Transition Cone
What is a Transition Cone? Where is it located? What does it do?
A transition cone (aka threshing cone or accelerator cone) is found in a combine harvester’s threshing and separation system between the feederhouse and the rotor. Designed to quickly moves crop material through the rotor, a transition cone helps direct crop material into the cone at an optimal speed and angle.
The transition cone consists of a spinning cylindrical surface that can be made from varying strengths of steel. Vanes or rasp bars separate the grain from crop material. As crop material enters a combine, it passes through a feederhouse onto the rotor, where centrifugal and impact forces help ensure separation.
2.5 times more Harvesting with a CNH Reman Transition Cone
Worn parts are inevitable. They cause downtime, additional operating expenses, and delays in harvesting. CNH Reman extended wear transition cones are remanufactured with Hardox® 450 wear plate liner and rear lip for increased durability to withstand the most stringent harvest conditions. This product enhancement will last up to 2.5 times longer, increasing productivity by reducing downtime while offering a longer life, cost-effective alternative to new.
CNH Reman Transition Cone
CNH Reman extended wear transition cones are remanufactured with Hardox® 450 wear plate liner and rear lip for increased durability to withstand the most stringent harvest conditions. This product enhancement will last up to 2.5 times longer, increasing productively by reducing down time with a longer life.
CNH Reman Transition Cone
CNH Reman extended wear transition cones are remanufactured with Hardox® 450 wear plate liner and rear lip for increased durability to withstand the most stringent harvest conditions. This product enhancement will last up to 2.5 times longer, increasing productively by reducing down time with a longer life.
BUY NOWCNH Reman Transition Cone
CNH Reman extended wear transition cones are remanufactured with Hardox® 450 wear plate liner and rear lip for increased durability to withstand the most stringent harvest conditions. This product enhancement will last up to 2.5 times longer, increasing productively by reducing down time with a longer life.
What are the advantages of using a CNH Reman Transition Cone?
Reduced Maintenance Costs: CNH Remans' Transition Cone design improvements offer a more durable component due to Hardox 450® steel used in the liner and rear lip during remanufacturing. This wear-resistant steel can withstand harsh harvest conditions without needing constant replacement or repairs resulting in savings for its operator.
Increased Equipment Uptime: The Transition Cone's design facilitates easy replacement, cutting down maintenance and repair downtime and returning your combine into operation faster. CNH Reman’s extended wear transition cones last 2.5x longer due to the toughness of the Hardox, pair that with your dealership's quick replacement time, and you will reap the benefits of increased productivity and profitability through equipment uptime.
How is the Reman Transition Cone more Sustainable?
Utilizing Reman transition cones reduces waste, energy usage, and emissions and conserves natural resources, making them more eco-friendly than purchasing new.
- Remanufacturing Transition Cones lowers energy consumption: According to the United States Department of Energy, remanufacturing uses 85-90% less energy than manufacturing new ones, typically from raw materials - helping you cut your consumption and greenhouse gas emissions significantly.
- Reducing Emissions: Reman Transition Cones can also help to lower emissions associated with producing new parts, preventing emissions related to raw material production and the manufacturing processes, which create greenhouse gas.
- Resource conservation: Remanufacturing transition cones is another effective way to conserve natural resources. By reusing and remanufacturing existing parts, we reduce the demand for raw materials such as metal ores and fossil fuels.
- Remanufacturing Transition Cones lowers energy consumption: According to the United States Department of Energy, remanufacturing uses 85-90% less energy than manufacturing new ones, typically from raw materials - helping you cut your consumption and greenhouse gas emissions significantly.
- Reducing Emissions: Reman Transition Cones can also help to lower emissions associated with producing new parts, preventing emissions related to raw material production and the manufacturing processes, which create greenhouse gas.
- Resource conservation: Remanufacturing transition cones is another effective way to conserve natural resources. By reusing and remanufacturing existing parts, we reduce the demand for raw materials such as metal ores and fossil fuels.