A method for producing a cam phaser for a cam shaft of an internal combustion engine, the cam phaser including a rotor, a stator and at least one cover, the method including arranging the at least one cover at the stator; and welding the at least one cover with the stator, wherein a first weld, a second weld and a third weld are formed at least on a large radius or on a small radius during the welding, and wherein the small radius is smaller than the large radius. The invention furthermore relates to a cam phaser for a cam shaft of an internal combustion engine, the cam phaser including a rotor; a stator and at least one cover.

A laser machining robot system that simplifies programming of a scanner operation is provided. A laser machining robot system includes a robot controller that controls a robot that performs remote laser machining and a scanner controller that controls a scanner. The robot controller includes: a machining information input unit that inputs machining information; a G-code generation unit that generates a G-code program using the machining information; and a G-code communication unit that transmits the G-code program to the scanner controller. The scanner controller includes a scanner program processing unit that applies the G-code program as a scanner operation program for operating the scanner.

A laser machining robot system that simplifies programming of a scanner operation is provided. A laser machining robot system includes a robot controller that controls a robot that performs remote laser machining and a scanner controller that controls a scanner. The robot controller includes: a machining information input unit that inputs machining information; a G-code generation unit that generates a G-code program using the machining information; and a G-code communication unit that transmits the G-code program to the scanner controller. The scanner controller includes a scanner program processing unit that applies the G-code program as a scanner operation program for operating the scanner.

A superconducting radio frequency cell includes a body defining a hollow cavity having a first iris and second iris at opposite ends of the body, an axis that extends between the first and second irises, and an equator around the axis between the first and second irises. The body includes at least a first weld seam around the axis at a location on the body spaced from the equator. Each weld seam extends through the body and has opposite sides terminating proximate an interior and an exterior of the body, and each weld seam includes a first, conduction weld formed on one side of the weld seam and a second weld formed on the opposite side of the weld seam. The second weld can be a conduction weld, a keyhole weld, or a transition weld.

A laser welding by-product removal device comprises a housing that includes distal and proximate ends separated along a central axis by a peripheral sidewall. A first plenum circumscribes the peripheral sidewall at the proximate housing end and includes a gas inlet and a first plenum base surface that includes a plurality of gas outlet holes. A second plenum circumscribes the peripheral sidewall between the first plenum and the distal housing end, where the second plenum includes a second plenum base surface, radially inner and outer sidewalls that extend axially distal from the second plenum base surface. The second plenum includes a top surface extending between the radially inner and outer sidewalls, and a by-product outlet in the top surface, where at least one of the second plenum base surface and the radially outer sidewall includes a plurality of by-product inlet holes.

A laser welding by-product removal device comprises a housing that includes distal and proximate ends separated along a central axis by a peripheral sidewall. A first plenum circumscribes the peripheral sidewall at the proximate housing end and includes a gas inlet and a first plenum base surface that includes a plurality of gas outlet holes. A second plenum circumscribes the peripheral sidewall between the first plenum and the distal housing end, where the second plenum includes a second plenum base surface, radially inner and outer sidewalls that extend axially distal from the second plenum base surface. The second plenum includes a top surface extending between the radially inner and outer sidewalls, and a by-product outlet in the top surface, where at least one of the second plenum base surface and the radially outer sidewall includes a plurality of by-product inlet holes.

A system for making a welded assembly. The system may include a welding system that is configured to weld a first part to a second part with a laser beam. The system may further include an integrated feeder nozzle that includes an inlet manifold that receives a shield gas, and a nozzle body secured to the inlet manifold. The nozzle body may include a plurality of peripheral apertures that extend through the conical distal region and that are arranged around a central axis of the nozzle body. The system may further include a wire feeder disposed in the inlet manifold and the nozzle body. The wire feeder receives a welding wire and guides the welding wire to the central aperture.

A system for making a welded assembly. The system may include a welding system that is configured to weld a first part to a second part with a laser beam. The system may further include an integrated feeder nozzle that includes an inlet manifold that receives a shield gas, and a nozzle body secured to the inlet manifold. The nozzle body may include a plurality of peripheral apertures that extend through the conical distal region and that are arranged around a central axis of the nozzle body. The system may further include a wire feeder disposed in the inlet manifold and the nozzle body. The wire feeder receives a welding wire and guides the welding wire to the central aperture.

A distributor plate for a fluid treatment tank such as a water softener pressure vessel separates the resin bed from a lower end of the resin tank. The outer peripheral surface of the distributor plate is laser-welded to an inner peripheral surface of the tank. The outer peripheral surface of the distributor plate may have a biasing mechanism that biases the outer peripheral surface of the distributor plate against the inner peripheral surface of the tank. The biasing mechanism may include a plurality of peripherally-spaced resilient fingers extending axially and radially away from a circular base of an outer ring of the distributor plate into engagement with the inner peripheral surface of the tank liner, each of the fingers having a base connected to the base of the ring and having a free end. Also disclosed is a method of making a fluid treatment tank.

A distributor plate for a fluid treatment tank such as a water softener pressure vessel separates the resin bed from a lower end of the resin tank. The outer peripheral surface of the distributor plate is laser-welded to an inner peripheral surface of the tank. The outer peripheral surface of the distributor plate may have a biasing mechanism that biases the outer peripheral surface of the distributor plate against the inner peripheral surface of the tank. The biasing mechanism may include a plurality of peripherally-spaced resilient fingers extending axially and radially away from a circular base of an outer ring of the distributor plate into engagement with the inner peripheral surface of the tank liner, each of the fingers having a base connected to the base of the ring and having a free end. Also disclosed is a method of making a fluid treatment tank.