The present invention is in related to a elevating system, more particularly to a elevating system with the functions of positioning and lifting for parts to be processed. The elevating system has a horizontal frame, a vertical frame, a horizontal reinforcement frame, a first pedestal, a elevating device, a set of adjustment stand, and a set of fixed base.

The present invention is in related to a elevating system, more particularly to a elevating system with the functions of positioning and lifting for parts to be processed. The elevating system has a horizontal frame, a vertical frame, a horizontal reinforcement frame, a first pedestal, a elevating device, a set of adjustment stand, and a set of fixed base.

A lift assembly having a base, a platform moveable relative to the base between a raised position and a lowered position, and a scissor mechanism coupled to the base and to the platform to move the platform relative to the base. The scissor mechanism includes a first arm, a second arm, a third arm, and a fourth arm supported by the base and extending toward the platform. The first and second arms, as well as the third and fourth arms, are pivotable relative to one another to define a pair of scissor arms to assist the platform in moving between the raised position and the lowered position. A drive mechanism is disposed between the pairs of scissor arms to move the platform between the raised position and the lowered position. The drive mechanism includes a carriage coupled to the base such that the drive mechanism is moveable relative to the base.

A lift assembly having a base, a platform moveable relative to the base between a raised position and a lowered position, and a scissor mechanism coupled to the base and to the platform to move the platform relative to the base. The scissor mechanism includes a first arm, a second arm, a third arm, and a fourth arm supported by the base and extending toward the platform. The first and second arms, as well as the third and fourth arms, are pivotable relative to one another to define a pair of scissor arms to assist the platform in moving between the raised position and the lowered position. A drive mechanism is disposed between the pairs of scissor arms to move the platform between the raised position and the lowered position. The drive mechanism includes a carriage coupled to the base such that the drive mechanism is moveable relative to the base.

Embodiments of the inventive subject matter are directed to vertically stabilized platforms. These platforms have a top portion that moves only along a single axis (e.g., vertically up and down), and a bottom portion that remains stationary relative to a reference frame. The top portion is coupled with the bottom portion by scissor linkages that are all configured to slide on one end to allow the top portion to move up and down without any perturbations or movements along any other axes. Stabilization in some embodiments is accomplished by incorporating struts that couple with both the bottom portion (either directly or indirectly) and two of the scissor linkages. Struts can include both a damper and a spring and can be selected based on anticipated load to be stabilized. Embodiments can be mounted on, e.g., truck beds, ships, or other surfaces that can move, giving rise to a need for a stabilized platform.

Embodiments of the inventive subject matter are directed to vertically stabilized platforms. These platforms have a top portion that moves only along a single axis (e.g., vertically up and down), and a bottom portion that remains stationary relative to a reference frame. The top portion is coupled with the bottom portion by scissor linkages that are all configured to slide on one end to allow the top portion to move up and down without any perturbations or movements along any other axes. Stabilization in some embodiments is accomplished by incorporating struts that couple with both the bottom portion (either directly or indirectly) and two of the scissor linkages. Struts can include both a damper and a spring and can be selected based on anticipated load to be stabilized. Embodiments can be mounted on, e.g., truck beds, ships, or other surfaces that can move, giving rise to a need for a stabilized platform.

Embodiments of the inventive subject matter are directed to vertically stabilized platforms. These platforms have a top portion that moves only along a single axis (e.g., vertically up and down), and a bottom portion that remains stationary relative to a reference frame. The top portion is coupled with the bottom portion by scissor linkages that are all configured to slide on one end to allow the top portion to move up and down without any perturbations or movements along any other axes. Stabilization in some embodiments is accomplished by incorporating struts that couple with both the bottom portion (either directly or indirectly) and two of the scissor linkages. Struts can include both a damper and a spring and can be selected based on anticipated load to be stabilized. Embodiments can be mounted on, e.g., truck beds, ships, or other surfaces that can move, giving rise to a need for a stabilized platform.

Embodiments of the inventive subject matter are directed to vertically stabilized platforms. These platforms have a top portion that moves only along a single axis (e.g., vertically up and down), and a bottom portion that remains stationary relative to a reference frame. The top portion is coupled with the bottom portion by scissor linkages that are all configured to slide on one end to allow the top portion to move up and down without any perturbations or movements along any other axes. Stabilization in some embodiments is accomplished by incorporating struts that couple with both the bottom portion (either directly or indirectly) and two of the scissor linkages. Struts can include both a damper and a spring and can be selected based on anticipated load to be stabilized. Embodiments can be mounted on, e.g., truck beds, ships, or other surfaces that can move, giving rise to a need for a stabilized platform.