Abstract: Building glass facade of a building, clamping arrangement in a facade, and a clamping arrangement for clamping a building glass pane in a facade, wherein a glass pane is secured at a building-side holding device, with the glass pane being secured between two clamp elements. At the inner clamp element is supported with adjustable prestressing a bell-shaped housing and between the bell-shaped housing and the inner clamp element there is disposed a permanently elastic spring member which permits a relative movement of the bell-shaped housing relative to the inner clamp element. Joint arrangements are provided in tandem between the glass pane and the holding device at the side of the building.
Abstract: A modular temporary barrier system includes a plurality of panel members having adjoining edges. Each panel member comprises a foam core and exterior sheathing disposed thereon. Connecting structure associated with the panels is constructed and arranged to removably connect adjoining edges of adjacent panel members to one another, such that connected panel members together form a wall. In preferred embodiments of the invention, each panel member and two one-piece corner members each comprise a foam core and exterior sheathing disposed thereon. Each corner member can be removably connected to a respective end of the wall. In other preferred embodiments of the invention, the modular barrier system can further include two side panel members, each side panel member being able to connect to a respective end of the wall such that the wall is self-supporting.
Abstract: An insert according to the present invention has a very low transverse Coefficient of Thermal Expansion. This is the result of an isolation and compensation structure formed by a sleeve surrounding a post. The sleeve isolates the post from the thermal expansion effects of the panel. This eliminates the influence of thermal expansion/contraction of both the panel and the bonding material. Since the post itself will also expand and contract with temperature, the attachment point of the post to the sleeve is deliberately selected so as to compensate for the post's own dimensional changes.
Abstract: An insulation panel (1) for cabinets containing air handling equipment has an exterior housing section (2) and an interior housing section (3) which is joined to the exterior housing section by snap-in engagement means, preferably comprising a plurality of tabs (12) provided on the interior housing section. The tabs engage a flange (6) of the first housing section (2) via a first gasket (13), and a circumferential side wall (10) of the second housing section (3) abuts against the first housing section (2) via a resilient second gasket (14), whereby the tabs (12) abut against said first gasket under some pressure to firmly secure the first and second housing sections to each other without creating any thermal bridges between the housing sections.
Abstract: A method of installing an insert in a sandwich panel for mounting a fastener includes making a hole in the panel and inserting a spacer having a height greater than the thickness of the panel. An entrance rim of the spacer extends above an upper surface of the panel and a setting tool exerts a force on the entrance rim to force it into the hole and to position an upper edge of the entrance rim flush with the panel surface. The spacer can include an annular groove on an interior wall of the entrance rim to facilitate the cold working deformation during an installation in the panel. An outer exterior surface of the entrance rim can be indented and coated with a first sealing compound to ensure a water-tight seal with the panel. A second sealant material can be provided within the entrance rim for sealing with a head of any fastener extending through the spacer. An improved floor panel with spacer is accordingly provided for aircraft.
Type:
Grant
Filed:
February 3, 1999
Date of Patent:
October 9, 2001
Assignee:
Shur-Lok Corporation
Inventors:
Daniel J. McCorkle, Robert L. Waits, Paul M. Secrets, Faustino Riveron, Jr.