A telescoping lift arm for a two-post vehicle lift has pivot structure radially offset from a longitudinal axis of the arm. An outer arm section is open at a distal end to enable an inner arm section to be retracted therethrough. A pair of the arms are bilaterally symmetrical and configured to be removable from lift carriages to enable lateral swapping of the arms.

The present invention relates to a modular pit structure for an inground lifting system. The pit structure includes: a first end part; a second end part; at least one intermediate part, wherein the at least one intermediate part has a length, a width and a height; and a frame configured to be placed in an assembled pit structure. After assembling of a pit, the length of the intermediate part extends in a substantially horizontal direction between the first and second end parts and an interlock between adjacent parts of the pit structure extends in a substantially vertical direction.

Lifting system for lifting a vehicle and a method there for. The system comprises one or more lifting devices, wherein each lifting device includes: a frame with a carrier configured for carrying the vehicle; a drive for driving the carrier in at least one of the ascent or decent of the carrier; a sensor for measuring at least one of the ascent or descent of the carrier; and a controller including: a connection for connecting to the sensor; a release system for releasing the carrier enabling the lifting system to lift the vehicle.

Lifting system for lifting a vehicle and a method there for. The system comprises one or more lifting devices, wherein each lifting device includes: a frame with a carrier configured for carrying the vehicle; a drive for driving the carrier in at least one of the ascent or decent of the carrier; a sensor for measuring at least one of the ascent or descent of the carrier; and a controller including: a connection for connecting to the sensor; a release system for releasing the carrier enabling the lifting system to lift the vehicle.

Disclosed herein is a system for lifting an object. The system comprises a first floor, a second floor, and an object rack supported on the second floor. The system further comprises an object advance apparatus coupled with the object rack. The object advance apparatus is configured to advance one object from the plurality of objects from an advancing position to a lifting position. The system additionally comprises a lifting cylinder that is configured to extend from a retracted position below the lifting position to an extended position above the first floor, such that the one object in the lifting position is removed from the object rack and lifted adjacent to the assembling body. The system also comprises a floor flap configured to open and close in synchronization with the extension and retraction of the lifting cylinder.

Disclosed herein is a system for lifting an object. The system comprises a first floor, a second floor, and an object rack supported on the second floor. The system further comprises an object advance apparatus coupled with the object rack. The object advance apparatus is configured to advance one object from the plurality of objects from an advancing position to a lifting position. The system additionally comprises a lifting cylinder that is configured to extend from a retracted position below the lifting position to an extended position above the first floor, such that the one object in the lifting position is removed from the object rack and lifted adjacent to the assembling body. The system also comprises a floor flap configured to open and close in synchronization with the extension and retraction of the lifting cylinder.

An intake-exhaust transport apparatus, a mobile power generation system and an assembling method thereof are provided. The assembling method includes: roughly adjusting a position of the intake-exhaust system in a second direction with respect to the power generation apparatus by the second conveyance; jacking up the intake assembly and the exhaust duct as a whole, to be higher than a height of the power generation apparatus by the lifting mechanism; moving the power generation apparatus to a region under the intake-exhaust system by the first conveyance and adjusting a position of the power generation apparatus in the first direction with respect to the intake-exhaust system; and connecting the intake assembly and the exhaust duct to a top of the power generation apparatus.

A lifting structure operating precisely and stably at all stages of a lifting and lowering action includes a lifting assembly and a driving assembly. The lifting assembly includes two first links, two second links, and two seats. A first connecting arm of each first link has first and second ends, the first end having a first gear structure. A second connecting arm of each second link has third and fourth ends, a second and complementary gear structure being provided on the third end. The first gear structures are engaged and the second gear structures are engaged. The second end is rotatably connected to the fourth end through one of the two seats. The driving assembly can drive the two seats towards each other to perform lifting or drive them away from each other to perform lowering.

A system is used for lifting a heavy oversized structural element. At least two opposing lifts are placement adjacent opposing sides of the element. Each lift includes a base, a tower, an elevator, and an actuator. The tower extending vertically from the base, and the elevator is disposed on the tower. A support extends from the elevator outward from the tower to engage a point on the element. A guide of the elevator is configured to ride along a rail of the tower. The actuator is connected to the elevator and is configured to move with the elevator vertically along the tower. The actuator can include a strand jack disposed on the elevator. Hydraulic operation of the stand jack moves the jack and elevator along a strand extending along the tower. The arrangements of the lifts leave space below the raised element free for access to other operations.

A hydraulic lift caisson for buildings including an outer rigid pipe, an inner rigid lifting post and a plurality of threaded lifting rods surrounding the inner rigid lifting post. Also included is a base lifting plate disposed within a bottom end of the outer rigid pipe and connected to a bottom end of the inner rigid lifting post and threaded rods, an anchor plate fixed to a first end of the inner rigid pipe and including a plurality of holes extending therethrough to receive the threaded lifting rods therethrough and a jacking plate disposed above the anchor plate and also including a plurality of holes extending therethrough to receive the threaded lifting rods therethrough, and at least one hydraulic jack disposed between the anchor plate and a jacking plate to lift the jacking plate, lifting post and building.