A bidirectional, wedge clamp is disclosed. Conventional clamps, such as those used with electrical cables mainly secure a line in a single direction. The invention herein being comprised of a bidirectional clamp for conventional cables, wires and rope etc. (herein referred to as a line) having a simple and easily-operable construction, wherein two plate-like members and an outer sleeve-like member are telescopically assembled to clamp a line there between. Plates and sleeve members having a plurality of interconnected, opposing number of wedges that when acted upon in a lateral motion by a line there between, causing said wedges to slide against one anotherthereby tightening down the plates onto said line and preventing slippage. An object of the invention is to clamp a line and prevent slipping laterally in either direction along the line's longitudinal axis.

A quick connect assembly having a male terminal with a plurality of circumferentially arrayed and elongated beams including forward-most arcuate projecting and outer diameter defining portions. A female terminal has a housing exhibiting an inner diameter inlet communicating with an interior arcuate and expanded extending recess which matches a profile defined by the outer diameter beam portions. A forwardly spring biased plug is displaceably supported within the female terminal housing and includes a forward most projecting snout portion which, upon installation of the male to female terminals, the projecting snout portion of the plug seats between the male beams, preventing unintended collapse and remove of the male beams from within the female housing.

A cable comprising a plurality of fiber composite tensioning elements (1,2) having different mechanical properties into the same bundle wherein at least one of the tensioning elements (1,2) has a different size and shape from the other tensioning elements (1,2) into the same bundle.

A device for holding a cord includes a first cord holding area shaped to receive a cord. The device further includes a hook portion interconnected with the first cord holding area, the hook portion curving from a first end of the first cord holding area, around a side of the first cord holding area to a second end of the first cord holding area, opposite the first end.

An anchoring assembly for securing a cable having both an optical fiber and an electrical conductor in order to provide a conductive pathway to a downhole tool. The anchoring assembly has a head and tail each having a throughbore with anchor receiving portions. An anchor with a deformable portion maybe inserted into the anchor receiving portions and the head and tail drawn together about the anchor. The anchor receiving portions have a narrowing diameter, which, upon abutment with the anchor causes the deformable portion of the anchor to deflect inward and secure a cable inserted therein. A conductive body is provided in the head or tail for coupling with the cable and providing a conductive pathway to a downhole tool.

A method for producing a synthetic tensile member having a precisely known and stable length. The invention also comprises equipment configured to carry out the method. A tensile member is prepared by attaching terminations to an assembly of synthetic filaments. The tensile member is then attached to a loading apparatus that subjects the tensile member to a pre-defined loading process. The tensile member is thereby conditioned to a stable length. The length is then measured and a length adjusting component is incorporated into the tensile member to create a precise and stabilized length that is configured for the tensile member's particular application.

A method for producing a synthetic tensile member having a precisely known and stable length. The invention also comprises equipment configured to carry out the method. A tensile member is prepared by attaching terminations to an assembly of synthetic filaments. The tensile member is then attached to a loading apparatus that subjects the tensile member to a pre-defined loading process. The tensile member is thereby conditioned to a stable length. The length is then measured and a length adjusting component is incorporated into the tensile member to create a precise and stabilized length that is configured for the tensile member's particular application.

Actuator (100) for an adjustable component, in particular of a motor vehicle, comprising a wire (10) made of a shape memory alloy having a first end portion (11) and a second end portion (12) and extending in an axial direction (A) over a variable length (L); an actuating element (20) movable in the axial direction (A) between a first position (I) and a second position (II); a floating support (30) by which the wire (10) is movably supported in the axial direction (A); a fixed support (33) by which the wire (10) is fixedly disposed in the axial direction (A); at least one abutment (40, 45) connected to the floating support (30) or the fixed support (33) and provided with a through-opening (41, 46) for the wire (10) and a support surface (42, 47) adapted to transmit a force in the radial direction (R); and having at least one elastically deformable connecting element (60, 65) which has a receiving opening (61, 66) for the wire (10), which has a variable diameter (D.sub.A1, D.sub.A2) and in which the wire (10) is clamped in the region of the first end portion (11) or the second end portion (12), and a contact surface (62, 67) which abuts against the support surface (42, 47) of the abutment (40, 45). By shortening the length (L) of the wire (10), a tensile force (F.sub.Z) can be transmitted from the wire (10) to the connecting element (60, 65, 69) by means of which the actuating element (20) can be moved from the first position (I) into the second position (II) and the contact surface (62, 67) can be braced against the support surface (42, 47) in such a manner that a counterforce having a component acting in the radial direction (R) is applied to the connecting element (60, 65) by the abutment (40, 45), the counterforce reducing the diameter (D.sub.A1, D.sub.A2) of the receiving opening (61, 66) in order to retain the wire (10) in the connecting element (60, 65).

Actuator (100) for an adjustable component, in particular of a motor vehicle, comprising a wire (10) made of a shape memory alloy having a first end portion (11) and a second end portion (12) and extending in an axial direction (A) over a variable length (L); an actuating element (20) movable in the axial direction (A) between a first position (I) and a second position (II); a floating support (30) by which the wire (10) is movably supported in the axial direction (A); a fixed support (33) by which the wire (10) is fixedly disposed in the axial direction (A); at least one abutment (40, 45) connected to the floating support (30) or the fixed support (33) and provided with a through-opening (41, 46) for the wire (10) and a support surface (42, 47) adapted to transmit a force in the radial direction (R); and having at least one elastically deformable connecting element (60, 65) which has a receiving opening (61, 66) for the wire (10), which has a variable diameter (D.sub.A1, D.sub.A2) and in which the wire (10) is clamped in the region of the first end portion (11) or the second end portion (12), and a contact surface (62, 67) which abuts against the support surface (42, 47) of the abutment (40, 45). By shortening the length (L) of the wire (10), a tensile force (F.sub.Z) can be transmitted from the wire (10) to the connecting element (60, 65, 69) by means of which the actuating element (20) can be moved from the first position (I) into the second position (II) and the contact surface (62, 67) can be braced against the support surface (42, 47) in such a manner that a counterforce having a component acting in the radial direction (R) is applied to the connecting element (60, 65) by the abutment (40, 45), the counterforce reducing the diameter (D.sub.A1, D.sub.A2) of the receiving opening (61, 66) in order to retain the wire (10) in the connecting element (60, 65).

A rope swinging device includes a strap attached to an optional handgrip, and a clamp attached to the strap. The clamp may be attached to a rope that is swung by a user.