A welding machine includes a welding power supply that generates a welding waveform during a welding operation, an internal combustion engine, and a generator that is operatively connected to the welding power supply to supply electrical energy to the welding power supply. The generator includes a rotor shaft driven by the internal combustion engine, and an end casting located at an end of the generator opposite the internal combustion engine. A rotary screw compressor is mounted to the end casting of the generator. A clutch mechanism couples the rotor shaft to the rotary screw compressor to selectively drive the rotary screw compressor by the rotor shaft.

A welding machine includes a welding power supply that generates a welding waveform during a welding operation, an internal combustion engine, and a generator that is operatively connected to the welding power supply to supply electrical energy to the welding power supply. The generator includes a rotor shaft driven by the internal combustion engine, and an end casting located at an end of the generator opposite the internal combustion engine. A rotary screw compressor is mounted to the end casting of the generator. A clutch mechanism couples the rotor shaft to the rotary screw compressor to selectively drive the rotary screw compressor by the rotor shaft.

A foundation temperature control system for use with a rotary machine is positioned between the rotary machine and a foundation. The foundation temperature control system includes a heat shield, an insulation pack positioned below the heat shield, and an air gap at least partially defined by the heat shield and the insulation pack. The heat shield, the insulation pack, and the air gap are oriented to facilitate maintaining a temperature of the foundation supporting the rotary machine below a maximum rated operating temperature of the foundation.

A kit includes an adjustable chock provided with a first component having screw threads and with a second component having screw threads cooperating with the screw threads of the first component and having a lower bearing surface, and with a bearing element provided with a lower bearing surface in contact with an upper bearing surface of the first component, and with an upper bearing surface. The kit further includes at least one friction ring adapted to be mounted against the lower bearing surface of the second component or against the upper bearing surface of the bearing element.

A kit includes an adjustable chock provided with a first component having screw threads and with a second component having screw threads cooperating with the screw threads of the first component and having a lower bearing surface, and with a bearing element provided with a lower bearing surface in contact with an upper bearing surface of the first component, and with an upper bearing surface. The kit further includes at least one friction ring adapted to be mounted against the lower bearing surface of the second component or against the upper bearing surface of the bearing element.

A method for installing a compressor and a gas turbine of a first type at a position of an existing power plant where previously a compressor and a gas turbine of a second type were installed on a foundation specially designed for the second type. The two types differ from each other at least with respect to the position and/or the number of anchoring points at which the compressor and the gas turbine are connected to the foundation via support structures. The installation of the new compressor and the new gas turbine is carried out using an adapter structure on the existing foundation. A corresponding adapter structure is provided.

A method for installing a compressor and a gas turbine of a first type at a position of an existing power plant where previously a compressor and a gas turbine of a second type were installed on a foundation specially designed for the second type. The two types differ from each other at least with respect to the position and/or the number of anchoring points at which the compressor and the gas turbine are connected to the foundation via support structures. The installation of the new compressor and the new gas turbine is carried out using an adapter structure on the existing foundation. A corresponding adapter structure is provided.

Systems and methods described herein provide a configurable base plate for industrial pump configurations, including different combinations of pump, motor, and coupling types. Slotted motor adapters allow for axial adjustment of the motor position, and movable threaded mounting lugs lock in the motor position for ease of future maintenance, replacement, disassembly, and repeated reassembly. The mounting lugs are locked into place by affixing jackscrew lugs, which serve to both semi-permanently locate the motor mounting locations, and also provide a point to install a jackscrew used to finely adjust motor position and coupling alignment. A single adjustable coupling guard is compatible with a variety of pump, coupling, and motor configurations that fit on the base plate.

Systems and methods described herein provide a configurable base plate for industrial pump configurations, including different combinations of pump, motor, and coupling types. Slotted motor adapters allow for axial adjustment of the motor position, and movable threaded mounting lugs lock in the motor position for ease of future maintenance, replacement, disassembly, and repeated reassembly. The mounting lugs are locked into place by affixing jackscrew lugs, which serve to both semi-permanently locate the motor mounting locations, and also provide a point to install a jackscrew used to finely adjust motor position and coupling alignment. A single adjustable coupling guard is compatible with a variety of pump, coupling, and motor configurations that fit on the base plate.

A robot includes a base installed on an installation surface, a robot arm coupled to the base, a force detection section coupled to the base and detecting a force applied to the robot arm, a coupling member having a plurality of convex parts provided between the installation surface and the force detection section, projecting toward the force detection section side, and contacting the force detection section, and first fixing members provided in positions where the convex parts are provided and fixing the force detection section and the coupling member.