The device comprises a combination of an inflatable air cushion member of a flexible but non-stretchable air tight sheet material and a support block. The inflatable air cushion member is formed as a bag unit comprising opposite layers of said sheet material provided face to face and joined along an edge area to form a double layer edge.

The device comprises a combination of an inflatable air cushion member of a flexible but non-stretchable air tight sheet material and a support block. The inflatable air cushion member is formed as a bag unit comprising opposite layers of said sheet material provided face to face and joined along an edge area to form a double layer edge.

A vehicle jacking assembly for lifting a vehicle for performing maintenance thereon includes a housing, which defines an interior space and which is can be positioned on a surface below a frame of a vehicle. A pneumatic bag is engaged to the housing and is selectively extensible therefrom through an aperture positioned in a top of the housing. A compressor and a battery are engaged to the housing and positioned in the interior space. The compressor is operationally engaged to the pneumatic bag. The battery is operationally engaged to the compressor. The battery is positioned to selectively power the compressor to inflate the pneumatic bag so that the pneumatic bag extends from the housing and contacts the frame of the vehicle to lift a corner or side of the vehicle.

A vehicle leveling device for ensuring that a vehicle is level for calibration of sensors that are installed on the vehicle is presented. A lifting jack is placed under each of the vehicle's wheels and a mounting clamp is mounted to each wheel. Each mounting clamp has a sizing frame having two ends, a clamping member slidably mounted upon each end of the sizing frame and a pair of pivotally mounted engagement hooks. A support member mounted central to the sizing frame that supports an indicator that allows a level reading to be taken. The lifting jacks may be actuated under each of the vehicle's wheels as needed the ever level indicator reads the same indicating that each wheel is coplanar and the vehicle is level.

The invention relates to an apparatus and method for automatically determining the movement space of an operating automated guided vehicle and autonomously optimizing the driving behavior thereof comprising loading in dynamic production and logistics environments, comprising the following features: The automated guided vehicle, hereinafter referred to as AGV, carries cargo (11) by means of a lifting supporting plate (10), wherein monitoring spaces (35) are calculated according to the velocity of the vehicle, the position and properties of the cargo (11), and the direction of travel.

The invention relates to an apparatus and method for automatically determining the movement space of an operating automated guided vehicle and autonomously optimizing the driving behavior thereof comprising loading in dynamic production and logistics environments, comprising the following features: The automated guided vehicle, hereinafter referred to as AGV, carries cargo (11) by means of a lifting supporting plate (10), wherein monitoring spaces (35) are calculated according to the velocity of the vehicle, the position and properties of the cargo (11), and the direction of travel.

The lifting/lowering device (100) includes: a first plate member (51); a second plate member (52) to which the first plate member (51) is rotatably connected; a first expansion and contraction bag (31) which is disposed between the first plate member (51) and the second plate member (52) and is capable of expanding and contracting by gas supply and exhaust; a third plate member (53) to which the second plate member (52) is rotatably connected; a second expansion and contraction bag which is disposed between the second plate member (52) and the third plate member (53) and is capable of expanding and contracting by gas supply and exhaust. The first plate member (51), the first expansion and contraction bag (31), the second plate member (52), the second expansion and contraction bag (32) and the third plate member (53) are disposed so as to overlap in a plan view.

The lifting/lowering device (100) includes: a first plate member (51); a second plate member (52) to which the first plate member (51) is rotatably connected; a first expansion and contraction bag (31) which is disposed between the first plate member (51) and the second plate member (52) and is capable of expanding and contracting by gas supply and exhaust; a third plate member (53) to which the second plate member (52) is rotatably connected; a second expansion and contraction bag which is disposed between the second plate member (52) and the third plate member (53) and is capable of expanding and contracting by gas supply and exhaust. The first plate member (51), the first expansion and contraction bag (31), the second plate member (52), the second expansion and contraction bag (32) and the third plate member (53) are disposed so as to overlap in a plan view.

A system includes a plurality of inflation balls configured to be launched and a connection mechanism. The plurality of inflation balls are configured to modularly inflate with respect to one another to create a combined modular volume. The connection mechanism is configured to allow the modular inflation of the plurality of inflation balls with respect to one another.

A system includes a plurality of inflation balls configured to be launched and a connection mechanism. The plurality of inflation balls are configured to modularly inflate with respect to one another to create a combined modular volume. The connection mechanism is configured to allow the modular inflation of the plurality of inflation balls with respect to one another.