A lift device includes a base, a retractable lift mechanism, a work platform, and a lift controller. The retractable lift mechanism is moveable between an extended position and a retracted position. The work platform is configured to support a load and is coupled to and supported by the retractable lift mechanism. The linear actuator is configured to selectively move the retractable lift mechanism between the extended position and the retracted position. The linear actuator has an electric motor and an electromagnetic brake. The lift controller is in communication with the linear actuator and is configured to determine the load supported by the work platform based on the actuator force applied to the work platform and the height of the work platform.

An apparatus includes a housing, a piston, an input cavity, a first actuating shaft, a first output cavity, and a second output cavity. The housing comprises an input port, a first output port, a second output port, a first end, a second end, a first wide wall having a first internal surface, and a chamber at least partially defined by the first end and the first internal surface. The piston is able to actuate along the first internal surface of the first side wall. The input cavity is in fluid communication with the input port. The first output cavity is in fluid communication with the first output port. The second output cavity is in fluid communication with the second output port. The first actuating shaft is fixed to the piston and helps fluidly isolate the first output port from the second output port.

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.

A vehicle washing system includes a frame disposed above a vehicle treatment area, and a reciprocal guide system coupled to the frame. The guide system is configured to move vertically relative to the frame, and supports a vehicle treatment component such as a rotatable brush. The brush may be lowered and raised relative to the vehicle treatment area by extending or retracting the guide track. When the guide system is retracted upward, there are no downwardly extending guides or rails that extend downward from the bottom of the guide system. The guide system is collapsible in a vertical direction, and may be a scissors mechanism or a telescoping mechanism or other collapsible mechanism. The guide system may be actuated directly or may be actuated dependent on a separate vertical drive mechanism, such as a windable belt.

A vehicle wash system includes a frame suspended above a vehicle treatment area. A pivotable frame is pivotally coupled to the frame, and an extendable and retractable linear frame is coupled to the pivotable frame and configured to extend downward from the pivotable frame and retract upward toward the pivotable frame. A top brush is coupled to a lower end of the linearly frame, and is extendable toward engagement with a vehicle. The top brush is also pivotable relative to a vertical position via pivoting of the pivotable frame, and the top brush is pivotable at different degrees of extension of the linear frame. The linear frame and the top brush may pivot in response to contact from the vehicle.

A vehicle wash system includes a vehicle treatment area and an overhead frame portion supporting a pair of side brushes. The side brushes are configured to treat the lateral sides of the vehicle and may also treat the front and back of the vehicle. The side brushes are configured to pivot between a vertical position and an outwardly angled position, in which the side brushes are generally aligned with the side glass of the vehicle windows. The side brushes may travel along the side of the vehicle in both the vertical and pivoted orientations. The side brushes may make multiple passes along the side of the vehicle, and the side brushes may change orientation during or between passes to treat different segments of the vehicle.

A self-adaptive luggage transfer device and system. The self-adaptive luggage transfer device includes a base, a conveyor mechanism, a lifting mechanism and a self-adaptive extendable transfer mechanism. The lifting mechanism is arranged between the conveyor mechanism and the base and is configured to drive the conveyor mechanism to lift. The self-adaptive extendable transfer mechanism is obliquely arranged between the conveyor mechanism and the base and is in transmission connection with the lifting mechanism. Two ends of the self-adaptive extendable transfer mechanism are movably connected to an output end of the conveyor mechanism and the base, respectively. The conveyor mechanism is configured to drive an end of the self-adaptive extendable transfer mechanism connected to the conveyor mechanism to lift in a first direction, and the lifting mechanism is configured to drive at least one end of the self-adaptive extendable transfer mechanism to move in a second direction.

A scissor lift (100) for use in a stage assembly includes a base portion (110) configured to be supported on a floor or other support surface and a top portion (120) configured to support a platform. A scissor arm assembly (130) connects the base portion (110) and the top portion, and a rigid chain lifting system (150) comprising a rigid chain (151) connecting the base portion (110) and the top portion (120). Extension and retraction of the rigid chain (151) causes the top portion (120) to rise and fall with respect to the base portion (110). The use of a rigid chain lifting system (150) means that the scissors (130) are provided for guidance rather than applying load. The scissor lift (100) can be used in conjunction with one or more passive scissors (200), couplable to the scissor lift (100).

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.