are interlocked, and the high pressure switch is turned off first, and the low pressure switch is turned off later.

Also, turn off the low pressure switch first and turn on the high pressure switch later.

Therefore, in normal times, by operating the gas cock, the low pressure switch 2 is turned on, power is supplied to the primary side of the high voltage transformer 1, and high voltage is generated on the secondary side.

At that time, the high voltage switch 4 is off (the high voltage switch 4' is on), so the secondary side of the transformer 1 becomes a closed circuit of transformer 1 - discharge electrode 3 - high voltage switch 4' - transformer 1, and the discharge electrode 3, a spark is generated and the gas burner 5 is ignited.

When the gas cock is released after ignition, the sliding body 8 is pushed down by the biasing force of the pressing spring 10, turning off the low pressure switch 2 and turning on the high pressure switch 4.

Next, the high pressure switch is pushed up (off)
If such a failure occurs, when another switch 2', 4' is operated, power is supplied to the primary side of the transformer as described above, and high voltage is generated on the secondary side.

However, since both the high voltage switches 4 and 4' are off, the distance between both discharge electrodes 3 and 3' is plus, and the distance is such that no discharge is possible, so the spark does not travel to both, so it is likely that there is a malfunction. You can tell right away.

As explained above, according to the present invention, even in appliances with multiple gas burners, there is no need to provide an ignition device such as a high-voltage generating transformer for each gas burner, and high voltage is removed from unnecessary gas burner discharge poles. There is no risk of sparks being generated when applied.

Furthermore, according to the present invention, the high voltage switch can be prevented from being burnt out due to sparks caused by high voltage, and even if there is a defective switch, the defective part can be immediately discovered by simply replacing the switch. be.

[Brief explanation of drawings]

FIG. 1 is a system diagram showing one embodiment of the gas automatic ignition device of the present invention. FIG. 2 is a system diagram showing a conventional gas automatic ignition device. 1...Transformer for high voltage generation, 2.2'...
...Low pressure switch, 3.3'...Discharge pole, 4
, 4'... High pressure switch, 6... Gas cock, 7... Push plate 1.8... Sliding body, 9... Switch Section 11...Low pressure switch operation section, 12...High pressure switch operation section.

Claims (1)

[Scope of utility model registration request] A sliding body 8 that is slid by a push plate 7 attached to a shaft 6a of a gas cylinder that communicates with a plurality of gas burners 5, respectively.
A high pressure switch 4' is provided in the upper part of the sliding body 8 in the switch part 9, and a low pressure switch 2' is provided in the lower part.
, 2' are connected, and a parallel circuit of the plurality of low voltage switches 2, 2' is connected in series to the primary circuit of the high voltage generating transformer 1, and a parallel circuit of the plurality of low voltage switches 2, 2' is connected to the secondary circuit of the transformer 1. high voltage switches 4, 4' are connected in series,
A discharge electrode 3 is connected in parallel to the plurality of high voltage switches 4, 4'.
, 3' are provided near the gas burner 5.