A tabletop display is provided, having a tabletop surface and a monitor spaced from the tabletop surface and angled obliquely with respect to the tabletop surface. The monitor defines a front, display surface and an opposing back surface. The tabletop display also includes a column extending from the tabletop surface to the back surface of the monitor, an input mechanism comprising an input aperture spaced from the tabletop surface, and an output mechanism comprising an output aperture spaced from the tabletop surface.

A first plate-like member on a bottom surface side is disposed in a horizontal direction. A second plate-like member is disposed in a vertical direction. A first position restricting mechanism is engaged with a first end portion including a first side that opposes the first plate-like member in a workpiece in a state where the workpiece stands while a front surface and a rear surface of the plate-like workpiece are along a vertical direction, and restricts the position of the first end portion in a plate thickness direction. A second position restricting mechanism is engaged with a second end portion including a second side that opposes the second plate-like member in the workpiece, and restricts the position of the second end portion in the plate thickness direction.

A planar display assembly is provided with a planar display pane in a frame with apertures formed about a periphery. Base members have a post received within the apertures. A retaining wall with ratchet teeth extends from each base member. Latch members with a hoop portion with a slot receive each retaining wall for adjustment in a direction toward the frame to accommodate display panes of varying thicknesses. A tooth is formed in each latch member to engage the ratchet teeth for adjustment. A release tab is provided on each latch member for manual release of the tooth from the ratchet teeth. A flexible arm extends from each latch members to engage and retain the planar display pane within the frame.

A tabletop display is provided, having a tabletop surface and a monitor spaced from the tabletop surface and angled obliquely with respect to the tabletop surface. The monitor defines a front, display surface and an opposing back surface. The tabletop display also includes a column extending from the tabletop surface to the back surface of the monitor, an input mechanism comprising an input aperture spaced from the tabletop surface, and an output mechanism comprising an output aperture spaced from the tabletop surface.

An assembly for displaying a surfacing material can comprise a surfacing material sample defining a first pattern and a printed display having an illustration of the surfacing material. The printed display can define a second pattern. The illustration of the surfacing material can define at least a portion of the second pattern. The surfacing material sample can cover and couple to a portion of the printed display. A scale between the second pattern and the first pattern can be 1:1 so that the first pattern of the surfacing material sample cooperates with the second pattern of the printed display to provide a coordinated visualization of an installation of the surfacing material.

When being sealed, insulating glass blanks (5) are held in a sealing station (2) gripped at the base by grippers (17) of a gripper arrangement (16) and/or by suction heads (15) and rest at the top against a roller beam (7) fitted with rollers (8). As the insulating glass blank (5) is sealed, only the nozzle (11) of a sealing assembly (10) moves along the outer edge of the insulating glass blank (5), which is stationary during the sealing process. When the lower edge of an insulating glass blank (5) is sealed, grippers (17) engaging the lower edge are released and move away downwards. Sealed insulating glass is removed from the sealing station (2) by a removal robot (24) onto the side opposite the sealing assembly (10), moved to a temporary store and placed therein on A-bearing supports (29) and fan frames (30) sorted according to production lots.

A device for storing and/or for transporting preferably substantially vertically oriented, panel-shaped objects, in particular insulating glass elements, having support planes and having compartment delimiters which delimit compartments, wherein the support planes delimit a support region. At least parts of compartment delimiters can be moved into an operative position in which parts engage through the support planes and project into the support region, with the result that compartment delimiters form compartments for panel-shaped objects in the support region with their parts which project into the support region. Compartment delimiters can be moved out of the operative position into a standby position in which compartment delimiters are arranged outside of the support region. Compartment delimiters are arranged adjustably on positioning bars and can be fixed in a form- and/or force-fitting manner on positioning bars against adjustment.

A shading display and sample may include a frame structure, a drive assembly operably connected to the frame structure, and a shade material associated with the drive assembly for corresponding movement thereof. Operation of the drive assembly may move the shade material between open and closed positions. The display may permit users to position and operate a covering sample near an architectural opening to assess the overall operation, appearance, translucence, texture, or other qualities of the covering based on the angular orientation and material of the sample.

A passive part stacker includes a first pivot arm pivotably attached to a frame and rotatable about a first pivot arm axis of rotation between a retracted position and an extended position. The first pivot arm includes a first component support finger that extends radially from a first pivot arm body and a first cam. The part stacker also includes a second pivot arm pivotally attached to the frame and rotatable about a second pivot arm axis of rotation between a retracted position and an extended position. The second pivot arm includes a second component support finger extending radially from a second pivot arm body and a second cam follower engageable with the first cam of the first pivot arm. The second pivot arm is pivotable from a retracted position to a receiving position in response to moving the first pivot arm from its receiving position to its extended position.

A panel support and panel processing system that provides a single frame assembly for use on a panel processing line in transporting and installing panels, such as glass panels, the frame assembly having a frame with at least one hook that engages a carrier on a processing line to move the frame from one station to the next, and that enables lifting and stacking of multiple frames for transport to and installation at a building site without having to remove the panel, such as a glass panel, from the frame, at which point the frame and panel assembly are secured in situ.