An apparatus for use in delivering cup-like containers to a container receiving path of a packaging station includes: a first infeed tower and a second infeed tower, each of the first infeed tower and the second infeed tower having: a stationary upper segment and a movable lower segment, wherein the movable lower segment is movable between a load position, in alignment with the stationary upper segment for receiving cup-like containers from the stationary upper segment, and an unload position, in alignment with the container receiving path for delivering cup-like containers to the container receiving path; a transfer gate controllable to block feed of cup-like containers from the stationary upper segment down into the movable lower segment; and an outlet gate controllable to block feed of cup-like containers down out of the movable lower segment.

A bag handling system for a mass transit environment is disclosed. The bag handling system includes a first set of autonomous automated guided vehicles and a second set of autonomous automated guided vehicles. The first and second sets of autonomous automated guided vehicles are configured to transport bags through one or more bag processing areas.

A bag handling system for a mass transit environment is disclosed. The bag handling system includes a first set of autonomous automated guided vehicles and a second set of autonomous automated guided vehicles. The first and second sets of autonomous automated guided vehicles are configured to transport bags through one or more bag processing areas.

Present embodiments relate to a tie plate dispenser which selectively changes the orientation of the tie plates being ejected, if needed. An actuator is used to flip the tie plate as it falls from an ejection location of the dispenser.

Present embodiments relate to a tie plate dispenser which selectively changes the orientation of the tie plates being ejected, if needed. An actuator is used to flip the tie plate as it falls from an ejection location of the dispenser.

An apparatus and method for feeding and conveying material in a sorted manner in a pneumatic material conveying system, in which at least two material fractions re fed from a feed aperture and conveyed in a channel space further to a delivery end of a material conveying channel by gravity and/or suction Material is fed from at least one feed aperture of at least one input point and a first material fraction is conducted to the channel space and stored temporarily in the channel space or conducted to the outside of the channel space, and material is fed into a feed-in container, in which a second material fraction fed therein is held in temporary storage by a stopper means.

An apparatus and method for feeding and conveying material in a sorted manner in a pneumatic material conveying system, in which at least two material fractions re fed from a feed aperture and conveyed in a channel space further to a delivery end of a material conveying channel by gravity and/or suction Material is fed from at least one feed aperture of at least one input point and a first material fraction is conducted to the channel space and stored temporarily in the channel space or conducted to the outside of the channel space, and material is fed into a feed-in container, in which a second material fraction fed therein is held in temporary storage by a stopper means.

A sand storage and conveying apparatus is provided. The sand storage and conveying apparatus includes: a sand storage device, at least two first conveying devices and a lifting device. The sand storage device includes at least two sand storage tanks arranged along a first direction; the at least two first conveying devices are arranged along the first direction and configured to convey sand to the at least two sand storage tanks, respectively; the lifting device includes a supporting frame and at least two lifting members connected onto the supporting frame, the at least two lifting members are arranged along the first direction, and each of the at least two lifting members is configured to lift a container with sand and put the container with sand into at least one of the first conveying devices.

A sand storage and conveying apparatus is provided. The sand storage and conveying apparatus includes: a sand storage device, at least two first conveying devices and a lifting device. The sand storage device includes at least two sand storage tanks arranged along a first direction; the at least two first conveying devices are arranged along the first direction and configured to convey sand to the at least two sand storage tanks, respectively; the lifting device includes a supporting frame and at least two lifting members connected onto the supporting frame, the at least two lifting members are arranged along the first direction, and each of the at least two lifting members is configured to lift a container with sand and put the container with sand into at least one of the first conveying devices.

A linear transport system includes a stator having a track and coils provided along the track, carriers with a magnet and movable along the track, scales provided on the carriers, sensors provided along the track at respective intervals and configured to detect the carriers to obtain scale positions of the scales, a parameter memory configured to memorize first cumulative values each corresponding to a corresponding sensor, and position calculation circuitry. Each of the first cumulative values is obtained by accumulating, from a reference position to the corresponding sensor, error correction values based on which errors between the respective intervals and measured values of the respective intervals are corrected. The position calculation circuitry is configured to calculate a position of a detected carrier based on detection data of a detecting sensor that has detected the detected carrier and based on the first cumulative value corresponding to the detecting sensor.