A junction box assembly includes an upper housing, a lower housing, a connector assembly and a bolt. The upper housing includes a bolt support. The bolt support is a cylindrical member having a top surface and a through hole. The lower housing includes a bottom through hole. The connector assembly further including a threaded bore. A bolt having a threaded end is disposed in the through hole of the upper housing, the bottom through hole of the lower housing and threadedly engaged with the threaded bore of the connector assembly so as to secure the upper housing, lower housing and connector assembly together. The top surface of the cylindrical member includes a plurality of holes, each of the plurality of holes being closed at a bottom end.

A junction box assembly includes an upper housing, a lower housing, a connector assembly and a bolt. The upper housing includes a bolt support. The bolt support is a cylindrical member having a top surface and a through hole. The lower housing includes a bottom through hole. The connector assembly further including a threaded bore. A bolt having a threaded end is disposed in the through hole of the upper housing, the bottom through hole of the lower housing and threadedly engaged with the threaded bore of the connector assembly so as to secure the upper housing, lower housing and connector assembly together. The top surface of the cylindrical member includes a plurality of holes, each of the plurality of holes being closed at a bottom end.

A mounting frame may be configured as a self-adjusting mounting frame that biases itself against a surface of structure. The mounting frame may be a component, for example, of a remote control device or a faceplate assembly. The mounting frame may be configured to bias a rear surface of the mounting frame against the surface of a structure. The mounting frame may include biasing members. Each biasing member may include an attachment portion and a pair of resilient spring arms that suspend the attachment portion relative to a perimeter wall of the mounting frame such that the attachment portion is spaced further from the rear surface of the mounting frame than locations where the spring arms extend from the mounting frame. The rear surface of the mounting frame may be defined by the perimeter wall.

A mounting frame may be configured as a self-adjusting mounting frame that biases itself against a surface of structure. The mounting frame may be a component, for example, of a remote control device or a faceplate assembly. The mounting frame may be configured to bias a rear surface of the mounting frame against the surface of a structure. The mounting frame may include biasing members. Each biasing member may include an attachment portion and a pair of resilient spring arms that suspend the attachment portion relative to a perimeter wall of the mounting frame such that the attachment portion is spaced further from the rear surface of the mounting frame than locations where the spring arms extend from the mounting frame. The rear surface of the mounting frame may be defined by the perimeter wall.

A system and method directed for one or more safety plugs whereby safety plugs may either be individual plates that will insert into unused Telephone, Ethernet, and USB outlets, the safety plug may also be an individual coaxial plate that will cover a coaxial stud thus preventing any damage.

A variety of active cover plate configurations with prongs configured to contact side screw terminals of electrical receptacles are described.

A variety of active cover plate configurations with prongs configured to contact side screw terminals of electrical receptacles are described.

An easily-installed cover plate for hiding the face of sockets by covering an electrical outlet, including the face of the sockets. The cover plate is mounted over the receptacle and has apertures for plug blades. In the preferred embodiment, the cover plate is rectangularly shaped to cover a duplex receptacle, having apertures to receive plug blades, a center hole for receiving a screw which secures the cover plate over the duplex receptacle and a thickness at the apertures for receiving plug blades of not more than 0.075 inches.

An easily-installed cover plate for hiding the face of sockets by covering an electrical outlet, including the face of the sockets. The cover plate is mounted over the receptacle and has apertures for plug blades. In the preferred embodiment, the cover plate is rectangularly shaped to cover a duplex receptacle, having apertures to receive plug blades, a center hole for receiving a screw which secures the cover plate over the duplex receptacle and a thickness at the apertures for receiving plug blades of not more than 0.075 inches.

An enclosure for receiving a fiber optic cassette is disclosed comprising a housing having cassette receiving housing portion and a fiber optic cassette receiving rack which fits in the cassette receiving housing portion. The cassette receiving rack comprises a pair of opposed elongate guide members extending parallel to and be spaced apart from one another. A first end of the rack is secured in the cassette receiving space between the top wall and the bottom wall for rotation about an axis between a first position, where the rack is received in at least a portion the cassette receiving housing portion and the at least one door is closed, and a second position wherein a second end of the rack is positioned outside the cassette receiving space and the at least one door is open. The opposed guide members receive each of the at least one fiber optic cassettes therebetween.