A train system having a train element consisting of a single train car configured to travel along a rail system, and including an enclosed first use area and a flat car section. The flat car section includes a drive-on loading area configured to enable a vehicle to be driven onto the flat car section and then transported by the train car. Train element includes a drive system for moving the train element along the rail system and a control system for autonomously controlling the operation of the train car. A sensor system collects sensor data and provides the sensor data, as inputs, to the control system. Sensor data is used by the control system in operating the train car. Lastly, a power system independently powers the drive system and control system.

A train system having a train element consisting of a single train car configured to travel along a rail system, and including an enclosed first use area and a flat car section. The flat car section includes a drive-on loading area configured to enable a vehicle to be driven onto the flat car section and then transported by the train car. Train element includes a drive system for moving the train element along the rail system and a control system for autonomously controlling the operation of the train car. A sensor system collects sensor data and provides the sensor data, as inputs, to the control system. Sensor data is used by the control system in operating the train car. Lastly, a power system independently powers the drive system and control system.

A high-speed mass transport system having a monorail track disposed along a travel path and a monorail car with a driving unit suspended from the monorail track and a commuter car selectively attached to the driving unit. The high-speed mass transport system having also having an omnidirectional wheel transporter being adapted to selectively raise and lower to engage the commuter car, thus allowing the commuter car to detach from and reattach to the driving unit.

A high-speed mass transport system having a monorail track disposed along a travel path and a monorail car with a driving unit suspended from the monorail track and a commuter car selectively attached to the driving unit. The high-speed mass transport system having also having an omnidirectional wheel transporter being adapted to selectively raise and lower to engage the commuter car, thus allowing the commuter car to detach from and reattach to the driving unit.

A cross-laminated timber processing equipment comprises a longitudinal board loading mechanism, a transverse board loading mechanism, an adhesive spraying mechanism, laying cars, presses, a transfer car, and an unloading car. The longitudinal board loading mechanism lays longitudinal boards on a laying car at an assembly station, and the transverse board loading mechanism lays transverse boards on the laying car. The longitudinal boards and the transverse boards are perpendicularly and alternately laid layer by layer. The adhesive spraying mechanism is provided above the assembly station, and sprays an adhesive on the upper surfaces of assembled boards. The transfer car moves back and forth between a conveying station and an idle press through the assembly station, carries the laying cars and the assembled boards, and feeds the laying cars and the assembled boards into the presses for compaction. The unloading car moves back and forth between a press completing compaction and an unloading station, and conveys an idle laying car to the assembly station. Compared with other international similar equipment, this equipment can implement fully-automatic cross-laminated timber processing and production, and has low apparatus cost, high production capacity, high processing efficiency, and a great leading advantage.

An apparatus for calibrating a rail scale is described. The apparatus is attached to a first trailer and a second trailer and the move from a first site to a rail scale site over highways and roads. The apparatus includes a calibration vehicle, bins of weights, and a crane. The crane positions the calibration vehicle, that is self-propelled, on rails and loads weights on the calibration vehicle. The combined weight of the calibration vehicle and weights has qualifying values that ensures a scale is in compliance rail scale calibration standards.

An apparatus for calibrating a rail scale is described. The apparatus is attached to a first trailer and a second trailer and the move from a first site to a rail scale site over highways and roads. The apparatus includes a calibration vehicle, bins of weights, and a crane. The crane positions the calibration vehicle, that is self-propelled, on rails and loads weights on the calibration vehicle. The combined weight of the calibration vehicle and weights has qualifying values that ensures a scale is in compliance rail scale calibration standards.

A robotic service device for a robotic picking system grid. The robotic service device can be configured for driving to any location on the grid in order to restart malfunctioning robotic load handling devices or to perform maintenance operations or cleaning in situ. Additionally, the service device may be used to rescue robotic load handling devices operational in the picking system. The robotic service device can include a releasable docking mechanism to enable it to dock and latch on to malfunctioning load handling devices. A deployable, releasable electrical connecting device is shaped to conform to a charging, powering, or battery component of one or more of the load handling devices.

A robotic service device for a robotic picking system grid. The robotic service device can be configured for driving to any location on the grid in order to restart malfunctioning robotic load handling devices or to perform maintenance operations or cleaning in situ. Additionally, the service device may be used to rescue robotic load handling devices operational in the picking system. The robotic service device can include a releasable docking mechanism to enable it to dock and latch on to malfunctioning load handling devices. A deployable, releasable electrical connecting device is shaped to conform to a charging, powering, or battery component of one or more of the load handling devices.

A device for securing a railway apparatus, comprising a support platform and a mechanism for securing the apparatus on the platform, the securing mechanism comprising: at least one guiding slide extending in a longitudinal direction, supported by the support platform; and a member for attaching the apparatus to the platform capable of moving along the guiding slide. The securing mechanism also comprises an upper beam supporting the guiding slide and a lower beam, connected by means of a connecting member so as to be movable in a direction perpendicular to the longitudinal direction of the guiding slide. Moreover, the securing mechanism comprises locking mechanism configured to prevent the movement of the upper beam with respect to the lower beam in said perpendicular direction.