A bolt for clamping adjoining parts includes a bolt body adapted for insertion in openings of the adjoining parts from one side of the adjoining parts. An actuator is received in the bolt body and actuatable from one end of the bolt body. Mounted in the bolt body and interacting with the actuator is a clamping mechanism which includes tilting elements configured to tilt out of the bolt body in opposition to a restoring force, when the actuator is actuated.

Embodiments of the present disclosure provide a removable module and a housing for an attachment system of a consumer product. The removable module includes a locking mechanism comprising a first portion having a substantially planar top surface and second portion that comprises a substantially non-planar bottom surface. The first portion and the second portion are coupled together. The locking mechanism also includes a first spring mechanism coupled between the first portion and the second portion. The first spring mechanism causes the first portion to be biased away from the second portion. The locking mechanism also includes a second spring mechanism. The second spring mechanism causes the substantially planar top surface of the first portion to be biased substantially flush with respect to the removable module and also causes the substantially non-planar bottom surface of the second portion to be biased proud with respect to the removable module.

A toggle fastener includes an arm extending along a first axis and defining a threaded opening through the arm along a direction perpendicular to the first axis the toggle fastener. A rachet strap extends along a second axis and is pivotally coupled to the arm adjacent a proximal end of the rachet strap. The arm and rachet strap cooperate to block the arm and rachet strap from aligning. Pivoting the arm and the rachet strap relative to each other about a first direction, the angle between the first and second axes can be reduced to a first angle before further pivoting is blocked in a first blocking configuration of the toggle fastener. Attempting to pivot the rachet strap further in the first direction relative to the arm causes the rachet strap to recoverably flex.

A fastening clip (100), for securing a first component (200) and a second component (300), includes a body portion (102) and a collar (104) formed at an edge of the body portion (102). The body portion (102) includes a flat surface (106) having a first face and a second face, a locking element (110) extending from the first face of the flat surface (106) and adapted to detachably couple to the first component (200), and a plurality of engagement portions (108) extending from the first face of the flat surface (106) and adapted to detachably couple to the second component (300). The collar (104) includes a first flange (112) extending from the second face in an opposite direction from the plurality of engagement portions. The first flange (112) is flexible and is adapted to abut against the first component (200).

A device having a base portion operable for accepting a bolt, an interior chamber disposed within the base portion, a compression sleeve disposed within the interior chamber, wherein the compression sleeve is operable for compressing about the circumference of the bolt. A lever implement is operable for at least one of, compressing and relaxing the compression sleeve, wherein a lifting of the lever implement relaxes the compression sleeve, and wherein depressing the lever implement toward the base portion compresses the compression sleeve to constrict upon the inserted bolt and generally secure said inserted bolt.

A device having a base portion operable for accepting a bolt, an interior chamber disposed within the base portion, a compression sleeve disposed within the interior chamber, wherein the compression sleeve is operable for compressing about the circumference of the bolt. A lever implement is operable for at least one of, compressing and relaxing the compression sleeve, wherein a lifting of the lever implement relaxes the compression sleeve, and wherein depressing the lever implement toward the base portion compresses the compression sleeve to constrict upon the inserted bolt and generally secure said inserted bolt.

The present invention provides a removable blind fastener (2) having a first tubular element (4) comprising an arm portion (22), a second tubular element (6) comprising an arm portion (28), and an elongate screw member (8). The elements (4 and 6) are arranged in telescoping relationship one with the other and which fastener (2), when in use as a temporary fastener, is caused to secure the component parts (10 and 12) of an airframe by causing telescoping movement of the elements (4 and 6) towards each other when the screw member (8) is turned in one direction and is caused to release the component parts (10 and 12) of the airframe by causing telescoping movement of the elements (4 and 6) away from each other when the screw member (8) is turned in an opposite direction. The arm portions (22, 28) of the elements (4 and 6) are located in mutual juxtaposition for telescoping movement upon rotation of the screw member (8) as aforesaid with end portions (30a and 32a) of elongate arms (30 and 32) of the arm portions (22 and 28) being brought into engagement with a tapered portion (44) of the screw member (8) whereby the arms (30 and 32) are caused to splay outwardly to bring the end portions (30a and 32a) into engagement with an underside (126) of the component (12) and moving the component (12) into secure temporary relationship with the component (10) of the airframe.

The present invention provides a removable blind fastener (2) having a first tubular element (4) comprising an arm portion (22), a second tubular element (6) comprising an arm portion (28), and an elongate screw member (8). The elements (4 and 6) are arranged in telescoping relationship one with the other and which fastener (2), when in use as a temporary fastener, is caused to secure the component parts (10 and 12) of an airframe by causing telescoping movement of the elements (4 and 6) towards each other when the screw member (8) is turned in one direction and is caused to release the component parts (10 and 12) of the airframe by causing telescoping movement of the elements (4 and 6) away from each other when the screw member (8) is turned in an opposite direction. The arm portions (22, 28) of the elements (4 and 6) are located in mutual juxtaposition for telescoping movement upon rotation of the screw member (8) as aforesaid with end portions (30a and 32a) of elongate arms (30 and 32) of the arm portions (22 and 28) being brought into engagement with a tapered portion (44) of the screw member (8) whereby the arms (30 and 32) are caused to splay outwardly to bring the end portions (30a and 32a) into engagement with an underside (126) of the component (12) and moving the component (12) into secure temporary relationship with the component (10) of the airframe.

A fastening apparatus for an electronic device (3) and a method for fastening a sensor housing (2) having a fastening flange (4) and having a fastening base (6), wherein the fastening flange (4) is configured to be positioned in a passage opening (8) in the fastening base (6) and wherein the fastening flange (4) is configured to be locked in the fastening base (6), a fixing slider (10) being displaceably arranged at the fastening base (6) to lock and/or to release the fastening flange (4) in the fastening base (6).

An extension member for coupling a tapered stress joint to a basket coupled to a porch extending from an offshore platform is disclosed. In an embodiment, the extension member includes a central axis, a first end, and a second end opposite the first end. In addition, the extension member includes a radially inner surface extending axially from the first end to the second end. The inner surface includes a first mating profile proximate the first end that is configured to engage a radially outer surface of the tapered stress joint. Further, the extension member includes a radially outer surface extending axially from the first end to the second end. The outer surface includes a second mating profile proximate the second end that is configured to slidingly engage a mating profile within the basket.