An angle clip assembly includes a first guide. The first guide has a first guide surface. A first retainer is adapted to retain a first part of a flat flexible cable on the first guide surface. The angle clip assembly also includes a second guide. The second guide has a second guide surface. A second retainer is adapted to retain a second part of the flat flexible cable on the second guide surface. The second guide is rotatable relative to the first guide about a lock axis to one of a plurality of assembly angles. The angle clip assembly includes a radial lock. The radial lock prevents rotation of the first guide relative to the second guide.

A cryogenic plumbing support for supporting cryogenic plumbing having a first coefficient of thermal expansion associated with a cryogenic temperature may include a bracket. The bracket may include a second coefficient of thermal expansion approximately equal to the first coefficient of thermal expansion. The cryogenic plumbing support may also include a slide assembly. The slide assembly may include first and second end blocks, at least one slider, and a plurality of rods. The first end block may be coupled in spaced relationship to the second end block by the plurality of rods. The at least one slider may be coupled to the bracket and slidably coupled to the plurality of rods.

Tubing bundle supports comprise body parts clamped around split rotatable sleeves. In one embodiment, spring mounted peripheral shoes and rotatable tubing bundle support sleeves allow metal tubes and tubing bundles to be routed inside a conduit in spaced apart positions and resistant to vibration. In another embodiment, split pillow block sections are clamped around a split rotatable sleeve. In an embodiment, the split pillow block support is held to a strut channel by a strut channel nut.

A thermal expansion compensating device has a conduit with a first opening and a second opening for connection to a first pipe and a second pipe of a hot water system, respectively, the first and second pipes being formed by removing a section from a length of pipe of the hot water system. A pre-tensioning force is applied to the device to axially displace the first opening from the second opening until after connection of the openings of the pipes. A resiliently deformable pipe segment defines a portion of the conduit between the first opening and the second opening and is resiliently deformed to a tensioned position by the application of the pre-tensioning force. Once the hot water system is activated, the pipes axially thermally expand such that the first opening moves towards the second opening and the pipe segment moves from the tensioned position towards a rest position decreasing the stress on the device.

A thermal expansion compensating device has a conduit with a first opening and a second opening for connection to a first pipe and a second pipe of a hot water system, respectively, the first and second pipes being formed by removing a section from a length of pipe of the hot water system. A pre-tensioning force is applied to the device to axially displace the first opening from the second opening until after connection of the openings of the pipes. A resiliently deformable pipe segment defines a portion of the conduit between the first opening and the second opening and is resiliently deformed to a tensioned position by the application of the pre-tensioning force. Once the hot water system is activated, the pipes axially thermally expand such that the first opening moves towards the second opening and the pipe segment moves from the tensioned position towards a rest position decreasing the stress on the device.

A grommet is provided. The grommet includes a radially inner side wall, a radially outer side wall, and a support structure extending between the radially inner side wall and the radially outer side wall. The support structure includes a plurality of channel walls arranged in a grid-like pattern such that a plurality of hollow passages are defined by the plurality of channel walls.

A bracket useful for seismic bracing of conduits is described. The bracket is placeable over a threaded rod and includes sidewalls for accepting a fastener and a pair of apertures for attaching to a brace. Certain brackets are stackable, allowing for the attachment of multiple braces from a single anchored rod. Other brackets include two parts that allow the bracket to be assembled about a threaded rod without removing elements which might previously be attached to the rod.

A bracket useful for seismic bracing of conduits is described. The bracket is placeable over a threaded rod and includes sidewalls for accepting a fastener and a pair of apertures for attaching to a brace. Certain brackets are stackable, allowing for the attachment of multiple braces from a single anchored rod. Other brackets include two parts that allow the bracket to be assembled about a threaded rod without removing elements which might previously be attached to the rod.

A system is provided that increases the deformability of buried pipelines to accommodate combinations of vertical, lateral and longitudinal displacements and subsequent curvatures caused by ground movements. Installation of this system prevents concentration of deformations which may cause catastrophic failures such as buckling, yielding, rupture, and weld failures. The assembly includes an element provided adjacent a pipeline and collapsible in two orthogonal directions; one, the longitudinal direction of the pipe, and two, a direction of expected lateral movement of the pipe. The collapsible element is configured to resist soil pressure in a direction orthogonal to the first two directions, and further provided is a supporting backing element adjacent an end of the collapsible element opposed to the pipeline, to prevent exposure of the collapsible element to soil pressure in one of the two orthogonal collapsible directions. The size and configuration of the installation depends on the soil and pipe properties, and type/magnitude of expected displacements.

A preassembled parallel wire cable creates a random cast of loops. Any of the random cast of loops is hung for transport, thus eliminating costly and time-consuming coiling and reeling operations.