The Caterpillar 320C (Pump) series is equipped with a powerful hydraulic system that enables efficient and precise operation.
The excavators in this series are driven by a reliable Caterpillar engine, specifically the 3066TA engine, which delivers a net power of 138 horsepower (103 kilowatts) at 1,950 revolutions per minute (RPM). This engine is designed to meet strict emissions standards while providing excellent performance and fuel efficiency.
One of the key features of the Caterpillar 320C (Pump) series is its hydraulic pump system. These excavators are equipped with a variable displacement piston pump that allows for precise control of hydraulic flow and pressure. The pump provides a maximum flow rate of 219 liters per minute (58 gallons per minute) at a pressure of 3,050 pounds per square inch (PSI), ensuring efficient operation of the excavator's hydraulic functions.
The hydraulic system of the Caterpillar 320C (Pump) series also includes a separate hydraulic circuit for the swing function, which allows for smooth and responsive rotation of the excavator's upper structure. The swing circuit provides a maximum flow rate of 132 liters per minute (35 gallons per minute), enabling the excavator to perform fast and accurate swing movements.
The excavators in this series feature a robust undercarriage that ensures stability and durability on various terrains.
The undercarriage consists of a track frame with heavy-duty rollers, idlers, and sprockets, along with track shoes that provide excellent traction and minimize ground pressure. The 320C (Pump) series offers both standard and long undercarriage options to suit different working conditions and requirements.
The Caterpillar 320C (Pump) series is equipped with a spacious and comfortable operator cab designed to enhance productivity and reduce operator fatigue. The cab features ergonomic controls, adjustable seating, and excellent visibility, allowing the operator to work efficiently and safely. The excavators are also equipped with advanced monitoring and diagnostic systems, providing real-time information about the machine's performance and health.