The plant module comprises a base deck, a frame and a plurality of pieces of equipment mounted to the base deck and/or the frame; the base deck comprises of a grid of base beams; some of or all the beams of the base deck and optionally some of or all the beams of the frame are perforated, in particular castellated-type or cellular-type, so that they have a plurality of holes, in particular web-openings, for receiving conduits and/or pipes and/or trays.

A tailgating detection and monitoring assembly includes a speed detector, a sensor, a visual warning module, and an imager, which are configured to couple to a rear window of a first vehicle and are operationally coupled to a control module. The speed detector is configured to measure a speed of the first vehicle. The sensor is configured to measure a distance between the first vehicle and a second vehicle that is behind the first vehicle. The control module is positioned to determine a separation between the first vehicle and the second vehicle and a speed of the second vehicle based on signals from the speed detector and the sensor to determine a tailgating event. The control module is positioned to command the visual warning module to display a notification to a driver of the second vehicle and to command the imager to capture an image of the tailgating event.

A piston arrangement is provided. The piston assembly includes a track and a piston moveable within a cylinder. The track is rotatable relative to the cylinder about an axis of rotation and has a cam surface and an edge surface extending away from the cam surface. The piston is coupled to the track by a follower running on the cam surface. The cam surface is shaped such that, as the track moves relative to the cylinder, the piston head moves in reciprocating motion within the cylinder along a piston axis in accordance with the path of the cam surface. The piston axis is perpendicular to the track axis of rotation. A stabilizing element is connected to the piston, the stabilizing element extending below the piston head and comprising a contact surface which engages the edge surface of the track.

A piston arrangement is provided. The piston assembly includes a track and a piston moveable within a cylinder. The track is rotatable relative to the cylinder about an axis of rotation and has a cam surface and an edge surface extending away from the cam surface. The piston is coupled to the track by a follower running on the cam surface. The cam surface is shaped such that, as the track moves relative to the cylinder, the piston head moves in reciprocating motion within the cylinder along a piston axis in accordance with the path of the cam surface. The piston axis is perpendicular to the track axis of rotation. A stabilizing element is connected to the piston, the stabilizing element extending below the piston head and comprising a contact surface which engages the edge surface of the track.

A support structure for supporting a conduit of an engine includes a bracket assembly having a platform, a pair of brackets, and a pair of fixtures. The platform supports the conduit. Each bracket includes a first lateral post coupled to the platform, a second lateral post coupled to an engine block, a first longitudinal post, and a second longitudinal post. Also, a lateral distance between the first longitudinal post and the second longitudinal post increases in a direction away from the first lateral post towards the second lateral post. Each bracket also includes a stiffener connecting the first longitudinal post and the second longitudinal post. Each fixture includes a pair of legs and couples the platform to an engine head. Further, each fixture includes a web structure having a central portion and a plurality of stems connecting to the pair of legs.

A piston arrangement including a track and a piston moveable within a cylinder; wherein the track is adapted to rotate relative to the cylinder about an axis of rotation and has a cam surface and an edge surface extending away from the cam surface; wherein the piston is coupled to the track by a follower running on the cam surface; wherein the cam surface is shaped such that, as the track moves relative to the cylinder, the piston head moves in reciprocating motion within the cylinder in accordance with the path of the cam surface; wherein a stabilising element is connected to the piston, the stabilising element extending below the piston head and comprising a contact surface which engages the edge surface of the track.

A piston arrangement including a track and a piston moveable within a cylinder; wherein the track is adapted to rotate relative to the cylinder about an axis of rotation and has a cam surface and an edge surface extending away from the cam surface; wherein the piston is coupled to the track by a follower running on the cam surface; wherein the cam surface is shaped such that, as the track moves relative to the cylinder, the piston head moves in reciprocating motion within the cylinder in accordance with the path of the cam surface; wherein a stabilising element is connected to the piston, the stabilising element extending below the piston head and comprising a contact surface which engages the edge surface of the track.

Provided is a grounding structure for an internal combustion engine, including a resinous body 2 configured to be attached to an engine body 7 and having a recessed portion 6 formed on a side thereof facing the engine body 7; a nut portion 13 integrally provided in the body 2, wherein the nut portion 13 includes a first end portion 13a opened into the recessed portion 6 and is made of a conductive material; and an oil pressure switch 5 configured to be attached to a second end portion 13b of the nut portion 13; and a conductive spring 16 arranged inside the recessed portion 6, wherein the conductive spring 16 is attached to the first end portion 13a of the nut portion 13 and is pressed against the engine body 7.

Provided is a grounding structure for an internal combustion engine, including a resinous body 2 configured to be attached to an engine body 7 and having a recessed portion 6 formed on a side thereof facing the engine body 7; a nut portion 13 integrally provided in the body 2, wherein the nut portion 13 includes a first end portion 13a opened into the recessed portion 6 and is made of a conductive material; and an oil pressure switch 5 configured to be attached to a second end portion 13b of the nut portion 13; and a conductive spring 16 arranged inside the recessed portion 6, wherein the conductive spring 16 is attached to the first end portion 13a of the nut portion 13 and is pressed against the engine body 7.

A genset chassis for mounting a genset includes an engine and generator thereon includes a pair of inner beams and an outer beam coupled to an outer sidewall of a corresponding inner beam. The outer beams are vertically offset from the corresponding inner beam such that at least a portion of the outer beams is higher than a corresponding inner beam. The outer beams are structured to be positioned on mounting members positioned on a surface so that a first distance between the at least a pair of inner beams and the surface is less than a second distance between the plurality of outer beams and the surface. The inner beams are structured to mount at least a portion of the genset thereon such that a part of the at least a portion of the genset is lower than the plurality of outer beams.