When looking to acquire a used CNC lathe from Kitmondo's metal category, it's important to keep several key factors in mind. First, inspect the machine's overall condition for any signs of wear or damage. Second, evaluate the machine's age and maintenance history. Third, ensure that the control system is compatible with your existing software and equipment. Fourth, verify that the spindle speed is appropriate for the materials you plan to work with. Finally, consider the maximum workpiece size the machine can handle. By addressing these considerations, you can confidently select a high-quality machine at a competitive price from Kitmondo's range of trusted sellers.
Showing 1 - 20 out of 2085
Year: 2006
Turning length | 305 mm |
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Type of CNC | Fanuc |
Tailstock | no |
Turning Ø | 320 mm |
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Spindle taper | |
Bar feeder | no |
Year: 2001
Turning length | 305 mm |
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Ø above the bed | 550 mm |
Length between centers | 510 mm |
Turning Ø | 280 mm |
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Ø above transversing slide | 350 mm |
Type of CNC | MAZATROL PC FUSION CNC 640T |
Year: 2005
Turning length | 150 mm |
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Ø above the bed | 210 mm |
X-axis | 200 mm |
Turning Ø | 210 mm |
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Type of CNC | Muratec MT12 Cmg |
Z-axis | 650 mm |
Year: 2014
Ø above the bed | 625 mm |
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Type of CNC | Siemens 808 D |
Spindle bore | 84 mm |
Ø above transversing slide | 440 mm |
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Spindle taper | Sauter Turret |
Number of tools on turret | 8 |
Year: 2005
Ø above the bed | 650 mm |
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Type of CNC | Fanuc Series 21i-TB |
Spindle bore | 75 mm |
Ø above transversing slide | 300 mm |
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Spindle taper | VDI40 |
Number of tools on turret | 12 |
Year: 2000
Turning length | 2000 mm |
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Ø above the bed | 554 mm |
Length between centers | 2000 mm |
Turning Ø | 830 mm |
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Ø above transversing slide | 370 mm |
Type of CNC |
Year: 1997
Type of CNC | |
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Number of turrets | 1 |
Number of rotating tools | 12 |
Spindle taper | |
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Number of tools on turret | 12 |
Tailstock | no |
Year: 2020
Turning length | 1265 mm |
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Ø above the bed | 650 mm |
Type of CNC | Siemens 828D |
Turning Ø | 360 mm |
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Ø above transversing slide | 540 mm |
X-axis | 235 mm |
Year: 1988
Turning length | 530 mm |
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Ø above the bed | 520 mm |
Length between centers | 500 mm |
Turning Ø | 260 mm |
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Ø above transversing slide | 350 mm |
Type of CNC | Fanuc |
Year: 2004
Turning length | 339 mm |
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Type of CNC | FANUC 32i |
Z-axis | 339 mm |
Turning Ø | 380 mm |
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X-axis | 166.5 mm |
Spindle taper | ASA 5 |
Year: 1995
Turning length | 1000 mm |
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Ø above the bed | 530 mm |
Type of CNC | OKUMA OSP 7000 L |
Turning Ø | 340 mm |
---|---|
Length between centers | 1020 mm |
X-axis | 260 mm |
Year: 2005
Turning Ø | 760 mm |
---|---|
X-axis | 630 mm |
Spindle taper |
Type of CNC | Mazatrol |
---|---|
Z-axis | 1585 mm |
Spindle bore | 102 mm |
Year: 2014
Turning length | 2120 mm |
---|---|
Ø above the bed | 630 mm |
X-axis | 150 mm |
Turning Ø | 725 mm |
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Type of CNC | fanuc i series |
Z-axis | 2100 mm |
Year: 2016
Turning length | 620 mm |
---|---|
Ø above the bed | 490 mm |
Spindle taper |
Turning Ø | 310 mm |
---|---|
Type of CNC | Fanuc 31i-A |
Spindle bore | 76 mm |
Year: 2005
Turning length | 530 mm |
---|---|
Ø above the bed | 530 mm |
X-axis | 150 mm |
Turning Ø | 255 mm |
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Type of CNC | Fanuc 21 i-TB |
Z-axis | 630 mm |
Year: 2001
Turning length | 400 mm |
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Ø above the bed | 400 mm |
Length between centers | mm |
Turning Ø | 200 mm |
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Ø above transversing slide | 420 mm |
Type of CNC | SIEMENS SINUMERIK 840 |
Year: 1998
Turning length | 430 mm |
---|---|
Ø above the bed | mm |
Length between centers | mm |
Turning Ø | 200 mm |
---|---|
Ø above transversing slide | 300 mm |
Type of CNC | FANUC Series 18i-T |
Year: 2006
Turning length | 530 mm |
---|---|
Ø above the bed | 550 mm |
Type of CNC | Fanuc 21i-TB |
Turning Ø | 350 mm |
---|---|
Ø above transversing slide | 210 mm |
X-axis | 210 mm |
Year: 2020
Turning length | 800 mm |
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Ø above transversing slide | 715 mm |
Type of CNC | Fanuc 32i |
Turning Ø | 550 mm |
---|---|
Length between centers | 800 mm |
X-axis | 380 mm |
Year: 2008
Turning length | 350 mm |
---|---|
Ø above the bed | 800 mm |
Length between centers | 1000 mm |
Turning Ø | 390 mm |
---|---|
Ø above transversing slide | 620 mm |
Type of CNC | Fanuc Series 18i |
CNC lathes are highly versatile machines utilized in the metalworking industry for turning and shaping materials. Available in various sizes and configurations, they cater to different applications. Acquiring a used CNC lathe from Kitmondo can be a cost-effective solution for your business, provided the machine meets your specific requirements and is in good condition.
