This precision agriculture automation software is designed for intuitive, simple end-user interface and improved control of peanut digger blade depths. In 2017, the global farm management software and services market was valued at $1.5 billion, and is expected to grow at a constant annual growth rate (CAGR) of 7.6% between 2017 and 2021. The U.S. peanut production industry was valued at approximately 1,155 million U.S. dollars in 2018. In conventional peanut farming, the best machinery operator at a farm is often responsible for harvesting, as proper digging setting and operation are critical to maximizing yield recovery. However, frequently adjusting depth settings during digging can lead to operator fatigue. Clemson University researchers have developed a novel harvesting software to automatically control and optimize peanut digger blade depth, resulting in reduced digging losses, simplified operation of equipment, and increased profits.
Application Stage of Development
Precision Agriculture, Peanut Farming, Prototype
Peanut Harvesting, Software, Farm
Management
Advantages
Technical Summary
This automation software controls the operation of peanut digging depth technology using a Windows system located in the cab of the peanut digging tractor. Two depth gauges are mounted to the frame of the digger to report the blade depth to a USB controller as a sensor response from rotary potentiometers. In automated depth control mode, the operator specifies a target depth and a hydraulic center link is automatically actuated in an effort to maintain this specified target depth. The software performs actuation of the cylinder by communicating with a USB controller, which operates mechanical relays to control a hydraulic solenoid valve. The hydraulic solenoid valve directs fluid to either retract or extend the hydraulic center link, retraction effecting greater blade depth and extension effecting lesser blade depth. The software also provides an autodive feature, which retracts the cylinder slightly whenever the digger is lifted to assist in "taking ground" at the start of the next pass, especially in hard, compacted soil conditions.
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Inventor: Kendall R. Kirk
Patent Type: Copyright
Serial Number: N/A
CURF Ref No: 2020-045