The present disclosure provides a hydraulic jack, including a base as a carrier for mounting other components; an inner cylinder barrel vertically fixed to the base, a sliding cavity being formed in the inner cylinder barrel; an outer cylinder barrel vertically and slidably fitted outside the inner cylinder barrel; a valve plug assembly slidably fitted in the sliding cavity, and the valve plug assembly being rigidly connected to the outer cylinder barrel via a valve plug rod and being able to slide synchronously with the outer cylinder barrel; a valve plug driving assembly mounted on the outer cylinder barrel; and a supporting component mounted on the side wall of the outer cylinder barrel in an up-down adjustable mode. The hydraulic jack of the present disclosure is compact in structure, high in strength, high in load capacity, long in stroke, and safe and reliable in use.

A side saddle slingshot drilling rig includes a left and right substructure including a left and right lower box. The side saddle slingshot drilling rig includes a drill rig floor mechanically and pivotably coupled to the left and right lower boxes such that it is pivotably movable from a lowered position to a raised position. The drill rig floor includes a V-door. The V-door is positioned on the V-door side of the drill rig floor. The V-door side of the drill rig floor is oriented to face the right substructure. A mast coupled to the drill rig floor may include an open side, defining a mast V-door side. The mast V-door side may be oriented to face the right substructure. The mast may pivot into its raised position or may be a bootstrap mast.

A side saddle slingshot drilling rig includes a left and right substructure including a left and right lower box. The side saddle slingshot drilling rig includes a drill rig floor mechanically and pivotably coupled to the left and right lower boxes such that it is pivotably movable from a lowered position to a raised position. The drill rig floor includes a V-door. The V-door is positioned on the V-door side of the drill rig floor. The V-door side of the drill rig floor is oriented to face the right substructure. A mast coupled to the drill rig floor may include an open side, defining a mast V-door side. The mast V-door side may be oriented to face the right substructure. The mast may pivot into its raised position or may be a bootstrap mast.

A lift system for lifting an openable top portion of a nacelle of a wind turbine has first and second laterally spaced apart jacks pivotally connectable to a bottom portion of the nacelle and the top portion proximate a rear end of the nacelle. The first and second jacks are actuatable to raise and lower a rear of the top portion. The lift system further has a support member pivotally connectable to the bottom portion and the top portion proximate a front end of the nacelle. A front of the top portion is pivotable on the support member when the first and second jacks are actuated without raising or lowering the top portion where the support member is pivotally connected. The lift system permits opening the top portion where the top portion has a U-shaped lip into which a complementary inverted U-shaped lip of a rotor fairing is inserted, and permits opening substantially rectangular or non-rectangular nacelles.

A method and system for stacking coils in which a coil stacker lifting head can be used to raise one or more coils from a conveyor assembly. The coil stacker lifting head can be automatically actuated using a actuating cylinder and a counter balance cylinder. The coil stacker lifting head can include an expanding mandrel to grab opposite edges of the coil and lift the coil. One or more of the coils can be lifted from a conveyor assembly by the coil stacker lifting head. After the one or more coils are lifted, a carriage assembly can transport the lifted one or more coils to a desired position. Once the one or more coils reach the desired position, the one or more coils are lowered to a surface. Upon reaching the surface, the mandrel automatically collapses to release the one or more coils and the mandrel is released from the coils.

A method and system for stacking coils in which a coil stacker lifting head can be used to raise one or more coils from a conveyor assembly. The coil stacker lifting head can be automatically actuated using a actuating cylinder and a counter balance cylinder. The coil stacker lifting head can include an expanding mandrel to grab opposite edges of the coil and lift the coil. One or more of the coils can be lifted from a conveyor assembly by the coil stacker lifting head. After the one or more coils are lifted, a carriage assembly can transport the lifted one or more coils to a desired position. Once the one or more coils reach the desired position, the one or more coils are lowered to a surface. Upon reaching the surface, the mandrel automatically collapses to release the one or more coils and the mandrel is released from the coils.

A lift system for lifting an openable top portion of a nacelle of a wind turbine has first and second laterally spaced apart jacks pivotally connectable to a bottom portion of the nacelle and the top portion proximate a rear end of the nacelle. The first and second jacks are actuatable to raise and lower a rear of the top portion. The lift system further has a support member pivotally connectable to the bottom portion and the top portion proximate a front end of the nacelle. A front of the top portion is pivotable on the support member when the first and second jacks are actuated without raising or lowering the top portion where the support member is pivotally connected. The lift system permits opening the top portion where the top portion has a U-shaped lip into which a complementary inverted U-shaped lip of a rotor fairing is inserted, and permits opening substantially rectangular or non-rectangular nacelles.

A jack assembly and a system for supporting a partially submerged structure. The jack assembly may include a fluid jack including a cylinder and a ram, the cylinder having at least one fluid chamber configured to receive a pressurized fluid to move the ram; and a valve housing removably coupled to the fluid jack for providing fluid communication between the fluid jack and at least one fluid conduit, the valve housing including a link movable from a first position toward a second position, the valve housing being secured to the jack while the link is in the first position, the valve assembly being disconnectable from the jack while the link is in the second position.

According to an aspect of the present disclosure, a multi-step height adjuster includes a base tube portion including a first base tube and a second base tube vertically reciprocating inside the first base tube; a spindle portion including a first spindle installed inside the first base tube to vertically reciprocate and a second spindle installed inside the second base tube to vertically reciprocate; and an adjustment portion installed in the spindle portion to transmit power to the spindle portion, wherein the first spindle and the second base tube are integrally moved.

A method and system for stacking coils in which a coil stacker lifting head can be used to raise one or more coils from a conveyor assembly. The coil stacker lifting head can be automatically actuated using a actuating cylinder and a counter balance cylinder. The coil stacker lifting head can include an expanding mandrel to grab opposite edges of the coil and lift the coil. One or more of the coils can be lifted from a conveyor assembly by the coil stacker lifting head. After the one or more coils are lifted, a carriage assembly can transport the lifted one or more coils to a desired position. Once the one or more coils reach the desired position, the one or more coils are lowered to a surface. Upon reaching the surface, the mandrel automatically collapses to release the one or more coils and the mandrel is released from the coils.