Systems and methods for controlling a configuration of a bale chute of a baler and, particularly, a square baler are disclosed. In some implementations, the baler includes a linkage and an actuator that is operable to move the bale chute between an extended position and a retracted position and to lock the bale chute in the retracted position. For example, the bale chute may be retracted into a retracted position when the baler is determined not to be producing bales, when a bale is not protruding from the baler, and when the baler is being transported.

Systems and methods for controlling a configuration of a bale chute of a baler and, particularly, a square baler are disclosed. In some implementations, the baler includes a linkage and an actuator that is operable to move the bale chute between an extended position and a retracted position and to lock the bale chute in the retracted position. For example, the bale chute may be retracted into a retracted position when the baler is determined not to be producing bales, when a bale is not protruding from the baler, and when the baler is being transported.

Systems, methods, and computer-readable media are disclosed for container chutes for sortation systems. In one embodiment, an example system may include a frame and a chute assembly coupled to the frame, where the chute assembly is configured to pivot from a first position to a second position with respect to the frame. The chute assembly may include a first planar ramp, a first support on a first side of the first planar ramp, and a second support on a second side of the first planar ramp. The chute assembly may include a first pneumatic lift component coupled to the first support and to the frame, and a second pneumatic lift component coupled to the second support and to the frame. The chute assembly may be held in the second position when the first pneumatic lift component and the second pneumatic lift component are in a compressed configuration.

A conveying system is disclosed. The conveying system may have a first conveying apparatus that conveys a first article to a first location. The conveying system may also have a second conveying apparatus that conveys a second article to a second location. The conveying system may have a frame, a chute connected to the frame, and a third conveying apparatus. The chute may convey the first article received from the first conveying apparatus to a discharge location. The third conveying apparatus, disposed below the chute, may convey the second article received from the second conveying apparatus to the discharge location. The chute may be movable relative to the to the third conveying apparatus, such that the first or second article may be selectively conveyed to the discharge location via the chute or third conveying apparatus, depending on the position of the chute relative to the third conveying apparatus.

A delivery chute for use on a concrete mixer truck has automated systems to allow for repositioning and reconfiguration without requiring an operator to manipulate components. The chute is configured to have multiple segments that can be folded/nested with one another for transport and can be positioned in an extended configuration thereby forming a continuous delivery surface for purposes of delivering concrete to a desired location. Powered mechanisms are used to reposition these segments, thus eliminating the need for operators to handle chute segments at all. A control system is provided to coordinate operation of components so proper sequences are followed during folding, unfolding, raising, lowering and swinging operations. An operator can control each of these operations using a remote control, having single buttons to carry out specific operations.

A delivery chute for use on a concrete mixer truck has automated systems to allow for repositioning and reconfiguration without requiring an operator to manipulate components. The chute is configured to have multiple segments that can be folded/nested with one another for transport and can be positioned in an extended configuration thereby forming a continuous delivery surface for purposes of delivering concrete to a desired location. Powered mechanisms are used to reposition these segments, thus eliminating the need for operators to handle chute segments at all. A control system is provided to coordinate operation of components so proper sequences are followed during folding, unfolding, raising, lowering and swinging operations. An operator can control each of these operations using a remote control, having single buttons to carry out specific operations.

A trim chute for a loading apparatus for loading particulate material into a container, the trim chute being configured to be engaged with the loading apparatus to direct particulate material into the container, the trim chute being moveable with respect to the loading apparatus during loading, movement of the trim chute effecting a change in flow of the particulate material into the container.

A conveying system is disclosed. The conveying system may have a first conveying apparatus that conveys a first article to a first location. The conveying system may also have a second conveying apparatus that conveys a second article to a second location. The conveying system may have a frame, a chute connected to the frame, and a third conveying apparatus. The chute may convey the first article received from the first conveying apparatus to a discharge location. The third conveying apparatus, disposed below the chute, may convey the second article received from the second conveying apparatus to the discharge location. The chute may be movable relative to the to the third conveying apparatus, such that the first or second article may be selectively conveyed to the discharge location via the chute or third conveying apparatus, depending on the position of the chute relative to the third conveying apparatus.

A delivery chute for use on a concrete mixer truck has automated systems to allow for repositioning and reconfiguration without requiring an operator to manipulate components. The chute is configured to have multiple segments that can be folded/nested with one another for transport and can be positioned in an extended configuration thereby forming a continuous delivery surface for purposes of delivering concrete to a desired location. Powered mechanisms are used to reposition these segments, thus eliminating the need for operators to handle chute segments at all. A control system is provided to coordinate operation of components so proper sequences are followed during folding, unfolding, raising, lowering and swinging operations. An operator can control each of these operations using a remote control, having single buttons to carry out specific operations.

A rooftop package delivery receptacle for unmanned aerial vehicles (UAV) is transformed from a normally closed downwardly pitched transparent or translucent aesthetically acceptable rooftop aperture, appearing as an ordinary skylight, into a preferably larger substantially horizontal delivery platform providing a safe, secure, above ground location for a drone to land or tether for package delivery. Upon a wireless command signal from either an arriving UAV or a local user, the curb frame mounted receptacle containing a center pivoting platform supporting a plurality of slidably mounted panels rotates upwards and expands both longitudinally and transversely enabling a larger substantially horizontal landing area. After the package is delivered the platform contracts to its original size and continues in an upwards rotation urging the package to move inwards for collection. A pair of weatherproof accordion shaped shudders surround the openings and enclose any gaps during the operation.