The present invention relates to a system for detecting and communicating the position of a pusher assembly on a shelf. In an embodiment, a system includes a control module, a pusher assembly, and a laser scanner. The laser scanner is configured to transmit a swept beam to a mirrored reflective surface located behind the pusher assembly. The control module analyzes the laser beam at the laser scanner to detect the position of the pusher assembly on the shelf. In another embodiment, a system includes a control module, a pusher assembly, and an infrared transceiver that sends and receives infrared signals. The transceiver may be located behind the pusher assembly. The control module analyzes the infrared signals to determine the position of the pusher assembly on the shelf.

Systems and methods are provided for a low stock product display alert system. A system includes a pushing element configured to push one or more products toward a front of a shelf as a unit of the product is removed from the shelf. The system also includes an RFID component, where the RFID component is configured to be in a dormant state when the pushing element is in a first position. The system further includes an activation element configured to activate the RFID component when the pushing element is in a second position, where when activated, the RFID component is configured to emit a signal indicating that the product display is out of product.

A product management display system for merchandising product on a shelf includes using a trackless pusher mechanism that travels along a surface on which product is placed and one or more dividers for separating product into rows. The one or more dividers may be engaged to a front rail in two different conditions, locked and unlocked. In a locked condition, the relationship between the divider and the front rail resists alteration in any direction with respect to each other. In the unlocked condition, the dividers may be freely slid laterally along the front rail, while remaining perpendicular to the front rail. The one or more dividers may lock to the front rail through the use of corresponding teeth, resilient surfaces, a locking tab, a locking bar and/or a cam that may define a cam glide.

An adjustable tray for a merchandise display system may include a retainer for limiting the movement of products loaded in the adjustable tray, a pusher mechanism configured to bias product toward the retainer, a first divider extending from a first panel and second divider extending from a second panel. The spacing between the first divider and the second divider can be configured to be adjusted. The first panel and the second panel can be configured to move to provide additional surface area for the adjustable tray to accommodate different sized products.

A pusher tray assembly configured to hold product includes a pusher tray including a floor configured to hold the product thereon. The pusher tray including a front wall, at least one sidewall, and at least one back wall. The assembly further includes a pusher paddle having a front face and a back face, a plurality of engagement mechanisms arranged on a lower side of the pusher paddle and configured to secure the pusher paddle to the floor, a plurality of channels arranged in the floor and configured to receive the plurality of engagement mechanisms, and a spring configured to urge the pusher paddle towards the front wall. The plurality of engagement mechanisms stabilize the pusher paddle.

A merchandising system for a displaying a plurality of products is disclosed. The system includes a base and a product tray. The base includes a product-supporting surface which defines a longitudinal axis. The product tray is disposed adjacent a proximal portion of the base, includes a product-supporting surface, and is pivotal with respect to the base.

A product management display system for merchandising product on a shelf includes at least one tray having a front rounded portion and defining a plurality of apertures and having two sides. A lip may extend upward from the front rounded portion of the at least one tray. A front shelf may extend forward from the lip. The at least one tray may include one divider extending upwardly from each of the two sides and a front wall. The front wall may include a top wall, a bottom wall, and two side legs. The front wall, bottom wall, and two side legs may form a wall aperture and the front wall may include a plurality of projections configured to engage with the plurality of apertures on the tray.

A merchandise display system can include a front rail, at least one divider configured to engage the front rail, the at least one divider including a barrier. The at least one divider may also include a divider wall, and a roller carriage extending along the divider wall. The roller carriage can be provided with a plurality of rollers, and the roller carriage can be configured to advance the product. Additionally a cam can be coupled to the divider. Additionally, the roller carriage can be tilted such that the product is configured to move toward the barrier. The roller carriage can be formed of a first portion and a second portion, and the roller carriage can provided with a plurality of axles that are configured to receive the plurality of rollers such that the plurality of rollers are configured to rotate on the roller carriage. A method for forming a merchandise display system is also contemplated.

Methods, apparatuses and systems for radio frequency identification (RFID)-enabled information collection are disclosed, including an enclosure, a collector coupled to the enclosure, an interrogator, a processor, and one or more RFID field sensors, each having an individual identification, disposed within the enclosure. In operation, the interrogator transmits an incident signal to the collector, causing the collector to generate an electromagnetic field within the enclosure. The electromagnetic field is affected by one or more influences. RFID sensors respond to the electromagnetic field by transmitting reflected signals containing the individual identifications of the responding RFID sensors to the interrogator. The interrogator receives the reflected signals, measures one or more returned signal strength indications (“RSSI”) of the reflected signals and sends the RSSI measurements and identification of the responding RFID sensors to the processor to determine one or more facts about the influences. Other embodiments are also described.

Exemplary embodiments of the present disclosure relate to a merchandise display system having a modular wall assembly configured to provide electrical power to one or more shelf assemblies. The wall assembly can include a vertically oriented back panel, a cross bar horizontally and detachably mounted to the back panel, a pair of vertical uprights and a top cap. The pair of vertical uprights can be detachably mounted to the cross bar with each of the vertical uprights having an electrically non-conductive portion and an electrically conductive portion. The electrically conductive portion can be electrically isolated from the cross bar by the electrically non-conductive portion. The top cap can be disposed along an upper edge of the back panel and in electrical contact with electrically conductive portion of each of the vertical uprights.