A support device for elevating an object above a surface comprises a base and a strut. The base has a top and a bottom. The bottom is adapted to sit upon the surface and is wider than the top. The strut is affixed to the base and adapted to receive a fastener for affixing the object to the strut. The base may have a trapezoidal cross-sectional shape. The base may comprise a support flange along a perimeter of the bottom of the base. The strut may have a generally U-shaped cross-sectional shape with an elongated planar bottom and opposing elongated planar sides joined to opposing edges of the elongated planar bottom. The strut may be affixed to the base via one or more spacers such that the strut is positioned a predefined distance from the top of the base.

A support device for elevating an object above a surface comprises a base and a strut. The base has a top and a bottom. The bottom is adapted to sit upon the surface and is wider than the top. The strut is affixed to the base and adapted to receive a fastener for affixing the object to the strut. The base may have a trapezoidal cross-sectional shape. The base may comprise a support flange along a perimeter of the bottom of the base. The strut may have a generally U-shaped cross-sectional shape with an elongated planar bottom and opposing elongated planar sides joined to opposing edges of the elongated planar bottom. The strut may be affixed to the base via one or more spacers such that the strut is positioned a predefined distance from the top of the base.

A cable hanger includes: a base panel having opposed ends; a pair of arms, each of the arms attached to a respective end of the base panel and having a free end; a pair of locking projections, each of the locking projections attached to a respective free end of the arms; and a pair of gripping members, each gripping member attached to a respective arm, each gripping member having opposed ends, wherein one of the ends of each gripping member is fixed to the arms and the other of the ends of each gripping member is fixed to the arm or to the base panel. The arms and locking projections are configured to spread apart to enable insertion of a cable between the arms, wherein the gripping projections engage and grip the cable, and wherein the locking projections are configured to be inserted into the aperture of the supporting structure.

Injection molded parts with a small dimension that exhibit high heat resistance are described. Thermoplastic compositions that can be utilized to form the injection molded parts are described. The thermoplastic composition includes a polyarylene sulfide and a crosslinked impact modifier. The thermoplastic composition can also include siloxane polymers, thermoplastic elastomers, or other additives that can further improve the characteristics of the injection molded parts.

The invention provides a multijoint cable protection and guide device that steadily protects and guides cables and the like that assume flexed and straight postures. The device includes a flexible belt member in which a plurality of center tubular portions through which cables are inserted and a pair of right and left side tubular portions disposed in parallel along the center tubular portions. The center tubular portions and the pair of right and left side tubular portions are integrally molded. A pair of right and left multijoint supporting members is inserted through side tubular portions of the flexible belt member. The multijoint supporting member is composed of a large number of block bodies that are flexibly connected together by concave-convex fittings.

A connection apparatus 10 for mounting a cable to a structure such as a wind turbine or oil rig. The apparatus 10 including a receiving member 14 having a hollow body with a diverging mouth, a latch member 22 movably mounted on the outside of the receiving member 14 with a latch part 24 extending into the receiving member 14. A mounting member 16 is provided which mounts the cable extending therethrough. The mounting member 16 is selectively locatable in the receiving member 14 with the latch part 24 engaging with a retaining formation in the form of a groove 56 to retain the mounting member 16 in the receiving member 14 and hence retain the cable mounted to the structure.

An insulated excavation tube preferably includes a non-conductive tip tube, a non-conductive connector tube, a first vacuum tube, a second vacuum tube, a flange member and a handle. One end of the first vacuum tube is retained in one end of the non-conductive tip tube. A distance is maintained between an end of the first vacuum tube and an opposing end of the non-conductive tip tube to provide electrical and vibration isolation. An opposing end of the first vacuum tube is retained in one end of the non-conductive connector tube. One end of the second vacuum tube is retained in the non-conductive connector tube. A gap is maintained between the opposing end of the first vacuum tube and the one end of the second vacuum tube. The flange member is attached to an opposing end of the second vacuum tube. The handle is attached to the second vacuum tube.

An insulated excavation tube preferably includes a non-conductive tip tube, a non-conductive connector tube, a first vacuum tube, a second vacuum tube, a flange member and a handle. One end of the first vacuum tube is retained in one end of the non-conductive tip tube. A distance is maintained between an end of the first vacuum tube and an opposing end of the non-conductive tip tube to provide electrical and vibration isolation. An opposing end of the first vacuum tube is retained in one end of the non-conductive connector tube. One end of the second vacuum tube is retained in the non-conductive connector tube. A gap is maintained between the opposing end of the first vacuum tube and the one end of the second vacuum tube. The flange member is attached to an opposing end of the second vacuum tube. The handle is attached to the second vacuum tube.

A flexible cable tray adapted to connect to cable tray sections. The flexible cable tray includes a base and flexible side walls, all of which are bendable to be adapted to support and guide cables to and from their intended locations through intersections, over beams and/or under beams, and may also be used as a vertical offset. The side walls may be laid flat to the base to enable easy shipment or bent inwardly to provide further support for the cables.

A connector for connecting a first component to a locking pin of a second component having a head is disclosed. The connector has a base body with a receiving space for receiving the head. A retaining spring is held by the base body is provided, which has a relative position, referred to as the holding position, relative to the base body and which has a protrusion in this holding position protruding into the receiving space. The protrusion in the holding position can be moved in a release direction and projects less far into the receiving space after moving from the holding position in the release direction than in the holding position. Moving the protrusion from the holding position in the releasing direction tensions the retaining spring. When the retaining spring is in the holding position, the base body can be moved relative to the retaining spring along a locking direction.