A cable gland system for arrangement on a housing wall includes: a guide element with an opening for receiving a cable, a first support surface for supporting on a first side of the housing wall and a first end region, and an opposite second end region, at least one external thread being arranged at least on a periphery of the first end region; and a fastening element with a second support surface for supporting on a second side of the housing wall, and an internal thread on an inner surface, the internal thread engaging with the external thread on the guide element in a screwed-on state. At least one contact surface with a contact structure respectively arranged on the periphery of the guide element, adjacent to the external thread and to the inner surface of the fastening element.

A junctional hemorrhage control device includes a strap and a base operably connected to the strap. A strap carriage is operably connected to, and linearly translatable relative to, the base. A screw assembly is rotatably attached to the base. The screw assembly moves the strap carriage away from the base when the screw assembly is operated in one direction and towards the base when the screw assembly is operated in an opposite direction. A removable pressure plate is attached to the base to apply occlusion pressure to a hemorrhage location.

A junctional hemorrhage control device includes a strap and a base operably connected to the strap. A strap carriage is operably connected to, and linearly translatable relative to, the base. A screw assembly is rotatably attached to the base. The screw assembly moves the strap carriage away from the base when the screw assembly is operated in one direction and towards the base when the screw assembly is operated in an opposite direction. A removable pressure plate is attached to the base to apply occlusion pressure to a hemorrhage location.

An optimized thread profile (140) for joining composite materials is presented. This thread profile (140) maintains a certain material strength when used as part of a composite threaded joint (101). The thread profile (140) comprises a repeating pattern of four components: a crest region (150), a first flank (162), a root region (170) and a second flank (164). The thread profile (140) is symmetrical, that is, the dimensions of the four components do not change throughout the length of the thread profile. The crest (152) has a flat profile and the root (172) has a rounded profile. When a shaft (120) is affixed to a joining shaft (110) using this optimized thread profile (140), the flat profiles of the crest (152) of the shaft (120) and corresponding rounded profiles of the root (172) of the joining shaft (110) create a gap to accommodate a substance such as an adhesive or a lubricant. Similarly, the flat profiles of the crest (152) of the joining shaft (110) and corresponding rounded profiles of the root (172) of the shaft (120) create a gap to accommodate a substance.

An optimized thread profile (140) for joining composite materials is presented. This thread profile (140) maintains a certain material strength when used as part of a composite threaded joint (101). The thread profile (140) comprises a repeating pattern of four components: a crest region (150), a first flank (162), a root region (170) and a second flank (164). The thread profile (140) is symmetrical, that is, the dimensions of the four components do not change throughout the length of the thread profile. The crest (152) has a flat profile and the root (172) has a rounded profile. When a shaft (120) is affixed to a joining shaft (110) using this optimized thread profile (140), the flat profiles of the crest (152) of the shaft (120) and corresponding rounded profiles of the root (172) of the joining shaft (110) create a gap to accommodate a substance such as an adhesive or a lubricant. Similarly, the flat profiles of the crest (152) of the joining shaft (110) and corresponding rounded profiles of the root (172) of the shaft (120) create a gap to accommodate a substance.

Fastener-removal method and assembly including a washer member (22) integral with a fastener-removal member (26) are provided. A fastener (16) may be disposed in a through hole (24) in the washer member. The fastener-removal member is arranged to receive a mechanical force effective to remove the fastener. Embodiments of the disclosed assembly are effective for quick removal of relatively high-strength fasteners, as may be used in combustion turbine engines, without having to directly apply torque to structures of the fastener, such as the head of a fastener, and thus reducing the possibility of damage to the fastener during servicing operations of the turbine engine involving fastener removal.

A method, process and machine to anchor objects to a surface using an encapsulated compound such as adhesive, expanding glue, hardening agent or other reactive and/or bonding substance intended for single use in a single anchor installation.

A fastener kit can securely affix a washing machine on a lightweight wall. The washing machine includes a rear panel for coupling to the wall through the fastener kit. A tub configured to contain washing water may be integrally formed with the rear panel. The fastener kit has an anchor rod with one end section forming tight contact with the inner surface of a fastening hole on the lightweight wall by using a chemical anchor. The other end section of the fastener kit is coupled to the rear panel.

The present patent discloses a device for preventing components from loosening caused by reverse travel, comprising a shell and a cylindrical pin, wherein the cylindrical pin is clamped inside the shell, is in sliding connection with the shell and is capable of retracting into or extending out of the shell. Because of the presence of track positioning, the device disclosed by the present patent can ensure the positioning of the installed components just by performing positioning while fasteners are installed, can avoid the situation of reverse rotation or slip of the components and can be assembled without using any tool or spare parts kit. The device disclosed by the present patent is a hidden device which is automatically telescopic following actions, thereby being convenient to operate and not affecting the appearance.

The present patent discloses a device for preventing components from loosening caused by reverse travel, comprising a shell and a cylindrical pin, wherein the cylindrical pin is clamped inside the shell, is in sliding connection with the shell and is capable of retracting into or extending out of the shell. Because of the presence of track positioning, the device disclosed by the present patent can ensure the positioning of the installed components just by performing positioning while fasteners are installed, can avoid the situation of reverse rotation or slip of the components and can be assembled without using any tool or spare parts kit. The device disclosed by the present patent is a hidden device which is automatically telescopic following actions, thereby being convenient to operate and not affecting the appearance.