According to the present invention, the device comprises: a flange having an at least approximately trapezoidal tapered section; a counter-flange having a shape complementary to that of said flange (1); and clamping means for clamping said flange and said counter-flange one in the direction of the other, interposing the edges of said elements shaped at least partially in the shape of said counter-flange.

A slip connector to connect first and second members of a structure to allow relative but resisted movement, and to at least in part return any movement. The connector includes a first component and second component, each with mutually slidable ramped surfaces contiguous. The first and second components are connectable to the respective first and second members of the structure, and there is at least one resilient fixer to hold the two components contiguous so that the line(s) of action of the fixer(s) is/are oblique to the slidable surfaces held contiguous.

The present invention relates generally to the field of general building construction, comprised predominantly of panel-shaped supporting and non-supporting elements. These panel-shaped components are used for interior construction, e.g., for covering walls, ceilings and/or fabricating lightweight walls. Connecting elements are used during the assembly of such wall components. The present inventive connecting element is suitable for connecting several such wall components with each other, thereby greatly simplifying the assembly of wall components above all with respect to handling, and increasing the stability of such a wall. For this reason, the inventive connecting element has two U-shaped profiles offset to each other, which can accommodate at least two wall components, preferably plasterboards, whose narrow sides abut against each other. The non-positive connection between the connecting element and a wall component is established according to the invention using pop rivets or the known drywall screws.

A clamp assembly (100), and a mounting assembly (150), that may be used for securing a device (160) (e.g. a solar panel, Roof Mounted Displays, Satellite Dishes, Conduit and Piping, Snow-Retention System, HVAC etc.) to a raised portion of a standing seam (103) of a metal roof, panel or tile (119) building surface. The clamp assembly (100) comprising a mounting body (101) of a general block shape having a slot (102) for receiving the standing seam (103) formed in a bottom surface (136) of the mounting body (101) and top surface (137) for securing thereon and attaching the device (160) thereto. The clamp assembly (100) is configured with one or more pins (105) that may be formed in a substantially elongated cylindrical shape. The pins (105) may be configured to be received in one or more push-pin holes (107) formed in the mounting body (101), whereby the push-pin holes (107) extend to the slot (102) from a side surface (138) of push-pin holes (107), which are formed substantially orthogonal relative to the slot (102). The clamp assembly (100) includes a fastening element (109) adapted to be received in a fastener hole (111) formed adjacent the push-pin holes (107) in the side surface (138) of the mounting body (101). The fastening element (109) is configured to secure, attach and hold the clamp assembly (100) to the standing seam (103) by forcing the pins (105) against the standing seam (103) disposed in the slot (102). The clamp assembly (100) further comprises a groove (115) adapted to receive and secure a ground wire (120), cable (121) or other item advantageous for grounding of electrical components and organization. The mounting assembly (100) includes the clamp assembly (100) and a panel fastening assembly (126) comprising a device fastening element (139) adapted to be received in said attachment hole (113) for securing the device (160), one or more one or more solar caps (127) adapted to be disposed on and around the device fastening element (139) so as to mount and secure the device (160) disposed between the solar caps (127) by tightening said device fastening element (139).

A clamp assembly that may be used for securing to a raised portion of a surface. The clamp assembly comprising a mounting body of a general block shape having a slot for receiving the raised portion formed in a bottom surface of the mounting body attaching the clamp assembly thereto. The clamp assembly is configured with one or more pins that may be formed in a substantially elongated cylindrical shape. The pins may be configured to be received in one or more push-pin holes formed in the mounting body, whereby the push-pin holes extend to the slot from a side surface of push-pin holes. The clamp assembly includes a fastening element adapted to be received in a fastener hole formed adjacent the push-pin holes in the side surface of the mounting body. The fastening element is configured to secure, attach and hold the clamp assembly to the standing seam by forcing the pins against the raised portion of the surface disposed in the slot.

A composite clip for attaching decking. The clip includes a bottom and a top. The bottom is made of a first material. The top is made of a second material. The first material of the bottom is different than the second material of the top. The first material of the bottom engages in the second material of the top during manufacturing so as to attach the bottom to the top and form the gangable composite clip without a need for any other means to attach the bottom to the top.

A slip connector to connect first and second members of a structure to allow relative but resisted movement, and to at least in part return any movement. In one embodiment, the connector includes a first and second components and a resilient fixing. The resilient fixing holds mutually slidable ramped surfaces of the first and second components contiguous so that the line(s) of action of the fixing(s) is/are oblique to the mutually slidable ramped surfaces held contiguous. In another embodiment the connector includes first, second and third components and a resilient fixing. The resilient fixing holds mutually slidable ramped surfaces of the first and third components contiguous and mutually slidable ramped surfaces of the second and third components contiguous so that the line(s) of action of the fixing(s) is/are oblique to the mutually slidable ramped surfaces held contiguous.

An integral, monolithic mounting bracket supports a corner of a photovoltaic module. The bracket includes a ballast tray for holding one or more ballast blocks, and includes a plurality of monolithic support legs that are disposed at acute angles from a plane of the ballast tray and that are integral with the ballast tray. The bracket can be manufactured by stamping at least two identical sections of metal from the sheet and then bending-up each section on its remaining uncut fourth side into a near-vertical position, so that each bent-up section forms a monolithic support leg.