The described embodiments relate generally to methods of assembly of electronic devices. In particular, a rotationally induced pressure is used to activate a securing mechanism positioned between a component and an enclosure. The component and the securing mechanism may be located in an inaccessible region of the enclosure such that traditional, direct, assembly processes may not be feasible. The securing mechanism may take the form of a layer of pressure sensitive adhesive or a fastener between the component and an interior surface of the enclosure.

A method of assembling a chair component includes providing a first chair member adapted to support a user and that includes forwardly and a rearwardly-facing surfaced, wherein the first chair member further includes at least one raised portion extending rearwardly from the rear surface, wrapping a cover member about a portion of the first chair member, providing a drawstring operably coupled with the cover member, drawing the cover member about the portion of the first chair member by the drawstring, aligning the cover with the at least one raised portion to properly align the cover with respect to the first chair member, and securing the drawstring to the first chair member with at least one fastener that is received within the at least one raised portion.

A method and apparatus for installing a frangible collar onto a fastener installed in a hole using an end effector in which rotation of the fastener is not restricted by the hole. Rotation of the fastener may be restricted using the end effector. A frangible collar may be installed onto the fastener by an element installer of the end effector while the while restricting rotation of the fastener. A frangible portion of the frangible collar may be sheared off by torqueing the frangible portion using the end effector.

A deployment instrument for deploying a closure device for sealing a percutaneous puncture in a wall of a body passageway, the deployment instrument including a carrier assembly, wherein the carrier assembly is configured to hold the closure device in a pre-deployment state, and a tensioner assembly, wherein the filament is fixedly attached to the tensioner assembly, wherein the deployment instrument is configured to increase the tension in the filament upon linear movement of the deployment instrument away from the wall of the body passageway when the closure device is anchored to the wall via the anchor such that the tension is gradually increased as the deployment instrument is moved between a first linear distance and a second linear distance greater than the first linear distance from the wall of the body passageway.

A fiber optic cassette includes a body defining a front and an opposite rear. A cable entry location is defined on the body for a cable to enter the cassette, wherein a plurality of optical fibers from the cable extend into the cassette and form terminations at non-conventional connectors adjacent the front of the body. A flexible substrate is positioned between the cable entry location and the non-conventional connectors adjacent the front of the body, the flexible substrate rigidly supporting the plurality of optical fibers. Each of the non-conventional connectors adjacent the front of the body includes a ferrule, a ferrule hub supporting the ferrule, and a split sleeve surrounding the ferrule.

A gasket for preventing the separation of a pipe joint formed between plastic pipes such as pipes manufactured from PVC. The invention provides a restrained pipe joint including a first pipe including a bell with a spigot entryway and a substantially V-shaped annular groove. The annular groove includes a front radial wall and a rear radial wall and a gasket seated in the annular groove. The gasket includes an inner radial face, an opening defined by the inner radial face and an outer radial face with a front radial section located adjacent to the front radial wall of the annular groove and a rear radial section located adjacent to the rear radial wall of the annular groove. A plurality of restraining segments is at least partially embedded in the gasket, each restraining segment including a toothed inner face and a smooth, sliding front radial face arranged to slide against the front radial wall of the annular groove and facilitate wedging of the segment between the plastic pipes.

A method of assembling a chair component includes providing a first chair member adapted to support a user and that includes forwardly and a rearwardly-facing surfaced, wherein the first chair member further includes at least one raised portion extending rearwardly from the rear surface, wrapping a cover member about a portion of the first chair member, providing a drawstring operably coupled with the cover member, drawing the cover member about the portion of the first chair member by the drawstring, aligning the cover with the at least one raised portion to properly align the cover with respect to the first chair member, and securing the drawstring to the first chair member with at least one fastener that is received within the at least one raised portion.

A contact assembly is for a vacuum switching apparatus. The vacuum switching apparatus includes a vacuum envelope. The vacuum envelope has an interior. The contact assembly includes: a number of electrical contacts located in the interior of the vacuum envelope, at least one electrical contact having a hole; and a number of electrodes each engaging a corresponding one of the number of electrical contacts, at least one electrode including a base and a protrusion. The protrusion extends from the base into the hole of the electrical contact in order to secure the electrical contact to the electrode.

Various connector housings for securing an optical cable, as well as methods of use and manufacture thereof are disclosed. A single-piece unitary connector housing body may include a first opening formed in a first end of the housing body, a second opening formed in a second end of the housing body, a bore through the housing body extending from the first opening to the second opening, and a back post surrounding the second opening. The first opening may be configured to receive a terminating optical cable and the second opening may be configured to receive a fiber optic cable. The back post may extend from the second opening in a longitudinal direction and may include a plurality of protrusions thereon. A length of the back post may have a concave shape.

A method of assembling a chair component includes providing a first chair member, providing a second chair member moveable between a first position, wherein the second chair member is coplanar with the first chair member, and a second position, wherein the second chair member is parallel with the first chair member, and wrapping a cover member about the first and second chair members. The method further includes providing a drawstring operably coupled with the cover member, drawing the cover member about the first and second chair members when the second chair member is in the first position, fixing an effective length of the drawstring while the second chair member is in the first position, moving the second chair member from the first position to the second position, and securing the second chair member in the second position.