Scanning assemblies are disclosed herein. An example scanning assembly includes a slot scanner and a mounting system. The slot scanner includes an imaging assembly configured to capture an image frame appearing in a field of view (FOV) and a housing having a cavity configured to accommodate the imaging assembly. The mounting system includes a flange member at least partially surrounding an opening formed within the mounting system, and at least two support arms extending from the flange. The at least two support arms engage a portion of the housing of the slot scanner to retain the slot scanner within the opening formed by the flange.

Scanning assemblies are disclosed herein. An example scanning assembly includes a slot scanner and a mounting system. The slot scanner includes an imaging assembly configured to capture an image frame appearing in a field of view (FOV) and a housing having a cavity configured to accommodate the imaging assembly. The mounting system includes a flange member at least partially surrounding an opening formed within the mounting system, and at least two support arms extending from the flange. The at least two support arms engage a portion of the housing of the slot scanner to retain the slot scanner within the opening formed by the flange.

A frame system for a building structure includes beam members. Each beam member includes two opposed, parallel flanges. A web is interposed between the flanges. Spreader members include two opposed, parallel side flanges, a web interposed between the side flanges and two opposed end flanges bridging the side flanges at respective terminal ends of the web. The beam members and the spreader members are configured to be fastened to each other to form a frame assembly.

A frame system for a building structure includes beam members. Each beam member includes two opposed, parallel flanges. A web is interposed between the flanges. Spreader members include two opposed, parallel side flanges, a web interposed between the side flanges and two opposed end flanges bridging the side flanges at respective terminal ends of the web. The beam members and the spreader members are configured to be fastened to each other to form a frame assembly.

A hollow profile and a method of producing the hollow profile from a hardenable steel alloy blank is disclosed having an L-shaped cross section with an upper vertical hollow chamber, and a lower horizontal hollow chamber, wherein the blank comes in abutment on an intermediate bridge area, forming a double layer. The hollow profile further includes, at least in regions, a tensile strength Rm greater than 1000 MPa.

A gutter piece and a method of forming the gutter piece including the steps of: obtaining a gutter forming apparatus with a marking subassembly; obtaining a supply of gutter material; through the gutter forming apparatus, progressively forming the gutter material into completed gutter pieces, each with a length, as the gutter material is advanced in a forming path; and through the subassembly, continuously making discrete visible marks on the gutter material as the gutter material is advanced that: a) reside at predetermined intervals along a length of each of the completed gutter pieces, and b) are located to facilitate controlled interval placement of hangers that are used to support the completed gutter pieces in an operative position on a structure.

A frame system for a building structure includes beam members. Each beam member comprises two opposed, parallel flanges. A web is interposed between the flanges. Spreader members comprise two opposed, parallel side flanges, a web interposed between the side flanges and two opposed end flanges bridging the side flanges at respective terminal ends of the web. The beam members and the spreader members are configured to be fastened to each other to form a frame assembly.

A frame system for a building structure includes beam members. Each beam member comprises two opposed, parallel flanges. A web is interposed between the flanges. Spreader members comprise two opposed, parallel side flanges, a web interposed between the side flanges and two opposed end flanges bridging the side flanges at respective terminal ends of the web. The beam members and the spreader members are configured to be fastened to each other to form a frame assembly.

The present invention relates to methods of working sheet metal, and sheet metal working apparatus for performing such methods. Such methods include steps of providing a sheet metal workpiece having first and second surfaces opposed to each other and at least one edge, bending the workpiece to form at least a first sidewall portion defined between the edge and a basal region, the first sidewall portion thereby defining a curved fold region in the sheet metal workpiece adjacent the first sidewall portion. Following this, first anvil tool and a first forming tool are provided for contact with and constraint of the first and second surfaces of the sheet metal workpiece respectively. The forming tool and/or the anvil tool are then progressively slid along the curved fold region to cause shear material transfer in the curved fold region to further deform the curved fold region. Such methods can allow for formation of components of similar shape as made at present by deep drawing methods, but with less wastage of the starting material.

The present invention relates to methods of working sheet metal, and sheet metal working apparatus for performing such methods. Such methods include steps of providing a sheet metal workpiece having first and second surfaces opposed to each other and at least one edge, bending the workpiece to form at least a first sidewall portion defined between the edge and a basal region, the first sidewall portion thereby defining a curved fold region in the sheet metal workpiece adjacent the first sidewall portion. Following this, first anvil tool and a first forming tool are provided for contact with and constraint of the first and second surfaces of the sheet metal workpiece respectively. The forming tool and/or the anvil tool are then progressively slid along the curved fold region to cause shear material transfer in the curved fold region to further deform the curved fold region. Such methods can allow for formation of components of similar shape as made at present by deep drawing methods, but with less wastage of the starting material.