Various implementations include a method of connecting wire to conductive fabric. The method includes (1) providing a conductive fabric having a main portion and a protrusion extending along a protrusion central axis from the main portion, the protrusion having a distal edge spaced apart from the main portion along the central axis and side edges that extend between the main portion and the distal edge; (2) placing a wire along at least a portion of the protrusion, the wire having a first end and a second end opposite the first end; (3) folding the distal edge of the protrusion over the wire one or more times to form a folded portion of the protrusion; and (4) after folding the distal edge, securing the folded portion of the protrusion with a securing device.

The open heat shrink device provides an innovative design for a tubing device, that can provide convenient means to protect an object without any cutting process. In other words, the open heat shrink tubing device provides stable and non-bulky means of attachment, such that the tubing device may be wrapped around an existing object to provide a protective covering over it, without the need to cut the object. Accordingly, the tubing device includes a wrapping member with an opening or slit that enables the wrapping member to be easily wrapped around the object that needs to be protected and/or heat shrink wrapped. Further, a plurality of fastening members enables to have a secure hold of the wrapping member around the object. Furthermore, the tubing device may include additional layers, and or textures for the wrapping member, thereby enabling an efficient and foolproof protective covering around different objects in different scenarios.

A conductive member includes (i) a conductive pipe and (ii) a conductor that is inserted into the pipe and is brought into electro-conductive contact with an inner surface of the pipe. The pipe is provided with a stopper section that abuts against and stops the conductor and thereby regulates an insertion amount of the conductor. The conductor includes an insulation coating surrounding a conductor section, the conductor section is exposed at an end portion, and an end of the insulation coating forms a step with respect to the conductor section and creates a stopped section that abuts against and is stopped by the stopper section.

A joint structure of a high-voltage cable includes a cable core wrapped from interior to exterior sequentially by an inner insulating layer, a shielding layer and an outer insulating layer, a section of the inner and outer insulating layers is stripped at an end of the cable core, and a length of the stripped section of the outer insulating layer is greater than a length of the stripped section of the inner insulating layer. The end of the cable core is connected to an external terminal, a connection between the end and the external terminal and an adjacent section of the inner insulating layer are wrapped by a heat-shrinkable tube, a spacing is provided between an end of the heat-shrinkable tube and the outer insulating layer, the shielding layer within the spacing is wrapped by a copper foil and connected externally to a cable connector via the copper foil.

A joint structure of a high-voltage cable includes a cable core wrapped from interior to exterior sequentially by an inner insulating layer, a shielding layer and an outer insulating layer, a section of the inner and outer insulating layers is stripped at an end of the cable core, and a length of the stripped section of the outer insulating layer is greater than a length of the stripped section of the inner insulating layer. The end of the cable core is connected to an external terminal, a connection between the end and the external terminal and an adjacent section of the inner insulating layer are wrapped by a heat-shrinkable tube, a spacing is provided between an end of the heat-shrinkable tube and the outer insulating layer, the shielding layer within the spacing is wrapped by a copper foil and connected externally to a cable connector via the copper foil.

Disclosed are various embodiments of LED lamps that are both watertight and waterproof for use in outdoor venues. The LED lamps can easily be assembled using automated or manual techniques and provide a reliable source of outdoor lighting for many years. Simple and inexpensive techniques are used to assemble the LED lamps that allow the lamps to be produced at a reasonable price.

A method for manufacturing a cable with a connector is provided. In the method, a contact is attached to a reinforcing wire. The reinforcing wire to which the contact is attached is inserted into an insertion portion of a housing. The housing is connected to one end of a cable. The reinforcing wire is secured to the cable by a securing member.

Provided is a grounding terminal comprising a terminal fitting including a crimp portion, and a fastened portion that is provided on the front lower side of the crimp portion and is to be connected to a grounding surface using a fastening member, the terminal fitting being provided with a stepped portion between the crimp portion and the fastened portion. A covering layer is configured to be formed on the grounding terminal by thermally shrinking a heat-shrinkable tube including, on its inner circumferential portion, a water sealing agent to be used to cover at least the crimp portion of the terminal fitting and seal the electric wire from water. A water sealing agent is configured to be distributed up to the front side with respect to the covering layer as viewed from above, and a hanging-down length d of a water sealing agent is within the range of the stepped portion.

Provided is a grounding terminal comprising a terminal fitting including a crimp portion, and a fastened portion that is provided on the front lower side of the crimp portion and is to be connected to a grounding surface using a fastening member, the terminal fitting being provided with a stepped portion between the crimp portion and the fastened portion. A covering layer is configured to be formed on the grounding terminal by thermally shrinking a heat-shrinkable tube including, on its inner circumferential portion, a water sealing agent to be used to cover at least the crimp portion of the terminal fitting and seal the electric wire from water. A water sealing agent is configured to be distributed up to the front side with respect to the covering layer as viewed from above, and a hanging-down length d of a water sealing agent is within the range of the stepped portion.

An end cap for a heat shrink kit having a heat shrink tubing, wherein the end cap includes a tubing portion sized to be inserted into the heat shrink tubing and an end portion configured to prevent at least a portion of a flame from reaching the heat shrink tubing.