A wall outlet with extendable electrical receptacles is provided. The wall outlet is mountable into the wall outlet cavity of an existing structure. The wall outlet includes extendable electrical receptacles that are extendable from the wall outlet via electrical cables that are wound around a spool. Each electrical cable is wound around a section of the spool, such that it may be unwound, independently, therefrom. The electrical receptacles are attached to ends of the cables and are in electrical communication therewith. A user extends an electrical receptacle from the wall outlet by pulling the electrical receptacle in a first direction, which unwinds the electrical cable from the spool. Each section of the spool is coupled to an actuator that when triggered rotates the corresponding section of the spool in a second direction, which winds the electrical cable around the spool and retracts the electrical receptacle back into the wall outlet.

The cable coiling device automatically coils heavy-duty electrical cable into a coiled bundle having a predetermined coil diameter. This device matches the over/under coiling method used to manually coil cables that eliminate unnecessary twists and knots in cables. The cable coiling device has a first roller and a second roller that is angularly offset from the first roller. The angular offset adds a twist to the cable as it passes between the rollers. The device maintains the first and second rollers at a predetermined distance away from each other so that the cable does not slip out of the opening between the rollers. When the coil exits the rollers, the resulting cable is coil bundled and has a specific predetermined coil bundle diameter. Guide wheels positioned at specific locations guide the cable through the device, which prevents cable looping before and after the cable passes through the rollers.

The present disclosure is of an automated cord reel apparatus comprising a housing; an electrical cord accommodated into the housing with one end of the electrical cord being mounted with a plug member connected to a wall receptacle and the other end of the electrical cord being mounted with an extension socket; and an electric cord unwinding/winding device for unwinding or winding the electric cord in response to a user option, wherein the electric cord, a motor adjusting a rotation direction of the guide unit, and a switch mounted at the extension socket to turn on/off and forwardly/backwardly rotate the motor.

The present disclosure is of an automated cord reel apparatus comprising a housing; an electrical cord accommodated into the housing with one end of the electrical cord being mounted with a plug member connected to a wall receptacle and the other end of the electrical cord being mounted with an extension socket; and an electric cord unwinding/winding device for unwinding or winding the electric cord in response to a user option, wherein the electric cord, a motor adjusting a rotation direction of the guide unit, and a switch mounted at the extension socket to turn on/off and forwardly/backwardly rotate the motor.

A cable routing structure includes a plurality of cables that are superposed on one another and that are movable relatively to one another in length directions thereof, and a line length difference housing case that contains parts of the plurality of cables and is movable in a reciprocating direction. The line length difference housing case absorbs differences in line length among the plurality of cables generated in accordance with a moving position of the line length difference housing case.

The disclosure provides an electric winder and a method for controlling the same. The electric winder includes a winder body, a socket and a controller. When a plug is inserted into the contact assembly through the insertion hole, the strain sensor is configured to detect a deformation of the contact assembly caused by the plug, and send the deformation to the controller. The controller is configured to receive the deformation sent from the strain sensor. When the deformation is greater than a deformation threshold, the controller controls the drive mechanism to be in a stop state to prevent the reel from winding.

A flat cable reel device includes a housing, a rotary sleeve, an upper spiral spring and a lower spiral spring. The housing is provided with a board outlet. The reel device includes the upper spiral spring, the lower spiral spring, an upper central shaft and a lower central shaft, which form a symmetrical and balanced double-spring structure; when a flexible printed circuit board is reeled or unreeled, the force and the reaction force generated by the springs are evenly distributed over the upper portion and the lower portion of the rotary sleeve, such that the rotary sleeve can balance.

A flat cable reel device includes a housing, a rotary sleeve, an upper spiral spring and a lower spiral spring. The housing is provided with a board outlet. The reel device includes the upper spiral spring, the lower spiral spring, an upper central shaft and a lower central shaft, which form a symmetrical and balanced double-spring structure; when a flexible printed circuit board is reeled or unreeled, the force and the reaction force generated by the springs are evenly distributed over the upper portion and the lower portion of the rotary sleeve, such that the rotary sleeve can balance.

A guide device for at least one line, such as an electric line of a C-arm, has a rotatable first cylinder with a first cylindrical surface and a static second cylinder, adjoining the first cylinder in the axial direction and having a second cylindrical surface. A first guide element for guiding the line on the first and/or the second cylindrical surface, is disposed coaxially with respect to the first and the second cylinder and it is movable relative to the first and the second cylinder. The line can be wound up on the first and/or the second cylindrical surface or can be unwound therefrom depending on the movement of the first cylinder.

A power feed structure for movable body includes a flat electric wire having one end connected to a vehicle body and the other end connected to a sunroof, and an excess length absorbing mechanism for winding an excess portion of the flat electric wire. The excess length absorbing mechanism is arranged so as to be movable along a rail member. The excess length absorbing mechanism includes a rotating body having a wire winding part to wind the flat electric wire on the sunroof and the flat electric wire on the vehicle body, and a spiral spring for urging the rotating body to a winding direction to wind the flat electric wire on the sunroof and the flat electric wire on the vehicle body.