| Manufacturer |
Mitsubishi |
| Price |
- |
| Model |
MT3201 |
| Equipment Type |
Compact Utility Tractors |
| Factory |
|
MITSUBISHI MT3201 POWER
ENGINE DETAIL
The Mitsubishi MT3201, powered by a diesel 4-cylinder engine, delivers 32hp (23.9kW), making it suitable for small to medium agricultural tasks. Its compact size allows for maneuverability in tight spaces, but the limited horsepower may restrict its use for larger, more demanding implements. Overall, it's advantageous for localized farming operations requiring efficiency over raw power.
| Description |
Mitsubishi diesel 4-cylinder |
| Power |
32hp / 23.9kW |
MITSUBISHI MT3201 ENGINE
The Mitsubishi MT3201 features a robust 4-cylinder diesel engine, providing efficient power delivery and fuel economy, ideal for medium-duty tasks. Its compact design enhances maneuverability in confined spaces, though it may limit power for extensive agricultural operations. Regular maintenance is crucial to prevent common diesel issues such as injector clogging and ensure optimal performance.
| Description |
Mitsubishi 4-cyl diesel |
TRANSMISSION
The Mitsubishi MT3201 features a shuttle transmission, allowing for seamless direction changes without needing to engage the clutch, enhancing operational efficiency, particularly in loader or tillage applications. Its compact design offers improved maneuverability in tight spaces, making it ideal for small farms or landscaping. However, operators should be cautious of potential wear on the shuttle mechanism if frequently engaged under heavy loads, necessitating regular maintenance to ensure longevity.
MECHANICAL
The Mitsubishi MT3201 features a 4x4 MFWD (Mechanical Front-Wheel Drive) system, providing enhanced traction and stability on diverse terrains, making it ideal for agricultural and off-road applications. The 4WD capability improves maneuverability and power distribution, essential for tasks like plowing and towing heavy loads. However, this system may lead to increased fuel consumption during operation compared to 2WD models; users should consider operational efficiency based on field conditions.
