A system and apparatus for construction interior glass partitions in a double butt joint glass T-connection using a generally U-shaped horizontal track profile pre-scored lengthwise with a frangible line to provide for portions of the side walls to be easily cut and removed for insertion of a ninety-degree return track element. The system and method make T-connections of double glass partitions economical to fabricate and install.

A demountable wall system includes a frame component. The frame component may include a front channel that receives a panel of the demountable wall system. In addition to the front channel, the frame component may include at least one of a front cover, a removable back cover, a leveling system, a supplemental channel, or a joining system. In some examples, the demountable wall system includes a door support system for movably supporting a door relative to the panel of the demountable wall system.

Reinforced panels include a layer of glass joined to a substrate to support the glass. Connectors are joined to the side of the substrate opposite the glass to enable the reinforced panel to be configured with and/or attached to a modular wall system. The glass can be backpainted prior to joining to the substrate, and/or a film can be included in the reinforced tile disposed between the glass panel and the substrate. A reinforced panel includes a conductive material disposed between a glass layer and a substrate to form a touch-responsive section. One or more intermediate layers disposed between the glass layer and the substrate are included. The one or more intermediate layers have sufficient elastic deformability so as to enable the reinforced panel to tolerate differences in thermal expansion between the substrate and the glass layer without resulting in cracking of the glass layer.

A demountable wall system includes a frame component. The frame component may include a front channel that receives a panel of the demountable wall system. In addition to the front channel, the frame component may include at least one of a front cover, a removable back cover, a leveling system, a supplemental channel, or a joining system. In some examples, the demountable wall system includes a door support system for movably supporting a door relative to the panel of the demountable wall system.

A demountable wall system includes a frame component. The frame component may include a front channel that receives a panel of the demountable wall system. In addition to the front channel, the frame component may include at least one of a front cover, a removable back cover, a leveling system, a supplemental channel, or a joining system. In some examples, the demountable wall system includes a door support system for movably supporting a door relative to the panel of the demountable wall system.

A wall panel of a moveable and demountable frameless wall panel system that is secured between a floor of a room and a ceiling rail secured to a ceiling of the room. The wall panel includes a frameless panel, an upper clamp assembly, a ceiling track configured to be removably inserted into the ceiling rail, a lower clamp assembly, a first height adjustment mechanism secured to the lower clamp assembly, a second height adjustment mechanism, and a bottom floor channel receiving the first height and second height adjustment mechanisms.

A modular wall system includes a leveler disposed within a wall module. The leveler includes a base to which floor interfacing members of the modular wall system connect. As the leveler adjusts the height of the wall module, the base to which the floor interfacing members attach remain stationary. During installation, the bottom edges of the floor interfacing members can be trimmed to form a consistent gap below the floor interfacing members.

A reconfigurable modular wall system having a plurality of different types of interchangeable wall modules with different types of compatible connection components, each connection component being configured to align with another connection component at an interface to form an interface connection for securing the connection components together with one or more universal connection interface members. The interface is configured for on-demand reconfiguration without laborious alteration to aspects of the walls system, modules, and components thereof. Reconfiguration of modules is facilitated by removing the universal connection interface member from the interface connection, thereby releasing the attachment mechanism and allowing rearrangement of the module(s). Replacement of the universal connection interface member secures the reconfigured modules in place in the rearranged wall system.

The present disclosure relates to an adjustable glass mounting groove, comprising a U-shaped groove body, a support block, a first screw and a first nut, wherein the U-shaped groove body includes a groove bottom, a left groove arm and a right groove arm, the support block includes a bottom support portion, a side support portion, and a matching portion in rotational connection with the first screw, the first nut is fixed in the U-shaped groove body, the first screw is in rotational connection with the support block, and the support block is slidingly fitted with the U-shaped groove body along the movement direction of the first screw. The present disclosure is provided with a functional component for fine-tuning the installation depth and angle of the glass, reducing the risk of glass damage and saving labor, the overall structure is reasonable and stable.

A wall segment is stood upon a surface by first positioning a curved wall segment upon the surface. The wall segment has a lower ground contacting surface, an upper surface opposite the lower ground contacting surface, left and a right side surfaces each extending from the lower surface to the upper surface, one or more panels, and a curved frame including at least one frame segment sized and dimensioned to retain a panel, the frame defining a curved outer periphery where the segment contacts the surface. A vessel is positioned proximate the curved frame, the vessel being shaped to conform and nest into the curvature of the outer periphery of the frame where the segment contacts the surface. The vessel is attached to the frame, and weight is added to the vessel.