A pocket lighter with a universal disposable butane fuel can has been developed. The pocket lighter includes: a fuel can adaptor; the fuel can adaptor comprises: a first recess that accepts a ridged portion of the disposable fuel can, a through hole that accepts a gas outlet valve; the gas outlet valve comprising a second recess that accepts a depressible portion of the disposable fuel can; wherein the gas outlet valve extends through the through hole of the fuel can adaptor; and wherein the ridged portion of the disposable fuel can seals against a shoulder portion of the first recess, and the depressible portion of the disposable fuel can seals against the second recess when the disposable fuel can is installed in fuel can adaptor.

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.

A lighter includes a lighter body having a fuel reservoir with a fuel-releasing valve, and an assembly such as a piezoelectric system, an electric system or system having a friction wheel rotatable by a user to produce sparks directed to the fuel released by the valve. The friction wheel assembly is mounted on the lighter body such that at least part of the friction wheel is exposed to be handled and rotated by the user. A valve actuator is depressible to actuate the valve and release the fuel. A protective element is mounted on the lighter body and consists of multiple layers. The protective element has a thickness ranging from 25-200 m and includes an outer protective film formed by a plastic film coated with an aliphatic polyurethane layer having a thickness ranging from 10-75 containing between 30 and 100% solids, depending on the required degree of smoothness.

A piezoelectric lighter includes a lighter housing having a liquefied gas storage, a gas emitting nozzle extended from the liquefied gas storage, a piezoelectric unit disposed in the lighter housing, and a lighter cap slidably coupled on top of the lighter housing above the piezoelectric unit. The gas emitting nozzle is slidably received at a nozzle window of the lighter cap, wherein an exit opening of the gas emitting nozzle is embedded in the ceiling of the lighter cap to protect the exit opening of the gas emitting nozzle. When the lighter cap is depressed to expose the exit opening of the gas emitting nozzle above the ceiling of the lighter cap, the piezoelectric unit is depressed and the gas emission unit is actuated at the same time to produce a flame at the exit opening of the gas emitting nozzle.

An igniter with a safety protection device (5) and an ignition control method therefor. The igniter comprises an ignition switch (3) and an energy supply module (4). The safety protection device (5) comprises a safety switch (51), a trigger module (52) and a wireless transceiver module (53), wherein the wireless transceiver module (53) can transmit a wireless request signal, receive a wireless response signal from an external device (2) and transmit the received wireless response signal to the trigger module (52), and the trigger module (52) triggers the safety switch (51) according to the wireless response signal to enable the safety switch (51) to act, so that ignition can be realized, and the ignition cannot be realized even the ignition switch (3) is actuated when the wireless transceiver module (53) does not receive the wireless response signal. The igniter can effectively prevent children or disabled persons from accidentally using the igniter.

A piezoelectric lighter includes a lighter housing having a liquefied gas storage, a gas emitting nozzle extended from the liquefied gas storage, a piezoelectric unit disposed in the lighter housing, and a lighter cap slidably coupled on top of the lighter housing above the piezoelectric unit. The gas emitting nozzle is slidably received at a nozzle window of the lighter cap, wherein an exit opening of the gas emitting nozzle is embedded in the ceiling of the lighter cap to protect the exit opening of the gas emitting nozzle. When the lighter cap is depressed to expose the exit opening of the gas emitting nozzle above the ceiling of the lighter cap, the piezoelectric unit is depressed and the gas emission unit is actuated at the same time to produce a flame at the exit opening of the gas emitting nozzle.

A torch device having a pivoting torch arm, including a fuel delivery system having a fuel tank and microjet burners positioned in the end of the torch arm, and an ignition system including an ignition button and a piezoelectric igniter for igniting fuel, and an interlock mechanism including a mounting tab pivotally attaching the torch arm to the body of the torch, with a guide pocket defined by a laterally-extending wall of the mounting tab, and a rocker arm having a distal arm cooperating with and confined within the guide pocket, and a proximal arm cooperating with the ignition button, and configured to prevent a user from pressing the ignition button based on the angular position of the torch arm relative to the torch body.

A lighter includes a lighter body having a fuel reservoir with a fuel-releasing valve, and an assembly such as a piezoelectric system, an electric system or system having a friction wheel rotatable by a user to produce sparks directed to the fuel released by the valve. The friction wheel assembly is mounted on the lighter body such that at least part of the friction wheel is exposed to be handled and rotated by the user. A valve actuator is depressible to actuate the valve and release the fuel. A protective element is mounted on the lighter body and consists of multiple layers. The protective element has a thickness ranging from 25-200 m and includes an outer protective film formed by a plastic film coated with an aliphatic polyurethane layer having a thickness ranging from 10-75 containing between 30 and 100% solids, depending on the required degree of smoothness.

A torch includes a body, a fuel tank and a microjet burner. The torch also includes an ignition button that is movable relative to the body between an upper position and a depressed position, and a cap assembly, which includes a lower cap and a safety cap rotatably coupled with the lower cap. The safety cap includes an ignition button guard, defines a flame portal, and is rotatable between a closed position and an armed position. When the safety cap is in the closed position, the ignition button guard is aligned with the ignition button and inhibits access to the ignition button, and the safety cap covers the microjet burner. When the safety cap is in the armed position, the flame portal is aligned with the microjet burner, and the ignition button guard is misaligned with the ignition button, and access to the ignition button is unobstructed.

A piezoelectric lighter includes a lighter housing having a liquefied gas storage, a gas emitting nozzle extended from the liquefied gas storage, a piezoelectric unit disposed in the lighter housing, and a lighter cap slidably coupled on top of the lighter housing above the piezoelectric unit. The gas emitting nozzle is slidably received at a nozzle window of the lighter cap, wherein an exit opening of the gas emitting nozzle is embedded in the ceiling of the lighter cap to protect the exit opening of the gas emitting nozzle. When the lighter cap is depressed to expose the exit opening of the gas emitting nozzle above the ceiling of the lighter cap, the piezoelectric unit is depressed and the gas emission unit is actuated at the same time to produce a flame at the exit opening of the gas emitting nozzle.