A U-bolt mounting jig (100) to mount a U-bolt (20) used to fix a pipeline (10) to an installation support member (300) includes a first fitting member (101a) and a second fitting member (101b) that fit over opposite end portions of the U-bolt (20), the opposite end portions being inserted through bolt holes provided on the installation support member (300), and a holding member (102) that holds the first fitting member (101a) and the second fitting member (101b) such that a straight line connecting the opposite end portions is parallel to the installation support member (300).

A U-bolt mounting jig (100) to mount a U-bolt (20) used to fix a pipeline (10) to an installation support member (300) includes a first fitting member (101a) and a second fitting member (101b) that fit over opposite end portions of the U-bolt (20), the opposite end portions being inserted through bolt holes provided on the installation support member (300), and a holding member (102) that holds the first fitting member (101a) and the second fitting member (101b) such that a straight line connecting the opposite end portions is parallel to the installation support member (300).

A heat-conducting plate for fixing a pipe section to a holding surface of a heat exchanger, wherein the heat-conducting plate has perforations, in particular for acoustic reasons, wherein the perforations are not distributed uniformly over the entire surface of the heat-conducting plate.

A heat-conducting plate for fixing a pipe section to a holding surface of a heat exchanger, wherein the heat-conducting plate has perforations, in particular for acoustic reasons, wherein the perforations are not distributed uniformly over the entire surface of the heat-conducting plate.

Techniques implementing and/or operating a system includes a pipe segment and a test head assembly secured to the pipe segment. The pipe segment includes tubing that defines a pipe bore through the pipe segment and a fluid conduit in a tubing annulus of the pipe segment. The test head assembly includes barrier material poly welded to the tubing of the pipe segment to facilitate sealing the fluid conduit defined in the tubing annulus from environmental conditions external to the tubing of the pipe segment and a fluid port fluidly connected to the fluid conduit defined within the tubing annulus to enable integrity of the tubing to be tested at least in part by flowing a test fluid into the fluid conduit defined in the tubing annulus via the fluid port, extracting fluid from the fluid conduit defined in the tubing annulus via the fluid port, or both.

Provided is a bracket for securing a number of cooling rings arranged on a bearing ring, which bracket includes an upper surface, a lower surface shaped to lie on the cooling rings, and a through-opening extending between the upper surface and the lower surface to accommodate a fastener for mounting the bracket to the bearing ring; wherein the material properties of the bracket are chosen to permit movement of the cooling rings relative to the bracket when the bracket is mounted to the bearing ring; and/or wherein the bracket is made of a resilient elastic material. Further provided is a cooling arrangement for a bearing, including a number of cooling rings arranged in parallel on a mounting surface of a bearing ring of the bearing; and a number of such brackets to secure the cooling rings to the bearing body.

Provided is a bracket for securing a number of cooling rings arranged on a bearing ring, which bracket includes an upper surface, a lower surface shaped to lie on the cooling rings, and a through-opening extending between the upper surface and the lower surface to accommodate a fastener for mounting the bracket to the bearing ring; wherein the material properties of the bracket are chosen to permit movement of the cooling rings relative to the bracket when the bracket is mounted to the bearing ring; and/or wherein the bracket is made of a resilient elastic material. Further provided is a cooling arrangement for a bearing, including a number of cooling rings arranged in parallel on a mounting surface of a bearing ring of the bearing; and a number of such brackets to secure the cooling rings to the bearing body.

A cable hanger includes a generally flat base and first and second opposed arms extending in a first direction from the base. Hooks are positioned on free ends of the arms. The arms form a gap configured to receive and grasp a cable. The base includes a cross-member that divides two arcuate openings, the cross-member attached at each end with a frangible section.

A cable hanger includes a generally flat base and first and second opposed arms extending in a first direction from the base. Hooks are positioned on free ends of the arms. The arms form a gap configured to receive and grasp a cable. The base includes a cross-member that divides two arcuate openings, the cross-member attached at each end with a frangible section.

Wire or cable holder assemblies employed in a solar power system are disclosed. In some embodiments, an assembly could include a cap and a base configured with channels. When the cap and the base are clamped to an object (e.g., a solar module frame), enclosures defined by the channels and a surface of the solar frame module are formed to hold cables. In some embodiments, an assembly could include a plunger with at least one leg and a base that includes a receptacle for receiving the plunger and a hook for holding electrical cables. A leg include a rack having teeth adapted to fall into notches or spaces formed by complementary teeth of a pawl found in the receptacle that forms a ratchet which permits insertion of the plunger into the receptacle but not an extraction. If extraction is desired, an external force may be applied to release the pawl.