This document describes a pipe clip for quick mount and release. In aspects, the pipe clip includes a base and an upper cover, with several arc-shaped cavities provided on the base. The outer side of the arc-shaped concave cavity is provided with connecting column and racks. The upper cover is provided with a pressing concave cavity corresponding to each arc-shaped concave cavity. The base and upper cover configured to form a pipe cavity by combining one arc-shaped concave cavity and one pressing concave cavity. The upper cover is provided with a perforation corresponding to the connecting column and the connecting column is configured to penetrate through the perforation so that the upper cover can rotate around the connecting column.

A control line clamp comprising a clamping element for retaining one or more control lines alongside a pipe; a first collar; and a second collar, wherein the clamping element is arranged to be attached to the pipe by positioning the first and second collars around the pipe on opposing sides of the clamping element and moving the first and second collars relatively towards each other in an axial direction.

A method and assembly for mounting a conduit on a mounting surface utilizing a conduit mounting assembly. The conduit mounting assembly includes a first clamp portion, a second clamp portion, a connecting screw and a conduit securement screw. The method includes providing the conduit mounting assembly, mounting the first clamp portion on a tile, mounting the second clamp portion opposite to the first clamp portion on the tile, connecting the first clamp portion with the second clamp portion utilizing the connecting screw and mounting the conduit on the second clamp portion utilizing the conduit securement screw and a conduit fastening member.

A cable management device includes a central portion, and a plurality of dividers extending away from a central axis of the central portion, the plurality of dividers defining a plurality of receptacles therebetween, the plurality of receptacles being configured to receive a plurality of conduits, the plurality of dividers defining a recessed channel extending along an outer circumference of the dividers and configured to accommodate a securing mechanism for securing the plurality of conduits to the cable management device.

A hose clamp for supporting a hose with respect to a machine. The hose clamp may include a deformable clamping element comprising a section of material at least partially surrounding an opening. The opening extends through a thickness of the clamping element and is configured to receive the hose. The hose clamp additionally comprises a support element configured to secure the clamping element to the machine. The support element is further configured to compress the clamping element along a direction of the thickness of the clamping element, thereby deforming the clamping element and causing the clamping element to constrict around the hose.

A control line clamp includes a clamping element for retaining one or more control lines alongside a pipe; a first collar; and a second collar. The clamping element is arranged to be attached to the pipe by positioning the first and second collars around the pipe on opposing sides of the clamping element and moving the first and second collars relatively towards each other in an axial direction.

An organizer, intended for use in managing mobile device cables, has a main body made of elastomeric material and a weight contained in a weight cavity. The main body is flexible but comparatively less dense than the weight. The main body has end channels and, in many versions, cable channels. The cable channels have a smaller cross section than the end channels. In some versions, advantageously placing the cable channels helps make it easier to open up the end channels to accommodate a mobile device or various attachments.

A system for spacing and fastening tubular structures, and a related method. The system includes a spacer element configured to engage a plurality of tubular structures, to spatially separate the plurality of tubular structures from one another, and to distribute stress in the plurality of tubular structures. The system further includes a fastening element configured to extend around at least a portion of an outer surface of the plurality of tubular structures, and to fasten the plurality of tubular structures to the spacer element in an adaptively spaced configuration.

An electrical connection plug, an electrical connection device and an electric. The electrical connection plug includes a first fixing plate, a mounting base, an electrical connection assembly and a plurality of plug-in assemblies, the electrical connection assembly and the plurality of the plug-in assemblies are all connected to the mounting base, and the mounting base is in floating connection with the first fixing plate. The electrical connection device includes an electrical connection socket and the above electrical connection plug, the electrical connection assembly and the plurality of plug-in assemblies are all connected to the electrical connection socket. The electric vehicle includes a battery pack, a vehicle body and the above electrical connection device, the electrical connection plug is connected to the vehicle body, and the electrical connection socket is connected to the battery pack.

A tube spacing and fastening system for a gas turbine engine includes a plurality of tubular structures, a wear sleeve, a spacer element, and a fastening element. The plurality of tubular structures provides a fluid flow to a component of the gas turbine engine. The wear sleeve is located around each of the plurality of tubular structures. The spacer element receives the plurality of tubular structures. The fastening element extends around the wear sleeves and is configured to secure the plurality of tubular structures to the spacer element. An interference between the fastening element and wear sleeves is configured to allow the fastening element to slide with respect to the wear sleeves and to provide a damping effect under gas turbine engine vibrations and operating conditions. A method of damping vibrations in the plurality of tubular structures includes allowing the fastening element to slide with respect to the wear sleeve.