A conveyor system includes a conveyor frame having a frame base and a pair of parallel frame sidewalls. Each sidewall extend from a top side of the base to a distal end defining a plurality of sockets. The sockets include a socket bearing configured to support a corresponding roller shaft and a lip element extending across the opening at the distal end. In some examples, the conveyor frame includes at least one end coupler attached at an end of the conveyor frame. In some configurations, the conveyor frame includes a plurality of frame segments each defining a portion of a length of the conveyor frame.

A fixture for storage and presentation of goods includes a support structure and a multitude of rod shelves disposed on the support structure. Each of the multitude of rod shelves includes support brackets and rods disposed between the support brackets. The fixture further includes a multitude of configurable trays disposed on the multitude of rod shelves and configured to hold the goods. Each of the multitude of configurable trays is removably clipped to the rods of one of the multitude of rod shelves to occupy substantially all available space between the support brackets.

An adjustable tray for a merchandise display system may include a retainer for limiting the movement of products loaded in the adjustable tray, 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. The adjustable tray may further include a pusher mechanism configured to bias product toward the retainer.

Sensor-equipped display management systems and methods that may be used to calculate a number of products removed from a display management system based upon motion of one or more mechanisms within the display management system. Additionally, the systems and methods may be used to detect patterns from the sensor data, which may be indicative of attempted theft of products stored within the display management system.

Disclosed is a system for real-time measurement of inventory on shelves. The system uses light sensors placed in association with the inventory and the shelves to measure in real-time the removal/replacement of inventory from the shelves. When inventory is on the shelves, less light reaches the light sensors. As inventory is removed from shelves, the light sensors receive more light. The difference in light received generates as signal that can be measured, thereby allowing for determining inventory levels on each shelf. The system may be retro-fitted to existing shelving systems, thereby avoiding the cost of purchasing new shelving systems. The system can work on any shelving system, including gravity-feed roller shelf (GRS), flat shelves, and spring loaded pusher shelves, and is unaffected by usual temperatures found in retail establishments and can thus work in both refrigerated and unrefrigerated systems. Also disclosed are related methods.

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.

A coupling mechanism which supports an inventory divider within a storage bin. The coupling mechanism comprises a joint extension and a holding mechanism. The coupling mechanism is coupled to an interior wall of a supply bin. An inventory divider is inserted into the joint extension and is rotated within the joint extension between and upper and lower position within the storage bin. The holding mechanism of the coupling mechanism retains the inventory divider in the upper position, dividing the storage bin into two compartments. By retaining the inventory divider with a holding mechanism that is not directly connected to the bin, the wear on the holding mechanism is substantially reduced and the inventory divider is more secure.

A shelf system (1) comprises: a frame (5) for forming at least one shelf (70), and a plurality of primary and secondary rails (40, 50). The frame comprises a plurality of mounting portions (20, 30), to each of which at least one of a primary rail (40) and a secondary rail (50) is removably mountable to form lanes of different widths. Each lane includes a primary rail on one side and a secondary rail on the other side for supporting and guiding at least one item (60) in the lane, and the primary rails each comprise at least one sensor (700) for sensing the item (60) in the lane.

The method includes providing a major body with a first surface and a second surface, the first surface opposing the second surface, the major body being triangular in shape, the major body having a first edge, a second edge and a third edge, connecting a horizontal shaft across the first edge of the major body, the horizontal shaft including at least a first upper surface, the first upper surface extending substantially horizontally away from the first surface of the major body, and forming an engaging structure along the second edge of the major body, the engaging structure extending from the major body, the third edge extending between a first distal end of the horizontal shaft and a second distal end of the engaging structure.

A product pusher assembly includes a rail, a divider, and a pusher. The rail extends in a first direction and includes a first engagement mechanism. The divider extends in a second direction perpendicular to the first direction and is coupled to the rail for translation in the first direction and the second direction. The divider includes a front portion, a rear portion, and a second engagement mechanism disposed between the front portion and the rear portion. The second engagement mechanism is configured to selectively engage the first engagement mechanism during translation in the second direction.