A fixture has a pedestal set on a wall by a fixing device, a bracing plate is fixedly connected to a side wall of the pedestal away from the wall, an upper end of the bracing plate is provided with a supporting device, a lifting recess is provided on a side wall of the pedestal away from the wall, an end of the lifting recess away from the bracing plate penetrates the pedestal, a lifting block is slidingly connected to the lifting recess, an end of the lifting block away from the lifting recess is fixedly connected with a clamping plate, the clamping plate is provided with a clamping device, a threaded hole is provided at an end of the clamping plate away from the lifting block.

A sliding pipe supporting arrangement (2) adapted to receive and support at least one pipe or jacketed pipe assembly comprising main support means (9) comprising at least one opening to support a pipe. The arrangement further comprises an assembly of spring arrangement (6) and ball transfer unit (7), coupled to the main support means so as to isolate differential displacement in lateral and vertical direction of the pipe. The assembly unit comprises a top plate (3), middle plate (4) and a bottom plate (5). The spring arrangement further comprises a plurality of springs positioned in between the top plate (3) and the middle plate (4) facilitating the vertical displacement of the pipe. The ball transfer unit (4) also comprises plural rollers positioned between the bottom plate (4) and middle plate (5) facilitating lateral displacement of the pipe and an expansion joint arrangement (8) placed in between pipe lengths of a pipe to attenuate the axial displacement of the said pipe.

A stackable, low-PIM cable hanger includes a hybrid metal-and-polymeric construction including a metal cable block carrying a polymeric sleeve. The metal cable block forms the cable mounting section, while the polymeric sleeve insulates the metal sides of the cable block and provides non-metallic (low-PIM) snap-in legs for attaching the cable hanger to mounting structures and stacking the cable hangers together. The metal cable block supports the cable more securely than a polymeric mounting section, while the polymeric sleeve avoids loose metal-to-metal connections when the cable hangers are attached to metal mounting structures or stacked together. The metal cable block includes a metal sides that form cable clasps. The sleeve includes polymeric sides that cover the metal sides of the cable block to prevent metal-to-metal contact on the sides of the cable block.

A stackable, low-PIM cable hanger includes a hybrid metal-and-polymeric construction including a metal cable block carrying a polymeric sleeve. The metal cable block forms the cable mounting section, while the polymeric sleeve insulates the metal sides of the cable block and provides non-metallic (low-PIM) snap-in legs for attaching the cable hanger to mounting structures and stacking the cable hangers together. The metal cable block supports the cable more securely than a polymeric mounting section, while the polymeric sleeve avoids loose metal-to-metal connections when the cable hangers are attached to metal mounting structures or stacked together. The metal cable block includes a metal sides that form cable clasps. The sleeve includes polymeric sides that cover the metal sides of the cable block to prevent metal-to-metal contact on the sides of the cable block.

An apparatus that includes a conduit having a first end, a second end, and a longitudinal axis. The conduit may define an inner channel and may be configured to extend through a vane cavity of a vane. The apparatus may further include a damping finger that includes a first portion coupled to the conduit and a second portion diverging outward at an angled orientation from the conduit. The damping finger may be resiliently flexible and the second portion of the damping finger may be configured to contact an inner surface of the vane.

A sliding pipe supporting arrangement (2) adapted to receive and support at least one pipe or jacketed pipe assembly comprising main support means (9) comprising at least one opening to support a pipe. The arrangement further comprises an assembly of spring arrangement (6) and ball transfer unit (7), coupled to the main support means so as to isolate differential displacement in lateral and vertical direction of the pipe. The assembly unit comprises a top plate (3), middle plate (4) and a bottom plate (5). The spring arrangement further comprises a plurality of springs positioned in between the top plate (3) and the middle plate (4) facilitating the vertical displacement of the pipe. The ball transfer unit (4) also comprises plural rollers positioned between the bottom plate (4) and middle plate (5) facilitating lateral displacement of the pipe and an expansion joint arrangement (8) placed in between pipe lengths of a pipe to attenuate the axial displacement of the said pipe.

An apparatus that includes a conduit having a first end, a second end, and a longitudinal axis. The conduit may define an inner channel and may be configured to extend through a vane cavity of a vane. The apparatus may further include a damping finger that includes a first portion coupled to the conduit and a second portion diverging outward at an angled orientation from the conduit. The damping finger may be resiliently flexible and the second portion of the damping finger may be configured to contact an inner surface of the vane.