The present invention discloses a small sliding multiple plug, comprising a housing, and a plurality of pin holes arranged on the bottom surface of the housing, wherein a first pin, a second pin and a third pin are arranged in the housing; the first pin mainly consists of a ground line leg, a live line leg and a null line leg; when the ground line leg of the first pin is taken as a central point, the second pin is arranged on one side of the central point, and the third pin is arranged on the other side of the central point; and the second pin and the third pin are respectively composed of three legs including the ground line leg. The present invention provides a small sliding multiple plug, which is small in size, has high safety in use, and meets the requirements of safety standards and developing to miniaturization.

A first housing of a first connector is provided with a second guided portion, and a second housing of a second connector is provided with a second guiding portion. The second guided portion and the second guiding portion regulate upward movement of the first connector with respect to the second connector in the up-down direction between a preliminary mated state and a final mated state and in the final mated state. The second housing further has a movable member with a regulating portion. When the movable member is positioned at a locked position, the regulating portion regulates rearward movement of the first housing with respect to the second housing.

A separator and an electrochemical device including the same. The separator includes an adhesive layer including first adhesive resin particles having an average particle diameter corresponding to 0.8-3 times of an average particle diameter of the inorganic particles and second adhesive resin particles having an average particle diameter corresponding to 0.2-0.6 times of the average particle diameter of the inorganic particles, wherein the first adhesive resin particles are present in an amount of 30-90 wt % based on a total weight of the first adhesive resin particles and the second adhesive resin particles. The separator shows improved adhesion to an electrode and provides an electrochemical device with decreased increment in resistance after lamination with an electrode.

A separator and an electrochemical device including the same. The separator includes an adhesive layer including first adhesive resin particles having an average particle diameter corresponding to 0.8-3 times of an average particle diameter of the inorganic particles and second adhesive resin particles having an average particle diameter corresponding to 0.2-0.6 times of the average particle diameter of the inorganic particles, wherein the first adhesive resin particles are present in an amount of 30-90 wt % based on a total weight of the first adhesive resin particles and the second adhesive resin particles. The separator shows improved adhesion to an electrode and provides an electrochemical device with decreased increment in resistance after lamination with an electrode.

An electrical connector comprises a housing body with a peripheral region and a central region. A hinge support protrudes from the housing body. A curved wall portion extends outward from the central region. A lid has a hollow portion arranged for rotation with respect to the hinge support. A spring or resilient member is configured to bias the lid in a closed state against an electrical socket with one or more electrically conductive terminals in an interior of the electrical socket. A slider is arranged to slide radially along the curved wall portion between an open position and a closed position, where the closed position holds the lid in the closed state and where the open position allows the lid to be rotationally raised or flipped upward.

A power cord slide connector coupling includes a power cord, a low-profile connector coupled with the power cord, a receptacle including a housing with a concave opening sized to receive the low-profile connector in an insert direction, and a plug disposed in the receptacle and configured to electrically engage the low-profile connector. The plug includes contact members that are positioned such that with the low-profile connector in the concave opening, the plug engages the low-profile connector by displacing the low profile connector in a connect direction, perpendicular to the insert direction.

A power cord slide connector coupling includes a power cord, a low-profile connector coupled with the power cord, a receptacle including a housing with a concave opening sized to receive the low-profile connector in an insert direction, and a plug disposed in the receptacle and configured to electrically engage the low-profile connector. The plug includes contact members that are positioned such that with the low-profile connector in the concave opening, the plug engages the low-profile connector by displacing the low profile connector in a connect direction, perpendicular to the insert direction.

A power supply device for a vehicle child seat includes an anchor housing mounted on a rear seat, an anchor and a power supply connector, which are positioned within the anchor housing, a latch bar mounted on a child seat and fastened on the anchor in a locked manner, a connector module slidably fastened to the latch bar, and a power connection connector integrally combined with the connector module and removably fastened to the power supply connector.

Current leakage interrupter, having a shell consisting of an upper shell and a lower shell, a PCB inside the shell, a detection device and a trip device mounted to the PCB, power lines electrically connected to the trip device through the detection device, and pins electrically connected to the trip device. The lower shell has pin holes; front ends of the pins extend out of the pin holes. A reverse hook is provided at an inner side of the lower shell at an edge of each pin hole to fix onto a first side of a rear end of a corresponding pin; a second side of the rear end of each pin is extended and bended into a bended portion; a supporting seat is also provided at the inner side of the lower shell at the edge of each pin hole to support the bended portion of the corresponding pin.

Various components and subcomponents of a pluggable modular system for electrical junction boxes are described herein. In various embodiments, a jbox interface chassis is configured to be wired and fastened within an electrical junction box to provide a hot-swappable pluggable interface between the wires in the electrical junction box and each of a plurality of hot-swappable pluggable modular devices. The jbox interface chassis may include a front pluggable interface configured to electrically mate with a corresponding rear pluggable interface on a casing of each pluggable modular device. As an example, the jbox interface chassis may include a plurality of slots or holes to receive a corresponding plurality of blades or pins on the casing of each pluggable modular device. Additionally, device adapters are described herein to convert a wide variety of legacy electrical devices into pluggable modular devices.