An electrical connector for connecting a light module of an adjustable shelf includes a connector box having a first electrically conductive material electrically connected to a pair of tabs of a frame member formed along a front end of the adjustable shelf, a slide member attached to a side of the connector box and slidable along the frame member to lock the connector box with the adjustable shelf, and a second electrically conductive material having a spring contact positioned on a top side of the connector box. The spring contact is locked to a conductive area of a shelf holder electrically connected to a lead frame of an appliance by sliding the adjustable shelf with respect to the shelf holder. The connector box electrically connects the lead frame and the light module positioned in proximity to the adjustable shelf after the adjustable shelf is mounted to the shelf holder.

A refrigerator includes a door with a transparent display assembly that includes a front panel defining at least a portion of a front surface of the door, a touch sensor disposed on a rear surface of the front panel to recognize touch manipulation, a rear panel defining at least a portion of a rear surface of the door, an insulation coating layer provided on a surface of the rear panel by a metal oxide to block heat from the outside, an outer spacer disposed between the front panel and the rear panel to provide a sealed space between the front panel and the rear panel, a display disposed in the sealed space, a light guide plate spaced apart from the display to brighten up the display, and a spacer supporting the light guide plate and maintaining a distance between the display and the light guide plate.

In one embodiment, the present disclosure is directed to a cabinet having a charging device. The cabinet's housing has a cavity, a door configured both to close to cover the cavity and to open to expose the cavity, and shelves extending horizontally across the cavity. The charging device is positioned within the cavity and includes a housing, a charger for charging an electronic device, a receiving portion configured to hold the electronic device upright, a light source configured to shine through at least a portion of the device housing to illuminate the cavity of the cabinet housing, and an electrical outlet.

A rotatable shelf illumination system may include a rotatable shelf having a groove in which one or more light sources may be mounted. A refractive lens may be mounted in the groove covering the one or more light sources. The rotatable shelf may be, for example, a lazy susan. A removeable and rechargeable power supply may be controlled by a controller circuitry to selectively energize the one or more light sources when rotation of the rotatable shelf is detected. A magnetic field sensor may be used with the controller circuitry to detect rotational movement of the rotatable shelf. The controller circuitry may implement energy conservation measures to prolong the charge of the rechargeable power supply.

The present invention relates to a mounting dock for the display frame of a document or picture, able to be affixed to a support wherein said mounting dock comprises one or several magnetic means intended to hold the frame pressed to said dock in the horizontal position, said magnetic means being engaged in at least one housing made in the dock and retention means intended to support the frame in the vertical position.

A low voltage power system with a rail member that fits on the front portion of a shelf of a merchandise display, where is the rail member has a pair of conductive members positioned within an upper channel of the rail member is disclosed. The rail member may have supply power to a variety of low voltage power devices.

A gear cabinet system having two, physically separated, sides providing compartmentalization for wet and dry storage, respectively. The first side provides a first space having ventilation functionality and anti-microbial lighting functionality for drying and sanitizing wet gear. The second side defines a space for storing and displaying dry gear.

A mirrored storage cabinet is disclosed, including: a cabinet body formed by a bottom plate and an upper frame, a lower frame, a left frame and a right frame installed at four sides of the bottom plate; and a cabinet door installed at an opening of the cabinet body, wherein a first separating plate and a second separating plate are provided on the bottom plate close to the left frame and the right frame, side mirrors are provided respectively above the left frame and the first separating plate and above the right frame and the second separating plate, LED light strips are installed below the side mirrors via supports on the bottom plate, a division plate is provided between the first separating plate and the second separating plate, and the cabinet door is movably installed at the side edge of the first separating plate.

A vertical support provides for the rapid assembly, disassembly, and modification of a shelving system in a variety of configurations, as determined by the practical and aesthetic requirements of the user. The vertical support facilitates the mounting of a variety of attachment members, such as shelves, hangers, or media boards, that contain powered appliances, allowing the user to further customize the shelving system to his practical and aesthetic requirements. The vertical support makes it easy for a user to mount these attachment members and hides the connections of the various components, to maximize the aesthetic appeal of the shelving display. Additionally, vertical support can be configured with other subcomponents to form shelving systems.

A cabinet system with integrated lighting and power includes a first illumination zone associated with a cabinet, a first connector, a first light strip, and a driver. The first connector has a first port defining a first axis and a second through port with open opposite ends and defining a second axis orthogonal to the first axis. The first light strip has an elongate substrate with a first end, a second end, a plurality of illumination elements along the length of the substrate, and multiple traces extending lengthwise along the substrate. The traces include a positive and a negative power trace, a first trace connected to the illumination elements, and a second trace not connected to the illumination elements. The first end is configured to be received in any one of the first port or the opposite ends of the second through port. The driver is coupled to a power source and has a lead with a slide connector configured to slide onto the first light strip. The illumination elements are selectively controlled by controlling power to the positive and negative power traces and the first trace to selectively illuminate the first illumination zone.