A motorized vehicle is provided for transporting material and selectively dumping the material from the vehicle. In one example, the motorized vehicle includes a frame, first and second forward wheel assemblies coupled to the frame, and a rearward wheel assembly coupled to the frame. An engine is supported by the frame and configured to rotate the first and second forward wheel assemblies to move the motorized vehicle. The motorized vehicle also includes a bucket supported by the frame adjacent the first and second forward wheel assemblies. The bucket is configured to rotate about a vertical axis between a first radial positon in which a longitudinal axis of the bucket is generally parallel with the longitudinal axis of the frame and a second radial positon in which the longitude axis of the bucket is oriented generally perpendicular to the longitudinal axis of the frame.

A system (1) for controlled tipping of a dump body (2) of a transport vehicle (3), wherein the vehicle (3) comprises a support frame (4), a counter frame (5) with a pair of parallel cross members (6, 7), a lift cylinder (8) for lifting the dump body (2) and a locking device (15) for selectively locking the dump body (2). The locking device (15) comprises support means (15A, 15B, 15C, 15D) for supporting the dump body (2) which are designed to be selectively locked and are placed at the ends of said cross members (6, 7). Each of the support means (15A, 15B, 15C, 15D) comprises a convex element (16) having a spherical head (17), a concave element (18) having a seat (19) for the spherical head (17), a locking pin (20) for selectively locking the concave element (18) and the convex element (16) to prevent separation thereof, and a double-acting actuator (21) for imparting a two-way motion to the pin (20). Each convex element (16) is secured to a bottom face (2′) of the dump body (2) and each concave element (18) is fixed to said counter frame (5) in alignment with a respective convex element (16). Each actuator (21) is housed in a recess (11, 12) of a respective cross member (6, 7) for actuating a respective pin (20) along a respective transverse direction (X) and cause the convex element (16) and the concave element (18) to be locked together to protect each actuator (21) from possible impacts and damages.

A system for electrically powering a semi-trailer dump system includes a DC-to-DC voltage converter configured to receive input DC voltage from a battery bank and output increased DC voltage, an energy storage element configured to receive the increased DC voltage from the DC-to-DC voltage converter, a controller configured to receive DC power from the energy storage element and convert the DC power into AC power, and a motor configured to receive AC power from the controller, the motor being mechanically connectable to a pump for controlling the dumping system.

A system for electrically powering a semi-trailer dump system includes a DC-to-DC voltage converter configured to receive input DC voltage from a battery bank and output increased DC voltage, an energy storage element configured to receive the increased DC voltage from the DC-to-DC voltage converter, a controller configured to receive DC power from the energy storage element and convert the DC power into AC power, and a motor configured to receive AC power from the controller, the motor being mechanically connectable to a pump for controlling the dumping system.

A dump system (e.g., for setting in a vehicle's flatbed or trailer) includes a base, a container (for containing material) configured to pivot relative to the base, an inflate membrane coupled to the base and to the container, and a U-frame that extends around the inflate membrane and is configured to pivot relative to the base. The U-frame is configured to restrain outward expansion of the inflate membrane as the inflate membrane expands pushing on the container and causing the container to pivot upward. Some implementations include, in addition to or instead of the U-frame, a wing frame panel configured to collect and contain folds that form from material of the inflate membrane as the inflate membrane deflates and collapses (or when the inflate membrane is in a collapsed or deflated state).

A lift system and method for transporting agricultural implements. The lift system includes a pair of lower linkage arms, an upper link, and at least four carriage wheels for transporting the lift system along carriage guide rails of a trailer frame. A load lift assembly is mounted on the trailer and is movable between lowered, loading position, a raised position, and a transport position. It is capable of connecting to a load having a three-point hitch. A gas strut may optionally be equipped to aid in the lifting process. A telescoping light bar may be included to increase safety while in transport.

A dump cart comprises a bed, a bed adapter, a frame, and a lift adapter. The bed is configured to carry a load. The bed adapter is configured to receive a bottom wall of the bed and includes a left adapter rail and a right adapter rail. The frame includes a left frame rail pivotally coupled to the left adapter rail and a right frame rail pivotally coupled to the right adapter rail. These connections allow the bed to dump the load to the rear of the dump cart. The lift adapter assists in lifting an object and includes left and right cradle arms that are configured to couple to one or more features of the object and a stabilizer leg that is configured to contact the ground so as to support a portion of the weight of the object.

A tilting apparatus for a vehicle deck is provided. The tilting apparatus increases the efficiency of a loading and unloading workability by tilting the vehicle deck vertically or horizontally based on situations or conditions of construction fields or industrial fields. The tilting system includes a structure with vertical and horizontal tilting performed in a single system by joining a deck plate and a chassis frame of the deck with a ball joint structure of four locations (e.g., front, back, left, and right locations) and implementing a hydraulic system that may be tilted in two directions.

A tilting apparatus for a vehicle deck is provided. The tilting apparatus increases the efficiency of a loading and unloading workability by tilting the vehicle deck vertically or horizontally based on situations or conditions of construction fields or industrial fields. The tilting system includes a structure with vertical and horizontal tilting performed in a single system by joining a deck plate and a chassis frame of the deck with a ball joint structure of four locations (e.g., front, back, left, and right locations) and implementing a hydraulic system that may be tilted in two directions.