Gas infrared igniter is a device that uses infrared technology for ignition, mainly used to ignite household gas appliances such as gas stoves and wall-mounted boilers. Its working principle mainly includes three parts: sensor detection, signal processing and ignition control.
First, the gas infrared igniter is equipped with an infrared sensor that can sense the surrounding infrared radiation. When the user turns the switch or presses the ignition button, the sensor receives the infrared signal and transmits the signal to the control system.
Secondly, the control system processes the received signal to determine whether an ignition operation is required. If the sensor detects that there is a flammable gas overflow or the user needs to ignite the stove, the control system will issue an instruction to start the ignition device.
Finally, the ignition device will perform the ignition operation according to the instructions of the control system. Gas infrared igniters generally use high-voltage electronic ignition or spark ignition technology to ignite the gas by generating high-voltage electric shock or sparks to achieve the purpose of ignition.
In general, the infrared gas igniter detects the surrounding conditions through infrared sensors, the control system processes the sensor signals, and then the ignition device performs ignition operations according to the instructions of the control system to achieve safe and reliable ignition of gas equipment. This ignition method is fast, safe and convenient, and is widely used in household gas equipment.
Gas infrared igniter is a device that uses infrared technology for ignition, mainly used to ignite household gas appliances such as gas stoves and wall-mounted boilers. Its working principle mainly includes three parts: sensor detection, signal processing and ignition control.
First, the gas infrared igniter is equipped with an infrared sensor that can sense the surrounding infrared radiation. When the user turns the switch or presses the ignition button, the sensor receives the infrared signal and transmits the signal to the control system.
Secondly, the control system processes the received signal to determine whether an ignition operation is required. If the sensor detects that there is a flammable gas overflow or the user needs to ignite the stove, the control system will issue an instruction to start the ignition device.
Finally, the ignition device will perform the ignition operation according to the instructions of the control system. Gas infrared igniters generally use high-voltage electronic ignition or spark ignition technology to ignite the gas by generating high-voltage electric shock or sparks to achieve the purpose of ignition.
In general, the infrared gas igniter detects the surrounding conditions through infrared sensors, the control system processes the sensor signals, and then the ignition device performs ignition operations according to the instructions of the control system to achieve safe and reliable ignition of gas equipment. This ignition method is fast, safe and convenient, and is widely used in household gas equipment.