A heavy cycle grating system incorporating a plurality of toothed support members to support a plurality of grate slats while securing them within grating assembly. This configuration allows the present grating system to accommodate higher volume of heavy use, such as found with vehicular applications. Further provided is a grating assembly configured for longer life and improved damage and wear-resistance while simultaneously reducing noise generated during use thereof.

An electrically insulated trellis comprises a first array of parallel tubular members 2 and a second array of parallel tubular members 4. Each of the second array of parallel tubular members 4 is pivotably connected to a plurality of the first array of parallel tubular members 2 whereby to form a trellis 1. Each of the tubular members is formed from glass-reinforced polymer. A first set of fibres in the glass-reinforced polymer are substantially parallel and aligned in a first direction and a second set of fibres in the glass-reinforced polymer, distinct from the first set, are substantially parallel and aligned in a second direction different to the first direction.

The present invention provides for a welded wire lath device having a plurality of longitudinal wires extending along a plane and in a longitudinal direction, a plurality of tension release devices disposed on the plurality of longitudinal wires, a plurality of transverse wires extending along the plane in a transverse direction; and a plurality of weld connections at each intersection point between the plurality of longitudinal wires and the plurality of transverse wires. Each of the plurality of tension release devices are randomly spaced along the plurality of parallel longitudinal wires. The longitudinal wires, including each of the plurality of tension release devices, have a rectilinear cross-section. The present invention also provides for a structural assembly, and related method, having the welded wire lath device attached to a structural support such as a wall or ceiling and having a cementitious material embedded within the welded wire lath device.

The present invention provides for a welded wire lath device having a plurality of longitudinal wires extending along a plane and in a longitudinal direction, a plurality of tension release devices disposed on the plurality of longitudinal wires, a plurality of transverse wires extending along the plane in a transverse direction; and a plurality of weld connections at each intersection point between the plurality of longitudinal wires and the plurality of transverse wires. Each of the plurality of tension release devices are randomly spaced along the plurality of parallel longitudinal wires. The longitudinal wires, including each of the plurality of tension release devices, have a rectilinear cross-section. The present invention also provides for a structural assembly, and related method, having the welded wire lath device attached to a structural support such as a wall or ceiling and having a cementitious material embedded within the welded wire lath device.

A construction element includes superposed wooden structural boards that are provided with grooved patterns at the contact interface between the boards in order to prevent the first board and the second board from sliding relative to each other along at least one axis. The construction element further includes a retention system for retaining the boards against each other at the contact interface. The grooved patterns are pre-pressed against each other and the retention system includes at least one metal threaded rod component at least partially passing through at least two of the wooden structural boards at the contact interface.

A grating assembly and a method for manufacturing the same. The grating assembly comprises a plurality of crossbars that are secured together. The grating assembly includes a decorative image that is visible when approaching the grating. The image is formed by providing one or more image sections on one or more of the crossbars of the grating assembly. Each of the crossbars has a front surface and an opposed back surface and the one or more image sections are provided on one or both of the front surface and the back surface.

Described is a containment device for holding a container that defines a container interior volume. The containment device can include a base portion enclosing a base portion interior volume, the base portion including: a plurality of base walls, a trough extending from at least one of the base walls, and a substantially horizontal support surface adapted to support the container above the base portion interior volume. The base portion interior volume can be equal to or greater than the container interior volume. An enclosure can extend above the base portion, the enclosure including a plurality of enclosure walls adapted to surround the container. The enclosure walls can define an opening above the trough, the opening adapted for insertion of the container into the enclosure.

A construction system includes a set of constituent elements, at least one of which includes at least two superimposed folds each including at least two wooden structural boards. In this system, at least two constituent elements are fixed together by a non-adhesive fixing device and at least two adjacent folds are held against each other by non-adhesive holding device. The faces in contact with two structural boards are at least partially provided, at their contact interface, with a set of grooved patterns arranged so as to prevent the structural boards from sliding one relative to the other along at least one first immobilisation axis. A method for manufacturing such a construction system is also disclosed.

A foldable tubular construct/element with one rigid degree of freedom is of a tubular construction formed by a number of single layered annular units which are connected in sequence; each single layered annular unit is of a prism having N ridge lines; two adjacent prisms each having N sides are connected to each other by sharing a polygon with N sides formed on an intersection plane; each prism with N ridge lines is composed of N rigid planar quadrilateral facets; two adjacent single layered annular units comprise N spherical mechanisms formed by the intersections of only four planar quadrilateral facets at each apex; the polygon having N sides formed in the intersection plane of the two adjacent single layered annular units is a planar polygon with an arbitrary number of sides greater than for a triangle; the ridge lines of each prism having N ridge lines are parallel to each other; the connecting ridge lines of the tubular element are coplanar; when the polygon having N sides formed in the intersection plane of the two adjacent single layered annular units is a line-symmetric polygon of even number of sides with at least one diagonal symmetric axis, the plane in which connecting ridge lines of the tubular element are located is perpendicular to one diagonally symmetric axis.

A foldable tubular construct/element with one rigid degree of freedom is of a tubular construction formed by a number of single layered annular units which are connected in sequence; each single layered annular unit is of a prism having N ridge lines; two adjacent prisms each having N sides are connected to each other by sharing a polygon with N sides formed on an intersection plane; each prism with N ridge lines is composed of N rigid planar quadrilateral facets; two adjacent single layered annular units comprise N spherical mechanisms formed by the intersections of only four planar quadrilateral facets at each apex; the polygon having N sides formed in the intersection plane of the two adjacent single layered annular units is a planar polygon with an arbitrary number of sides greater than for a triangle; the ridge lines of each prism having N ridge lines are parallel to each other; the connecting ridge lines of the tubular element are coplanar; when the polygon having N sides formed in the intersection plane of the two adjacent single layered annular units is a line-symmetric polygon of even number of sides with at least one diagonal symmetric axis, the plane in which connecting ridge lines of the tubular element are located is perpendicular to one diagonally symmetric axis.