An insertion tool for use with a cable management cavity includes a grip for a user to grasp the insertion tool. The grip has a longitudinal axis. The insertion tool also includes an insertion flange extending from the grip. The insertion flange includes a first end attached to the grip and a second end shaped to contact a cable. The insertion flange is sized to fit within the cable management cavity and insert the cable into the cable management cavity to a desired depth. The insertion flange has a length defined between the first end and the second end in a direction perpendicular to the longitudinal axis. The length is selected to allow the insertion flange to insert the cable into the cable management cavity to the desired depth.

A method of inserting an H-Seal in a bearing, the H-Seal having two ends, two upper lips, two lower lips and a vertical flange positioned between the bearing that secures the upper and lower lips together, the bearing having seal faces, inner and outer rings and a gap therebetween. The method provides including an insertion tool assembly, priming the H-Seal into the insertion tool, sliding the tool with the H-Seal loaded therein within a slot, placing the lower lips back on their respective face, allowing the lower lips to recover their initial shape. The tool moves the lower lips to a vertical position (T shape), inserts the seal between the rings and the lower lips recover their initial shape and places them naturally back on their respective faces.

Devices and methods are provided whereby a preformed elastomeric tubular seal profile may be installed into a gap defined between an adjacent pair of structural panels. The device may include a frame and opposed first and second compression rollers attached to the frame for rotational movement about respective rotational axes. The opposed first and second compression rollers define a nip space therebetween for the introduction of a preformed elastomeric tubular seal profile, whereby moving the tubular seal profile through the nip space causes the tubular seal profile to compress and thereby form a downstream compressed profile portion and an upstream uncompressed profile portion. The compressed profile portion may thus be inserted into a gap between adjacent structural panels and thereafter allowed to expand (e.g., by removal of a plug element from a distal end thereof) to thereby seal the gap.

Devices and methods are provided whereby a preformed elastomeric tubular seal profile may be installed into a gap defined between an adjacent pair of structural panels. The device may include a frame and opposed first and second compression rollers attached to the frame for rotational movement about respective rotational axes. The opposed first and second compression rollers define a nip space therebetween for the introduction of a preformed elastomeric tubular seal profile, whereby moving the tubular seal profile through the nip space causes the tubular seal profile to compress and thereby form a downstream compressed profile portion and an upstream uncompressed profile portion. The compressed profile portion may thus be inserted into a gap between adjacent structural panels and thereafter allowed to expand (e.g., by removal of a plug element from a distal end thereof) to thereby seal the gap.

Provided are a method, a guiding sheet, a partial filling jig, and a full filling jig for installing an elastomer ring in the semiconductor processing equipment. The guiding sheet, the partial filling jig, and the full filling jig dispose the elastomer ring in the groove of the semiconductor processing equipment smoothly and evenly. Furthermore, the surface of the elastomer ring may be divided to multiple arcs portions. Each one of the arc portions may be pressed by the partial filling jig or the full filling jig in a particular sequence. When the groove is filled by the elastomer ring accurately and completely, the elastomer ring may block the fluid and the etching gas effectively. The elastomer ring may help the semiconductor processing equipment to work continuously and maintain qualities of the etching wafers.

A glass screen film applicator includes a carrier, a positioning member integrally formed as a one-piece structure, and a clamping mechanism fastened to the carrier. The carrier includes a mounting slot and an accommodating trough, and the accommodating trough includes a rail hole recessed in a bottom thereof. The positioning member includes an L-shaped structure and a plurality of positioning pillars extending from the L-shaped structure, and the L-shaped structure has a positioning corner arranged on an inner side thereof. The clamping mechanism includes a holder and a moving unit. The holder and the positioning corner respectively clamp two diagonal corners of a mobile device by the moving unit, and the positioning pillars allow the glass screen film structure to be disposed on and aligned with the mobile device.

A set of tools for removing a vehicle window includes a first tool, a second tool, and a third tool. The first tool includes a first shaft comprising a substantially flat profile, a first blade attached to the first shaft, and a first handle attached to the first shaft opposite the first blade. The second tool includes a second shaft comprising a substantially flat profile and a second blade attached to the second shaft. A second length of the second tool is longer than a first length of the first tool. The third tool includes a third shaft comprising a substantially flat profile and a third blade attached to the third shaft. A third length of the third tool is longer than the second length of the second tool.

A listing bead fastening tool has a body that defines a guiding recess shaped to receive a listing bead, and a guide rib extending from the body. The guide rib has a neck and a head that is connected to the body of the tool by the neck. The head has a width to allow it to pass through a retention channel defined by opposing rows of fastener elements extending from a base of a fastener strip to which the listing bead is to be fastened. The guiding recess of the body of the tool defines a listing bead insertion path that is angled with respect to the retention channel. Moving the tool along the retention channel causes the listing bead, which is retained within the guiding recess, to be progressively inserted into the retention channel and retained between the rows of fastener elements.

A hammer for installing a gasket into a joint between two pipes, the hammer comprising two opposed substantially rectangular, non-square strike surfaces which are rotationally offset from one another by 90 degrees such that an appropriate substantially rectangular, non-square strike surface may be selected by the user and applied to a gasket by simply rotating the hammer in the user's hands without requiring the user to relocate around the gasket.

A simplified installation tool for installing a cover strip in a linear guide rail assembly is provided. The installation tool includes a body having a channel that extends across a bottom surface of the body that is adapted to receive a guide rail. The channel is defined by an upper surface with a lead-in angled projection and sides defined by two L-shaped guide portions that extend from the upper surface and that face each other. Two undercut areas of the channel are located between the L-shaped guide portions and the upper surface of the channel. Retention tabs of the installation tool can attach to the carriage of the linear guide rail assembly. The lead-in angled projection provides a downward force on the cover strip as the carriage travels along the guide rail to press the cover strip into a flattened state within a slot of the guide rail.