A sensor arrangement and cable for use in process automation, including a sensor having at least one sensor element for recording a value in process automation, a first interface for transmitting a measured value depending on the measured value to a second interface, the first interface including a first mechanical, and a cable for transmitting the value to a superordinate unit, the cable including said second interface, which is complementary to the first interface, and a second mechanical coupling complementary to the first mechanical coupling, wherein the second interface and mechanical coupling are arranged in a cable housing, wherein the sensor is detachably connectible to the cable by the first mechanical coupling and the second mechanical coupling, characterized in that the second mechanical coupling is arranged at an angle less than 180° to the longitudinal axis of the cable housing.

A sensor arrangement and cable for use in process automation, including a sensor having at least one sensor element for recording a value in process automation, a first interface for transmitting a measured value depending on the measured value to a second interface, the first interface including a first mechanical, and a cable for transmitting the value to a superordinate unit, the cable including said second interface, which is complementary to the first interface, and a second mechanical coupling complementary to the first mechanical coupling, wherein the second interface and mechanical coupling are arranged in a cable housing, wherein the sensor is detachably connectible to the cable by the first mechanical coupling and the second mechanical coupling, characterized in that the second mechanical coupling is arranged at an angle less than 180° to the longitudinal axis of the cable housing.

A microphone joint is provided that includes movable parts having preferable electrical connection, movability, and fixing force. The microphone joint is to be coupled to a unit case accommodating a microphone unit and a connector case accommodating a connector configured to output signals from the microphone unit to an external device. The microphone joint includes a first unit to be coupled to the unit case, a second unit to be coupled to the connector case, and a conductive member disposed between the first unit and the second unit. The first unit is supported by the second unit with the conductive member and is rotatable relative to the second unit. The conductive member has resilience.

A microphone joint is provided that includes movable parts having preferable electrical connection, movability, and fixing force. The microphone joint is to be coupled to a unit case accommodating a microphone unit and a connector case accommodating a connector configured to output signals from the microphone unit to an external device. The microphone joint includes a first unit to be coupled to the unit case, a second unit to be coupled to the connector case, and a conductive member disposed between the first unit and the second unit. The first unit is supported by the second unit with the conductive member and is rotatable relative to the second unit. The conductive member has resilience.

A rotary connector device includes a first case, a second case, an electrical cable, and a stopper structure. The stopper structure includes a movable member, a rotation restricting portion, and a guide portion. The movable member is movable relative to the second case between a first radial position and a second radial position in a radial direction. The rotation restricting portion is provided at the first case and contactable with the movable member in a circumferential direction to restrict a relative rotation of the first case and the second case in a state where the movable member is at the second radial position. The guide portion is provided at the first case and contactable with the movable member to guide the movable member toward the first radial position.

A rotary connector device includes a first case, a second case, an electrical cable, and a stopper structure. The stopper structure includes a movable member, a rotation restricting portion, and a guide portion. The movable member is movable relative to the second case between a first radial position and a second radial position in a radial direction. The rotation restricting portion is provided at the first case and contactable with the movable member in a circumferential direction to restrict a relative rotation of the first case and the second case in a state where the movable member is at the second radial position. The guide portion is provided at the first case and contactable with the movable member to guide the movable member toward the first radial position.

A steering roll connector configured to operatively engage a steering column. The steering roll connector may comprise a roll stator and a roll rotor telescoped in and rotatable with the roll stator. The roll rotor may have a wall and a surface, and the wall may define an opening for receiving the steering column. A slide may be supported by and movable on the surface from an unengaged position to an engaged position where the slide is positioned to engage and prevent the relative rotation between the roll rotor and roll stator. A spring may operatively engage the slide to causes it to be in the engaged position. When the steering column is received in the opening, a lever arm may operatively engage and pull the slide to the unengaged position.

A steering roll connector configured to operatively engage a steering column. The steering roll connector may comprise a roll stator and a roll rotor telescoped in and rotatable with the roll stator. The roll rotor may have a wall and a surface, and the wall may define an opening for receiving the steering column. A slide may be supported by and movable on the surface from an unengaged position to an engaged position where the slide is positioned to engage and prevent the relative rotation between the roll rotor and roll stator. A spring may operatively engage the slide to causes it to be in the engaged position. When the steering column is received in the opening, a lever arm may operatively engage and pull the slide to the unengaged position.

The disclosed multimedia devices may include an elongated first body comprising a major longitudinal axis between a proximal end and a distal end, a second body comprising at least one electrical connector accessible from a surface of the second body, wherein the second body is configured to rotate about the major longitudinal axis of the elongated first body, and an electrical coupling configured to maintain an electrical connection between a circuit of the elongated first body and the at least one electrical connector when the second body is rotated. Various other devices, systems, and methods are also disclosed.

The disclosed multimedia devices may include an elongated first body comprising a major longitudinal axis between a proximal end and a distal end, a second body comprising at least one electrical connector accessible from a surface of the second body, wherein the second body is configured to rotate about the major longitudinal axis of the elongated first body, and an electrical coupling configured to maintain an electrical connection between a circuit of the elongated first body and the at least one electrical connector when the second body is rotated. Various other devices, systems, and methods are also disclosed.