Patent application number | Description | Published |
20090250573 | Electrical Box Mounting Bracket - A bracket is disclosed for mounting an electrical box on a mounting bar. The bracket comprises a front jaw and a rear jaw. The jaws are movable toward an open position for allowing movement of the bracket relative to the mounting bar and toward a closed position for gripping the mounting bar at a selected position along the mounting bar. The jaws are biased toward the closed position. An electrical box is attached to the front jaw. In one embodiment, the front jaw, rear jaw and a spring for urging the jaws closed are integrally formed from a single piece of sheet metal. | 10-08-2009 |
20100000783 | FLOOR STAND FOR MOUNTING AN ELECTRICAL BOX - A floor stand is disclosed for mounting an electrical box at a location above a floor between two wall studs. The floor stand has an elongate sheet metal body and at least one mounting arm attached to the body. In one embodiment, the mounting arm is bendable from a position extending lengthwise of the body to a position in which it extends generally laterally outward from the body for attachment to one of the wall studs. In another embodiment, the two mounting arms are detachable from the body and re-attachable in the stated second position. An optional cable-containment section for connection to the box-mounting section of the floor stand is also disclosed. | 01-07-2010 |
20110013978 | EXPANSION SPLICE PLATE FOR A CABLE TRAY RUN - A cable tray expansion splice plate for connecting first and second cable tray sections end-to-end is disclosed. The splice plate includes an elongate body having a central section, an upper flange section, and a lower flange section. In one embodiment, the lower flange section defines a channel for receiving components of the first and second cable tray sections such that the lower flange section underlies the components. Fastener openings in the central section and the lower flange section receive fasteners to fasten the body to the cable tray sections. These openings include slots which permit the cable tray sections to move relative to one another in a longitudinal direction. | 01-20-2011 |
20120292266 | Expansion Splice Plate for a Cable Tray Run - A cable tray expansion splice plate for connecting first and second cable tray sections end-to-end is disclosed. The splice plate includes an elongate body having a central section, an upper flange section, and a lower flange section. In one embodiment, the lower flange section defines a channel for receiving components of the first and second cable tray sections such that the lower flange section underlies the components. Fastener openings in the central section and the lower flange section receive fasteners to fasten the body to the cable tray sections. These openings include slots which permit the cable tray sections to move relative to one another in a longitudinal direction. | 11-22-2012 |
20130140415 | Electrical Box Mounting Bracket - A bracket is disclosed for mounting an electrical box on a mounting bar. The bracket comprises a front jaw and a rear jaw. The jaws are movable toward an open position for allowing movement of the bracket relative to the mounting bar and toward a closed position for gripping the mounting bar at a selected position along the mounting bar. The jaws are biased toward the closed position. An electrical box is attached to the front jaw. In one embodiment, the front jaw, rear jaw and a spring for urging the jaws closed are integrally formed from a single piece of sheet metal. | 06-06-2013 |
20130264433 | Expansion Splice Plate for a Cable Tray Run - A cable tray expansion splice plate for connecting first and second cable tray sections end-to-end is disclosed. The splice plate includes an elongate body having a central section, an upper flange section, and a lower flange section. In one embodiment, the lower flange section defines a channel for receiving components of the first and second cable tray sections such that the lower flange section underlies the components. Fastener openings in the central section receive fasteners to fasten the body to the cable tray sections. These openings include slots which permit the cable tray sections to move relative to one another in a longitudinal direction. | 10-10-2013 |
20160006227 | CABLE TRAY RAIL - A rail for a cable tray having opposite longitudinal ends includes a generally vertical web having opposite upper and lower ends, an upper flange at the upper end of the web, and a lower flange at the lower end of the web. A splice plate retention groove outboard of the vertical web and generally adjacent at least one of the opposite longitudinal ends of the rail is configured to receive a splice plate therein to facilitate positioning of the splice plate on the rail. | 01-07-2016 |
20160025244 | CABLE MANAGEMENT FITTING - A cable management attachment fitting for a ladder-type cable tray includes a rung attachment portion configured to attach to a lower flange of a rung of the ladder-type cable tray without the use of an additional fastener. A cable management attachment portion extends upward from the rung attachment portion and is configured to provide a structure to which a cable management device can be secured. | 01-28-2016 |
