Product Description
The 2022 Case IH 7250 Axial-Flow Combine delivers high-capacity harvesting with advanced technology and operator-focused comfort. Equipped with 750/65R26 steering tires and 620/70R42 rear traction tires, this machine provides exceptional flotation, stability, and field performance across a wide range of conditions. The Luxury Cab features a premium leather seat, large color touchscreen, AM/FM/WB Bluetooth radio, distance lights, and a premium LED lighting package, creating a comfortable, high-visibility operating environment for extended harvest days.
The combine is powered by a Power Plus CVT drive with Feedrate, coupled with a Variable Motor Heavy-Duty Plan with differential, engine block heater, and auto-clean fan RPM control, ensuring precise, efficient, and reliable harvesting performance. Grain handling is optimized with high-capacity independent cross auger control, pivoting in-cab adjustable unload spout, rear unload tube cameras, high-capacity hydraulic grain tank covers, and the ability to handle headers up to 40 feet.
The rotor system includes a standard wear 2-speed elevator GR cam, standard wear rotor with bars and spikes, round bar concave, extended wear cone with standard cage, and in-cab adjustable cage vane and pre-sieve. Standard 1-5/8-inch adjustable corn slats and close slats, along with large skip wire and 1/4-inch diameter large wire, provide consistent separation and clean grain handling. The fine chopper with dual disc spreaders ensures even residue management.
Built for modern precision farming, the 7250 is autoguidance-ready with GPS mount and Nav controller, combines automation features, and includes PCM 4G with 372 antenna receiver (WAAS) and telematics subscription ready for five years. Additional features include a 10.4-inch (265 mm) axle extension, 2-speed powered rear axle (AGR), and rolling brush sucrose for efficient cleaning and maintenance.
The 2022 Case IH 7250 combines proven Axial-Flow performance, advanced technology, and operator comfort to maximize productivity, efficiency, and grain quality in demanding harvest conditions.