A greens roller having a transportation configuration and a rolling configuration, the greens roller comprising: a chassis having powered wheels, the wheels defining a driving direction; one or more rollers rotatably mounted to the chassis, the one or more rollers defining a rolling direction that is different to the driving direction; wherein in the transportation configuration the wheels are lowered to support the chassis for driving the greens roller, and in a rolling configuration the wheels are raised so that the one or more rollers support the chassis for rolling the greens roller on a green.

An agricultural tillage implement and method for adjusting the angle of smoothing tools of a harrow according to a present geographic location are disclosed. The agricultural tillage implement includes a main implement frame and a soil finish system having the harrow support in a trailing position with respect to the main implement frame for smoothing the soil tilled by ground-engaging tillage tools. A control system is configured to actuate a hydraulic system to define the angle of a first set of ground-engaging tillage tools in response to the percentage of plant residue at the present geographic location according to a stored electronic map.

A method and system for communicating transactional data determines gift card data from a gift card offered for sale by a customer and customer information about the customer from an identity document of the customer. The gift card data is associated with the customer information. A balance of the gift card is determined based at least partly on the gift card data. A purchase offer for purchasing the gift card from the customer is calculated based at least partly on the balance. If the balance of the gift card changes, a fraud alert may be associated with the customer information of the customer.

An implement frame having a carriage frame for coupling to a towing vehicle and wheels to support the frame for movement over a ground surface. A pivot frame is rotationally mounted to the carriage frame and a lift assembly is coupled to the pivot frame via a shift assembly. A tool bar is mounted to the lift assembly. The shift assembly moves the tool bar forward as it is moved from the field use position to the transport position. The wheels are mounted to swing arms to move the wheels inward for a narrow transport position. All motion is accomplished through actuators, such as hydraulic cylinders, to automate the process making it quick and easy.

A remotely positionable stabilizer wheel arrangement for a towable agricultural implement utilizes a control unit that receives an input signal indicative of a desired position of the stabilizer wheel, and/or a desired depth of penetration of tillage tools operatively attached to the front and rear of the implement frame, to automatically control a hydraulic positioning cylinder of the remotely positionable stabilizer wheel arrangement to position and hold the stabilizer wheel at the desired position of the stabilizer wheel, by controlling pressure in the hydraulic cylinder to hold the stabilizer wheel at a target position determined from the desired position input signal.

A remotely positionable stabilizer wheel arrangement for a towable agricultural implement utilizes a control unit that receives an input signal indicative of a desired position of the stabilizer wheel, and/or a desired depth of penetration of tillage tools operatively attached to the front and rear of the implement frame, to automatically control a hydraulic positioning cylinder of the remotely positionable stabilizer wheel arrangement to position and hold the stabilizer wheel at the desired position of the stabilizer wheel, by simultaneously controlling pressure in both the rod and base ends of the bore of the hydraulic cylinder to hold the stabilizer wheel at a target position determined from the desired position input signal.

A castor wheel support for a towed agricultural implement having a frame positioned parallel to the soil over which the implement is towed. Parallel links interconnect the castor support with the frame. The castor support has a spindle with a longitudinal axis A for supporting a castor mounting structure for pivoting movement. The castor mounting structure supports an axle hub assembly and a wheel. The axis A of the spindle is angled forward 3 degrees to minimize wobbling.

A farming machine identifies and treats a plant as the farming machine travels through a field. The farming machine includes an array of tiled image sensors for capturing images of the field. A control system identifies an active region in the captured images and generates a tiled image that includes the active region. The control system applies image processing functions to identify the plant in the tiled image and actuates a treatment mechanism to treat the identified plant. The control system causes the array of image sensors to capture the image, identifies the plant, and actuates the treatment mechanism in real time as the farming machine travels through the field.

In an aerator including a chassis mounted on wheels, a tine depth stop mechanism includes a base mounted on the chassis. A side wall is fixed to the base and has a plurality of apertures therein. A stop arm is movably mounted with respect to the side wall and has an abutment. The abutment has a periphery. A tine weldment is attached to the stop arm, and a tine wheel is rotatably mounted to the tine weldment. A pin passes through one of the apertures of the side wall and engages the periphery of the abutment of the stop arm. Upon a downward movement of the tine wheel, the stop arm moves with respect to the side wall until the pin abuts the periphery of the abutment, thus adjusting a maximum depth of the tine wheel below the chassis.

A slip control system for an off-road vehicle includes a control system configured to output a signal indicative of a first action if a magnitude of slippage of the off-road vehicle relative to a soil surface is greater than a first threshold value and less than or equal to a second threshold value. Furthermore, the control system is configured to output a signal indicative of a second action, different than the first action, if the magnitude of slippage is greater than the second threshold value.