20160076672 | CABLE TRAY SUPPORT - A cable tray support includes first and second rod openings each extending through one of first and second sides of a support body to allow first and second support rods to laterally enter the respective first and second openings. First and second lateral closure members are adjacent the respective first and second openings and are movable to closed positions to inhibit the respective first and second support rods, when received in the corresponding opening, from laterally exiting the corresponding opening. | 03-17-2016 |
20160077299 | CABLE TRAY JUNCTION AND SPLICE PLATE COUPLING SYSTEM - A cable tray junction includes floor panel and a post secured to the floor panel. The post includes a splice plate connector defining a female coupling component. A splice plate interconnects the post and a cable tray. The splice plate includes a post connector, which defines a male coupling component received in the female coupling component to connect the splice plate to the post without the use of a separate fastener. The splice plate connector may have a curved groove and the post connector may have a tongue received in the curved groove. A wall panel connector of the post defines a wall panel groove in which a wall panel is received to connect the wall panel to the post. | 03-17-2016 |
Patent application number | Description | Published |
20120270434 | CABLE CLAMP FOR CABLE CONNECTOR - A cable connector includes a cable clamp having a cable end and a mating end. The cable clamp has an upper housing and a lower housing joined to the upper housing. An aperture is formed in at least one of the upper housing or the lower housing. The upper housing and the lower housing are moveable between a pre-assembled position and an assembled position. An insert is provided having a wire end and a mating end. The insert has a tab configured to engage the aperture to secure the insert within the mating end of the cable clamp in the pre-assembled position. The upper housing and the lower housing are moveable to the assembled position to retain the insert within the mating end of the cable clamp and a cable within the cable end of the cable clamp. | 10-25-2012 |
20130005182 | ELECTRICAL CONNECTOR - An electrical connector includes a terminal subassembly having inserts holding terminals. The terminals extend between a mating end and a cable end. The cable end is configured to be terminated to corresponding wires of a cable. A front shell surrounds a front portion of the terminal subassembly. The front shell provides electrical shielding around the mating ends of the terminals. The front shell is configured to be mated to a mating connector. A back shell surrounds a rear portion of the terminal subassembly. The back shell provides electrical shielding around the cable ends of the terminals. The back shell is configured to be terminated to an overbraid of the cable. The back shell includes a plurality of contacts that extend from a front of the back shell. The contacts engage, and are electrically connected to, the front shell. | 01-03-2013 |
20150214671 | Attachment Ring for Attaching a Shield of a Cable to a Shell - An electrical connector includes a cable having a shield, a shell and an attachment ring for attaching the shield to the fitting. The shell extends between a mating end and a cable end. The shell has a fitting at the cable end. The shell has a cavity receiving an end of the cable through the fitting. The attachment ring is received inside the shield and the fitting. The attachment ring presses the shield outward against an inner surface of the fitting. The shield may be positioned radially inside of the fitting and the attachment ring may be positioned radially inside of the shield. A radially outer edge of the attachment ring may impart an outward radial load onto the shield. | 07-30-2015 |
20150289388 | Modular Enclosure - An enclosure includes a plurality of modular construction units that connect together to at least partially define an internal compartment of the enclosure. Each construction unit comprises a wall segment extending a length from a corner end to a free end, and a corner segment extending outward from the corner end of the wall segment. The corner segment is integrally formed with the wall segment. The corner segment includes a receiver socket that is configured to receive the free end of another corresponding construction unit therein to connect the construction units together. The construction units connect together one after the other with a chasing symmetry to define the internal compartment of the enclosure. | 10-08-2015 |
20150289389 | Modular Enclosure - An enclosure includes a plurality of modular corner segments and a plurality of modular wall segments that connect together to at least partially define an internal compartment of the enclosure. The wall segments extending lengths between opposite free ends. At least a majority of the wall segments are fabricated from a polymer. Each corner segment includes opposite first and second receiver sockets that are each configured to receive a corresponding free end of a corresponding wall segment therein to connect the corner segment to the corresponding wall segments. At least a majority of the corner segments are fabricated from a polymer. The corner segments and the wall segments connect together to define the internal compartment of the enclosure. | 10-08-2015 |