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.

The present invention is a vehicle lift. In particular, the present invention is directed to a vehicle lift that has an adjustable vehicle receiver mount that is vertically adjustable and horizontally adjustable. The vehicle receiver mount has two lifting arms and two support arms pivotally attached. The lifting arms are each pivotally attached to a platform shoe and the support arms are attached to vertical rotation cups. The extruded aluminum vehicle platform is pivotally mounted on four pivot arms. The pivot arms are pivotally attached to the platform. The lift is attached to the vehicle receiver mount and is also attached to a crossbar mounted between the two lifting arms. The drive is preferably a single unit hydraulic drive. The vehicle receiver mount also has a towing receiver. The vehicle platform preferably has two channels with tethering and anchoring hardware, a vehicle stop and entrance ramp mounted on the channels.

The present invention is a vehicle lift. In particular, the present invention is directed to a vehicle lift that has an adjustable vehicle receiver mount that is vertically adjustable and horizontally adjustable. The vehicle receiver mount has two lifting arms and two support arms pivotally attached. The lifting arms are each pivotally attached to a platform shoe and the support arms are attached to vertical rotation cups. The extruded aluminum vehicle platform is pivotally mounted on four pivot arms. The pivot arms are pivotally attached to the platform. The lift is attached to the vehicle receiver mount and is also attached to a crossbar mounted between the two lifting arms. The drive is preferably a single unit hydraulic drive. The vehicle receiver mount also has a towing receiver. The vehicle platform preferably has two channels with tethering and anchoring hardware, a vehicle stop and entrance ramp mounted on the channels.

A carrier body of a lift carrier includes: a pair of wheel support mechanisms that supports a first wheel of a vehicle to be transported; a frame-shaped structure connected to the wheel support mechanisms; and one or more lifting units that lift or lower the pair of wheel support mechanisms. The frame-shaped structure includes a frame portion and an upper plate and is open on a lower side of the carrier body. Each of the lifting units includes a wheel support and an air spring. The air spring is interposed between the wheel support and an upper plate. As the air spring expands, the wheel support is rotated about one end of the wheel support rotatably supported by the frame portion, and is deployed out of the frame-shaped structure.

A carrier body of a lift carrier includes: a pair of wheel support mechanisms that supports a first wheel of a vehicle to be transported; a frame-shaped structure connected to the wheel support mechanisms; and one or more lifting units that lift or lower the pair of wheel support mechanisms. The frame-shaped structure includes a frame portion and an upper plate and is open on a lower side of the carrier body. Each of the lifting units includes a wheel support and an air spring. The air spring is interposed between the wheel support and an upper plate. As the air spring expands, the wheel support is rotated about one end of the wheel support rotatably supported by the frame portion, and is deployed out of the frame-shaped structure.

A lift system includes a lift structure and a lift structure actuation assembly. The lift structure can actuate between a lowered position and a raised position. The lift structure actuation assembly includes a hydraulic cylinder operably coupled with the lift structure, a motor, a hydraulic pump powered by the motor, and a flow control assembly that can limit hydraulic fluid exiting the hydraulic cylinder to a maximum volumetric flow rate. The hydraulic pump can pump hydraulic fluid into the hydraulic cylinder in order to raise the lift structure. The lift structure actuation assembly can lower the lift structure in a fast descent mode and a slow decent mode. In the slow descent mode, the hydraulic pump pumps hydraulic fluid toward the hydraulic cylinder such that the hydraulic fluid exits the hydraulic cylinder at a slower volumetric flow rate compared to the maximum volumetric flow rate.

A lift system includes a lift structure and a lift structure actuation assembly. The lift structure can actuate between a lowered position and a raised position. The lift structure actuation assembly includes a hydraulic cylinder operably coupled with the lift structure, a motor, a hydraulic pump powered by the motor, and a flow control assembly that can limit hydraulic fluid exiting the hydraulic cylinder to a maximum volumetric flow rate. The hydraulic pump can pump hydraulic fluid into the hydraulic cylinder in order to raise the lift structure. The lift structure actuation assembly can lower the lift structure in a fast descent mode and a slow decent mode. In the slow descent mode, the hydraulic pump pumps hydraulic fluid toward the hydraulic cylinder such that the hydraulic fluid exits the hydraulic cylinder at a slower volumetric flow rate compared to the maximum volumetric flow rate.

A vehicle lift assembly includes a control unit and a first lift device. The first lift device includes a lifting carriage, a lift actuation assembly that can actuate the lifting carriage between a lowered position and a raised position, and an indicator assembly. The indicator assembly can generate a visual indicator on a surface proximal to the first lift device under control of the control unit, such as one selected as a function of a state of the first lift device.

A vehicle lift assembly includes a control unit and a first lift device. The first lift device includes a lifting carriage, a lift actuation assembly that can actuate the lifting carriage between a lowered position and a raised position, and an indicator assembly. The indicator assembly can generate a visual indicator on a surface proximal to the first lift device under control of the control unit, such as one selected as a function of a state of the first lift device.

An apparatus for lifting a vehicle comprises at least two posts, at least two lifting assemblies, at least one actuator, and an overhead assembly. The at least two posts are configured to cooperatively raise a vehicle. Each lifting assembly is associated with a corresponding post. The at least two lifting assemblies are configured to move simultaneously to raise a vehicle. The at least one actuator is in communication with the at least two lifting assemblies. The overhead assembly is secured to each of the at least two posts such that the overhead assembly extends from one post to another post. The overhead assembly is selectively movable relative to the at least two posts between a first position and a second position.