A service line for servicing a vehicle includes stations disposed in a serial direction along the service line, each station including a pair of conveyors disposed along the serial direction, a driver side conveyor configured to support and convey driver side tires of the vehicle and a passenger side conveyor configured to support and convey passenger side tires of the vehicle.

A service line for servicing a vehicle includes stations disposed in a serial direction along the service line, each station including a pair of conveyors disposed along the serial direction, a driver side conveyor configured to support and convey driver side tires of the vehicle and a passenger side conveyor configured to support and convey passenger side tires of the vehicle.

A picking station for picking goods has a source container conveyor for automated transporting of source containers, a target container conveyor for automated transporting of target containers and a fully automated robot system. The source container conveyor includes a first removal area, where a first source container is provisioned, and a second removal area, where a second source container is provisioned. The target container conveyor includes a first loading area, where a first target container is provisioned, and a second loading area, where a second target container is provisioned. The robot system includes a robot having a gripping unit configured to remove goods according to different orders from the first source container and/or second source container and place them into the first target container and/or second target container, and a sensor system for capturing the goods in the first and second source containers. A method automatically picks goods.

A picking station for picking goods has a source container conveyor for automated transporting of source containers, a target container conveyor for automated transporting of target containers and a fully automated robot system. The source container conveyor includes a first removal area, where a first source container is provisioned, and a second removal area, where a second source container is provisioned. The target container conveyor includes a first loading area, where a first target container is provisioned, and a second loading area, where a second target container is provisioned. The robot system includes a robot having a gripping unit configured to remove goods according to different orders from the first source container and/or second source container and place them into the first target container and/or second target container, and a sensor system for capturing the goods in the first and second source containers. A method automatically picks goods.

The present invention discloses a vehicle inspection system, comprising: an inspection passage; a vehicle dragging system arranged in the inspection passage, wherein the vehicle dragging system comprises a first dragging means and a second dragging means, which are sequentially arranged along a vehicle dragging direction, and in the vehicle dragging direction, the first dragging means is arranged at the upstream of the second dragging means, and a separating section is arranged between the first dragging means and the second dragging means, so that the first dragging means and the second dragging means are separated by a preset distance in the vehicle dragging direction; and a radiographic inspection system, wherein at least a part of paths of the beams of the radiographic inspection system passes through the separating section between the first dragging means and the second dragging means.

The present invention discloses a vehicle inspection system, comprising: an inspection passage; a vehicle dragging system arranged in the inspection passage, wherein the vehicle dragging system comprises a first dragging means and a second dragging means, which are sequentially arranged along a vehicle dragging direction, and in the vehicle dragging direction, the first dragging means is arranged at the upstream of the second dragging means, and a separating section is arranged between the first dragging means and the second dragging means, so that the first dragging means and the second dragging means are separated by a preset distance in the vehicle dragging direction; and a radiographic inspection system, wherein at least a part of paths of the beams of the radiographic inspection system passes through the separating section between the first dragging means and the second dragging means.

A conveyor system with a pop-up transfer assembly for transferring articles off the end of conveyor belt having protrusions extending above the belt's outer conveying surface. The transfer assembly is cantilevered over the reversing path of the conveyor belt from a pivot. When a protrusion from the belt hits the transfer assembly, the transfer assembly pivots away from the belt about the pivot. When the protrusion is clear, the transfer assembly drops, by gravity, back to its home position proximate the belt. A bilateral transfer assembly is cantilevered in opposite directions to transfer articles off the end of one conveyor belt onto another conveyor belt that may or may not have protrusions. The transfer assembly can have powered driving surfaces to aid the transfer of articles.

A conveyor system with a pop-up transfer assembly for transferring articles off the end of conveyor belt having protrusions extending above the belt's outer conveying surface. The transfer assembly is cantilevered over the reversing path of the conveyor belt from a pivot. When a protrusion from the belt hits the transfer assembly, the transfer assembly pivots away from the belt about the pivot. When the protrusion is clear, the transfer assembly drops, by gravity, back to its home position proximate the belt. A bilateral transfer assembly is cantilevered in opposite directions to transfer articles off the end of one conveyor belt onto another conveyor belt that may or may not have protrusions. The transfer assembly can have powered driving surfaces to aid the transfer of articles.

Provided is a relay device capable of moving objects to be conveyed from a conveying section of a continuous conveying system to a conveying section of an intermittent conveying system in various modes. The relay device includes: a first conveying section that conveys the objects to be conveyed, continuously in a forward direction in a first direction; a second conveying section that transfers a plurality of assembly sections intermittently in the forward direction in the first direction; a relay conveying section provided between the first conveying section and the second conveying section; and a relay driving section that moves the relay conveying section in the first direction. The relay driving section moves the relay conveying section in the forward direction in the first direction, at the same speed as a speed at which the plurality of objects are conveyed in the forward direction of the first direction by the first conveying section, at least while the first pusher moves the plurality of objects in the forward direction of the second direction.

Provided is a relay device capable of moving objects to be conveyed from a conveying section of a continuous conveying system to a conveying section of an intermittent conveying system in various modes. The relay device includes: a first conveying section that conveys the objects to be conveyed, continuously in a forward direction in a first direction; a second conveying section that transfers a plurality of assembly sections intermittently in the forward direction in the first direction; a relay conveying section provided between the first conveying section and the second conveying section; and a relay driving section that moves the relay conveying section in the first direction. The relay driving section moves the relay conveying section in the forward direction in the first direction, at the same speed as a speed at which the plurality of objects are conveyed in the forward direction of the first direction by the first conveying section, at least while the first pusher moves the plurality of objects in the forward direction of the second direction.