A lifting machine comprising a base and a carrying platform, wherein a lifting mechanism for lifting the carrying platform and a power mechanism for supplying power to the lifting mechanism are arranged between the carrying platform and the base. The lifting machine of the present disclosure has simple structure, small volume and good portability, which may satisfy various needs of mobile use such as mobile maintenance, on-the-spot service and road rescue.

A lifting apparatus for an industrial processing station, i.e., a lifting table for conveying a body shell during series production of motor vehicles, wherein the lifting apparatus conveys a workpiece on a top frame moved in a purely vertical direction, where the lifting apparatus has, as first vertical guide, at least one isosceles slider-crank mechanism actuated by a motorized drive element, where the isosceles slider-crank mechanism, which consists of a fixed-bearing swing arm with a swing-arm bearing thereof, a control arm with a control-arm guide, a control-arm central joint and a fixed-bearing joint connected to the top frame, is configured to move via actuation of the tie rod acting on the fixed-bearing swing arm, and where particular use of an isosceles slider-crank mechanism, which is also known literature as a Scott-Russell mechanism, provides a simple and effective vertical guide system that allows low overall heights with a minimum production outlay.

In embodiments, a conveying apparatus includes a base, a wheel, a lifter, a lower side distance detection unit, and a control unit. The wheel is connected to the base via a suspension mechanism and is rotatable. The lifter is able to be lifted and lowered with respect to the base in a direction of a conveyance target. The lower side distance detection unit detects a lower side distance between a reference surface of the base and a ground contact surface of the wheel. The control unit controls a lifting/lowering operation of the lifter and rotative driving of the wheel. The control unit causes the lifter to be lifted and lowered based on the lower side distance and to support a part of a weight of the conveyance target, and causes the wheel to be rotatively driven and to convey the conveyance target.

The scissor lift includes a horizontally collapsible base, a vertically collapsible frame mounted on the base, a horizontally foldable platform mounted on top of the vertically collapsible frame, and a plurality of wheels mounted on the base. The horizontally and vertically collapsible scissor lift is steerable and the plurality of wheels may be coupled such that they each rotate about a vertical axis synchronously with respect to one another to steer the lift. Further, at least one of the wheels may be self-driving to controllably propel the horizontally and vertically collapsible scissor lift. One or more winches with associated cables may be used to selectively raise and lower the vertically collapsible frame.

An elevation device for a refrigerator drawer includes a lower frame, an upper frame, and a lifting assembly. The lifting assembly includes: a pair of first rods having a first end rotatably coupled to the lower frame and a second end that translates along the upper frame; and a pair of second rods having a first end rotatably coupled to the upper frame and a second end that translates along the lower frame. The second rod is rotatably coupled to and crosses the first rod. The first or second rod is connected to a driving device via the first end of the first or second rod, with the driving device disposed outside the upper frame and the lower frame. The first and second rods are configured to, based on power from the driving device, rotate about their respective first ends to elevate the upper frame relative to the lower frame.

A refrigerator includes a cabinet, a front panel door part, a drawer part, a driving device located in the front panel door part, and an elevation device located in the drawer part. The elevation device includes a lifting assembly including rods that elevate an object in the drawer part relative to the drawer part. The driving device includes a motor assembly that provides power to the elevation device, a screw assembly connected to the motor assembly, a guide member disposed at a side of the screw assembly and configured to guide movement of a rotation gear of the screw assembly, and a lever connected to the rotation gear and configured to, as the lever rotates about the lever rotation shaft based on the rotation gear moving along the guide member, apply force that causes the rods to rotate about rod rotation shafts to elevate the elevation device.

In embodiments, a conveying apparatus includes a base, a wheel, a lifter, a lower side distance detection unit, and a control unit. The wheel is connected to the base via a suspension mechanism and is rotatable. The lifter is able to be lifted and lowered with respect to the base in a direction of a conveyance target. The lower side distance detection unit detects a lower side distance between a reference surface of the base and a ground contact surface of the wheel. The control unit controls a lifting/lowering operation of the lifter and rotative driving of the wheel. The control unit causes the lifter to be lifted and lowered based on the lower side distance and to support a part of a weight of the conveyance target, and causes the wheel to be rotatively driven and to convey the conveyance target.

A transportation apparatus is described herein that comprises a lifting apparatus having a support structure, a base portion and a scissor-lift device disposed between the support structure and the base portion. The scissor-lift device having a first arm having a first end and a second end pivotally connected to a second arm having a first end and a second end. The first end of the first arm is hingedly connected to the base portion and the second end of the first arm is slidably engaged with the support structure. Similarly, the first end of the second arm is slidably engaged with the base portion and the second end of the second arm is hingedly connected to the support structure. A method of raising centrifuge equipment to a desired height via the lifting apparatus is also described herein.

A transportation apparatus is described herein that comprises a lifting apparatus having a support structure, a base portion and a scissor-lift device disposed between the support structure and the base portion. The scissor-lift device having a first arm having a first end and a second end pivotally connected to a second arm having a first end and a second end. The first end of the first arm is hingedly connected to the base portion and the second end of the first arm is slidably engaged with the support structure. Similarly, the first end of the second arm is slidably engaged with the base portion and the second end of the second arm is hingedly connected to the support structure. A method of raising centrifuge equipment to a desired height via the lifting apparatus is also described herein.

A storage device for a vehicle is disclosed. In one embodiment, the storage device has an exterior housing, an interior container, and a scissor lift mechanism. The scissor lift mechanism is located within the exterior housing and is operatively connected to the interior container. The scissor lift mechanism has a raised position and a lowered position. The interior container is within the exterior housing when the scissor lift mechanism is in the lowered position. The interior container is at least partially located outside the exterior housing when the scissor lift mechanism is in the raised position. The scissor lift mechanism includes crossed bars that pivot about a bolt or pin in scissor-like fashion to raise or lower the interior container. An actuator pivots the cross bars to the raised position and is oriented and connected to the crossed bars to have an upward vertical force component throughout the raising operation.