How to Turn When Agricultural Machinery Works in the Field

When using agricultural machinery like tractor units and combine harvesters for field operations, turning and reversing are frequent tasks. These maneuvers not only impact the machine's overall efficiency but also contribute to increased wear on the steering and mobility systems. To ensure smooth operation and prolong equipment life, operators should pay attention to the following key points: First, choose an appropriate driving route based on the field's shape, crop type, and size. For example, using a systematic plowing method can minimize unnecessary reversals and reduce empty travel, which in turn improves operational efficiency. Before making any turns or reversals, make sure the tractor is raised and all attached implements are stopped. If the implement is still working while entering the soil, it can increase the turning radius, raise engine load, and potentially damage the machinery. Avoid making sharp, "dead" turns. These can cause soil buildup and result in an uneven field surface, which negatively affects the quality of the work being done. For narrow rectangular fields, it’s best to avoid turning the unit as much as possible. Instead, use a reverse method to complete tasks such as tilling or harvesting. Excessive turning can reduce the unit’s efficiency and lead to unnecessary wear. When crossing high or hard field ridges, especially with wheeled tractors, the rear tires are usually larger in diameter than the front wheels. In such cases, it's advisable to raise the implement and reverse across the ridge to prevent damage. Track-type tractors should not always turn in the same direction. Whenever possible, alternate the turning direction to avoid uneven wear on the steering clutch, which helps maintain the longevity of the machine. By following these guidelines, operators can enhance both the performance and lifespan of their agricultural equipment while ensuring safer and more efficient field operations.

Engineering Vehicle Parts

This classification mainly includes the aluminum die casting Machinery Parts using in Engineering Vehicle area.
From the part, we can easily find that the parts have a lot of features of big cavities, so the part will have big potential risk of mold release problem, if so, the part may happen to be deform, sticking to the mold etc, especially when the part sticking to the mold, if no clear in time, while next shot, the mold may be destroyed while clamping.

Normal raw material: ADC12,A380,YL102
Process Technology: Low-pressure casting,Shot Blasting,NC Machining,Spray Coating
Product Dimensions: Customized
Casting General Tolerance: Grade GBT6414-CT8
Flow Processes: Die casting, Degating to remove the residual of the gate, Polishing and Deburring to remove the burrs, Polishing to remove the parting line, flash,CNC Turning, Cleaning, Packaging, Storaging, Shipping
Control Measure: Incoming Material Test, First Article inspection, Routing inspection, Final item inspection, and Outgoing quality control
Inspection Equipment: CMM, Caliper, Plug Gage, Screw Gauge
Application: Machinery Parts
Certificate: IATF16949:2016,ISO14001:2015,ISO45001:2018
Lead Time: 30-35 days
Trade Term: FOB Ningbo

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