An erosion control securing apparatus and method is disclosed. For example, an erosion control securing device is provided that includes a main shaft with a hexagonal-shaped head portion at its proximal end and a coil portion at its distal end. In one example, the coil portion of the erosion control securing device includes three turns. Further, a method of using the presently disclosed erosion control securing device for securing erosion control products is provided.

In general, one aspect disclosed features an anchoring system for anchoring an at least partially floorless mobile livestock enclosure to the ground. The anchoring system comprising: a securing flange configured to mechanically couple the anchoring system to the enclosure; an anchor; and a drive configured to place the anchor into contact with the ground, and to retract the anchor from contact with the ground.

A machine for driving a pair of screw anchors at substantially the same time. An attachment supports a pair of independent drive assemblies. Each assembly consists of a rotary driver and tool driver that moves along respective driving arms to independently drive a pair of screw anchors into supporting ground at different angles. Each assembly may move with respect to the machine independently to drive anchors into the ground in overlapping time, or both may rotate at once to drive anchors into the ground sequentially.

A rotary auger support stand for holding objects such as decoys above the ground. The auger support stand includes at least one rod of longitudinal support member or shaft. The rotary auger anchor comprises a helical coil for screwing that end of the stake into the ground. handle means such as an S-shaped handle provides a crank handle for rotatably screwing the anchor into the ground or at least two opposing legs extend perpendicular from and between the shaft and auger forming a base. The distal end of opposing legs are bent upward perpendicular from the ground or bent upward and inwardly at an acute angle toward the shaft forming handles for rotating the auger into the ground. The transverse legs extending from the elongated support pole provides a base bearing against the ground for increased lateral support. The top distal end of the shaft includes means for supporting an object.

Fixed-tilt solar arrays constructed from screw anchors. In some cases, purlins are attached directly to truss legs. In others, they are attached to truss caps joining the free end of each truss leg. In still further ones, screw anchors are driven in rows and interconnected by a pair of hinged members, one of which provides a mounting plane for solar panels. Each screw anchor may serve as a connection point for the trailing hinged member of the first foundation and the leading hinged member of the next foundation. In still further cases, a hinged truss cap may be used to accommodate different tilt angles with the same foundation.

An anchor system for anchoring a bollard. Some of the various embodiments of the present disclosure include a base and a rod. The rod is inserted into the ground to secure the rod to the ground. The base is connected to the rod to secure the base to the ground. The bollard is connected to the base to secure the bollard to the ground. Some other embodiments include the base, the rod, and/or a helical member, a nut, a washer, one or more prongs, and one or more set screws.

An A-frame-shaped truss foundation system for a single-axis tracker with a bearing assembly sitting atop a pair of adjacent angled truss legs joined together with an adapter so that the axis of rotation of the tracker is aligned with a work point of the A-frame. Several such foundation systems are arranged along a North-South row to support a tracker torque tube.

The present invention relates to a building system and a method of making and assembling the building system. In particular, the present invention relates to a footing for a building structure, the footing comprises a plurality of precast concrete layers, each precast concrete layer comprising reinforcement bars and a plurality of apertures. The footing further comprises a base structure comprising a base plate and a plurality of alignment bars protruding from the base plate. The footing is configured such that when the plurality of precast concrete layers are positioned on top of one another, the plurality of alignment bars of the base structure extend through the respective apertures of each precast concrete layer. Furthermore, the present invention relates to a building structure having one or more building modules.

A locking dog assembly including a body including inner cavity with a lower opening, a first locking dog at least partially extending through a first side of the body and displaceable into and out of the inner cavity, a second locking dog at least partially extending through a second side of the body, opposite the first side, and displaceable into and out of the inner cavity, and a mechanism for simultaneous displacement of the first and second locking dogs with mechanical advantage.

A support system and method to support structures in a substrate such as the ground. The system generally comprises a tubular hollow body with a conical head, and a number of smaller hollow tubes positioned inside. Each of the smaller tubes having a bend and an opening adapted to communicate with a corresponding opening in the hollow body head. In use, the assembly is driven into the substrate to the desired depth, and rods are driven down each of the smaller tubes so that they at least partially extend out from the head and into the surrounding substrate. The support system may also include a screw structure at the head to aid in driving the support system into the ground, and guards to protect the smaller tubes from damage during installation.