An in-cabin communication system performs wireless communication between a vehicle and a portable terminal carried by an occupant. The in-cabin communication system includes: a vehicular device mounted to the vehicle; and a leaky coaxial cable that is connected to the vehicular device, and that outputs an electromagnetic wave having a predetermined wavelength according to a command from the vehicular device. The leaky coaxial cable is disposed inside a steel plate of a body of the vehicle. The leaky coaxial cable is disposed at a predetermined distance, which corresponds to an integer multiple of a half-wavelength of the predetermined wavelength, from the steel plate.

The invention relates to a cable joint for mutually connecting a first cable end and a second cable end, comprising: a main body with a first cable opening defined by a first opening edge and a second cable opening defined by a second opening edge, via which first cable opening the first cable end can extend into the main body in use and via which second cable opening the second cable end can extend into the main body in use; andfirst sealing means for providing a seal between a peripheral surface of the first cable end and the first opening edge and second sealing means for providing a seal between a peripheral surface of the second cable end and the second opening edge. The invention also relates to a method for mutually connecting a first cable end and a second cable end using such a cable joint.

A splice cap is configured to house a splice having a step. An electric wire draw-out port from which electric wires can be drawn-out is provided at one end of the splice cap. A splice insertion port provided on a lateral side of the splice cap continues from the electric wire draw out port such that the splice can be inserted therein from a direction orthogonal to the axial direction. A step engagement portion that continues from the splice insertion port is formed to face the step of the splice so as to be able to abut the step when the electric wires are pulled in the axial direction.

An electrical connection handle comprises a casing having an axial direction, a circumferential direction and a radial direction, a rotary part movable in rotation around the axial direction relative to the casing and coaxial with the casing, and a cable gland device configured to cooperate with an electric cable engaged in the casing and in the rotary part along the axial direction. The cable gland device includes a claw part having a plurality of claws and at least one strip or the like extending along the circumferential direction and configured to clamp radially inwardly the claws of the claw part during the rotation of the rotary part along a first circumferential way.

Cable, which can be connected at one end to a connector, having at least two cores, a shield, an insulator, which is formed between the cores and the shield, and having a sleeve, which is formed at the end of the cable, wherein the sleeve comprises a first region with an oblong cross-section and a second region with a round cross-section.

Cable, which can be connected at one end to a connector, having at least two cores, a shield, an insulator, which is formed between the cores and the shield, and having a sleeve, which is formed at the end of the cable, wherein the sleeve comprises a first region with an oblong cross-section and a second region with a round cross-section.

A wire harness including an electric wire that has a core wire and a coating that coats the core wire, a connector that is attached to an end of the electric wire, and a seal that is interposed between the coating of the electric wire and the connector, wherein a tube with a modulus of elasticity higher than that of the coating is provided between the coating and the seal.

This present patent application discloses a quick splice tool for splicing braided wire and terminating wire ends. The quick splice tool is a cylindrical shaped wire joining or terminating structure that utilizes a needle mechanism to split wire and a center, circular mechanism to hold the wire for stabilization and metal discs to prevent the wire from being pulled back out. The quick splice tool effectively prevents from having to use a wire crimper to splice and terminate wire ends, which saves extensive amounts of time and effort when splicing braided electrical wire. The quick splice tool ensures all connectors and terminated ends are reusable and capable of being reconnected within the electrical line.

A communication cable includes a first leaky coaxial cable, a first leaky coaxial cable, and an approach cable. The first leaky coaxial cable has a first end and a second end connected to a communication device. The second leaky coaxial cable has a third end and a fourth end different from the first end and second end of the first leaky coaxial cable. The approach cable has a fifth end connected to the communication device and a sixth end connected to the third end of the second leaky coaxial cable, wherein the sixth end is positioned near the second end of the first leaky coaxial cable.

The disclosure relates to an apparatus (10) for removing, at least in sections, at least one constituent part (6, 7) of a cable arrangement (1), comprising: a positioning unit (11) having an insertion region (12), into which an end region of a cable arrangement (1) can be inserted; an air stream supply device (64), which is designed to direct an air stream onto the cable arrangement (1); and a processing unit (16), which can be displaced relative to the positioning unit (11); wherein a cutting region (50) is provided at at least one of the processing unit (16) and the positioning unit (11); and wherein the cutting region (50) is arranged in such a way that, in the context of the relative displacement, a predetermined constituent part (6, 7) of the cable arrangement (1) can be brought into contact with the cutting region (50) in order to separate, at least in sections, said constituent part (6, 7) from the cable arrangement (1). The disclosure further relates to a method for removing, at least in sections, at least one constituent part (6, 7) of a cable arrangement (1).