Disclosed is a terrace canopy, comprising a beam having a top side, a bottom side, an inner side and an outer side, and, in its cross-section, is provided with a screen cavity which is delimited by an upright inner side wall and a horizontal top wall and an internal space above the screen cavity. An upright wall extends from the end of the horizontal top wall. The beam comprises either a first closure profile for closing off the internal space or a wall profile attached to the upright wall and a second closure profile for closing off the internal space. Thus, multiple configurations of the beam are possible and an additional wall holder may be provided on the outer side of the screen cavity such that a double side wall infill is possible.

An axial reinforcement system is disclosed that provides a shell (i.e., a form or jacket) that protects a weight-bearing member (e.g., a cement column) from a corrosive environment and which also substantially increases the structural capacity of the weight-bearing member. The shell is integrated with positioners and reinforcing elements, the combination of which offers several advantages over conventional shells. The positioner is attached directly to the shell and the positioner is, in turn, secured to a reinforcing element, which can be a reinforced steel, such as rebar, or a carbon fiber reinforced polymer material. The axial reinforcement system has been found to substantially increase the structural rigidity of the weight-bearing member, while at the same time protecting the weight-bearing member from corrosion and is also simple to install.

An axial reinforcement system is disclosed that provides a shell (i.e., a form or jacket) that protects a weight-bearing member (e.g., a cement column) from a corrosive environment and which also substantially increases the structural capacity of the weight-bearing member. The shell is integrated with positioners and reinforcing elements, the combination of which offers several advantages over conventional shells. The positioner is attached directly to the shell and the positioner is, in turn, secured to a reinforcing element, which can be a reinforced steel, such as rebar, or a carbon fiber reinforced polymer material. The axial reinforcement system has been found to substantially increase the structural rigidity of the weight-bearing member, while at the same time protecting the weight-bearing member from corrosion and is also simple to install.

A column cover system includes a first column skin, a second column skin, and a column joint vertically connecting the first column skin and the second column skin. The column joint includes at least one monolithic column joint portion that defines an upper retaining ring and a lower retaining ring. When assembled, the first column skin is seated within the upper retaining ring and the second column skin is seated within the lower retaining ring.

Disclosed is a terrace canopy, comprising a beam which a top side, a bottom side, an inner side and an outer side, and, in its cross-section, is provided with: a screen cavity and a U-shaped space at the bottom side of the beam which is located below the screen cavity and open at its bottom side. The U-shaped space is configured to hold a first profile and a second profile, different from the first profile, and is provided with: a first and a second connection means configured together to hold the first profile or the first connection means and a connection wall portion configured together to hold the second profile. By leaving the U-shaped space open at its bottom side and providing the connection means, it is possible to integrate other profiles into the beam.

A continuity connection system is disclosed that is highly durable, simple to install, and substantially increases the structural capabilities and weight-bearing capacity of a shell (i.e., a form or jacket). The shell can be used to protect a weight-bearing member (e.g., a cement column) from a degrading environment. The shell can have one or several layers of carbon fiber fabric (e.g., spaced apart longitudinally) wrapped around an interior of the shell or embedded within the shell. The continuity connection system is used to provide continuity between two ends of the carbon fiber layer, and can be made up of the carbon fiber fabric reinforcement layer, two pockets, and a laminate having ends positioned in each pocket. The carbon fiber laminate traverses a seam/separation of the carbon fiber fabric and/or a seam of the shell and can be retained in place within the pockets with an appropriate epoxy, for example.

The invention relates to the field of home decoration, in particular to a home plate connecting device, which includes a plate and plate connecting piece, a glass and plate connecting piece, a plate bottom edge and ground connecting piece, a decorative plate and plate connecting piece, a doorframe and wall connecting piece and a plate chamfer connecting piece, wherein each of the connecting pieces is provided with a rubber barbed tenon structure and a mortise structure with a barbed accommodation groove. According to the invention, the mortise and tenon structures and a threaded connection manner are adopted for fixation, so that the device can be freely dismounted and conveniently packaged and transported; each part is matched, and is easy to position, so that mounting and dismounting working efficiency is improved; and the dismounted parts are prevented from damage, and are high in reutilization rate, so that the device can be widely applied to the field of home mounting and decoration.

A continuity connection system is disclosed that is highly durable, simple to install, and substantially increases the structural capabilities and weight-bearing capacity of a shell (i.e., a form or jacket). The shell can be used to protect a weight-bearing member (e.g., a cement column) from a degrading environment. The shell can have one or several layers of carbon fiber fabric (e.g., spaced apart longitudinally) wrapped around an interior of the shell or embedded within the shell. The continuity connection system is used to provide continuity between two ends of the carbon fiber layer, and can be made up of the carbon fiber fabric reinforcement layer, two pockets, and a laminate having ends positioned in each pocket. The carbon fiber laminate traverses a seam/separation of the carbon fiber fabric and/or a seam of the shell and can be retained in place within the pockets with an appropriate epoxy, for example.

The invention relates to the field of home decoration, in particular to a home plate connecting device, which includes a plate and plate connecting piece, a glass and plate connecting piece, a plate bottom edge and ground connecting piece, a decorative plate and plate connecting piece, a doorframe and wall connecting piece and a plate chamfer connecting piece, wherein each of the connecting pieces is provided with a rubber barbed tenon structure and a mortise structure with a barbed accommodation groove. According to the invention, the mortise and tenon structures and a threaded connection manner are adopted for fixation, so that the device can be freely dismounted and conveniently packaged and transported; each part is matched, and is easy to position, so that mounting and dismounting working efficiency is improved; and the dismounted parts are prevented from damage, and are high in reutilization rate, so that the device can be widely applied to the field of home mounting and decoration.

The present disclosure relates generally to a column cover comprising a first portion comprising a first side panel having a first edge and a second edge, a second side panel having a first edge and a second edge, a front panel extending between the second edge of the first side panel and the second edge of the second side panel, and an outer surface having at least one textured contour that replicates a natural building material. The cover further comprises a second portion comprising a first side panel having a first edge and a second edge, wherein the first side panel of the second portion is substantially coplanar with the first side panel of the first portion, wherein the first edge of the first side panel of the first portion is spaced apart from the first edge of the first side panel of the second portion.