A product display member is disclosed. The product display member includes an attachment portion, an elongated portion, a light source, and an information display portion. The attachment portion is configured to engage a portion of a shelf. The elongated portion is disposed in mechanical cooperation with the attachment portion. The elongated portion defines a lumen extending at least partially therethrough. The light source is disposed in mechanical cooperation with the lumen. The information display portion is disposed in mechanical cooperation with the elongated portion.

A display case door having an insulated panel assembly, a support plate, an electronic display assembly, and a hanger bracket. The insulated panel assembly has a door frame that extends about and is coupled to the insulated panel assembly. The support plate is coupled to a top rail of the door frame and has a least one pin. The electronic display assembly is coupled to the door frame. The hanger bracket is coupled to a top surface of the electronic display assembly and has a slot sized to accept the pin. The electronic display assembly is at least partially supported in the door frame by the support plate and the hanger bracket.

A display device for illuminating a packaged beverage includes a panel having a front end opposite a rear end. The panel further includes a top surface on which a packaged beverage may be placed, and the top surface has transparent portions. A light source is arranged within the panel for illuminating the packaged beverage arranged on the top surface of the panel. The display device further includes an end cap having a front wall arranged at the front end of the panel.

Aspects of the disclosure relate to a lighting assembly and method for illuminating a vertical planar area, such as a merchandise display. The lighting assembly can comprise two opposing support arms and a lighting bar extending between the two opposing support arms, a circuit board having a plurality of LEDs mounted to the inside of the lighting bar; and a plurality of reflective surfaces located adjacent to the plurality of LEDs, wherein the plurality of reflective surfaces are positioned such that the LEDs project a first light beam in a first direction and a second light beam in a second direction different than the first direction.

A display stand (10) comprising a double wall construction, respectively, an inner wall (11), defining an inner volume (50), and an outer wall (12) enclose said inner wall (11), and said inner wall (11) and said outer wall (12) defining a display volume (60), said display stand comprising an elevated stand (13) elevating said double wall construction and display volume characterized in that said elevated stand (13) comprises an opening (30) providing access to said inside of said elevated stand and the inner volume of the inner wall (11).

Disclosed is a display module including a transparent display panel and a frame to fix a side of the transparent display panel, wherein the frame has a communication unit to receive data from the outside, a controller to process the received data and to output a drive command corresponding to the processed data and a display drive unit to drive the transparent display panel in response to the drive command from the controller. A display system includes a system body and a display module detachably mounted in the system body.

An in-airport guitar kiosk and related methods for allowing air travelers an opportunity to relax and play guitar before or after flights (to improve the passenger journey) as well as the opportunity to try a novel travel guitar uniquely suited for air travel.

The present disclosure provides a swing door system for use with a freezer device, including two adjacent swing doors and at least one mullion in contact with the swing doors. Each swing door includes a transparent pane and a non-transparent area, with each non-transparent area proximal to the mullion when the swing doors are in a closed position. The non-transparent areas and the mullion define a non-transparent region. In a plurality of horizontal see-through angles, a view through the transparent panes is not totally blocked by the non-transparent region. The horizontal see-through angle is measured with respect to the plane in which the swing doors are arranged when the swing doors are in the closed position. When a width of at least one of the swing doors is in the range of 500 mm to 780 mm, the plurality of horizontal see-through angles ranges from 6° to 174°, preferably 5° to 175°, and more preferably 4° to 176°. When a width of at least one of the swing doors is in the range of greater than 780 mm and equal to or lower than 1000 mm, the plurality of horizontal see-through angles ranges from 5° to 175°, preferably 4° to 176°, and more preferably 3° to 177°. A freezer device comprising a swing door system is also described herein.

A door for a refrigeration unit having a transparent panel assembly having an outer transparent panel and an inner transparent panel. The outer transparent panel has an outer side, an inner side, and top, bottom, left, and right edges and the inner transparent panel has an outer side, an inner side and top, bottom, left, and right edges. A decorative design is applied to the inner side of the outer transparent panel. A population of light sources are positioned on the top, bottom, left and/or right edges of the outer transparent panel and are capable of emitting light into the outer transparent panel, such that the decorative design is capable of being illuminated by the population of light sources.

A thermally insulated door assembly includes first and second panes of light transmissive material, a light assembly, and a heat sink. The first pane and the second pane are spaced apart from each other by a separation gap to define an interior chamber. The light assembly is in the interior chamber between the first pane and the second pane, and is configured to generate light within the interior chamber. The heat sink is disposed within the interior chamber and coupled with the light assembly and an inwardly facing surface of the first pane. The heat sink is configured to conduct thermal energy generated by the light assembly onto an inwardly facing surface of the first pane and into the interior chamber such that the inwardly facing surface of the first pane and the interior chamber are heated by the light assembly.