The invention relates to a jet anchor which ensures the fixation of the lateral support elements on the surface to mass formed by high pressure jet injection with purpose of providing stabilization of the excavation surface during excavation support and slope stability works, said jet anchor provides the combined usage of anchor body (120), ducted cutting wing (140), connectors, rigid wing opening plate (130), rope pulling apparatus (110), guide pipe elements (150) with new anchor equipment and jet grouting system and thus obtaining strength increased anchor element.

A post stabilization system which uses components which allow for both pushing and pulling forces to be applied to a workpiece in situ. The system uses the ground as an anchor point to stabilize a workpiece being installed. A force application member is connected to an anchoring device at one end. The opposing end of the force application member is an abutment member for applying a stabilizing force to a pole or other vertically oriented workpiece. An adjustment/tensioning member is applied between the anchoring device and the abutment member to allow for adjusting the angle of the workpiece by applying either pushing or pulling forces to the workpiece.

An anchor driving device includes an anchor, a driving member with a slide stop, an anchor rod, a slide collar, and a load cell. The driving member is removably coupled to the anchor. The slide stop of the driving member is spaced apart from and disposed above the anchor. The anchor rod is permanently coupled to the anchor. The slide collar is disposed on the driving member and is selectively affixed to the driving member with a release mechanism. The load cell is permanently coupled to the slide collar and selectively coupled to the anchor rod. The load cell is configured to measure a load through the anchor rod during a setting operation of the anchor.

The invention relates to a jet anchor which ensures the fixation of the lateral support elements on the surface to mass formed by high pressure jet injection with purpose of providing stabilization of the excavation surface during excavation support and slope stability works, said jet anchor provides the combined usage of anchor body (120), ducted cutting wing (140), connectors, rigid wing opening plate (130), rope pulling apparatus (110), guide pipe elements (150) with new anchor equipment and jet grouting system and thus obtaining strength increased anchor element.

An anchor system for anchoring an object to the ground is provided. The anchor system includes a base assembly for installing in the ground, the base assembly including a lower section securable in the ground, and an upper section having a substantially planar top surface. The upper section is adjustably secured to the lower section for adjusting an overall height of the base assembly. A retractable anchoring member is secured to the upper section and is adjustable between an operating position in which it extends above the top surface of the upper section, and a retracted configuration in which it is concealed below the top surface of the upper section. In an exemplary configuration, the anchoring member is pivotally secured to the upper section and can be pivoted between the operating position and the retracted configuration.

An anchor driving device includes an anchor, a driving member with a slide stop, an anchor rod, a slide collar, and a load cell. The driving member is removably coupled to the anchor. The slide stop of the driving member is spaced apart from and disposed above the anchor. The anchor rod is permanently coupled to the anchor. The slide collar is disposed on the driving member and is selectively affixed to the driving member with a release mechanism. The load cell is permanently coupled to the slide collar and selectively coupled to the anchor rod. The load cell is configured to measure a load through the anchor rod during a setting operation of the anchor.

A land anchor device for securing a boat to the shore using a pair of deployable plates includes a tube having a top surface. The tube has an interior that defines a space where a variety of elements can be positioned within. The end of a tube is a spear that impales into the ground. A drive is positioned on the top surface of the tube. A lead screw is connected to the driver where the driver rotates the lead screw when in use. A plurality of lead nuts is enwrapped on the lead screw and move along an axis of the lead screw. A pair of arms is coupled to a lead screw and move into a perpendicular position for securing a rope around. A pair of plates is positioned near the spear and helps stabilize the tube within the ground.

A ground anchor assembly including high-load ground anchor and method of using same is disclosed. For example, the presently disclosed high-load ground anchor assembly may include a load-bearing top cap tethered to the ground anchor via a cable tendon. In some embodiments, the ground anchor may include a substantially cylindrical body that has a tapered piercing end and a flat driving end and wherein the flat driving end has a central driving hole. Additionally, the high-load ground anchor may include a pair of outwardly extending side wings along one side of the body and a raised securing portion on the side of body opposite the side wings. Further, a method of installing the presently disclosed ground anchor assembly including the high-load ground anchor is provided.

The present invention is related to a gravitation anchor for offshore anchoring of ships and platforms, comprising a main body (10) with a longitudinal axis of revolution (11), comprising a means of stabilization (14), whereby the means of stabilization (14) comprises a means of automatic activation (140). Optionally, the means of stabilization comprises at least one stabilizer (14), whereby each stabilizer (14) comprises an end pivotally attached (141) to the gravitation anchor (1), and a free end, whereby when the stabilizer (14) is in a retracted position, the free end is positioned closer to the main body (10) of the gravitation anchor (1), and whereby when the stabilizer (14) is in an extended position, the free end is positioned away from the main body (10) of the gravitation anchor (1).

The tie rod for structural projects for the protection of structures for earthquake and wind is comprised of a cast iron base (7) which has a bolt (4) passing through a hole, which is surrounded by threaded ring (5) with handles (6). A base plate (2) that sits on the bolt and turns with a ball bearing. A steel cable (9) passes through all; the one end of the cable is fixed to the base (2) with bolts (3). The other end leads to a member with blades around it (10), (12), (13), (14) which open and close around the member (17) with the help of bars (11) connected around the axis of the member with pins. To the other end, they are connected with pins to the blades. The rod presses the structure to the ground by a bolt connected to a cable which pulls a member (17) with blades which open against the sides of a hole drilled on the ground and pull the building towards the ground decreasing torque created by the forces of an earthquake or the wind. It is used on buildings with a frame, continuous building, wood frame houses with storm problems, cable bridges, loose ground slopes, etc.