A mechanical hammer that includes a support and an elongated member. The support defines a linear guide track. The elongated member is laterally confined by the support while being movable back and forth along the linear guide track between an extended position extending from the support and a retracted position relatively retracted within the support. A rack and pinion drive assembly is provided to selectively drive the elongated member along the linear guide track.

A pumping unit base and methods for producing oil and gas with the pumping unit base. The pumping unit base may include a plurality of driven piles installed in the ground, and a metal platform fixedly attached to the plurality of driven piles, wherein the metal platform is positioned above the ground. The metal platform may be removed from the driven piles and reinstalled to the driven piles.

A double-acting hydraulic impact hammer includes a drop weight and an inner hydraulic piston. The drop weight is arranged to be driven in an upward and downward direction and the drop weight acts on a pile during its downward motion. The piston has a voided internal area defining a piston volume which is arranged to receive a piston rod and along which the piston extends and retracts axially. The piston volume is in sealed hydraulic communication with the hollow rod volume to form a first volume which changes size as the piston moves along the piston rod whereby the application of hydraulic pressure to the first volume biases the piston towards its extended position. The hammer includes a bore and a collar. The collar forms an outer piston having a working surface which when exposed to hydraulic fluid has sufficient surface area to lift the piston and the drop weight.

A double-acting hydraulic impact hammer includes a drop weight and an inner hydraulic piston. The drop weight is arranged to be driven in an upward and downward direction and the drop weight acts on a pile during its downward motion. The piston has a voided internal area defining a piston volume which is arranged to receive a piston rod and along which the piston extends and retracts axially. The piston volume is in sealed hydraulic communication with the hollow rod volume to form a first volume which changes size as the piston moves along the piston rod whereby the application of hydraulic pressure to the first volume biases the piston towards its extended position. The hammer includes a bore and a collar. The collar forms an outer piston having a working surface which when exposed to hydraulic fluid has sufficient surface area to lift the piston and the drop weight.

The invention relates to a pile-driving device and a method for driving driving material into a ground, wherein, for the purpose of driving-in, the driving material is clamped and held by means of a clamping means on a pile-driving power unit and prior to clamping the driving material is connected by means of a flexible securing element, in particular a securing chain, to the pile-driving power unit. In accordance with the invention a pressing element is provided which is displaced relative to the pile-driving power unit towards the driving material and, in doing so, a pressing force is applied onto an upward-directed front face of the driving material.

The invention relates to a pile-driving device and a method for driving driving material into a ground, wherein, for the purpose of driving-in, the driving material is clamped and held by means of a clamping means on a pile-driving power unit and prior to clamping the driving material is connected by means of a flexible securing element, in particular a securing chain, to the pile-driving power unit. In accordance with the invention a pressing element is provided which is displaced relative to the pile-driving power unit towards the driving material and, in doing so, a pressing force is applied onto an upward-directed front face of the driving material.

Hydraulic supply systems and cranes incorporating the same are disclosed. Hydraulic supply systems may include an auxiliary hydraulic circuit that includes a pump, a power source, and a plurality of plumbing elements. The hydraulic supply systems may further include a control system that controls operation of at least a portion of the plurality of plumbing elements and a control panel that is positioned remotely from the control system and is in communication with the control system, where the control panel provides selective input to the control system.

Hydraulic supply systems and cranes incorporating the same are disclosed. Hydraulic supply systems may include an auxiliary hydraulic circuit that includes a pump, a power source, and a plurality of plumbing elements. The hydraulic supply systems may further include a control system that controls operation of at least a portion of the plurality of plumbing elements and a control panel that is positioned remotely from the control system and is in communication with the control system, where the control panel provides selective input to the control system.

A pile support device for a pile driver is disclosed. The pile support device can include a stationary pile guide operable to couple with a stationary portion of a pile driver. The pile support device can also include a pile holder coupled to the stationary pile guide. The pile holder can have a pile interface portion operable to interface with and support a pile while the pile is driven. The pile interface portion can be elevated above a ground surface and the pile can be exposed between the pile interface portion and the ground surface

Certain exemplary embodiments can provide a system comprising a frame, which comprises an outer mast and an inner mast. The outer mast slides along the inner mast. A motor is coupled to the frame. A hydraulic system is coupled to the motor. A jackhammer head is coupled to the outer mast, which outer mast allows the jackhammer head to float up and down on the inner mast as the jackhammer head reciprocates. Thereby vibrations from jackhammer motion substantially do not get transferred to the frame.