A wall system includes at least one of a stud assembly, a top connector assembly, and a leveler assembly. The stud assembly is defined by a first and second upright that are attached by at least one web bracket. The web bracket includes a main body with extension arms on opposing sides. A notch is located at or near a free end of each extension arm. The notches are to be removably inserted over an edge of a respective aperture located on each of the first and second uprights. The top connector assembly includes a holder member to effectively raise and lower a top portion of the stud assembly. The leveler assembly includes a threaded rod to effectively raise and lower the first and second uprights relative to a base.

A system for providing a configurable virtual reality environment model includes a plurality of wall panels that are removeably interconnectable with each other without a need for tools. A plurality of floor sections are removeably interconnectable without a need for tools and include a connection interface for removeably connecting the wall panels to the plurality of floor sections. The plurality of wall panels are configured to place physical walls in a location that corresponds to a virtual wall located within a virtual reality world such that when a virtual reality display shows the user touching a wall in the virtual reality world, the user feels the physical wall placed in the configurable virtual reality environment. At least one network accessible component associated with a portion of the plurality of wall panels provides tactile feedback to a user responsive to the user coming within a predetermined distance of a wall panel. A network controller connected to the at least one network accessible component through a network actuates operation of the at least one network accessible component responsive to the user coming within the predetermined distance of the wall panel.

A containment system may include four different widths of panel assemblies, at least four different types of corner assemblies, various types of door assemblies, multiple types of three-way corners or T intersections, multiple types of exhaust panel assemblies, multiple types of wall seal assemblies, and other components that form a modular system capable of adapting to various configurations using a minimal number of fasteners, brackets, and/or clamps. Each panel assembly includes a lower assembly, an upper assembly slideably attached to the lower assembly, at least one adjustment mechanism that interfaces with both the lower assembly and the upper assembly, and a sealing member extending between the upper assembly and the lower assembly.

This panel (1) has a panel body (10) and a leg (20) that supports the panel body (10). The leg (20) has a shaft (22) that is inserted into the panel body (10), and a leg body (21) to which the shaft (22) is fixed and that is disposed outside of the panel body (10). The leg body (21) is provided with a first rotation stopper (31) that is in direct contact with at least either one of the front face (10A) and the back face (10B) of a panel face of the panel body (10) and that stops rotation of the panel body (10) in one direction around the shaft (22), and a second rotation stopper (32) that is configured to stop the rotation of the panel body (10) in the direction opposite to the one direction.

A building construction includes a plurality of vertically oriented studs, each extending between a floor and a ceiling of a building, each stud including a first and second stud sections in parallel, spaced apart relation, and a connecting wall which connects together the first and second stud sections in the parallel, spaced apart relation, each stud section including a central wall having lengthwise extending recesses, and two wing walls extending from opposite side edges of the central wall; and side connecting panels for connecting together wing walls of horizontally spaced apart studs, with the outer surface of each side connecting panel being coplanar with the outer surface of each respective central wall.

An extendable wall panel assembly includes a first wall panel and a first core that includes a first and second surface. A first edge joiner comprises a first male extension extending therefrom. A second edge joiner has a first female receiver disposed therein. A second wall panel is slidably coupled to the first and second wall panels and has a second core. A third edge joiner extends between a third surface and a fourth surface and has a second male extension extending therefrom. A fourth edge joiner has a second female receiver disposed therein. A coupling mechanism has a first channel disposed in the first wall panel receiving a first clamp bar therein. A first fastener receiver is coupled to the second wall panel and a fastener extend through the first fastener receiver and into the first clamp bar in the first channel.

A barrier panel to separate food production operations and/or operators in food processing facilities, minimizing contact between the components to minimize bacteria and contaminant harbors, which requires little or no disassembly for cleaning, the upper portion of the panel being translucent or transparent and supported by contact tabs which are rounded to minimize surface area touches.

A containment system may include four different widths of panel assemblies, at least four different types of corner assemblies, various types of door assemblies, multiple types of three-way corners or T intersections, multiple types of exhaust panel assemblies, multiple types of wall seal assemblies, and other components that form a modular system capable of adapting to various configurations using a minimal number of fasteners, brackets, and/or clamps. Each panel assembly includes a lower assembly, an upper assembly slideably attached to the lower assembly, at least one adjustment mechanism that interfaces with both the lower assembly and the upper assembly, and a sealing member extending between the upper assembly and the lower assembly.

A system for providing a configurable virtual reality environment model includes a plurality of wall panels that are removeably interconnectable with each other without a need for tools. A plurality of floor sections are removeably interconnectable without a need for tools and include a connection interface for removeably connecting the wall panels to the plurality of floor sections. The plurality of wall panels are configured to place physical walls in a location that corresponds to a virtual wall located within a virtual reality world such that when a virtual reality display shows the user touching a wall in the virtual reality world, the user feels the physical wall placed in the configurable virtual reality environment. At least one network accessible component associated with a portion of the plurality of wall panels provides tactile feedback to a user responsive to the user coming within a predetermined distance of a wall panel. A network controller connected to the at least one network accessible component through a network actuates operation of the at least one network accessible component responsive to the user coming within the predetermined distance of the wall panel.

An extendable wall panel assembly includes a first wall panel and a first core that includes a first and second surface. A first edge joiner comprises a first male extension extending therefrom. A second edge joiner has a first female receiver disposed therein. A second wall panel is slidably coupled to the first and second wall panels and has a second core. A third edge joiner extends between a third surface and a fourth surface and has a second male extension extending therefrom. A fourth edge joiner has a second female receiver disposed therein. A coupling mechanism has a first channel disposed in the first wall panel receiving a first clamp bar therein. A first fastener receiver is coupled to the second wall panel and a fastener extend through the first fastener receiver and into the first clamp bar in the first channel.