USED DOOSAN PUMA 240

The Doosan Puma 240 is a high-performance CNC turning center designed for precision machining in both job shop and production environments. Built with a rigid slant-bed construction and hardened box guideways, the machine offers excellent stability, vibration damping, and long-term accuracy, making it suitable for machining a wide range of materials including steel, aluminum, and stainless alloys. It is commonly used for small to medium-sized components where consistent performance and repeatability are critical.

The machine typically features a maximum turning diameter of around 350–570 mm and a turning length of approximately 500–650 mm depending on configuration. It is equipped with an 8 to 10-inch chuck and a spindle capable of speeds up to 3,500–4,500 RPM, supported by a motor ranging between 15 kW and 30 HP.

A 12-station turret is standard, allowing fast tool indexing and efficient multi-operation machining. Many configurations also include live tooling (M or MS variants), enabling milling and drilling operations in addition to turning. The machine is typically controlled by a Fanuc CNC system, offering reliability, ease of programming, and compatibility with modern shop environments. With its compact footprint, strong cutting capability, and versatile configurations, the Puma 240 remains a popular choice in the used CNC lathe market.

DOOSAN PUMA 240 SPECIFICATIONS

WHY BUY USED DOOSAN PUMA 240

Buying a used Doosan Puma 240 is a practical and cost-effective decision for machine shops looking to maintain productivity without a large capital investment. One of the key advantages of this model is its durability. The rigid slant-bed design and box guideways ensure long-term stability and accuracy, even after years of use in demanding production environments. This makes it a reliable option in the used market, where machine condition and structural integrity are critical factors.

Another major benefit is versatility. The Puma 240 is available in multiple configurations, including standard turning, live tooling (M), and sub-spindle (MS) variants. This flexibility allows shops to perform multiple operations on a single machine, reducing setup times and improving overall workflow efficiency. The inclusion of a 12-station turret and optional live tooling further enhances its capability for complex part machining.

Cost efficiency is also a significant factor. A used Puma 240 provides strong turning performance, reliable spindle power, and proven CNC control systems at a fraction of the cost of a new machine. The widespread use of Fanuc controls ensures easy integration, availability of spare parts, and access to skilled operators. For small to mid-sized shops or expanding operations, the Puma 240 offers a dependable and economical solution with proven industrial performance.

HOW MUCH DOES A USED DOOSAN PUMA 240 COST?

The cost of a used Doosan Puma 240 depends on several key factors, including manufacturing year, machine condition, configuration (standard, M, or MS), and most importantly, cutting hours. Since these machines are often used in production environments, cutting time directly affects wear on critical components such as the spindle, turret, and guideways.

Machines manufactured before 2000 are less common but typically fall within the range of $10,000 to $20,000. These units often have high cutting hours exceeding 25,000–40,000 hours and may require refurbishment, particularly in spindle bearings and turret mechanisms.

Machines built between 2000 and 2010 are the most widely available in the market and generally range from $20,000 to $50,000. These machines typically have cutting hours between 10,000 and 25,000 hours. Units with live tooling, bar feeders, or well-documented maintenance history tend to command higher prices within this range.

For newer machines from 2010 to 2025, prices typically range from $50,000 to $100,000 or more, especially for machines with lower cutting hours under 8,000–12,000 hours and advanced configurations such as sub-spindles, live tooling, and automation-ready features.

Ultimately, the best value is determined by balancing age with cutting hours, as a well-maintained machine with moderate usage often provides better long-term reliability than a newer machine that has been heavily used in continuous production environments.