A charger outlet cover assembly for charging electronic devices includes a wall plate that is positionable over a female electrical outlet. A plurality of contacts is each of the contacts is coupled to the wall plate thereby facilitating each of the contacts to engage a respective socket in the female electrical outlet. A pair of chargers is each coupled to the wall plate. Each of the chargers is in electrical communication with respective ones of the contacts to receive electrical power from a power source. A pair of charging cords is each retractably disposed on a respective one of the chargers to charge a respective electronic device.

A multi-function device for an adjustable bed system is disclosed which has a housing having a top section and a side section, the side section having a button having a light and a port, operation of the button for sending a signal, a cord connected to the housing, the cord having a wire connected to the button, and a connector connected to the wire.

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 medical electrical equipment power tap has multiple sockets and a power cord with a maximum current rating. The power tap includes a display to indicate information related to an instantaneous current draw of the power tap. The power tap also includes an electrical circuit which determines whether the instantaneous current draw exceeds a predetermined maximum allowed current which is less than the maximum current rating. The display provides a visual indication when the power tap's current draw exceeds the maximum allowed value, signifying that at least one item of medical electrical equipment should be unplugged from the power tap. The electrical circuit includes a current loop which passes through a structural portion of the power tap's housing for independently gauging the instantaneous current draw using a clamp probe.

A novel system for installing, wiring and controlling electrical outlets is disclosed. The system includes a mounting bracket, a self-contained receptacle, and an option control module. The mounting bracket has preconfigured embedded conductors to facilitate the mounting of electrical outlets thereto. The self-contained receptacle includes a self-contained electrical outlet having face-mounted counter bored connecting screws for electrically connecting the self-contained receptacle to the embedded conductors of the mounting bracket. The optional control module may wirelessly receive instructions for controlling an electrical output of the self-contained receptacle.

When a first movable housing and a second movable housing are provided, relative positions of a first terminal and a second terminal are prevented from deviating from predetermined positions. A connector 1 includes a fixing housing 2, a first movable housing 31, a second movable housing 32, a first terminal 41, and a second terminal 42. The fixing housing 2 includes the first terminal holding portions 21A that hold the first fixing-side held portions 4B of the first terminals 41, and the second terminal holding portions 22A that hold the second fixing-side held portions 4B of the second terminals 42. The first terminal holding portion 21A and the second terminal holding portion 22A of the fixing housing 2 are integrally molded with resin.

An electrical outlet has a housing including a perimeter housing portion sandwiched between front and rear housing portions. The perimeter housing portion define an interior and has a front edge and a rear edge. The front housing portion has a rear surface that engages the front edge of the perimeter housing portion, and the front housing portion includes one or more electrical receptacle openings to the interior, with a plurality of rearwardly-extending latch tabs for securing the electrical outlet to a mounting surface. The rear housing portion has a front surface that engages the rear edge of the perimeter housing portion. The rear and perimeter housing portions cooperate to define a strain relief for an electrical cord that supplies power to electrical contacts inside the housing.

An electrical receptacle assembly including first and second prong receiving members, a housing and a tamper resistant member. The housing has the prong receiving members positioned therein and electrically isolated from each other. The tamper resistant member is slidingly coupled to the housing. The tamper resistant member is restricted from sliding if only a first portion of the tamper resistant member is pressed upon proximate to one of the prong receiving members.

A cover for an electrical receptacle including a faceplate. The cover also includes a first transmission tab configured to be electrically connected to a first power line of the electrical receptacle and a second transmission tab configured to be electrically connected to a second power line of the electrical receptacle. Additionally, the cover includes a device (such as a light source, circuit, port, or sensor) in communication with the first transmission tab and the second transmission tab.

An elevated outlet assembly includes a tripod that has a base and a plurality of legs each extending downwardly from the base. Each of the legs engages a support surface thereby elevating the base upwardly from the support surface. A disk is disposed on the base and a plurality of female electrical outlets is each integrated into the disk to receive a power plug from an electronic device. Each of the female electrical outlets is elevated when the tripod is positioned on the support surface to inhibit the power plug from the electronic device from coming into contact with moisture on the support surface. A power cord is coupled to and extends away from the disk and the power cord can be plugged into a power source to supply electrical power to the respective electronic device.