A labeling assembly for labeling machines which includes a base frame which is adapted to be associated with a conveyor of containers to be labeled and which supports elements for labeling the containers; elements are provided for at least partially delimiting the work area of the labeling elements; the delimiting elements include at least one protective body which can move slideably, with respect to the base frame, between an active position, in which it is adapted to delimit at least partially the work area of the labeling elements, and at least one inactive position, which is spaced with respect to the active position, in which it allows access from the outside to the work area of the labeling elements.

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.

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.

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 housing for a compressor or expander installation, vacuum pump, generator or similar, whereby this housing is made of metal plates, wherein at least one of the aforementioned metal plates is provided with one or more reinforcing profiles, respectively longitudinal profiles that extend in a certain longitudinal direction and transverse profiles that extend along a transverse direction that forms an angle to the aforementioned longitudinal direction, whereby the various metal plates and longitudinal profiles and/or transverse profiles are joined together solely by means of mechanical fasteners.

A compressor system is disclosed with a skeleton base structure configured to support a compressor. The skeleton base includes a first portion and a second portion configured to support the compressor system. The first portion includes a lower elongate support leg extending along a longitudinal direction, a support platform spaced above the lower support leg, and an open space formed between the lower support leg and the support platform. The second portion includes an extension beam projecting along the longitudinal direction from the first portion and a cross member support positioned transversely across the extension beam.

A compressor system is disclosed with a skeleton base structure configured to support a compressor. The skeleton base includes a first portion and a second portion configured to support the compressor system. The first portion includes a lower elongate support leg extending along a longitudinal direction, a support platform spaced above the lower support leg, and an open space formed between the lower support leg and the support platform. The second portion includes an extension beam projecting along the longitudinal direction from the first portion and a cross member support positioned transversely across the extension beam.

A compressor system is disclosed with a skeleton base structure configured to support a compressor. The skeleton base includes a first portion and a second portion configured to support the compressor system. The first portion includes a lower elongate support leg extending along a longitudinal direction, a support platform spaced above the lower support leg, and an open space formed between the lower support leg and the support platform. The second portion includes an extension beam projecting along the longitudinal direction from the first portion and a cross member support positioned transversely across the extension beam.

A stand for an engine is provided. The stand includes a base member having a first end and a second end. The base member also includes a front post fixedly connected to the base member at the first end. The base member further includes a rear support system fixedly connected to the base member at the second end. The rear support system includes two sleeve members and two rear posts, such that each rear post is slidably coupled to a sleeve member, and such that each rear post includes a clamp configured to hold a rear mount of the engine.