Embodiments of the present invention include a plasma cutting torch and plasma cutting torch components, such as electrodes, cathodes, retainer caps, etc. having a unique physical features, including threads relationships. Embodiments include torch components having modified square thread with a specialized thread configuration including a particular relationship between thread crest and root, and included angles of thread sidewalls.

A swirl ring for a plasma arc torch includes a body configured to at least partially surround and slidingly engage an electrode of the plasma arc torch. The body includes a first end and a second end opposite the first end, the first and second ends defining a longitudinal axis, and at least one protuberance extending from the second end in a direction of the longitudinal axis. The at least one protuberance is configured to engage a switch of the plasma arc torch for sensing a presence of a swirl ring in the plasma arc torch.

A consumable cartridge for a plasma arc torch is provided. The consumable cartridge includes an outer component defining a substantially hollow body, an inner component disposed substantially within the hollow body of the outer component, and a hollow region between the rear portion of the inner component and the outer component. The inner component includes a forward portion configured to axially secure and rotatatably engage the outer component to the inner component and a rear portion substantially suspended within the hollow body of the outer component. The rear portion is axially secured and rotatably engaged with the outer component via the forward portion. The hollow region is configured to receive a torch head to enable mating between the rear portion of the inner component and a cathode of the torch head.

There is provided a reactor wherein the reactor is a cyclone reactor, and wherein at least one volume (Vh) inside the reactor is adapted to be heated by a plasma torch to a temperature of at least 3000? C. Advantages include that the calcination is quicker with a more uniform heat transfer to all particles. The calciner can be made more compact. The temperature difference in the process ?T increases, which also improves the efficiency of the process. The calcination process can be made essentially kinetically controlled. The elevated temperatures of the heat treated material reduce recombination reactions.

A gas conducting unit for a gas-cooled plasma cutting torch, wherein the gas-conducting unit is single-part or multi-part tubular or annular. The gas-conducting unit comprises a single-part or multi-part tubular or annular gas-conducting unit body with a longitudinal axis L1. In a wall of the gas-conducting unit body, there are situated at least one opening, which is inclined by an angle ? in a range of ?15? with respect to the longitudinal axis L1, and at least one second opening, which is inclined radially with respect to the longitudinal axis L1 or which, in a radial plane, is inclined at an angle ? in the range of ?30? from the radial to the longitudinal axis L1.

A consumable cartridge frame for a liquid-cooled plasma arc torch is provided. The consumable cartridge frame includes an insulator body configured to be disposed between a torch head and a cartridge tip. The consumable cartridge also includes a first cooling channel, disposed in the body, configured to conduct a first fluid flow received from the torch head to contact a component of the cartridge tip connected to the cartridge frame. The consumable cartridge further includes a first return channel, disposed in the body, configured to conduct at least a portion of the first fluid flow from the component to the torch head. The first cooling channel and the first return channel are non-concentric in relation to a central longitudinal axis of the body.

A consumable cartridge frame for a liquid-cooled plasma arc torch is provided. The consumable cartridge frame includes an insulator body configured to be disposed between a torch head and a cartridge tip. The consumable cartridge also includes a first cooling channel, disposed in the body, configured to conduct a first fluid flow received from the torch head to contact a component of the cartridge tip connected to the cartridge frame. The consumable cartridge further includes a first return channel, disposed in the body, configured to conduct at least a portion of the first fluid flow from the component to the torch head. The first cooling channel and the first return channel are non-concentric in relation to a central longitudinal axis of the body.

A torch extender for a plasma arc cutting system is provided. The plasma torch extender includes an elongated substantially dielectric body that defines a first end and a second end and includes a flexible section that is poseable across a plurality of orientations. The torch extender also includes a first connector, at the first end of the elongated substantially dielectric body, which mates with a consumable set, and a second connector, at the second end of the elongated substantially dielectric body, which mates with a torch mount. The torch extender further includes a consumable detection medium that communicates the presence of the consumable set. The consumable detection medium is disposed within the elongated substantially dielectric body and extends between the first end and the second end of the elongated substantially dielectric body.

The invention features methods and apparatuses for liquid cooling a plasma arc torch. An electrode is provided including a body having a longitudinal axis defining a first end, a second end, and a middle portion. The electrode includes a first sealing element disposed on an exterior of the body near the first end; a second sealing element disposed on the exterior of the body located in the middle portion, the second sealing element configured to provide a first gas seal to a swirl gas chamber and defining a portion of the swirl gas chamber; and a third sealing element disposed on the exterior of the body, the third sealing element located between the second sealing element and the second end, the third sealing element configured to provide a second gas seal to the swirl gas chamber and defining a portion of the swirl gas chamber.

Embodiments of the present invention are directed to an air cooled cutting torch having improved performance. The torch comprises an improved electrode, where the electrode has at least one gas flow port to allow air flow to pass through the electrode to improve cooling and performance.