An arc lighter fixing element includes a metal conduit and an arc lighter detachably installed to an end of the metal conduit. A plastic expansion member is latched into an end of the metal conduit. The arc lighter includes an arc generation head and a ceramic member installed on the top inner side of the arc generation head, and the bottom of the arc generation head is sheathed on the top of the metal conduit. A screw is passed through the center of the ceramic member and then secured with the plastic expansion member. The metal conduit may be bent conveniently to facilitate an ignition at different angles, and passed through an expansion structure to connect the arc lighter to the metal conduit, so as to facilitate the installation and disassembling.

An arc lighter fixing element includes a metal conduit and an arc lighter detachably installed to an end of the metal conduit. A plastic expansion member is latched into an end of the metal conduit. The arc lighter includes an arc generation head and a ceramic member installed on the top inner side of the arc generation head, and the bottom of the arc generation head is sheathed on the top of the metal conduit. A screw is passed through the center of the ceramic member and then secured with the plastic expansion member. The metal conduit may be bent conveniently to facilitate an ignition at different angles, and passed through an expansion structure to connect the arc lighter to the metal conduit, so as to facilitate the installation and disassembling.

A gas appliance includes a burner, a gas valve, an ignitor, a thermocouple, and a control device, wherein the control device is adapted to execute a control method comprising the following steps: controlling the ignitor to ignite and the gas valve to open; receiving a sensing voltage output from the thermocouple; stop the ignitor from igniting and controlling the gas valve to keep a gas pipe be in an open state when the sensing voltage increases to a first voltage; receiving the sensing voltage output from the thermocouple continuously, and controlling the gas valve to block the gas pipe when the sensing voltage decreases from higher than a second voltage to lower than the second voltage, wherein the second voltage is higher than the first voltage. Whereby, an ignition procedure could be speeded up and the gas could be blocked earlier as the flames are extinguished.

An igniter device includes a holder for a piezo electric ignition source. A first end of the inner holder is coupled to a piezo electric ignition source including an actuator. A second end of the inner holder has a surface configured to receive a tip of an oxy fuel torch. An attachment structure releasably attaches the igniter device to a support member. The actuator is moveable from a relaxed state to a compressed state to activate the piezo electric ignition source to produce a spark for igniting the oxy fuel torch to produce a flame when the igniter device is attached to the support member.

An ignition device for a biomass particle fuel barbecue grill and a heater, the device comprising an electrode rod (2), an igniter (3) and a wire (5), wherein the electrode rod (2) is arranged at the bottom part of a biomass particle fuel combustion area, (1) in a biomass particle barbecue grill body. Specifically, a hole site is arranged at the bottom part of the biomass particle fuel combustion area (1) for fixing and installing the electrode rod, (2) and making contact with biomass particles in the biomass particle fuel combustion area (1); the igniter (3) is fixedly arranged at a suitable position on the outer surface of the biomass particle barbecue grill body; and the igniter (3) is connected to the electrode rod (2) by means of the wire (5).

An ignition device for a biomass particle fuel barbecue grill and a heater, the device comprising an electrode rod (2), an igniter (3) and a wire (5), wherein the electrode rod (2) is arranged at the bottom part of a biomass particle fuel combustion area, (1) in a biomass particle barbecue grill body. Specifically, a hole site is arranged at the bottom part of the biomass particle fuel combustion area (1) for fixing and installing the electrode rod, (2) and making contact with biomass particles in the biomass particle fuel combustion area (1); the igniter (3) is fixedly arranged at a suitable position on the outer surface of the biomass particle barbecue grill body; and the igniter (3) is connected to the electrode rod (2) by means of the wire (5).

Described is a supply circuit for a corona ignition device, with an input for connection to a direct voltage source, a first converter, a second converter, and an output for connecting a load. The two converters each generate an output voltage, which is provided on its secondary side and exceeds the input voltage. The two converters each contain a transformer that galvanically separates the primary side of the converter from its secondary side. At least one transistor switch is arranged between the input and primary side of the two converters for pulse width-modulation of the input voltage. The primary side of the second converter is connected in parallel with the primary side of the first converter, the secondary side of the second converter is connected in series with the secondary side of the first converter, the secondary sides of the two converters are each bridged in this series connection by at least one diode, so that an output voltage can be provided at the output of the supply circuit even given a failure of one of the two converters.

Provided is an ignition device of a burner which allows the burner to stably ignite even when a portion of the burner member is damaged, the ignition device including: a plate-shaped sparker disposed in an upper central region of a burner head so as to realize ignition to burn the gas ejected from the burner head and having a plurality of ignition portions formed therein; and a supporting member which has one end inserted in a center of the sparker and the other end inserted in a central region of the burner head such that the sparker is disposed in the upper central region of the burner head.

A tobacco smoke containment and filter device with built-in ignition for treating secondary and side stream tobacco smoke that includes a main body portion having an outer chamber and an inner chamber, a mouthpiece, and a housing unit that includes a cigarette ignition system, a fan and a filter. The main body portion includes an outer chamber connected to the housing unit. The mouthpiece has an opening therewith sized to accommodate a cigarette. The outer chamber includes a smoke exhaust member branching off from the exterior of the outer chamber. An inner chamber is positioned within the outer chamber and has a closed far end containing at least one air hole and a near end joined to the outer chamber forming an opening for the mouthpiece. The mouthpiece has a smoke control system that controls the inhalation and exhalation of smoke by the user. (printed circuit board).

A combustion test system includes a power source and a corona generator coupled to the power source. The combustion test system also includes a charge storage device. The charge storage device includes a charging surface spaced apart from the corona generator such that charge carriers, motivated by an electric field of the corona generator, intersect the charging surface to charge the charge storage device. The combustion test system also includes a first electrode coupled to the charge storage device and a second electrode coupled to a reference ground. The second electrode is spaced apart from the first electrode to produce an electrical arc between the first electrode and the second electrode based on a voltage difference between the first electrode and the second electrode.