A display case including a frame with a first fastener, a door with a second fastener, and a bracket coupling the door to the frame is described. The bracket has a first end coupled a second end. The first end is pivotably coupled to the frame by the first fastener. The first end includes a first pair of spring arms having a first slot to couple to the first fastener and to allow the door to pivot between open and closed positions. The second end is slideably coupled to the door by the second fastener. The second end has detents on a second pair of spring arms and a second slot to allow the second fastener of the door to slide as the door is pivoted between open and closed positions. A first detent is positioned further from the first end of the bracket than a second detent.

A damper device set is provided which can mount a damper device on a door that is thin and has a constraint on the mounting position. A first fastening member is used to fix a mounting plate to a door. A second fastening member placed at a position different from the first fastening member in a thickness direction of the door is used to fix, to the mounting plate, a damper device including a case and a linear damper housed in the case. At least part of the linear damper overlaps at least part of the first fastening member in plan view of the door.

A display case door assembly for a temperature-controlled storage device includes a vacuum panel, a hinge rail, and a lighting element. The vacuum panel includes a first vacuum pane, a second vacuum pane, and an evacuated gap between the first and second vacuum panes. The evacuated gap provides thermal insulation for the vacuum panel. The hinge rail is coupled to an edge of the vacuum panel and configured to rotate along with the vacuum panel between an open position and a closed position. The lighting element is coupled to at least one of the edge rail and the vacuum panel and configured to emit light toward an interior of the temperature-controlled storage device when the hinge rail and vacuum panel are in at least the closed position.

A display case including a frame with a first fastener, a door with a second fastener, and a bracket coupling the door to the frame is described. The bracket has a first end coupled a second end. The first end is pivotably coupled to the frame by the first fastener. The first end includes a first pair of spring arms having a first slot to couple to the first fastener and to allow the door to pivot between open and closed positions. The second end is slideably coupled to the door by the second fastener. The second end has detents on a second pair of spring arms and a second slot to allow the second fastener of the door to slide as the door is pivoted between open and closed positions. A first detent is positioned further from the first end of the bracket than a second detent.

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 refrigerated enclosure system includes an enclosure with an interior region defined between a top portion and a bottom portion. A top rail is attached to the top portion and includes an upper hinge mount. A bottom rail is attached to the bottom portion and includes a lower hinge mount. A central axis of the lower hinge mount is positioned relative to a central axis of the upper hinge mount to enable a door secured to the upper hinge mount and the lower hinge mount to open and close relative to an opening of the enclosure. The refrigerated enclosure system also includes a first insulating layer positioned on a back side of the top rail and within the interior region and a second insulating layer positioned on a back side of the bottom rail and within the interior region. The first and second insulating layers inhibit a transfer of heat into the enclosure.

A display case door assembly for a temperature-controlled storage device includes a vacuum panel, a hinge rail, and a lighting element. The vacuum panel includes a first vacuum pane, a second vacuum pane, and an evacuated gap between the first and second vacuum panes. The evacuated gap provides thermal insulation for the vacuum panel. The hinge rail is coupled to an edge of the vacuum panel and configured to rotate along with the vacuum panel between an open position and a closed position. The lighting element is coupled to at least one of the edge rail and the vacuum panel and configured to emit light toward an interior of the temperature-controlled storage device when the hinge rail and vacuum panel are in at least the closed position.

The structure comprising a supporting profile (2) and a retaining profile (3) that rotates with respect to the supporting profile (2); the supporting profile (2) has a first wing (2.1) with a first slipper (5) and at least a second wing (2.2); the retaining profile (3) has a groove (3.1) which lodges the lower part of the plate (1); a slot (3.9) of the retaining profile (3) lodges the free end of the second wing (2.2) of the supporting profile (2); the free end of a wing (3.2) of the retaining profile (3) has a thin layer area (3.4) which lodges a second slipper (10); the free end of the longitudinal axis of the second wing (2.2) of the supporting profile (2) is more external with respect to the longitudinal axis constituting the barycenter of the plate (1); the wing (3.2) of the retaining profile (3) has through threaded holes (3.6, 3.12) which accommodate threaded elements capable of deforming its thin layer area (3.4) by adjusting the interlocking between the two slippers (5, 10).

An electronic locking device to secure linear transitioning or sliding doors. The device design allows for an electronic access point such as an electronic keypad or RFID reader when presented with an approved access code to electronically activate the device and provide for unlocking and relocking. The design also allows for lock status feedback and for automatic relocking of the sliding door when the lock pin is in the extended position and the door is closed.

A refrigerated enclosure system includes an enclosure with an interior region defined between a top portion and a bottom portion. A top rail is attached to the top portion and includes an upper hinge mount. A bottom rail is attached to the bottom portion and includes a lower hinge mount. A central axis of the lower hinge mount is positioned relative to a central axis of the upper hinge mount to enable a door secured to the upper hinge mount and the lower hinge mount to open and close relative to an opening of the enclosure. The refrigerated enclosure system also includes a first insulating layer positioned on a back side of the top rail and within the interior region and a second insulating layer positioned on a back side of the bottom rail and within the interior region. The first and second insulating layers inhibit a transfer of heat into the enclosure.