A standoff for mounting panels such as glass panels in architectural applications include a plurality of parts that are first mounted to the panel and are then used to identify the locations for the anchor fasteners in the support structure or to locate the anchor fasteners as they are driven into the support structure. One configuration includes a bushing that defines a through opening. The bushing is placed through an opening the panel to be mounted. A barrel defining its own opening is then placed on the portion of the bushing that extends from the panel. The through hole of the bushing is aligned with the opening of the bushing such that an anchor fastener can pass through the bushing and the barrel into a support structure to which the panel is to be mounted.

Open-topped channels/troughs are often used as a footing in which glass panels may be placed and secured substantially vertically. A tapered wedge may be forced into the gap around the panel. As gradually wider portions of the wedge are forced into the gap, the panel is gripped ever tighter. However, it is often difficult to remove panels secured in this manner. The present invention provides a wedge support which can be separated into two portions by the insertion of a tool into a tool socket. In this way, if a wedge is used with the wedge support, the wedge support may be removed with the tool thereby permitting easy removal of the wedge.

A system for leveling and securing a partition, including a base or shoe for receiving the partition, and a channel or slot formed in the base by at least a first sidewall, an opposing second sidewall, and a lower wall positioned at least in part between the first and second sidewalls. The system further includes a rocker assembly and a clamp assembly positioned within the slot. The rocker assembly includes a stationary component positioned adjacent the first sidewall and a pivoting component pivotably connected to the stationary component on a side of the stationary component opposite the first sidewall. The clamp assembly may include a stationary block adjacent the second sidewall, a first sliding block slidably connected to the stationary block and adjustable by a first fastener, and a second sliding block slidably connected to the stationary block and adjustable by a second fastener.

An adjustable clamping system for mounting a glass balustrade. The adjustable clamping system comprises of a base shoe with a U-shaped channel, a first L-shaped plate, a second L-shaped plate and a third L-shaped plate which a tilting mechanism sits on the short-upright arm and the long-upright arm is engaged to the glass balustrade from an outside and to the tilting mechanism from an inside. The tilting mechanism comprises of a first-block and a second-cube, an L-shaped block at the bottom, and two wedge parts between the L-shaped block and the first-block and the second-cube, and wherein the first-cube, the second-block and the L-shaped block connected together by two socket screws, by turning the socket screws, two wedge parts at a top portion and a bottom portion of the tilting mechanism move to the right and left and push to the right-side wall of the base shoe to adjust the glass balustrade.

A railing system that employs adjoining panels supported by a substrate includes an anchor post which is connected to first and second base shoe sections that support adjoining panels. The post includes first and second portions pivotally connected to one another about a pivot axis. The first and second portions have top ends opposite respective bottom ends, which are fixable to the substrate. The top end of the first portion is connected to the first base shoe section, and the top end of the second portion of the anchor is connected to the second base shoe section. The first and second portions are configured to pivot relative to one another about the pivot axis to set an angle between the first and second base shoe sections connected thereto so that those sections and the panels extend relative to one another in parallel or non-parallel directions based on the set angle.

An arrangement for fastening a vertical panel in a longitudinal receiving slot by transverse gripping between two wedges includes a first wedge inserted between a vertical face of the slot and a first face of the panel; a second opposite wedge inserted between a vertical face opposite the slot and a face opposite the panel; a screw-nut assembly intended to produce a vertical translational force from the second wedge in a gripping direction; wherein the screw-nut assembly is arranged on the same side of the panel as the first wedge, the translational force being transmitted to the second wedge via a movable transmission member.

A method of bonding a structural component to a building, including the steps of: (i) receiving a structural component including an attachment zone constituting at least 10% of the total surface area of one side of the structural component, wherein the attachment zone has been prepared according to a method including the steps of: a. applying a frit to the attachment zone; and b. tempering the structural component so as to bond the frit to the structural component; (ii) providing a building engagement face at least coextensive with the attachment zone of the structural component; (iii) applying a bonding sealant to a majority of at least one of the attachment zone or the building engagement face; and (iv) engaging the bonding sealant with the other of the attachment zone or the building engagement face.

A panel retention device, a panel mounting system, and a panel assembly each including an adjustable flange in threaded engagement with a compression plate. In one version of each of the panel retention device, the panel mounting system, and the panel assembly, the compression plate is in indirect threaded engagement with an externally threaded adjustable flange through an internally threaded disk extending from the compression plate. In another version of each of the panel retention device, the panel mounting system, and the panel assembly, the compression plate is in direct threaded connection with the an externally threaded adjustable flange threaded into a threaded opening in the compression plate.

The present invention is an adjustable clamping system for mounting a glass balustrade. The adjustable clamping system comprises of a base shoe with a U-shaped channel, a first L-shaped plate, a second L-shaped plate and a third L-shaped plate which a tilting mechanism sits on the short-upright arm and the long-upright arm is engaged to the glass balustrade from an outside and to the tilting mechanism from an inside. The tilting mechanism comprises of a first-block and a second-cube, an L-shaped block at the bottom, and two wedge parts between the L-shaped block and the first-block and the second-cube, and wherein the first-cube, the second-block and the L-shaped block connected together by two socket screws, by turning the socket screws, two wedge parts at a top portion and a bottom portion of the tilting mechanism move to the right and left and push to the right-side wall of the base shoe to adjust the glass balustrade.

The invention relates to an arrangement for securing a vertical panel (14) in a longitudinal groove (28), the panel (14) comprising an inner face (20) and an outer face (22), the securing being carried out by transverse clamping between transversely opposed wedges (36A, 36B; 38A, 38B), the arrangement comprising: an upper outer wedge (38A) and a lower outer wedge (38B) which are each positioned between an outer face (34) of the groove (28) and the outer vertical face (22) of the panel (14); at least two movable transmission members (62A, 62B) which are each capable of transmitting a sliding force to an associated outer wedge (38A, 38B), the force being applied from an inner side (24) of the panel (14); the arrangement is characterized in that the upper and lower outer wedges (38A, 38B) slide vertically upwards from the released position thereof to the clamped position thereof above the released position.