A loading device for lifting an elongated object having an elongate axis includes a frame having a first fulcrum surface and a second fulcrum surface, a first effector arm that pivots about the first fulcrum surface, a second effector arm that pivots about the second fulcrum surface, and an actuator moving the first effector arm and the second effector arm between a retracted position and a deployed position.

A loading device for lifting an elongated object having an elongate axis includes a frame having a first fulcrum surface and a second fulcrum surface, a first effector arm that pivots about the first fulcrum surface, a second effector arm that pivots about the second fulcrum surface, and an actuator moving the first effector arm and the second effector arm between a retracted position and a deployed position.

Embodiments of the present invention pertain to an apparatus and method for automatic blade and razor for use in plant trimming. Embodiments of the present invention provides enhanced capabilities as a result of integrating robotic features, automations, artificial intelligence, queuing, fault control, automatic transport, scalability, safety measures, smaller footprint, and other computerized functions, along with a creative business model. In design of this invention the following high-level requirements were achieved: scalable for small, medium, and large businesses; safer than other machines in the market; sanitation consideration; simplicity in maintenance, and automated functions to reduce the need for labor (e.g., integration of robotics, AI, and/or other computerized systems).

Embodiments according to the present invention relate to a modular plant trimming system and method that provides enhanced capabilities as a result of integrating robotic features, automations, artificial intelligence, queuing, fault control, automatic transport, scalability, safety measures, smaller footprint, and other computerized functions, along with a creative business model. In design of this invention the following high-level requirements were achieved: scalable for small, medium, and large businesses; safer than other machines in the market; sanitation consideration; simplicity in maintenance, and automated functions to reduce the need for labor (e.g., integration of robotics, AI, and/or other computerized systems).

Truck unloader apparatus, systems and methods are disclosed for unloading and/or conveying aggregate material. In some embodiments, a load-bearing truss of the truck unloader includes a ramp in a road transport configuration.

Truck unloader apparatus, systems and methods are disclosed for unloading and/or conveying aggregate material. In some embodiments, a load-bearing truss of the truck unloader includes a ramp in a road transport configuration.

An automatic loading and unloading device includes a frame, an unloading unit, a receiving unit and a receiving link unit. The frame defines a processing area, an unloading area and a receiving area. The unloading unit includes an unloading slide rail, and an unloading drive group movably disposed on the unloading slide rail for driving at least one plate to move from the processing area to the unloading area. The receiving unit includes a receiving slide rail, and a receiving lift group movably disposed on the receiving slide rail for driving the at least one plate to move from the unloading area to the receiving area. The receiving link unit interconnects the unloading drive group and the receiving lift group.

An automatic loading and unloading device includes a frame, an unloading unit, a receiving unit and a receiving link unit. The frame defines a processing area, an unloading area and a receiving area. The unloading unit includes an unloading slide rail, and an unloading drive group movably disposed on the unloading slide rail for driving at least one plate to move from the processing area to the unloading area. The receiving unit includes a receiving slide rail, and a receiving lift group movably disposed on the receiving slide rail for driving the at least one plate to move from the unloading area to the receiving area. The receiving link unit interconnects the unloading drive group and the receiving lift group.

Disclosed is a transfer device and a method for transferring a plurality of first tire components from a first container and a plurality of second tire components from a second container to a servicer, wherein the transfer device includes a first station and a second station for receiving the first container and the second container, respectively, wherein the first station and the second station are arranged side-by-side in a lateral direction, wherein the transfer device further includes a base and a take-out member that is mounted to said base and that is movable with respect to the base towards the first station and the second station for picking-up and taking-out one of the first tire components from the first container at the first station and for picking-up and taking-out one of the second tire components from the second container at the second station, respectively.

Disclosed is a transfer device and a method for transferring a plurality of first tire components from a first container and a plurality of second tire components from a second container to a servicer, wherein the transfer device includes a first station and a second station for receiving the first container and the second container, respectively, wherein the first station and the second station are arranged side-by-side in a lateral direction, wherein the transfer device further includes a base and a take-out member that is mounted to said base and that is movable with respect to the base towards the first station and the second station for picking-up and taking-out one of the first tire components from the first container at the first station and for picking-up and taking-out one of the second tire components from the second container at the second station, respectively.