A wearable device comprises one or more deformable signaling pathways wherein each deformable signaling pathway is configured to enable an electrical connection between two devices electrically connected to each other via the deformable signaling pathway. Deformable signaling pathways enable the conduction of electrical signals between various circuit elements similar to one or more circuit elements such as electronic traces or wires. A deformable signaling pathway includes one or more conductive elements surrounded by a conductive gel. Both the conductive gel and the one or more conductive elements are encased in an elastomeric shell. The elastomeric shell is attached to terminals (e.g., one on either end). The one or more connectors are attached to one another such that the one or more connectors span the length of the elastomeric shell and form a low resistance contact between the terminals of the deformable signaling pathway.

A battery terminal includes a terminal main body and a protector, wherein the terminal main body includes clamping sections for clamping the battery post, opposed sections and an operating section, the opposed sections being continuous with the clamping sections, wherein the operating section causes the opposed sections to approach each other, wherein the protector includes an elastic section provided with a contact section to be brought into contact with the upper surface of the battery main body, and a displacement section provided so as to be freely displaced between an introduction position and a retracted position, wherein in the introduction position, a tightening operation by the operating section is limited, and wherein the displacement section is displaced from the introduction position to the retracted position by pressing the contact section against the upper surface of the battery main body so that the tightening operation is allowed.

A receptacle connector includes a first cylinder, a second cylinder, and a plurality of elongated conductors. Each of the elongated conductors has a first end located in and connected to the first cylinder and a second end located in and connected to the second cylinder. The elongated conductors are arranged in a circular shape and are spaced apart from each other. The elongated conductors define an inner space into which a plug is inserted. The first cylinder is rotatable relative to the second cylinder. The elongated conductors clasp and electrically contact the plug in the inner space when the elongated conductors are twisted and deformed by rotation of the first cylinder relative to the second cylinder.

A connector assembly includes a first connector having a first insulator and a first contact, a second connector having a second insulator and a second contact and being fitted to the first connector along a fitting direction; a lever member held by one of the first insulator and the second insulator in a rotatable manner about a rotational axis, a rotational shaft member extending along the rotational axis and rotating in accordance with rotation of the lever member, the rotational shaft member having a cam surface for pressing the first contact and the second contact against each other, and a cam mechanism moving the first insulator and the second insulator relatively along the fitting direction in conjunction with rotation of the lever member.

In one example, a medical device includes a housing having a channel configured to receive an electrical lead. The medical device can further have a rotatable member having a longitudinal axis about which the rotatable member is configured to rotate. The rotatable member can have an outer surface having a first radius from the longitudinal axis. The rotatable member can also have a cam lobe extending farther from the longitudinal axis than the first radius of the outer surface. The cam lobe can have a substantially planar surface parallel to the longitudinal axis. The substantially planar surface of the cam lobe can be configured to retain the electrical lead within the channel. The medical device can further have a slider having a central portion substantially parallel with the cam lobe. The slider can further have a slider protrusion on the central portion of the slider.

The present disclosure provides cam activated wire termination assemblies for electrical wiring devices. The electrical wiring devices include a cover and a base. The base has a wire chamber supporting a wire termination assembly. The wire termination assembly includes a wire fastening member and a conductive member. The wire fastening member has a cam surface and is rotatable between an open position and a securing position. The conductive member is positioned in close proximity to the wire fastening member such that a gap is provided between the wire fastening member and the conductive member when the wire fastening member is in the open position. When the wire fastening member is rotated from the open position to the securing position, the cam surface rotates to reduce the size of the gap between the wire fastening member and the conductive member.

A modular electrical wiring system, methods and components thereof, for connecting electrical devices to structural wiring. The system may include a base modular unit having a first electrical connection feature and one or more dependent modular units each having an electrical device, a first electrical connection feature and second electrical connection feature electrically and mechanically interconnectable with a first electrical connection feature of another modular unit. The modular units are may be assembled sequentially along a first axis by being rapidly interconnectable with adjacent modular units by relative movement therebetween in a direction perpendicular to the first axis. When modular units are connected in a mechanical series, electrical devices in the modular units may be functionally electrically in series or parallel, depending on the internal wiring of the upstream modular unit. Modular devices may have a switch to provide a choice between a series or parallel connection.

A grounding clamp (10, 210) is provided for use with an overhead electrical conductor (12) and is operated by a user via a shotgun stick or other elongate stick or pole. The grounding damp (10) includes a pair of damp jaws (16, 18; 216,218) that, in one embodiment (10), are biased towards a closed position by at least one spring (20,22) and that are driven between open and closed positions via a cam mechanism (24) in response to the user applying a torque force to the clamp (10) with the shotgun stick or other elongate stick or pole. In another embodiment, a ground clamp (210) includes a tightening mechanism (220) configured to tighten a pair of jaws (216,218), and a ratchet mechanism (222) configured to allow the tightening mechanism (220) to be translated relative to the jaw (216) to any of a plurality of predetermined, linearly spaced, fixed positions to adjust the spacing between the jaws (216,218).

A receptacle connector includes a first cylinder, a second cylinder, and a plurality of elongated conductors. Each of the elongated conductors has a first end located in and connected to the first cylinder and a second end located in and connected to the second cylinder. The elongated conductors are arranged in a circular shape and are spaced apart from each other. The elongated conductors define an inner space into which a plug is inserted. The first cylinder is rotatable relative to the second cylinder. The elongated conductors clasp and electrically contact the plug in the inner space when the elongated conductors are twisted and deformed by rotation of the first cylinder relative to the second cylinder.

A modular electrical wiring system, methods and components thereof, for connecting electrical devices to structural wiring. The system may include a base modular unit having a first electrical connection feature and one or more dependent modular units each having an electrical device, a first electrical connection feature and second electrical connection feature electrically and mechanically interconnectable with a first electrical connection feature of another modular unit. The modular units are may be assembled sequentially along a first axis by being rapidly interconnectable with adjacent modular units by relative movement therebetween in a direction perpendicular to the first axis. When modular units are connected in a mechanical series, electrical devices in the modular units may be functionally electrically in series or parallel, depending on the internal wiring of the upstream modular unit. Modular devices may have a switch to provide a choice between a series or parallel connection.