A joist support and joist assembly for use in a decking structure, the joist support and joist being adapted to be fitted together in an assembled position, the joist support including a support body which includes a base wall having a bottom side and a top side, two spaced apart side walls extending from the base wall away from the top side thereof so as to provide a channel having an open top and opposed spaced apart open ends, the channel when in use being configured so as to at least partially receive a joist therein such that an outer side of a bottom wall of the joist lies adjacent the top side of the base wall of the joist support.

One illustrative embodiment of a tile & support structure may be configured to secure the position of a tile in a generally vertical configuration, such as the riser of a step, as a border around a portion of a deck, a building and/or wall façade, ventilated façade, interior or exterior wall covering, or other generally vertical surface. The support structure may be formed with a spine having at least one rail extending outward from a distal end thereof. The spine and rail(s) may be configured to secure one or more tiles, which tiles may be formed with a groove on at least one edge thereof, and wherein one or more rails may be positioned within the groove.

There is disclosed a modular platform assembly including a plurality of legs (18), a plurality of floor beams (20a,b,c), and a plurality of connectors (24a,b,c,d) for connecting the legs (18) and the floor beams (20a,b,c). Each said connector (24a,b,c,d) comprises: a downwardly open blind recess (59) with a closed top end (60) and an open bottom end (62); and an upwardly open blind recess (64) with a closed bottom end (66) and an open top end (68). The legs (18) are mounted into the downwardly open blind recesses (59) of the connectors (24a,b,c,d) and the floor beams (20a,b,c) are mounted into the upwardly open blind recesses (64) of the connectors (24a,b,c,d) such that the legs (18) extend downwardly from the floor beams (20a,b,c).

A leveling shim (1) for building is described, comprising a plastic plate (2), coupling means and through holes. The coupling means comprise flexible coupling means (5) able to be housed in at least one cavity (6) of the plate (2), and at least one coupling through hole (4).

In one aspect of a tile and support structure, a support structure may be engaged with a top portion of a pedestal. The support structure may be formed with a generally vertical spine having at least one rail extending outward from a distal end thereof. The spine and rail(s) may be configured to secure one or more tiles, which tiles may be formed with a groove on at least one edge thereof, and wherein one or more rails may be positioned within the groove.

In one embodiment of a tile and support structure, the tile and support structure may be configured to engage a tile such that the tile is oriented in a generally vertical plane. The support structure may include a riser tile engaged with both an upper riser support structure and a lower riser support structure.

An adjustable support for supporting a raised floor above a ground surface through a post is described herein. The adjustable support generally includes a base threadably engaged to a post engagement structure, where rotation of the post engagement structure relative to the base brings the post engagement structure into supportive contact with the bottom end of the post. The base includes a large diameter bottom plate that is able to distribute the load of the raised floor over a large ground area to prevent unacceptable compaction of the soil that would cause sinking. Buttress threads are configured to bear the load of the raised floor and enable the adjustable supports to be permanently installed. Because the adjustable support is made of a polymer material, it resists rotting and deterioration.

A connecting system for boards, and a connecting device and a support element for boards are disclosed. The connecting system includes the support element configured to support at least one board and the connecting device configured to releasably fasten the at least one board to the support element. The support element includes at least one lateral surface with at least one locking member arranged on the lateral surface. The connecting device includes at least one arm with a locking member configured for engagement with the locking member of the support element. At least one of the locking member of the support element and the locking member of the connecting device includes a plurality of protrusions forming a plurality of locking positions of the connecting device relative the support element.

According to an embodiment of the invention, there is provided an adjustable footing for a post, the adjustable footing comprising: a base, the base comprising a base plate, a fixed base nut secured to the base plate and a threaded rod secured to the base nut and extending perpendicular to the base; and a top, the top comprising a post plate having a hole and a fixed post nut secured to the post plate over the hole and dimensioned to engage the threaded rod. The post plate is secured to the post such that the threaded rod passes through the post nut and hole into a cavity in the post, and the overall height of the footing is adjustable by rotation of the base via the base nut.

An adjustable support for supporting a raised floor above a ground surface through a post is described herein. The adjustable support generally includes a base threadably engaged to a post engagement structure, where rotation of the post engagement structure relative to the base brings the post engagement structure into supportive contact with the bottom end of the post. The base includes a large diameter bottom plate that is able to distribute the load of the raised floor over a large ground area to prevent unacceptable compaction of the soil that would cause sinking. Buttress threads are configured to bear the load of the raised floor and enable the adjustable supports to be permanently installed. Because the adjustable support is made of a polymer material, it resists rotting and deterioration.