A lift machine includes a base having a first end and a second end, a first assembly, and a second assembly. The first end has first and second pivot points defining a first lateral axis. The second end has third and fourth pivot points defining a second lateral axis. The first assembly is pivotably coupled to the first and second pivot points. The first assembly extends away from the base in a first direction such that first and second tractive elements are longitudinally offset from the first lateral axis and spaced from the first end of the base. The second assembly is pivotably coupled to the third and fourth pivot points. The second assembly extends away from the base in a second direction such that third and fourth tractive elements are longitudinally offset from the second lateral axis and spaced from the second end of the base.

A method and an arrangement for optimizing load position in relation to a transportation vehicle, comprising a platform arranged to the transportation vehicle for receiving a load; an actuating device for moving the platform in relation to the transportation vehicle; a sensing device configured to generate a vehicle sensing signal and/or a non-vehicle sensing signal; a controlling device configured to receive at least one of the vehicle sensing signal and the non-vehicle sensing signal; generate controlling commands based on the received at least one of the vehicle sensing signal and the non-vehicle sensing signal; and transmit the controlling commands to the actuating device; wherein the actuating device is configured to receive the controlling commands and to move the platform in relation to the transportation vehicle based on the controlling commands.

A method and an arrangement for optimizing load position in relation to a transportation vehicle, comprising a platform arranged to the transportation vehicle for receiving a load; an actuating device for moving the platform in relation to the transportation vehicle; a sensing device configured to generate a vehicle sensing signal and/or a non-vehicle sensing signal; a controlling device configured to receive at least one of the vehicle sensing signal and the non-vehicle sensing signal; generate controlling commands based on the received at least one of the vehicle sensing signal and the non-vehicle sensing signal; and transmit the controlling commands to the actuating device; wherein the actuating device is configured to receive the controlling commands and to move the platform in relation to the transportation vehicle based on the controlling commands.

A skip apparatus for a working vehicle has a skip that is pivotable upward about a carrying axle and that has a pouring edge via which pourable material is able to be poured out of the skip. The skip apparatus additionally has an emptying device which is pivotable relative to the skip about a pivot axle on the skip during a pivoting movement. The emptying device has an inlet side and an outlet side. The inlet side is arranged in a region of the pouring edge such that the pourable material, which is poured out of the skip via the pouring edge, passes into the emptying device via the inlet side. The pivoting movement of the emptying device is guided in a defined manner by a guiding device. A working vehicle having such a skip apparatus also is provided.

A lift device includes a chassis, a boom pivotally coupled to the chassis, a first leveling assembly pivotally coupled to a first end of the chassis, a second leveling assembly pivotally coupled to an opposing second end of the chassis, and a control system. The first leveling assembly includes a first pair of actuators positioned to facilitate a first pitch adjustment and a first roll adjustment of the first end of the chassis. The second leveling assembly includes a second pair of actuators positioned to facilitate a second pitch adjustment and a second roll adjustment of the opposing second end of the chassis. The control system is configured to (i) actively control the first pair of actuators and the second pair of actuators during a first mode of operation, and (ii) actively control the first pair of actuators and facilitate passive control of the second pair of actuators during a second mode of operation.

The present invention relates to a tow trailer having a structure (5) for lifting and transporting cargo and unloading them, the trailer is drawn by a suitable tow apparatus. The trailer comprises a lifting device (1) to lift and unload the cargo, wherein the lifting device is coupled to forks. The trailer moves stably due to mounting the lifting device stably in a part of the front side of the trailer, and the presence of wheels mounted in both sides thereof. The trailer has a bar (8) in the rear side, and it also has one or more barriers (7) in the middle of the trailer so as to be under the cargo. The trailer is provided with a trailer jack (2) mounted in the bearing positions of the trailer in order to stabilize it during lifting or unloading the cargo.

The present invention relates to a tow trailer having a structure (5) for lifting and transporting cargo and unloading them, the trailer is drawn by a suitable tow apparatus. The trailer comprises a lifting device (1) to lift and unload the cargo, wherein the lifting device is coupled to forks. The trailer moves stably due to mounting the lifting device stably in a part of the front side of the trailer, and the presence of wheels mounted in both sides thereof. The trailer has a bar (8) in the rear side, and it also has one or more barriers (7) in the middle of the trailer so as to be under the cargo. The trailer is provided with a trailer jack (2) mounted in the bearing positions of the trailer in order to stabilize it during lifting or unloading the cargo.

A ground to vehicle loading device for loading cargo on a vehicle includes a frame that is pivotally mountable by a first end to a vehicle adjacent to a cargo area thereof. The frame is selectively pivotable from a first configuration to a second configuration. In the first configuration, the frame extends transversely from the cargo area to a surface upon and positioned for loading. In the second configuration, the frame is substantially horizontally and positioned to transfer the load to the cargo area. A leg is pivotally coupled to the frame proximate to a second end of the frame. A plurality of spikes is coupled to and extends from the leg distal from the frame. The spikes engage the surface to transition the frame from the first configuration to the second configuration as the vehicle pulls on the first end of the frame.

A ground to vehicle loading device for loading cargo on a vehicle includes a frame that is pivotally mountable by a first end to a vehicle adjacent to a cargo area thereof. The frame is selectively pivotable from a first configuration to a second configuration. In the first configuration, the frame extends transversely from the cargo area to a surface upon and positioned for loading. In the second configuration, the frame is substantially horizontally and positioned to transfer the load to the cargo area. A leg is pivotally coupled to the frame proximate to a second end of the frame. A plurality of spikes is coupled to and extends from the leg distal from the frame. The spikes engage the surface to transition the frame from the first configuration to the second configuration as the vehicle pulls on the first end of the frame.

The present invention relates in general to the field of livestock trailers, and more specifically, to a livestock trailer that utilizes an enclosed elevator platform for loading and unloading animals. The elevator platform is located within an elevator shaft inside the frame of the livestock trailer. The elevator platform is configured to protect and confine the livestock as it traverses through the elevator shaft during loading and unloading operations. The livestock trailer may further comprise a ventilation system, a sprinkler system and/or a watering system to help assist in the well-being, health, and safety of the livestock while being transported. The purpose of the invention is to provide a livestock trailer and method of loading and unloading livestock onto the livestock trailer that minimizes risk of serious injury to both animal and handler during loading, unloading and transportation operations.