A barrier wall has a first vertical support and a second vertical support. A first wall panel is disposed between the first vertical support and second vertical support. A second wall panel is disposed between the first vertical support and second vertical support over the first wall panel. An I-beam is disposed between the first wall panel and second wall panel. The I-beam includes a first flange and second flange extending into the first wall panel and second wall panel. A cable is disposed between the first wall panel and second wall panel and attached to the first vertical support.

A barrier wall includes a panel positioned between a first post and a second post. The first and second posts driven into a supporting substrate by resonant sonic drilling. The first post and the second post each including an I-beam shape having opposed parallel flanges separated by a web, and an additional flange extending from the web intermediate the opposed parallel flanges to define a slot between the additional flange and one of the opposed parallel flanges. The panel is positioned between the first post and the second post, with the first edge of the panel received in the slot of the first post and the second edge of the panel received in the slot of the second post.

This disclosure relates to a panel support assembly comprising a channel element and a post. In one aspect, the channel element comprises a base, a pair of flanges extending from the base defining a channel therebetween, a neck portion connecting at least one of the pair of flanges to the base, and a first catch portion. The post comprises at least one elongate slot sized and shaped to receive at least a portion of the channel element, and a second catch portion co-operable with the first catch portion to form a catch mechanism to effect securement of the channel element to the post. In use, the channel of the channel element is configured to support an edge of the panel, the portion of the channel element is received and supported by the elongate slot of the post, and is secured to the post by the catch mechanism.

A system and methods for manufacturing and constructing a fence panel or pickets using engineered wood products, including, but not limited to, oriented-strand board (OSB), fiber strand, or laminated strand lumber. An entire piece of durable, treated engineered wood panel is divided into multiple fence blanks of equal size. Each fence blank is then subjected to edge profiling on top and bottom edges, and top feature milling to create fence top features, with finishing, texture, printing, paper overlay, or combinations thereof, added to one or both faces of the blank. Blanks may be milled in a stack. Blanks may then have grooves or other finishing features added to create a finished fence panel. Alternatively, a fence blank can be slit or cut into multiple raw pickets, also with finishing treatments to one or both faces, to create a series of raw pickets. The resulting finished fence panel or pickets provide the authentic look and appeal of real wood, but with the advantages of treated engineered wood.

This disclosure generally relates to fence slat and a fence slat interlocking system. The fence slat includes a first fence slat locking mechanism disposed on one side of the fence slat. The fence slat further includes a second fence slat locking mechanism disposed on a second side of the fence slat. A plurality of fence slats are interlocked with each other by the one or more locking mechanisms such that lateral tension is applied between each fence slat.

A modular privacy fence system, in particular, a modular privacy fence system having fence panels with a board-on-board appearance is disclosed. The fence system includes one or more fence panels having at least two fence panel portions that are cooperatively configured such that the fence panel portions are disposed in partial overlapping relationship such that one of the fence panel portions is offset relative to an adjacent one or ones of the fence panel portions. The fence panel portions are formed within a unitary, one-piece construction and may be in the form of plastic extrusions. The fence panels are configured for coupling to adjacent fence panels, the one or more fence panels being disposed between spaced apart upper and lower rails with the fence panels being connected, respectively, to the upper and lower rails.

Various embodiments of the present disclosure can include a fencing assembly. In some embodiments, the fencing assembly can include a top cross-member including a first channel. In some embodiments, the fencing assembly can include a bottom cross-member including a second channel that opposes the first channel. In some embodiments, the fencing assembly can include a first vertical support member, wherein the first vertical support member is connected to a first end of the top cross-member and a first end of the bottom cross-member. In some embodiments, the fencing assembly can include a second vertical support member, wherein the second vertical support member is connected to a second end of the top cross-member and a second end of the bottom cross-member. In some embodiments, the fencing assembly can include a planar barrier, wherein the planar barrier is inserted into the first channel and the second channel and is confined on a first and second side of the planar barrier by the first vertical support member and the second vertical support member.

In one aspect there is disclosed a frameless glass fencing component (40) for a frameless glass fencing installation. The frameless glass fencing component (40) is produced from an engineering plastic and includes a substantially rigid reinforcing member (42).

A fence panel system comprises a first elongate frame member having a plurality of panel spacers projecting from a rearward facing wall in a plane perpendicular to the longitudinal axis of the first elongate frame member, such that respective spacer pairs define open-ended channels therebetween that, in use, are adapted to receive fence panel ends. A second elongate frame member is adapted to secure to the first elongate frame member so as to close the open-ended channels for retaining the fence panel ends therein.