The present invention pertains to a supporting structure for receiving battery cells in a battery system of a hybrid or electrical vehicle, the supporting structure comprising a bottom plate and two side plates arranged on the bottom plate, wherein the inner sides of the two side plates and the bottom plate define an internal volume for receiving the battery cells and wherein each side plate comprises a flange at its outer side and wherein each flange comprises fixation means for fastening the supporting structure to an adjacent supporting structure.

A multi-position hinge for the angular connection of two adjacent cable trays, includes a pin that defines a geometric articulation axis, a first member and a second member articulated together around the geometric axis. The first member and second member are each configured to be coupled to a corresponding cable tray. The multi-position hinge Includes two intermediate attachment members. Each of the intermediate attachment members are to be simultaneously coupled to a respective first member and second member and to a respective cable tray Each of the intermediate attachment members includes first coupling means configured to be coupled to a respective articulated element and second coupling means configured to be coupled to a respective cable tray.

A multi-position hinge for the angular connection of two adjacent cable trays, includes a pin that defines a geometric articulation axis, a first member and a second member articulated together around the geometric axis. The first member and second member are each configured to be coupled to a corresponding cable tray. The multi-position hinge Includes two intermediate attachment members. Each of the intermediate attachment members are to be simultaneously coupled to a respective first member and second member and to a respective cable tray Each of the intermediate attachment members includes first coupling means configured to be coupled to a respective articulated element and second coupling means configured to be coupled to a respective cable tray.

The present invention relates to a compression limiter made of a first thermoplastic composition comprising a semi-crystalline semi-aromatic polyamide. The invention further relates to a process for producing the compression limiter, and to an assembly comprising the compression limiter and a thermoplastic body made of a second thermoplastic polyamide composition. According to the invention, the compression limiter is made of a thermoplastic composition.

The present invention relates to a compression limiter made of a first thermoplastic composition comprising a semi-crystalline semi-aromatic polyamide. The invention further relates to a process for producing the compression limiter, and to an assembly comprising the compression limiter and a thermoplastic body made of a second thermoplastic polyamide composition. According to the invention, the compression limiter is made of a thermoplastic composition.

A spacer assembly for spaceably coupling a first and second component with a threaded connection bolt, each one of the first and second component provided with one or more fitting apertures. The spacer assembly includes a support member, a base member, and a spacer member having resilient friction elements configured to provide an interference fit engagement with a predetermined friction force with a threaded connection bolt, during use.

An insert may include an outer sleeve that includes a first tubular portion and a first disk portion perpendicular to the first tubular portion at an end of the first tubular portion. An inner sleeve includes a second tubular portion and a second disk portion perpendicular to the second tubular portion at an end of the second tubular portion. The second tubular portion of the inner sleeve may be configured to be inserted in the first tubular portion of the outer sleeve. The first disk portion of the outer sleeve may include a first surface and a second surface, wherein the second surface includes a recess configured to accommodate the second disk portion of the inner sleeve when the second tubular portion is inserted in the first tubular portion.

An insert may include an outer sleeve that includes a first tubular portion and a first disk portion perpendicular to the first tubular portion at an end of the first tubular portion. An inner sleeve includes a second tubular portion and a second disk portion perpendicular to the second tubular portion at an end of the second tubular portion. The second tubular portion of the inner sleeve may be configured to be inserted in the first tubular portion of the outer sleeve. The first disk portion of the outer sleeve may include a first surface and a second surface, wherein the second surface includes a recess configured to accommodate the second disk portion of the inner sleeve when the second tubular portion is inserted in the first tubular portion.

An acousto-optic device may include an acousto-optic component carried by a chassis, and a fastener assembly for removably securing a cover to the chassis. The fastener assembly may include a base sleeve having an enlarged head, and a tubular body and extending through a cover passageway. The fastener assembly may include a retainer sleeve having a threaded interior secured to the threaded exterior of the base sleeve to define an anchor member, the anchor member having a threaded interior. The fastener assembly may further include a fastener, a shaft having a threaded exterior opposite the enlarged head and to be threaded through the threaded interior of the anchor member to capture the fastener to the cover and movable through the chassis passageway for removably securing the cover to the chassis.

A thermally releasable fastening element, in particular for fastening a door actuator, includes a base body, which is designed to be inserted into a recess or a number of aligned recesses, a core inserted into the base body, at least partially made of a shape memory material, wherein the base body has an unstable area, which is stabilized by the core, and wherein the core is designed to withdraw at least partially from the unstable area upon thermal activation of the shape memory material.