The invention relates to a device for securing panes of glass for sliding doors, made up of a rear plate (3) on which a rolling element (2) is supported which is configured to enable the movement of the securing device (1) along a profile (F) of a sliding door (P); and a first front plate (4) and a second front plate (5) facing the rear plate (3) and able to be coupled to it, defining an intermediate mortise (7) for securing a pane of glass (H). Said securing device (1) comprises a third front plate (6) facing the rear plate (3) and able to be coupled to it, arranged between the first front plate (4) and the second front plate (5).

A slide-and-swing wing system includes at least one rail profile. At least two wings, each displaceably mounted in the at least one rail profile via two support elements The at least one rail profile has a lateral outlet opening for unlatching a support element of a wing. One wing functions as a door leaf which, with all other wings in the latched state, is pivotable into the remaining opening. A closure mechanism makes it possible to prevent the door leaf from being opened and includes a drive, and also an operating part, via which the drive can be actuated. The door leaf is displaceable, via the drive, in the rail profile in the direction of the adjacent wing to such an extent that no support element of the door leaf is aligned with the outlet opening, thereby preventing a support element from coming out through the lateral outlet opening.

An element of an inorganic brittle material having two opposed sides and a circumferential edge includes at least three sections. The at least three sections include a first section and two second sections, the second sections adjoining the first section so that the first section is arranged between the second sections. The first section includes an arrangement of openings forming passages from one side to an opposed side of the element so that the first section has a higher flexibility than the second sections.

A sliding panel system is disclosed. The system includes a fitting assembly designed to fixedly secure a first panel to an elongate rail member, and a carrier assembly designed to moveably secure a second panel to the elongate rail member. The system facilitates the lateral movement of the second panel with respect to the first panel. The carrier assembly includes at least one carrier unit including a housing with an inner volume, at least one roller unit configured in an upper portion of the inner volume, at least one guide member configured in the inner volume, and an opening extending across the front of the housing and adapted to receive a longitudinal portion of the rail member. The at least one roller unit and the at least one guide member are concealed within the housing when the housing is viewed from a perspective perpendicular to the front of the housing.

A dampened hinge assembly has a male leaf and a female leaf. The female leaf has spaced apart first and second end barrels coaxially rotating with respect to a central barrel of the male leaf therebetween. An axial shaft is fixed to the second end barrel of the female leaf at a proximal end of the axial shaft. The axial shaft has a distal helicoidally threaded spindle. A compression gear having a helicoidally threaded bore matching the helicoidal thread of the spindle displaces towards the first end barrel when the leaves move into alignment and towards the second end barrel when the leaves move out of alignment. The dampened hinge assembly may be reconfigured to provide soft closure, end-of-range soft closure and/or backcheck damping.

The present invention discloses a shower door sliding mechanism for soft positioning, including a track component disposed in a fastening manner, a movable door piece, a pulley component, and a flexible closer component movably disposed in the track component. A longitudinal passage in the track component is surrounded by an upper wall, a lower wall, a front wall, and a rear wall, the longitudinal passage includes a positioning component receiving groove and a sliding groove in which the flexible closer component and the pulley component can move, and the lower wall has a longitudinal opening and a sliding surface supporting the pulley component. A glass clamp component is disposed at the top of the movable door piece, and the top of the glass clamp component is connected to a threaded hole in the pulley component by using an adjusting screw.

A food shield for use in a restaurant or food service institution includes a pair of partially overlapping upper and lower transparent panels, first and second locking assemblies connected to and supporting one lateral side of each of the upper and lower transparent panels, and first and second non-locking assemblies connected to and supporting the opposite lateral side of each of the upper and lower transparent panels. Each of the first locking and non-locking assemblies, which supports the upper transparent panel, is mountable to a respective vertical support post. The food shield is transformable into three different settings. In a cafeteria setting, the upper and lower transparent panels overlap each other to provide a full length barrier in front of food product being displayed. In a self-serve setting, the lower transparent panel is pivoted inwardly such that it resides behind the upper transparent panel. In a self-serve and display setting, the lower transparent panel is adjusted to a horizontal position to create a shelf situated behind the upper transparent panel.

A museum showcase includes a guide system for a sliding door, including upper and lower guide mechanisms. The upper guide mechanism includes primary and secondary rails. The upper guide mechanism also includes a first slide unit and a second slide unit. The first slide unit has a rolling member on an upper horizontal track of the secondary rail, and a sliding block engaged on a vertical track of the secondary rail. The second slide unit has a rolling member on a lower horizontal track of the primary rail, and a sliding block engaged on a vertical track of the primary rail. Thereby, the upper guide mechanism is extremely strong. The weight of the door, entirely supported by the secondary rail, is discharged on the first rail by the two slide units to transmit both vertical and horizontal loads.

A system and method for removable or semi-permanent installation of a transparent organic lighting diode (TOLED) display with transparency control are disclosed. In one embodiment, the system includes a TOLED display that includes a TOLED panel with a front side and a back side, a cover glass coupled to the front side of the TOLED panel, and an electrochromic (EC) glass coupled to the back side of the TOLED panel to provide transparency control of the TOLED panel. The system further includes a top hinge assembly and a bottom hinge assembly used to rotatably couple the TOLED display to a support structure to facilitate rotation of the TOLED display to different positions and to provide relatively easy removal of the TOLED display.

The electronic hinge has a flexible electrical cable that extends through an abutment of a support bracket, a hollow wire transfer pin mounted in the abutment, a wire transfer hub rotatably mounted on the wire transfer pin and the base of a wire transfer bracket. A spring assembly with a coiled torsion spring is provided for biasing the wire transfer bracket from an open position back to a closed position.