Patent application number | Description | Published |
20080251651 | CLAMP AND SEISMIC SWAY BRACE - A seismic sway brace includes a clamp for engaging a circular object, a sway brace member, and a pair of connecting mechanisms for coupling the circular object to the sway brace member, and for coupling the sway brace member to building structure. The sway brace member may be a sway brace pipe or rod. Each of the connecting mechanisms may include a pair of strap clamps, held together by a retainer. The strap clamps and/or the circular object clamp may include one or more longitudinal slots. The longitudinal slots enhance wrapping of the clamps that engage the sway brace member or circular object, allowing the clamps to better engage the sway brace member or circular object. | 10-16-2008 |
20080277536 | STRUCTURAL BEAM CLAMPS AND CONNECTORS - A structural clamp or connector has a retaining mechanism for engaging at least one threaded rod or threaded rod end by pressing the threads of the threads of the rod or rod end into a threadform of a clamp body or connector body. The clamp may include one or more retaining clips for pushing the threaded rod into engagement with threads on one side of one or more threaded holes through a clamp body of the clamp. | 11-13-2008 |
20090183443 | UNIVERSAL STRUCTURAL ATTACHMENT FOR SEISMIC BRACE - A structural attachment fitting for bracing includes a clamp, and a bracket pivotally coupled to the clamp. The structural attachment fitting is part of a sway brace assembly for providing sway bracing for a conduit, pipe, or other system. The clamp is a generally C-shape clamp having a slot for receiving different types of sway braces, such as pipe, angle, or strut. The slot has multiple sections or parts configured to receive different thicknesses of material. A lower leg of the clamp may have a rounded top surface that better engages a pipe used as a sway brace. A set screw of the clamp is tightened to presses the sway brace against a step on the lower leg of the clamp. The set screw is angled toward a closed end of the slot. The pressing of the set screw tip against the sway brace deforms the sway brace material. | 07-23-2009 |
20090183462 | I-BEAM SEISMIC SWAY BRACE CLAMP - An I-beam clamp, used for engaging the bottom flange of an I-beam or bar joist, includes a pair of threaded rods and a pair of brackets that can be moved relative to each other along the threaded rods. One of the brackets, a clamp bracket, has a set screw configured to engage a top surface of the I-beam flange, to hold the clamp in place once it is installed on the I-beam. The other of the brackets, a nut bracket, has half-threaded portions for selectively engaging the threaded rods, to hold the nut bracket in place relative to the threaded rods, and to disengage from the threaded rods, in order to allow positioning of the nut bracket along the threaded rods. The nut bracket may include a spring clip or other device to provide force to bias into engagement the threaded rods with the half-threaded portions. | 07-23-2009 |
20090183463 | LATERAL SEISMIC BRACE - A sway brace fitting clamp is used for lateral bracing of sprinkler or other types of pipe (designated the service pipe) to a structure, to prevent movement of the service pipe perpendicular to the axis of the pipe relative to the structure to which it is attached. The sway brace fitting clamp includes a U-bolt which fits around the service pipe, and a pair of hooks that are coupled to straight ends of the U-bolt, for hooking the sway brace pipe. A pair of nuts engages threaded portions of the U-bolt ends. The nuts may be tightened to pull the sway brace pipe into contact with the service pipe, firmly clamping the sway brace pipe and the service pipe together. | 07-23-2009 |
20090184222 | FLANGE-ENGAGING CLAMP - A clamp for engaging a structure flange includes a clamp body having a slot between a pair of body sections, a spring clip on the clamp body that extends into the slot, and a pair of screws threadedly engaged with the clamp body. The spring clip holds a structure flange in place when the clamp is placed on a structure flange, with the flange in the slot. This allows the installer to tighten the screws to engage the flange, without having to simultaneously hold the clamp in place. The screws may bite into the flange, providing a more secure coupling between the clamp and the structure flange. The clamp may be used to mount a variety of objects, such as sway braces for seismic bracing. | 07-23-2009 |
20090266944 | CLAMP FOR CIRCULAR OBJECTS - A clamp includes first and second parts, each of the parts having a circular central section and a pair of straight extensions extending away from the circular central section in opposite directions. In the first part the holes are closed holes, while in the second part the holes are open holes, connected by slots to an upper edge of the part. Bolts may be pre-located through the closed holes, with nuts threaded onto the bolts, but not tightened. The pre-placed bolts may be received through the slots and into the open holes of the second part. The nuts may then be tightened against the second part to clamp the circular central sections on opposite sides of a circular object, such as a vertical pipe run, between the parts. According to a variant, the bolts are permanently secured to the first part so as to prevent rotation of the bolts. | 10-29-2009 |
20110017880 | LATERAL SEISMIC BRACE - A sway brace fitting clamp is used for lateral bracing of sprinkler or other types of pipe (designated the service pipe) to a structure, to prevent movement of the service pipe perpendicular to the axis of a sway brace relative to the structure to which it is attached. The sway brace fitting clamp includes a body which fits around the service pipe, and a pair of hooks that are coupled to the body, for hooking the sway brace. The nuts may be tightened to pull the sway brace into contact with the service pipe, or otherwise firmly clamping the sway brace and the service pipe together. | 01-27-2011 |
20130139358 | CABLE LOCKING DEVICE - A device is used for gripping and securing cable for the purpose of suspending objects or loads. The device may be a two-barrel device that allows the user to create a loop of cable to secure to a hanging load, or to a structural member. The user of the locking device feeds the cable through one barrel, around an object to be suspended, and through the other barrel. The device has carriers installed in sockets in a housing, with wedge-shape jaws in openings in the carriers able to engage the cable and hold the cable within the device. Pushing or pulling of the carrier is used to release the spring force pressing the jaws inward, allowing the cable to be removed from the device. | 06-06-2013 |
20130175263 | BACKLESS ELECTRICAL BOX AND METHOD OF MAKING - A backless electrical box is formed out of a single piece of material, with a front and sides of the box being parts of the same single piece of material. The front of the box has an integrally-formed mud ring that extends forward from a front base of the front. The sides are made out of material bent back from two opposite edges of the front base, bent around to form the four sides. Some or all of the sides may have seams in them, which may be secured by portions of material overlapping along some or all of the height of the sides, riveted or otherwise attached together. Mounting flanges may extend from the other two opposite edges of the front base. Tabs bent downward from the mounting flanges may be used to cover holes in the sides that extend rearward from these two other opposite edges. | 07-11-2013 |
20130312997 | ELECTRICAL BOX - An electrical box includes a box portion that surrounds a volume and has an at least partially open back, a mud ring that is coupled to the front of box portion, and structure mounts that extend out beyond a perimeter of the volume enclosed by the box portion. The structure mounts are used to couple to any of a variety of types of structure, such as a stud, an inter-stud bracket, or other structure. The structure mounts may include integral parts of the mud ring, integral parts of the box portion, or separate brackets that are attached to the box portion and/or the mud ring. Advantages for the electrical box include a reduced number of parts, reduced time and labor for installation, and flexibility in installation. | 11-28-2013 |
20140367527 | DROP IN LOOP HANGER - A drop-in loop hanger includes a U-shape portion or saddle for receiving an object to be supported, such as a pipe run, and an arm that guides the object to be supported into the U-shape portion. The hanger may include a moving portion that pivots at a hinge to allow entry of the object, then closes off the entryway to help retain the object within the hanger. The hanger may include a threaded portion for receiving a threaded rod, for example to mount the hanger from a ceiling or other structure or objects. The object may be placed in a series of already-installed hangers, for example placing a run of pipe in a series of hangers that support the pipe at different axial locations along the pipe. | 12-18-2014 |