A laminated glass header for supporting a shower door. The header may have a taper at one or both of its ends to provide an automatic full open or full close feature of the door.

A sliding rail low-obstacle linkage shower room include an upper rail and a lower rail, a fixed glass, a primary shower glass and a secondary shower glass. The lower rail is correspondingly fixed on a bottom of the secondary shower glass. A sliding block unit is installed on the lower rail. The sliding block unit includes a fixed portion, a sliding groove and a guidance sliding portion. The fixed portion is fixed on the bottom of the secondary shower glass. A bottom of the primary shower glass is inserted into the sliding groove to form a linkage. The guidance sliding portion is glidingly engaged with the lower rail. The linkage shower room has a simple structure which can be easily manufactured.

A magnetically levitating door is disclosed herein. The door may have a magnet that is repelled from a magnet of a track. The track may be disposed adjacent to a door opening. The track may have a stabilizing roller to maintain vertical alignment of the magnets used to levitate the door off of the track.

A magnetically levitating door is disclosed herein. The door may have a magnet that is repelled from a magnet of a track. The track may be disposed adjacent to a door opening. The track may have a stabilizing roller to maintain vertical alignment of the magnets used to levitate the door off of the track.

A guide block for stabilizing an edge of a glass panel relative to a surface is disclosed. The guide block includes a block base having a body of variable size and shape configured for mounting on the surface. The block base defines at least one fastening screw receiving hole on top and on a side thereof. The guide block further includes a mounting member having a pin extending therefrom an inner side of the mounting member. The block base has a front and a rear such that the front is configured to receive the pin in a hole therethrough such that the block base and the mounting member stabilize the edge of the glass panel disposed therebetween and the rear is configured as a receiving channel for stabilizing an edge of a sliding glass door disposed therein.

A magnetically levitating door is disclosed herein. The door may have a magnet that is repelled from a magnet of a track. The track may be disposed adjacent to a door opening. The track may have a stabilizing roller to maintain vertical alignment of the magnets used to levitate the door off of the track.

A guide and rail assembly and system for stabilizing a shower door and stationary panel of a shower enclosure are disclosed. The assembly includes an exterior slider bracket configured for mounting on top edge of stationary panel, an exterior slider guide block configured for mounting on top edge of shower door, and an interior slider bracket configured to be housed within a longitudinal channel of the exterior slider guide block such that exterior slider guide block sets atop interior slider bracket and is secured thereto. The assembly further includes a front housing plate configured for attaching to bottom edge of the shower door, a roller bearing component configured to be slidably disposed along top surface of bottom guard rail of shower enclosure, a rear housing plate, and a cover plate configured to be secured to the rear housing plate. Cover plate and rear housing plate are positioned opposite of bottom edge of shower door from front housing plate such that roller bearing component is slidably disposed therebetween front housing plate and rear housing plate in an assembled configuration.

The invention provides a glass door apparatus with a right and a left glass door leaf (10, 100) and functional end caps (40a, 40b, 240a, 240b), which respectively have a protrusion (52a, 52b, 252a, 252b), which, with respect to a lateral front face of the functional end cap protrudes laterally outwards in a manner at least substantially parallel to a pane face of a glass pane of one glass door leaf as well as away from said glass pane, and/or a cavity (54a, 54b, 254a, 254b) which, with respect to said lateral front face, protrudes laterally inwards in a manner is at least substantially parallel to said pane face and towards said glass pane and which, in the opposite direction, opens laterally outwardly, and wherein, in the closed state of glass door apparatus, the protrusion and/or the cavity is/are overlapped with a complementary counterpiece of the other glass door leaf.

A guide block for stabilizing an edge of a glass panel relative to a surface is disclosed. The guide block includes a block base having a body of variable size and shape configured for mounting on the surface. The block base defines at least one fastening screw receiving hole on top and on a side thereof. The guide block further includes a mounting member having a pin extending therefrom an inner side of the mounting member. The block base has a front and a rear such that the front is configured to receive the pin in a hole therethrough such that the block base and the mounting member stabilize the edge of the glass panel disposed therebetween and the rear is configured as a receiving channel for stabilizing an edge of a sliding glass door disposed therein.

The rail assembly may be utilized with one or more panels, such as doors (e.g., glass), railings, etc. In various implementations, a rail assembly may include a housing with a cavity and a channel in the cavity. A cam may be disposed in the channel. The cam may include an elongated portion. One or more locks may be disposed in the channel and contact an outer surface of the cam. When the cam is rotated from the open position, the position of the locks may be adjusted to retain a panel disposed in the rail assembly. When the cam is rotated from the closed position to the open position, the position of the locks may be returned to the initial position and the panel may be moved and/or removed. The use of the cam in the rail assembly may allow adjustments to the position of the panel from an end of the panel and rail assembly.