Disclosed herein is a roller assembly for a sliding panel, the roller assembly including at least one roller sub-assembly having at least one roller wheel, the roller sub-assembly comprising at least one pivotal arm and a roller wheel rotatably mounted to the arm, wherein one end of the arm is configured for pivotally attachment to the support to permit the arm and roller wheel to pivot relative to the support in a vertical plane and the opposite end of the arm has resilient suspension means configured to allow resilient pivotal movement of said opposite end relative to the support when a force is applied to the roller wheel.

A pocket door system for inhibiting an animal from passing through a doorway includes a door frame is positioned within a wall. A door unit is slidably positioned within the wall. The door unit is biased into a closed position having the door unit extending across the door frame. Thus, the door unit may inhibit an animal from passing through the door frame. The door unit is selectively urged into an open position. Thus, the door unit facilitates the animal to pass through the door frame.

The partition wall for commercial vehicles comprises at least one fixed plate (20) and a sliding door (10) able to slide with respect to said fixed wall (20), predisposed to separate the cockpit of the vehicle from the loading compartment. The sliding door (10) is provided, along the upper edge and along the bottom edge, with a plurality of sliding wheels (11, 12) predisposed to slide respectively on an upper guide (13) and on a lower guide (14) associated with the structure of the vehicle. The sliding wheels (11, 12) have a grooved profile predisposed to be coupled with a corresponding rail (19) of said guides (13, 14) having conjugated profile.

A sliding door or window system includes a track. The track includes an outer housing; an inner housing within the outer housing; a guide body provided with the inner housing and configured to guide a sliding movement of a door or a window; and at least one adjustable body that is provided on the outer housing, at least partially within the inner housing, and fixed with respect to the inner housing in a vertical direction, the at least one adjustable body configured to change a height of the inner housing with respect to the outer housing by rotating, such as to change a height of the guide body.

A sliding doors floor handling device (20) for sliding wooden doors (10) or glass doors (72), placed next to a wall (16) and provided at the bottom with a guide (82) combined with a pin (14) protruding from the floor (48), comprises a containment shell (26), substantially parallelepiped in shape, pardy open along the upper base, in which a fork-shaped frame (44) is arranged. The parallel sections (64) of the frame (44) are provided with a hole (52) for inserting a pin (54) that supports a wheel (46) designed to touch the floor (48) when rolling. The fork-shaped frame (44) is provided with one or more elastic sheets (60) secured to the shell (26).

A structure for preventing opposite sliding doors from swaying is provided. The structure includes a lower rail mounted in a longitudinal direction at a lower side of a vehicle body, a lower rail roller unit rollably connected to the lower rail, a lower rail swing arm rotatably connected to the lower rail roller unit and a door, a guide roller unit fixedly connected to the lower rail, the guide roller unit including a guide roller rotatably connected to the lower rail, and a guide stopper fixedly connected to the door. The guide stopper includes a guide route formed inside the guide stopper and configured to serve as a rolling movement route for the guide roller, an exit/entrance portion formed at a first end of the guide route, and a stop portion formed at a second end of the guide route.

A sliding door or panel system is provided. The system can have a roller assembly that is mounted onto a sill. The system can have a moveable door or panel with a blade extending from a bottom rail of the door or panel. The blade can rest on the rollers and the rollers facilitate the door or panel moving longitudinally along the sill. The sill can be installed below a top surface of a floor, making the system less visible. The system can include a brush insert that protects against debris entering the sill. The brush insert can be removed from the sill to allow access to the rollers.

A gate opener assembly is comprised of a gate and an anchor assembly having a platform. A plurality of track assemblies on the platform provide a track on which the gate may slide from a first position (closed) to a second position (open) and any position in between. A guidepost having a “Shepherd's hook” configuration guides the gate as the gate passes therethrough. A pair of rollers within the interior of the top of the guidepost makes continuous contact with each side of the top of the gate both while the gate is stationary and in motion. A gate opener controller contains the required electrical connections to fully the operate gate opener assembly. Subterrain anchor supports provide the necessary support for the gate opener assembly. An alternative embodiment accommodates nontraditional configured gates. Installation of the gate opener assembly is performed by do-it-yourselfers in minimal time.

A door roller includes a carriage member comprising a plurality of bores, and a plurality of roller assemblies connected to the carriage member, each roller assembly of the plurality of roller assemblies including a pivot bearing rotatably disposed within a bore of the plurality of bores and a pair of rollers coupled to the pivot bearing. Each wheel assembly is configured to pivot relative to the carriage member.

A roller assembly for a sliding vehicle door includes a bracket structure having a first and second inner horizontal guide roller arranged to interact with an inner vertical surface of the track member. The bracket structure further includes at least a first and second vertical guide roller arranged to interact with a first inner surface of the track member, a resiliently arranged rotatable member arranged to interact with a second inner surface of the track member and at least one outer horizontal guide roller arranged to interact with an outer vertical surface of the track member.