An inverted carrier lift and method is disclosed. The inverted carrier lift includes a trolley movable along an overhead conveyor and a carrier for supporting a workpiece to undergo an assembly or manufacturing process. The carrier is movable relative to the trolley from a raised position to a lowered position by a motor mounted engaged with a lifting mechanism onboard the trolley. On rotation of the motor, the carrier and supported workpiece is lowered or raised to position the workpiece in the workstation for processing. The workpiece may be disengaged by the carrier for support of the workpiece by one of many different fixtures depending on the processing. Following processing, the workpiece is re-engaged by the carrier, moved to a raised position and the trolley is transferred to a subsequent workstation.

A gravity descending and motorized ascending load carrying platform provides easy loading and installation underneath a ceiling. All mechanical and electrical components needed for operation of the platform travel with the platform. The mechanical components enable the platform to descend/ascend parallel to the floor, to hover parallel and over the floor when the platform supporting legs remain stored within its structure, to tilt when the cables on one side of the platform are under zero gravity force while the cables on the other side are still subjected to gravity force, to hover in a tilted position over the floor if the short supporting legs are not in contact with the floor while its long supporting legs are, to rest on its supporting legs whether in a position parallel to the floor or in a position forming a slope with the floor.

The invention relates to a handling device (1), having a drive carriage (2) that is movable relative to a carrier (3), wherein a scissor lift (7) having a plurality of scissor-lift members (8) is arranged with its first end on the drive carriage (2), wherein a carrier plate (11) that is movable relative to the drive carriage (2) by means of the scissor lift (7) is arranged at the second end of the scissor lift (7), wherein: a gripping tool is arranged on the carrier plate (11), the scissor-lift members (8) are hollow throughout and are sealingly interconnected in order to actuate the gripping tool by means of a gaseous medium.

A lifting device for mounting to a vehicle includes a lifting surface having dimensions that fit a cargo area of the vehicle, the lifting surface being configured to carry a cargo; a telescoping assembly coupled to the vehicle and configured to horizontally extend by telescoping further than the vehicle; a lifting mechanism coupled to the telescoping assembly and to the lifting surface, the lifting mechanism being configured to move the lifting surface vertically to lift or lower the lifting surface. The lifting device further includes an actuating assembly in communication with the telescoping assembly and the lifting mechanism, the actuating assembly being configured to actuate the telescoping assembly to move horizontally in and out of the cargo area of the vehicle and to actuate the lifting mechanism to move vertically down to a loading surface and up to the cargo area of the vehicle.

A hoisting device includes a first part movably connected to a running rail above it, and a second part suspended under the first part, and a hoist arranged between the first part and second part to lift and lower the second part. In addition, a scissors mechanism is arranged between the first part and second part to prevent the horizontal movement and twisting movement of the second part in relation to the first part. Such a hoisting device is advantageous, because the second part of the hoisting device may be lifted and lowered at the same time as the first part is moved without any notable swinging exerted on the second part.

A drop table can provide optimized lifting operations by employing motor feedback to generate and adapt a lifting strategy that controls lifting parameters. A lifting module may be connected to a first motor and consist of a lifting controller. The first motor can be mechanically coupled to a first lifting column by a first transmission and to a second lifting column by a second transmission. A service component can be lowered with the first and second lifting columns by activating the first motor that provides motor feedback. A lifting strategy can be generated in response to the motor feedback and subsequently executed to move the service component to a servicing position.

A movable platform storage device for off-floor storage including a substantially vertical support member (column) anchored to a concrete floor that defines the deployment axis. The movable platform is connected to the vertical support member (column) and can be raised or lowered to one of any plurality of positions oriented generally transversely to the deployment axis by means of an electric servo-motor power unit and wire cable lifting system. The column is available in different lengths to accommodate ceiling height limitations and desired raised platform heights. The platform storage device can be used as a single stand-alone unit or multiple storage units can be combined in a configuration that creates a unique electric/mechanical powered elevated mezzanine system with increase elevated storage area. The servo motor electric/mechanical wireless power system on each of the combined storage lifts can be programmed identically so that all platforms will raise and lower simultaneously. The strength of the unique angled column design and wrap around moveable carriage equipped with a back-brace system (that may be modified) allows the invention to support and lift a variety of adjustable platform configurations that may be needed for various storage applications. Most customers will want to install the storage lift column as close to a wall as possible to maximize the garage floor storage space under the raised platform. The standard adjustable platform is either a square or rectangular configuration. This platform configuration would not allow the column to be placed tightly into a corner and valuable under platform garage floor storage area would be lost. The issue is resolved with a “corner” designed platform that allows the column to be installed very close to the interior corner of the garage. This uniquely designed platform can be manufactured in various sizes. Alternative adjustable platform configurations can also be used. These various platform configurations can be installed on the invention because of the unique wrap around carriage's ability to support alternative back brace systems and under platform support systems to which various platform sizes and configurations may be attached. These (almost infinite) adjustable platform configurations allow the column to be installed and operated so that a minimum amount of available garage floor storage space is compromised.

A lifting system for lifting a lifting platform through use of a lifting assembly. The lifting assembly having a vertical support rail and a control arm that is pivotally connected to the vertical support rail about a first pivot axis. A support beam being connected to the lifting platform the support beam having an engaging member near its proximal end that engages the vertical support rail to provide translational movement of the support beam along the vertical support rail. The control arm having an engaging member engaging the support beam at a location spaced from the vertical support rail to provide translational movement of the engaging member with respect to the support beam. A stabilizer arm is pivotally connected to the control arm and pivotally near the proximal end of the support beam. Movement of the lifting platform causing translational movement of the engagement members.

The invention relates to a handling device (1) comprising a drive carriage (2) that can be moved in relation to a beam (3), a scissor lift (7) comprising a plurality of scissor lift members (8) being arranged on the drive carriage (2) with the first end thereof, and a beam plate (11) that can move in relation to the drive carriage (2) by means of the scissor lift (7) being arranged on the second end of the scissor lift (7). A grip tool is arranged on the beam plate (11), and a drive (18) for actuating the scissor lift (7) is arranged on the drive carriage (2). The beam (3) has an H-shaped cross-section formed from a middle limb (25) and upper and lower limbs (26, 27) projecting from said middle limb.

The invention relates to a handling device (1), having a drive carriage (2) that is movable relative to a carrier (3), wherein a scissor lift (7) having a plurality of scissor-lift members (8) is arranged with its first end on the drive carriage (2), wherein a carrier plate (11) that is movable relative to the drive carriage (2) by means of the scissor lift (7) is arranged at the second end of the scissor lift (7), wherein: a gripping tool is arranged on the carrier plate (11), the scissor-lift members (8) are hollow throughout and are sealingly interconnected in order to actuate the gripping tool by means of a gaseous medium.