The exemplified systems and methods provide an extension cord system having a cord that is configured to slidably guide a movable plug carriage having conventional plug receptacle. In some embodiments, the movable plug carriage is configured with pierce-able conductors that can be inserted and retracted from a sealed skin of the cord. In other embodiments, the sealed skin can be fastened and unfastened by the movable plug carriage as the movable plug carriage moves over the cord. In yet other embodiments, the movable plug carriage is attachable and detachable from the cord.

An electronics rack with integrated battery storage compartment for an uninterrupted power supply is disclosed. The battery storage compartment includes a compartment housing attached to the rack and a compartment drawer slidingly mounted within the compartment housing. The compartment drawer includes an uninterrupted power supply (UPS) and one or more batteries for providing battery powered backup for electronics components mounted in the rack. The UPS includes one or more output power lines that connect to one or more outlets for supplying power to components mounted on the rack. The compartment drawer is mounted to the compartment housing through mating slide rails. The compartment drawer includes an access panel with a handle which permits a user to slide the compartment drawer out from the compartment housing.

An electronics rack with integrated battery storage compartment for an uninterrupted power supply is disclosed. The battery storage compartment includes a compartment housing attached to the rack and a compartment drawer slidingly mounted within the compartment housing. The compartment drawer includes an uninterrupted power supply (UPS) and one or more batteries for providing battery powered backup for electronics components mounted in the rack. The UPS includes one or more output power lines that connect to one or more outlets for supplying power to components mounted on the rack. The compartment drawer is mounted to the compartment housing through mating slide rails. The compartment drawer includes an access panel with a handle which permits a user to slide the compartment drawer out from the compartment housing.

The present invention may comprise: a body including a first plate facing a first direction, a second plate facing a second direction opposite to the first direction, and at least one printed circuit board; and at least one receptacle disposed at the body to be connected to an external connector, wherein the receptacle comprises: a receptacle body which is connected onto the printed circuit board; a receptacle shell to which the external connector is connected and which is slidable in the receptacle body in a third direction vertically facing each of the first and second directions; a guide device which guides the sliding movement of the receptacle shell; a molded member which is coupled to the receptacle shell and configures a connection position of the external connector; and a connection structure which electrically connects the receptacle shell and the receptacle body.

The present invention may comprise: a body including a first plate facing a first direction, a second plate facing a second direction opposite to the first direction, and at least one printed circuit board; and at least one receptacle disposed at the body to be connected to an external connector, wherein the receptacle comprises: a receptacle body which is connected onto the printed circuit board; a receptacle shell to which the external connector is connected and which is slidable in the receptacle body in a third direction vertically facing each of the first and second directions; a guide device which guides the sliding movement of the receptacle shell; a molded member which is coupled to the receptacle shell and configures a connection position of the external connector; and a connection structure which electrically connects the receptacle shell and the receptacle body.

A power connector assembly includes a power rail and a slide power connector. The power rail is mounted to a first wall of a first component via mechanical standoffs to define a clearance space between the power rail and the first wall. An electrode is disposed along a first side of the power rail facing the first wall. The slide power connector is mounted to a second wall of a discrete, second component. The slide power connector defines a track that receives the power rail therein. At least one power contact of the slide power connector is disposed within the clearance space and is electrically connected to the electrode of the power rail to establish an electrical connection. At least one of the first and second components is movable relative to the other along an extension cycle. The electrical connection is maintained throughout the extension cycle.

Provided is a power supply box device that improves design properties by keeping an operation lever from being visible from outside and that prevents misoperations caused by the operation lever being touched by mistake. A power supply box device 1 that comprises a plug 30: that has an operation lever 31m that protrudes in a radiation direction from a plug main body and extends downward; and that is supported by a lid member so as to be capable of forward and reverse rotation. A box main body has: a housing 12 that houses a power supply; and a lever cover 13 that is supported by the housing 12 so as to be capable of ascending/descending between a lock position that is on an upper side and a lock release position P2 that is on a lower side. The lever cover 13 is arranged in the lock release position P2 to allow the operation lever 31 m to rotate and covers the operation lever 31m by ascending, relative to the operation lever as arranged in a prescribed position, from the lock release position to the lock position.

Provided is a power supply box device that improves design properties by keeping an operation lever from being visible from outside and that prevents misoperations caused by the operation lever being touched by mistake. A power supply box device 1 that comprises a plug 30: that has an operation lever 31m that protrudes in a radiation direction from a plug main body and extends downward; and that is supported by a lid member so as to be capable of forward and reverse rotation. A box main body has: a housing 12 that houses a power supply; and a lever cover 13 that is supported by the housing 12 so as to be capable of ascending/descending between a lock position that is on an upper side and a lock release position P2 that is on a lower side. The lever cover 13 is arranged in the lock release position P2 to allow the operation lever 31 m to rotate and covers the operation lever 31m by ascending, relative to the operation lever as arranged in a prescribed position, from the lock release position to the lock position.

A connecting mechanism includes a body and a detachable part connected with the body. The body includes a casing and a sliding component. The casing has an insertion hole for insertion of the detachable part. The sliding component is in sliding connection with the casing, and the sliding component has access holes and clamping holes in communication therewith. The detachable part includes insertion pieces. When the sliding component slides from a first position to a second position, the access holes are opposite to the insertion hole, and the insertion pieces extend into the access holes through the insertion hole. When the sliding component slides from the second position to the first position, the insertion pieces enter the clamping holes from the access holes, thereby locking the detachable part. The assembly and disassembly of the detachable part and the body are realized through the operation of the sliding component without tools.

An elevator system having a car which can be moved along an elevator shaft in a direction of travel. The elevator shaft includes a busbar that extends in the direction of the direction of travel. The car comprises a current collector that can be moved between a first position and a second position along a compression direction. In the first position, the current collector is in engagement with the busbar such that there is an electrical connection between the busbar and the current collector. In the second position, the current collector is disengaged from the busbar, such that the electrical connection between the busbar and the current collector is separated.