A fast assembly and disassembly shed comprises multiple prefabricated wall panels, multiple prefabricated roof panels, multiple prefabricated floor panels, and multiple quick assembly connectors. These prefabricated wall panels can be quickly assembled or disassembled to enclose a space. These prefabricated roof panels can be quickly assembled or disassembled onto the upper edge of the prefabricated wall panels to cover the space. These prefabricated floor panels can be quickly assembled or disassembled onto the lower edge of the prefabricated wall panels. The quick assembly connectors are placed between any two adjacent elements among the prefabricated wall panels, prefabricated roof panels, and prefabricated floor panels to secure their relative positions.

A load transfer device is provided to connect concrete elements including, but not limited to, sandwich and double wall panel wythes, roof, floor, balcony and canopy members, and pavement. The device may be used to connect and transfer loads between the components of sandwich and double wall panels. The device includes two load transfer members positioned at an angle with respect to one another. Additionally provided are a retention housing for retaining one or more load transfer members at their angled positions and a depth locating means for retaining one or more load transfer members at their proper depth. Also provided are sandwich wall panels and double wall panels employing the load transfer device and methods for manufacturing sandwich wall panels and double wall panels employing the disclosed load transfer device.

A panel is disclosed for use in insulating an edifice that includes a first pane, a second pane in engagement with the first pane so as to define a channel there between configured and dimensioned for drainage and air flow, a clip in engagement with the first and second panes, and an insulator including an upper portion that is positioned within the clip. A system for use in insulating an edifice includes identical panels, wherein the insulator of one panel is positionable within the clip of another panel to connect the panels together. A panel clip for use in insulating an edifice includes a first arm defining an outer surface with a plurality of connectors, a saddle extending from the first arm, and a second arm connected to the saddle opposite the first arm such that the clip is generally H-shaped in configuration.

A retention housing for receiving at least one load transfer member is provided. In some embodiments, the retention housing and load transfer member may be included in a sandwich wall panel or a double wall panel. The load transfer member may transfer loads between first and second concrete elements. The retention housing may include first and second retention members, at least one guide member, and a size indicator for aligning the retention members with respect to each other. The guide member may retain the load transfer member at a predetermined angle. In some embodiments, the size indicator may correspond to the thickness of an insulation layer, such as in a sandwich wall panel. The retention housing may further include at least one depth locating means. A retention housing including first and second retention members may further include means for connecting the first and second retention members, such as in an aligned position.

A panel is disclosed for use in insulating an edifice that includes a first pane, a second pane in engagement with the first pane so as to define a channel therebetween configured and dimensioned for drainage and air flow, a clip in engagement with the first and second panes, and an insulator including an upper portion that is positioned within the clip. A system for use in insulating an edifice includes identical panels, wherein the insulator of one panel is positionable within the clip of another panel to connect the panels together. A panel clip for use in insulating an edifice includes a first arm defining an outer surface with a plurality of connectors, a saddle extending from the first arm, and a second arm connected to the saddle opposite the first arm such that the clip is generally H-shaped in configuration.

A utility wall is provided for a multi-story building having load bearing walls that are able to withstand vertical loads and lateral loads. The building may be a low-rise building or a mid-rise building. The utility wall, as well as the load bearing walls, floor-ceiling panels, corridor panels, and other parts of the building, are pre-manufactured off-site and then installed on-site at the site of the building. The utility walls are hung from the load bearing walls and provide utilities to the various stories of the building.

Floor-ceiling panels are provided for a building that includes load bearing walls that are able to withstand vertical loads and lateral loads. The building may be a low-rise building or a mid-rise building. The floor-ceiling panels, as well as the load bearing walls, corridor panels, utility walls, and other parts of the building are pre-manufactured off-site and then installed on-site at the site of the building. The floor-ceiling panels are hung from the load bearing walls and are capable to receive and transfer lateral and vertical loads, as well as providing improved sound proofing and fire rating for the building.

A multi-story building is provided with load bearing walls that are able to withstand vertical loads and lateral loads. The building may be a low-rise building or a mid-rise building. The load bearing walls, as well as floor-ceiling panels, corridor panels, utility walls, and other parts of the building, are pre-manufactured off-site and then installed on-site at the site of the building. The floor-ceiling panels are hung from the load bearing walls and are capable to receive and transfer lateral and vertical loads, as well as providing improved sound proofing and fire rating for the building.

A building includes a podium level steel transfer structure configured to receive vertical loads and lateral loads from upper portions of the building. The building may be a low-rise building or a mid-rise building. The podium level steel transfer structure may be at least partially pre-constructed such that final assembly may occur at a job site with reduced skilled labor. Transverse members of the podium level steel transfer structure may include engagement features extending vertically therefrom, and configured to align, engage, and retain at least one interior demising wall and at least one exterior wall in an orthogonal relationship through multiple fasteners. The engagement features may include a steel member with a trapezoidal profile having one or more angular notches, one or more captive fasteners, and at least one alignment hole.

A splicing structure and a spliced straight plate are provided. The splicing structure includes a splicing A plate, a splicing B plate, and a connector for connecting the two. The connector includes a first connecting plate and a second connecting plate arranged in a length direction of the first connecting plate and perpendicular to the first connecting plate. The first connecting plate is connected to an end of the splicing A plate in the length direction, and the second connecting plate is inserted into a side wall of the splicing B plate for fixed assembly, thereby hiding the second connecting plate and strengthening the connection of the splicing B plate. The splicing plates are adhered to two sides of the first connecting plate, and the second connecting plate is hidden inside the splicing B plate. Therefore, the surface of the splicing structure is flat, without obvious gaps.