A rotatable suspension rail background system with multiple panels is an apparatus that maximizes the amount of background options in a studio area in an indoor or outdoor area for a photoshoot or video shoot. The apparatus includes track system and at least one background assembly. The track system defines a path for each of the plurality of background assemblies and guides each of the at least one background assembly across the studio area. The track system includes an upper main rail, an upper supplementary rail, and an upper raceway. The at least one background assembly provides various visual backgrounds for a photograph or video. More specifically, the apparatus further includes a first background sheet fixed across a first panel face of a support panel of the at least one background assembly. The apparatus further includes a second background sheet fixed across a second panel face of the support panel.

A slide member having a slide surface coated with a lacquer including a resin. The lacquer is in turn at least partly coated with a lipophilic composition coating. The lipophilic composition coating provides a slide layer on the slide member with low friction.

Apparatuses, such as shower door frame kits, for installing sliding shower door assemblies are provided. The apparatuses enable secure and convenient installation of the sliding shower door assemblies, while keeping water that may escape a shower area to a minimum. The apparatuses of the present disclosure also provide for efficient installation of the sliding shower door assemblies that can be completed with a single tool and/or in a single step. The apparatuses for installing sliding shower door assemblies may include one or more of a shower door header, a wall jamb, a shower header retainer, a shower door catcher, a roller assembly, a corner bracket, and a shower threshold.

A sliding door assembly includes a track assembly defining a track surface and a slot; and a sliding door comprising a door body, a hinge rod, and a locking pin, each of the hinge rod and the locking pin extending from the door body and through the slot; wherein the sliding door is laterally slidable along the track assembly between a first position and a second position, and wherein each of the hinge rod and the locking pin slide laterally within the slot as the door slides between the first position and the second position.

An arrangement for guiding at least one movable furniture part includes a guide rail to be mounted on the fixed furniture part, a guide device to be coupled to the movable furniture part, and a preferably substantially cylindrical, load-transmitting rolling body. The guide rail has a guide track, on which the load-transmitting rolling body is mounted in a movable manner. The guide track has a parking position for the load-transmitting rolling body, and the parking position corresponds to an end position of the movable furniture part relative to the fixed furniture part. The load-transmitting rolling body and the guide track are designed such that the guide track can be deformed in this region, a depression being formed in the process, and the load-transmitting rolling body is substantially dimensionally stable.

A redundant rail and carriage assembly is disclosed. The assembly may include a primary sub-assembly including a primary rail and a primary carriage. The assembly may include a secondary sub-assembly including a secondary rail and a secondary carriage, the secondary rail being different than the primary rail, the secondary carriage being different than the secondary carriage. The assembly may be configured to couple to an actuatable door configured to actuate between a stowed door position and a deployed door position via at least one intermediate door position using one of the primary sub-assembly or the secondary sub-assembly, the secondary sub-assembly being configured to actuate the actuatable door via the secondary rail and the secondary carriage if one of the primary rail or the primary carriage of the primary sub-assembly fails.

A carriage slider and rail assembly is disclosed. The assembly may include a linear rail including one or more surfaces that define a channel. The assembly may include a carriage slider sub-assembly. The sub-assembly may include a slider configured to be axially displaceable within the channel of the linear rail. The sub-assembly may include one or more overload protection lobes including a first overload protection lobe positioned adjacent to a first end of the slider and a second overload protection lobe positioned adjacent to a second end of the slider. The sub-assembly may include one or more friction reducing portions. The overload protection lobes may make contact with the channel of the linear rail when an abuse load is applied to provide overload protection. The overload protection lobes may be configured to not make contact with the channel of the linear rail when an abuse load is not applied.

A retractable curved door assembly includes a spring-loaded roller assembly having a reel structure configured to rotate about an axis of rotation thereof, a rail extending away from the spring-loaded roller assembly in a direction perpendicular to the axis of rotation of the reel structure with at least a portion of the rail curving about an axis arranged parallel to the axis of rotation of the reel structure, a door end structure slidably engaging the rail, a flexible screen coupled to the reel structure and to the door end structure, and a tension element coupled to the reel structure and the door end structure. A greater tensile force is applied to the tension element than to the flexible screen when the door end structure is slid along the rail in a direction away from the spring-loaded roller assembly to prevent buckling of the flexible screen.

Disclosed are a low track assembly and a sliding door. The low track assembly includes a track with first slide grooves, and pulleys located in the track. The pulley includes a support, a roller assembly, and a hanging clamp, where the support moves in the first slide groove by using the roller assembly, a first accommodating groove and an accommodating site that is perpendicular to and runs through the first accommodating groove are provided on the support, a second accommodating groove is provided on the hanging clamp, and the hanging clamp is located in the accommodating site; a stop wall is provided at a first end of the accommodating site, a second slide groove is provided on the stop wall, and the second slide groove extends in a height direction of the track; a threaded hole that runs through the hanging clamp is further provided on the hanging clamp.

A wall panel system may include a bottom drop seal assembly that maintains a constant force relative to a floor portion of an environment through a damper. The wall panel system may include an automatic top seal assembly that seals a gap between the movable wall panel system and a ceiling of the environment. The moveable wall panel system may include multiple panels and a plurality of seals positioned between adjacent panels to seal a gap between the adjacent panels.