Disclosed is an example material transfer vehicle comprising a feeder having a hydraulic motor, a chain actuated by the hydraulic motor, and loading hopper configured to provide material to the chain; a sensor configured to detect a presence of a truck; and an electronic control module, wherein the electronic control module is configured to automatically increase a speed at which the chain is actuated when the sensor detects a presence of a truck.

The invention relates to a charging unit of a material processing apparatus having a charging hopper, the side walls (22) and rear walls (23) of which can be folded over between a working and a transport position by means of actuators (40, 50). A deflection element is provided, which converts the movement of an actuator during a portion of a movement thereof into a rotational movement of the rear wall or of the side wall and, during a further portion, into a translational movement. As a result of the rotational movement, the rear and side wall can be pivoted between the working and transport position, while by means of the translational movement, the rear and side wall can be connected to each other by means of an appropriate closure (60). By means of the deflection element, a simple, self-securing, and economical structure of the charging hopper is made possible.

The invention relates to a charging unit of a material processing apparatus having a charging hopper, the side walls (22) and rear walls (23) of which can be folded over between a working and a transport position by means of actuators (40, 50). A deflection element is provided, which converts the movement of an actuator during a portion of a movement thereof into a rotational movement of the rear wall or of the side wall and, during a further portion, into a translational movement. As a result of the rotational movement, the rear and side wall can be pivoted between the working and transport position, while by means of the translational movement, the rear and side wall can be connected to each other by means of an appropriate closure (60). By means of the deflection element, a simple, self-securing, and economical structure of the charging hopper is made possible.

The present disclosure relates to a method for vibration feeding of bulk material and a vibration feeder device provided for such purposes, comprising a material feed, a charging hopper including a hopper discharge, a feeder tray, a height adjustment means for adjusting a level height between the hopper discharge and the feeder tray, and a vibration driver for driving the feeder tray at an oscillation amplitude and an oscillation frequency, where a target material throughput and material specific parameters of the bulk material are input, initial parameters for the level height, oscillation amplitude and oscillation frequency are determined from these inputs, and subsequently the level height is adjusted by controlling the height adjustment means.

Disclosed is an example material transfer vehicle comprising a feeder having a hydraulic motor, a chain actuated by the hydraulic motor, and loading hopper configured to provide material to the chain; a sensor configured to detect a presence of a truck; and an electronic control module, wherein the electronic control module is configured to automatically increase a speed at which the chain is actuated when the sensor detects a presence of a truck.

Disclosed is an example material transfer vehicle comprising a feeder having a hydraulic motor, a chain actuated by the hydraulic motor, and loading hopper configured to provide material to the chain; a sensor configured to detect a presence of a truck; and an electronic control module, wherein the electronic control module is configured to automatically increase a speed at which the chain is actuated when the sensor detects a presence of a truck.

Disclosed is an example material transfer vehicle comprising a feeder having a hydraulic motor, a chain actuated by the hydraulic motor, and loading hopper configured to provide material to the chain; a sensor configured to detect a presence of a truck; and an electronic control module, wherein the electronic control module is configured to automatically increase a speed at which the chain is actuated when the sensor detects a presence of a truck.

Disclosed is an example material transfer vehicle comprising a feeder having a hydraulic motor, a chain actuated by the hydraulic motor, and loading hopper configured to provide material to the chain; a sensor configured to detect a presence of a truck; and an electronic control module, wherein the electronic control module is configured to automatically increase a speed at which the chain is actuated when the sensor detects a presence of a truck.

A diversion assembly for use with a feed material. The diversion assembly includes a plurality of movable gate chutes, a first conveyor, and a second conveyor. The plurality of movable gate chutes are each positionable in a retracted position and an extended position. The first conveyor is configured to carry, for each of any of the plurality of movable gate chutes in the retracted position, a first portion of the feed material to a first area. The second conveyor is configured to carry, for each of any of the plurality of movable gate chutes in the extended position, a second portion of the feed material to a second area. The second area is spaced apart from the first area.

A diversion assembly for use with a feed material. The diversion assembly includes a plurality of movable gate chutes, a first conveyor, and a second conveyor. The plurality of movable gate chutes are each positionable in a retracted position and an extended position. The first conveyor is configured to carry, for each of any of the plurality of movable gate chutes in the retracted position, a first portion of the feed material to a first area. The second conveyor is configured to carry, for each of any of the plurality of movable gate chutes in the extended position, a second portion of the feed material to a second area. The second area is spaced apart from the first area.