An apparatus (10) for selectively opening up a portion of a cable (12) is provided. The apparatus (10) includes a first guide (14) arranged to receive a core (16) of the cable (12). A second guide (18, 20) is spaced laterally apart from the first guide (14) and is arranged to receive one or more outer wires (22, 24) of the cable (12). The second guide (18, 20) is also arranged to draw a portion of the one or more outer wires (22, 24) of the cable (12) away from the core (16) of the cable (12) as the cable (12) is passed through the apparatus (10) when in use.

An apparatus (10) for selectively opening up a portion of a cable (12) is provided. The apparatus (10) includes a first guide (14) arranged to receive a core (16) of the cable (12). A second guide (18, 20) is spaced laterally apart from the first guide (14) and is arranged to receive one or more outer wires (22, 24) of the cable (12). The second guide (18, 20) is also arranged to draw a portion of the one or more outer wires (22, 24) of the cable (12) away from the core (16) of the cable (12) as the cable (12) is passed through the apparatus (10) when in use.

The invention relates to a method of connecting electrical wires, conductors, or connections together by rotating the connector ends in an enclosure to tightly twist the wire ends together and also includes a clamping mechanism to prevent the wires from untwisting, becoming loose, or falling out of the enclosure. The present invention increases the holding ability of current rotating tools for electrical wires and connections.

A method for preventing chaffing between a linear detector cable and a protective outer sheath including the steps of preparing an elongated polymer tube having a predetermined length and outer diameter, wrapping heat resistant tape having a given width around a distal end portion of the tube to locally enlarge the outer diameter of the tube, and inserting a proximal end portion of the tube into an open end of a metallic protective sheath having a predetermined inner diameter that is slightly greater than or equal to the outer diameter of the tube, so that the heat resistant tape wrapped around the distal end portion of the tube abuts against the end of the sheath to acts as a stop surface.

A method for preventing chaffing between a linear detector cable and a protective outer sheath including the steps of preparing an elongated polymer tube having a predetermined length and outer diameter, wrapping heat resistant tape having a given width around a distal end portion of the tube to locally enlarge the outer diameter of the tube, and inserting a proximal end portion of the tube into an open end of a metallic protective sheath having a predetermined inner diameter that is slightly greater than or equal to the outer diameter of the tube, so that the heat resistant tape wrapped around the distal end portion of the tube abuts against the end of the sheath to acts as a stop surface.

The present disclosure discloses a cable connector, which comprises: at least one cable, the at least one cable comprises an insulating sheath, a shielding layer inside the insulating sheath and at least one conductive wire; a connector, the connector comprises a metal shell, the metal shell is provided with a cable receiving portion mounting the at least one cable, the at least one cable is inserted into the connector to allow the connector and the at least one conductive wire to be electrically connected. The shielding layer is exposed out of the insulating sheath at an end of the at least one cable, a conductive elastomer is sheathed on the exposed shielding layer, when the cable receiving portion squeezes the at least one cable, the conductive elastomer is deformed and fills most of a gap between the cable receiving portion and the at least one cable.

A wire-untwisting designed for securing and manipulating wires or cables in conjunction with a rotary tool, such as a drill. The device comprises a body with a first end featuring at least one outwardly extending male member capable of being secured within a drill's chuck, facilitating the attachment of the device to the drill. The opposite end of the body contains at least one opening from which at least one fastener extends, designed to attach to wires or cables. The device also includes a spring-loaded sheath, which can be retracted to expose the fastener for wire attachment and then released to cover the fastener, securing the wire while allowing it to extend through the sheath. Additionally, the invention can be equipped with a motor, eliminating the need for an external drill by enabling the device itself to rotate the male member.

An electrical wire with a terminal fitting that can be manufactured without using a welding device, and a method of manufacturing this electrical wire with a terminal fitting. Metal foil is wrapped around end portions of the braided wire, and terminal fittings are connected to the end portions. According to this configuration, the metal foil makes it possible to prevent strands in the end portions of the braided wire from becoming loose and spreading apart, and this makes it possible to manufacture the electrical wire with a terminal fitting without using a welding device.

An electrical wire with a terminal fitting that can be manufactured without using a welding device, and a method of manufacturing this electrical wire with a terminal fitting. Metal foil is wrapped around end portions of the braided wire, and terminal fittings are connected to the end portions. According to this configuration, the metal foil makes it possible to prevent strands in the end portions of the braided wire from becoming loose and spreading apart, and this makes it possible to manufacture the electrical wire with a terminal fitting without using a welding device.

A process for making a biosensor comprising a hollow coil having wires coiled in parallel and an electronic circuit component connected to the coil, the process including: 1) providing a mandrel on which wires including at least a first wire, a second wire and a third wire are wound in parallel, 2a) immersing the mandrel in a first buffer solution comprising a first bioreceptor, a first monomer and optional additives, 2b) arranging the wires such that the first wire may be used as a working electrode, the second wire may be used as a counter electrode and the third wire may be used as a reference electrode of a three electrode electrochemical cell used in an electropolymerization process, 3) passing electric current through the first wire to form a first biocompatible coating of a first polymer polymerized from the first monomer comprising the first bioreceptor on the first wire, 4) removing the coil from the mandrel, 5) connecting the wires to their respective points of the electronic circuit component such that the first wire may be used as a working electrode, the second wire may be used as a counter electrode and the third wire may be used as a reference electrode and wherein the electronic circuit component is configured such that it can generate an input signal for a wireless receiver based upon the activity of the bioreceptor and wirelessly send the input signal to the wireless receiver.