A tractor includes a link mechanism and a power extractor. The link mechanism includes a top link, a right lower link, and a left lower link. A work apparatus is connectable to the link mechanism to move the work apparatus upward and downward. The power extractor is connectable to a power input of the work apparatus to take power from a power source and supply the power to the work apparatus. The power extractor is located at a position lower than a lowest position of the right lower link and a lowest position of the left lower link.

An auxiliary power system for an agricultural implement includes a variable speed hydraulic drive motor configured for receiving hydraulic oil from a tow vehicle, an electric alternator coupled with and driven by the hydraulic drive motor, and at least one auxiliary electrical component onboard the implement which is coupled with and adapted to receive electrical power from the alternator. At least one load indicator provides an indication of a dynamic cumulative electrical load of the one or more auxiliary electrical components. An electrical processing circuit is coupled with the at least one load indicator and the hydraulic drive motor, and is configured to vary the speed of the hydraulic drive motor, dependent on the indicated dynamic cumulative electrical load.

An auxiliary power system for an agricultural implement includes a variable speed hydraulic drive motor configured for receiving hydraulic oil from a tow vehicle, an electric alternator coupled with and driven by the hydraulic drive motor, and at least one auxiliary electrical component onboard the implement which is coupled with and adapted to receive electrical power from the alternator. At least one load indicator provides an indication of a dynamic cumulative electrical load of the one or more auxiliary electrical components. An electrical processing circuit is coupled with the at least one load indicator and the hydraulic drive motor, and is configured to vary the speed of the hydraulic drive motor, dependent on the indicated dynamic cumulative electrical load.

The present disclosure relates to a working fluid stabilization device for an agricultural work vehicle, the working fluid stabilization device including: a case configured such that a working fluid is accommodated therein; a gear part disposed inside the case; a suction part formed in the bottom of the case, and connected to a suction pipe; and a baffle means disposed inside the case, and configured to alleviate the introduction of bubbles in the working fluid, generated by the rotation of the gear part, into the suction part. According to the present invention, there is an effect of preventing or alleviating the introduction of bubbles into the suction part of a transmission device.

The present disclosure relates to a method and device for predicting a potential accident of an agricultural machine that performs autonomous driving and operates a power take-off (PTO), and controlling an operation to avoid a potential accident, in a communication system. Embodiments of the present disclosure determine a probability of occurrence and predicted severity of a potential accident according to a change in distance to a person or an obstacle over time in an agricultural machine that performs autonomous driving and operates the PTO, and, when the probability of occurrence is greater than a threshold probability, notify a user terminal after taking proactive measures to avoid the accident according to the predicted severity, or initially notifying the user terminal of a recommended operation for avoiding the accident and then performing post measures for accident avoidance on the basis of an operation received from the user terminal.

A method for grouping hydraulic functions associated with an agricultural implement includes accessing parameter data associated with hydraulic fluid used to drive a plurality of hydraulic functions of the implement, the hydraulic fluid being supplied from one of at least two pumps. The method also includes determining delivery pump pressures for the pumps for each of a plurality of different pump/function combinations based at least in part on the hydraulic parameter data and determining a power parameter requirement for the pumps for each of the different pump/function combinations based at least in part on the delivery pump pressures. In addition, the method includes selecting a desired pump/function combination based at least in part on the power parameter requirement; and controlling an operation of a plurality of switching valves such that the hydraulic fluid is supplied for driving the hydraulic functions in accordance with the desired pump/function combination.

Methods and systems for controlling power supply of agricultural implement(s) attached to an agricultural vehicle. Embodiments herein disclose a control system for controlling power supply of the agricultural implement. The control system includes a control unit that is configured to power up at least one component of the control system on receiving at least one signal by at least one speed sensor based on a rotation of the agricultural implement. The generated at least one signal corresponds to an operative mode of the agricultural implement.

Methods and systems for controlling power supply of agricultural implement(s) attached to an agricultural vehicle. Embodiments herein disclose a control system for controlling power supply of the agricultural implement. The control system includes a control unit that is configured to power up at least one component of the control system on receiving at least one signal by at least one speed sensor based on a rotation of the agricultural implement. The generated at least one signal corresponds to an operative mode of the agricultural implement.

An agricultural machine assembly with a driver assistance system. The agricultural machine assembly includes the driver assistance system, and an agricultural work machine and an attachment adapted to the agricultural work machine and designed as an agricultural baler. The agricultural work machine and the attachment each comprise working units which may be actuated for setting parameters (P). The driver assistance system optimizes operation and is configured to form a work machine setting device and a baler setting device. The work machine setting device and the baler setting device are configured to optimize the mode of operation of the agricultural work machine and the agricultural baler depending on each other.

The present disclosure relates to a working fluid stabilization device for an agricultural work vehicle, the working fluid stabilization device including: a case configured such that a working fluid is accommodated therein; a gear part disposed inside the case; a suction part formed in the bottom of the case, and connected to a suction pipe; and a baffle means disposed inside the case, and configured to alleviate the introduction of bubbles in the working fluid, generated by the rotation of the gear part, into the suction part. According to the present invention, there is an effect of preventing or alleviating the introduction of bubbles into the suction part of a transmission device.