A battery-operated ignition smoking pipe including a replaceable nichrome wire within an indentation on an inner perimeter of a bowl of the pipe body, a fuel reservoir directly below and adjacent the interior cavity of the bowl, an ignition switch on a stem of a pipe body to activate, in one embodiment, a nichrome wire and, and in another embodiment, an ignition wire for igniting an amount of fuel within a fuel reservoir to combust an ignitable smoking substance, such as tobacco, contained within the bowl, and a filter disposed between the stem and the bowl. The present device permits one-handed ignition to combust the smoking substance.

A device capable of automatically igniting or heating a cigarette includes a heat source system, a control system, and the openable and closeable top cover. The heat source system includes the electric heating chamber and the igniter. The igniter includes the electric heating element. The electric heating chamber includes at least one pair of light passing holes of the electric heating chamber. The control system includes the control circuit board, the mechanical switch, the mode switching switch, the infrared light source, the light sensing switch, and the device main circuit switch. The mechanical switch controls the top cover to be opened or closed and controls the device main circuit switch to be turned on or off. The mode switching switch is used for switching between an operation of the igniter and an operation of the electric heating chamber.

A portable exothermic welding ignition controller includes a housing configured to receive a first portion of a portable power tool battery with a second portion of the portable tool battery external to the housing. A circuit board is positioned within the housing and configured for electrical coupling to the portable power tool battery. An actuator is operatively engageable with the circuit board for selectively discharging power from the portable power tool battery to a connection terminal electrically coupled to the circuit board.

A portable exothermic welding ignition controller includes a housing configured to receive a first portion of a portable power tool battery with a second portion of the portable tool battery external to the housing. A circuit board is positioned within the housing and configured for electrical coupling to the portable power tool battery. An actuator is operatively engageable with the circuit board for selectively discharging power from the portable power tool battery to a connection terminal electrically coupled to the circuit board.

A rechargeable battery-operated ignition smoking pipe including a replaceable nichrome wire within an indentation on an inner perimeter of a bowl of the pipe body, a fuel reservoir directly below and adjacent the interior cavity of the bowl, an ignition switch on a stem of a pipe body to selectively activate one of the nichrome wire and an amount of fuel within the fuel reservoir to combust an ignitable smoking substance, such as tobacco, contained within the bowl, and a filter disposed between the stem and the bowl. The present device permits one-handed ignition to combust the smoking substance. The rechargeable battery-operated ignition smoking pipe also includes a micro USB outlet and wireless charging receptacles to permit the pipe to recharge without the hassle of changing batteries.

A handheld computer case having an integral lighter for providing a flameless lighter in a case for a mobile phone includes a case body defining a rigid housing sized to fit a conventional handheld computer, a lighter actuator for selectively availing and activating an electric lighter, and a lighter housing in which the electric lighter is disposed. In operation, a user may apply manual force to mechanically actuate the lighter actuator, thereby causing both the lighter housing to open and expose the electric lighter and an electrical switch to direct electricity from an internal battery to a heating element which defines the electric lighter. Once the user is finished with the lighter, the manual force may be removed to cause the lighter housing to automatically close and the flow of electricity to the heating element to be interrupted.

A handheld computer case having an integral lighter for providing a flameless lighter in a case for a mobile phone includes a case body defining a rigid housing sized to fit a conventional handheld computer, a lighter actuator for selectively availing and activating an electric lighter, and a lighter housing in which the electric lighter is disposed. In operation, a user may apply manual force to mechanically actuate the lighter actuator, thereby causing both the lighter housing to open and expose the electric lighter and an electrical switch to direct electricity from an internal battery to a heating element which defines the electric lighter. Once the user is finished with the lighter, the manual force may be removed to cause the lighter housing to automatically close and the flow of electricity to the heating element to be interrupted.

A burning type heat source (50) includes: a single longitudinal hollow (51) extending along the first direction (D1); and a lateral hollow (52) extending along a second direction (D2) crossing the first direction (D1), the lateral hollow (52) communicating with the longitudinal hollow (51). The ignition end (50Ae) is provided at the ignition end (50Ae) side in the first direction relative to a burning position at an end of a second inhalation.

A burning type heat source (50) includes: a single longitudinal hollow (51) extending along the first direction (D1); and a lateral hollow (52) extending along a second direction (D2) crossing the first direction (D1), the lateral hollow (52) communicating with the longitudinal hollow (51). The ignition end (50Ae) is provided at the ignition end (50Ae) side in the first direction relative to a burning position at an end of a second inhalation.

This application is to protect the design and application of a remote assisted plasma ignition device for the use but not restricted to the oil & gas industry. Which consists of four (4) main components: Power Supply Assembly (Solar PV+Battery), Remote Control system, Electronic control circuit, Plasma generator, High voltage cables and/or electrodes

The first 3 components (apart from PV solar cells) are housed in a sealed box according to the oil & gas standards. The plasma generator would be housed separately where high voltage cables stem from it to produce multiple plasma sparks. This novel device is placed immediately above the impacted site requiring no projectile system or specialized personnel to operate.

During the event of an uncontrolled gas leak, authorized person in charge such as drilling supervisor (DSV) would initiate the spark remotely following evacuation of the impacted site. Multiple plasma sparks would be initiated after following a specific remote ignition sequence. The scattered plasma spark around the impacted site would result in the ignition of the flammable fluids.