Machine Condition:
Examine the overall condition of the machine for any signs of wear, rust, cracks, or damage that could impair performance.
Machine Age:
Evaluate the machine's age and maintenance history. Older machines may feature outdated technology and could be less reliable than newer models.
Control System Compatibility:
Ensure the machine's control system is compatible with your existing software and equipment. CNC lathes typically use control systems from manufacturers such as Fanuc or Siemens, among others.
Spindle Speed:
Verify that the spindle speed suits the materials you will be working with, as different materials require different speeds.
Workpiece Size:
Check the maximum workpiece size the machine can handle to ensure it meets your requirements. CNC lathes come in various sizes to accommodate different part dimensions.
By thoroughly assessing these factors, you can select a high-quality machine from Kitmondo’s range of trusted sellers.
CNC lathes are equipped with various options to suit different industries and applications:
Bed Length and Swing Diameter:
These parameters vary to accommodate different workpiece sizes. Longer bed lengths are ideal for machining longer parts, while larger swing diameters handle larger diameter parts.
Number of Axes:
Machines range from 2-axis to 9-axis configurations. More axes allow for the production of more complex parts.
Control System:
Common control systems include Fanuc and Siemens, each offering unique programming options and capabilities.
Tooling System:
CNC lathes may use turret or gang tooling systems. Turret tooling enables quick, precise tool changes, whereas gang tooling is better for simpler parts with fewer tool changes.
Spindle Speed and Power:
These determine how efficiently the machine can cut materials, with higher speeds and power suitable for harder materials.
Chuck Type:
Machines use different chucks, such as three-jaw or four-jaw chucks. Three-jaw chucks are ideal for symmetrical parts, while four-jaw chucks are more versatile.
Understanding these options helps in selecting a machine tailored to your specific needs.
Fanuc:
Known for reliability, precision, and ease of use.
Siemens:
Offers advanced features like adaptive control and high-speed machining.
Mitsubishi:
Renowned for high accuracy and user-friendly interfaces.
Heidenhain:
Famous for dynamic precision and adaptive feed control.
Fagor:
Versatile and affordable, ideal for small to medium-sized businesses.
DMG Mori:
Produces a wide range of lathes for various applications.
Mazak:
Known for high precision and advanced control systems.
Haas Automation:
Offers reliable, easy-to-use, and affordable machines.
Okuma:
Provides high performance and flexible options, including live tooling.
Doosan:
Renowned for high productivity and accuracy.
Nakamura-Tome:
Specializes in high-speed machining and advanced control systems.
Biglia:
Offers high precision and versatility with bar feeding and live tooling options.
Colchester:
Produces durable and precise machines with user-friendly interfaces.
Mori Seiki:
Known for high-quality construction and multi-tasking capabilities.
Index:
Excels in high-speed machining and precision.
CNC lathes rotate a workpiece while a cutting tool removes material to create the desired shape. The tool’s movement is controlled by a computer program. The workpiece is held in place by a chuck, and as it rotates, the cutting tool shapes the workpiece. CNC lathes can produce a wide range of parts, including shafts, valves, aerospace components, automotive parts, and medical implants.
The cost of a CNC lathe varies widely based on factors like size, capacity, automation level, and control system complexity. Prices for small, entry-level machines range from €12,000 to €48,000, while mid-range machines cost between €48,000 and €120,000. High-end machines can exceed €240,000. Used CNC lathes typically range from €22,000 to €75,000.