A bolt retention clip for a gas turbine engine rotor assembly includes a main plate section defining a central aperture, the central aperture sized to receive a bolt therethrough. Also included is a pair of bolt retention tabs extending away from a first face of the main plate section to axially retain a head of the bolt. Further included is a first clip retaining tab extending away from the first face of the main plate section for insertion into a groove of a rotor structure. Yet further included is a second clip retaining tab extending away from a second face of the main plate section for engagement with an edge of the rotor structure.

An apparatus for securely displaying a product includes a post, a cradle assembly supported by the post, the cradle assembly including a base plate and a plurality of plates slidably engaged with the base plate, each plate of the plurality of plates including a respective arm to engage a respective side of the product, a lock mount fixed to, and extending outward from, the base plate, the post, or the base plate and the post, and a lock disposed in the lock mount, the lock engaging a respective plate of the plurality of plates to fasten the respective plate of the plurality of plates to the base plate.

A support member is for supporting a conductive member such as an electrical wire and is for installation in an automatic transmission, and includes a main body portion made of a resin and plates that are made of a metal and are to be fixed to the body of the automatic transmission via bolts. The main body portion has attachment portions to which the plates are attached, and elastic lock portions that project within the attachment portions and have elasticity capable of restricting removal of the plates from the attachment portions.

A clamping element (9) is specified configured to be pressed to a baseplate (2) of at least one power semiconductor module (1) comprising a mold (4), comprising at least one contact area (10) being configured to be in direct contact to at least one clamping area (7) of the baseplate (2) being free of the mold (4), and at least one recess (11) provided in the baseplate, wherein the recess (11) and the contact area (10) are configured to face the baseplate. Further, a method for producing a power semiconductor device is specified.

A clamp assembly that may be used for securing to a raised portion of a surface. The clamp assembly comprising a mounting body of a general block shape having a slot for receiving the raised portion formed in a bottom surface of the mounting body attaching the clamp assembly thereto. The clamp assembly is configured with one or more pins that may be formed in a substantially elongated cylindrical shape. The pins may be configured to be received in one or more push-pin holes formed in the mounting body, whereby the push-pin holes extend to the slot from a side surface of push-pin holes. The clamp assembly includes a fastening element adapted to be received in a fastener hole formed adjacent the push-pin holes in the side surface of the mounting body. The fastening element is configured to secure, attach and hold the clamp assembly to the standing seam by forcing the pins against the raised portion of the surface disposed in the slot.

A clamp assembly (100), and a mounting assembly (150), that may be used for securing a device (160) (e.g. a solar panel, Roof Mounted Displays, Satellite Dishes, Conduit and Piping, Snow-Retention System, HVAC etc.) to a raised portion of a standing seam (103) of a metal roof, panel or tile (119) building surface. The clamp assembly (100) comprising a mounting body (101) of a general block shape having a slot (102) for receiving the standing seam (103) formed in a bottom surface (136) of the mounting body (101) and top surface (137) for securing thereon and attaching the device (160) thereto. The clamp assembly (100) is configured with one or more pins (105) that may be formed in a substantially elongated cylindrical shape. The pins (105) may be configured to be received in one or more push-pin holes (107) formed in the mounting body (101), whereby the push-pin holes (107) extend to the slot (102) from a side surface (138) of push-pin holes (107), which are formed substantially orthogonal relative to the slot (102). The clamp assembly (100) includes a fastening element (109) adapted to be received in a fastener hole (111) formed adjacent the push-pin holes (107) in the side surface (138) of the mounting body (101). The fastening element (109) is configured to secure, attach and hold the clamp assembly (100) to the standing seam (103) by forcing the pins (105) against the standing seam (103) disposed in the slot (102). The clamp assembly (100) further comprises a groove (115) adapted to receive and secure a ground wire (120), cable (121) or other item advantageous for grounding of electrical components and organization. The mounting assembly (100) includes the clamp assembly (100) and a panel fastening assembly (126) comprising a device fastening element (139) adapted to be received in said attachment hole (113) for securing the device (160), one or more one or more solar caps (127) adapted to be disposed on and around the device fastening element (139) so as to mount and secure the device (160) disposed between the solar caps (127) by tightening said device fastening element (139).

A clamp assembly that may be used for securing to a raised portion of a surface. The clamp assembly comprising a mounting body of a general block shape having a slot for receiving the raised portion formed in a bottom surface of the mounting body attaching the clamp assembly thereto. The clamp assembly is configured with one or more pins that may be formed in a substantially elongated cylindrical shape. The pins may be configured to be received in one or more push-pin holes formed in the mounting body, whereby the push-pin holes extend to the slot from a side surface of push-pin holes. The clamp assembly includes a fastening element adapted to be received in a fastener hole formed adjacent the push-pin holes in the side surface of the mounting body. The fastening element is configured to secure, attach and hold the clamp assembly to the standing seam by forcing the pins against the raised portion of the surface disposed in the slot.

A system having a plurality of solar panel mounting clamps for mounting a plurality of solar panels including a plurality of threaded projections fixed in a mounting surface; a plurality of the solar panel mounting clamps, each respectively disposed upon one of the plurality of threaded projections such that the threaded receiving portion of each solar panel mounting clamp receives each respective threaded projection, such that the plurality of solar panel mounting clamps are capable of securing a plurality of solar panels to the mounting surface such that each clamp makes a conductive bond with one or more panels such that each panel shares a common ground. The system may include one or more mounting plates to rest upon the mounting surface that has one or more retainer clip to ease in cable management.

A step bolt connector and bolt assembly creates steps on a structure for accommodating a worker's boot. A first threaded bore is formed in a cylindrical end of a step bolt connector and this first threaded bore is threaded onto an exposed bolt on a structure. A sight hole extends from the exterior of the connector to the inward end of the first threaded bore for visually checking to see if the bolt is adequately attached in the first bore. A recess is formed in the cylindrical end and the recess is dimensioned to fit over fastening nut on the exposed bolt on the structure. When the first threaded bore is screwed onto the exposed bolts on the structure, the recess at least partially surrounds shields and protects the fastening nut on the exposed end of the bolt. A second threaded bore is formed in a second end (a truncated conical end) of the connector, and a step bolt is secured in the second threaded bore. The step bolt is dimensioned so that the step bolt when fastened to the connector forms a step on the structure having a length greater than the width of the workers boot. In this manner, a convenient step is formed on the structure for use in climbing the structure to perform repairs, maintenance or modifications.

A clamp assembly that may be used for securing to a raised portion of a surface. The clamp assembly comprising a mounting body of a general block shape having a slot for receiving the raised portion formed in a bottom surface of the mounting body attaching the clamp assembly thereto. The clamp assembly is configured with one or more pins that may be formed in a substantially elongated cylindrical shape. The pins may be configured to be received in one or more push-pin holes formed in the mounting body, whereby the push-pin holes extend to the slot from a side surface of push-pin holes. The clamp assembly includes a fastening element adapted to be received in a fastener hole formed adjacent the push-pin holes in the side surface of the mounting body. The fastening element is configured to secure, attach and hold the clamp assembly to the standing seam by forcing the pins against the raised portion of the surface disposed in the slot.