Used TAKISAWA TCC-2000 L3 - 2004 - Lathe CNC Machine For Sale - USA

TAKISAWA TCC-2000 L3 – 2004

MAKE: TAKISAWA
MODEL: TCC-2000 L3
TYPE: Lathe
YEAR: 2004
SKU: 111367
DEALER: Used CNC Exchange
COUNTRY: USA

USED TAKISAWA TCC-2000 L3 – 2004

The 2004 Takisawa TCC-2000 L3 is a compact, high-precision 2-axis CNC turning center engineered for fast, accurate production of small- to medium-sized precision components. Manufactured by Takisawa Machine Tool Co., Ltd., one of Japan’s leading CNC lathe manufacturers, the TCC Series is recognized for its rigid construction, high-speed machining capability, and dependable long-term performance. The TCC-2000 L3 is designed to maximize productivity while maintaining excellent dimensional accuracy and surface finish, making it an ideal solution for high-volume production as well as flexible job shop environments. Its compact footprint, rapid traverse rates, and reliable Fanuc CNC control have made it a popular machine in the used CNC market.

Built with a rigid slant-bed cast iron construction and precision linear guideways, the Takisawa TCC-2000 L3 provides excellent thermal stability, reduced vibration, and consistent machining accuracy. The machine offers approximately 7.5 inches (190 mm) of X-axis travel and 13.8 inches (350 mm) of Z-axis travel, making it ideal for producing precision shafts, bushings, valve components, fittings, and other turned parts. It features an 8-inch hydraulic chuck, an A2-6 spindle nose, and a 2.0-inch (51 mm) bar capacity. The spindle operates at speeds up to 3,200 RPM and is powered by a 15 HP (11 kW) spindle motor, delivering excellent cutting performance for aluminum, carbon steel, stainless steel, brass, and engineering plastics. High rapid traverse rates of approximately 945 IPM (24 m/min) on both axes minimize non-cutting time and improve production efficiency.

The 2004 model is commonly equipped with the Fanuc Series 21i-TB CNC Control, although some machines may also feature the Fanuc 18i-T depending on the original configuration. The control provides ISO G-code programming, constant surface speed control, threading cycles, tool wear compensation, and advanced diagnostics for reliable production machining. The machine utilizes an 8-station automatic turret, allowing quick tool indexing for turning, boring, grooving, and threading operations. Standard equipment generally includes a hydraulic chuck, programmable tailstock, automatic lubrication system, flood coolant, spindle orientation, and rigid machine guarding. Optional equipment such as chip conveyors, bar feeders, parts catchers, and tool presetters can further improve productivity and automation.

The Takisawa TCC-2000 L3 is widely used throughout the automotive, hydraulic, electronics, medical, aerospace, and general precision manufacturing industries. Typical applications include bushings, couplings, threaded fittings, valve components, precision shafts, hydraulic parts, and other high-volume turned components. Its compact design, dependable performance, and excellent machining accuracy make it well suited for manufacturers requiring consistent production quality.

Purchasing a used 2004 Takisawa TCC-2000 L3 allows manufacturers to obtain reliable Japanese CNC turning technology at a fraction of the cost of a new machine. Takisawa machines are renowned for their robust construction, long service life, and low maintenance requirements. A properly maintained TCC-2000 L3 continues to deliver excellent machining accuracy and dependable productivity, making it an outstanding investment for precision turning applications.

TAKISAWA TCC-2000 L3 SPECIFICATIONS

Axis

SpecificationValue
Machine TypeCNC Turning Center
Controlled Axes2 Axes (X, Z)
X-Axis Travel7.5 in (190 mm)
Z-Axis Travel13.8 in (350 mm)

Travels / Work Envelope

SpecificationValue
Maximum Turning Diameter8.9 in (225 mm)
Maximum Turning Length11.9 in (301 mm)
Swing Over Bed16.5 in (420 mm)
Maximum Bar Capacity2.0 in (51 mm)

Spindle

SpecificationValue
Chuck Size8 in Hydraulic Chuck
Spindle NoseA2-6
Spindle Bore2.5 in (63.5 mm)
Maximum Spindle Speed3,200 RPM
Spindle Motor15 HP (11 kW)

Tool Changer

SpecificationValue
Turret TypeAutomatic Turret
Tool Capacity8 Stations
Turning Tool Size1.0 in (25 mm)
Maximum Boring Bar Diameter1.5 in (40 mm)

CNC Control

SpecificationValue
CNC ControlFanuc Series 21i-TB (Typical)
ProgrammingISO G-Code
Constant Surface SpeedStandard
Threading CyclesStandard

Coolant / Chip Management

SpecificationValue
Coolant SystemFlood Coolant
Automatic LubricationStandard
Hydraulic TailstockStandard
Chip ConveyorOptional

Power Requirements

SpecificationValue
Electrical Supply220V / 440V, 3-Phase
Connected LoadApprox. 16 kVA
Pneumatic Supply80–100 PSI (5.5–6.9 bar)

Dimensions

SpecificationValue
Machine FootprintApprox. 57 × 55 × 65 in (1,450 × 1,400 × 1,650 mm)
Machine WeightApprox. 5,950 lbs (2,700 kg)

General Information

SpecificationValue
ManufacturerTakisawa Machine Tool Co., Ltd.
ModelTCC-2000 L3
Year2004
Machine CategoryCNC Turning Center
Materials MachinedAluminum, Steel, Stainless Steel, Brass, Cast Iron, Engineering Plastics
Typical ApplicationsBushings, Shafts, Valve Components, Hydraulic Fittings, Couplings, Precision Turned Parts

HOW MUCH DOES A USED TAKISAWA TCC-2000 L3 – 2004 COST?

A used 2004 Takisawa TCC-2000 L3 typically sells for $12,000 to $28,000 USD, depending on spindle hours, machine condition, maintenance history, CNC control version, tooling package, and installed options such as a bar feeder, chip conveyor, parts catcher, or hydraulic tailstock. Machines with documented service records and production-ready tooling generally command higher resale values because they can be integrated into production immediately.

Before purchasing a used Takisawa TCC-2000 L3, buyers should inspect the spindle bearings, turret indexing accuracy, linear guideways, lubrication system, coolant system, and overall machine geometry. A properly maintained 2004 Takisawa TCC-2000 L3 offers excellent long-term value by combining dependable Japanese engineering, precision turning capability, and low operating costs, making it an excellent investment for manufacturers seeking a compact and reliable CNC turning center.


TAKISAWA TCC-2000 L3 VS TAKISAWA TCC-1000 – WHICH ONE TO BUY?

The Takisawa TCC-2000 L3 and Takisawa TCC-1000 are compact CNC turning centers designed for precision machining applications where accuracy, reliability, and efficient production are required. Both machines belong to Takisawa’s TCC Series, which focuses on compact CNC lathes with rigid construction, high-speed turning capability, and dependable performance for small to medium-sized components.

The Takisawa TCC-2000 L3 offers a larger machining capacity, longer turning length, and greater workpiece flexibility compared with the TCC-1000. It is designed for manufacturers requiring increased production capability while maintaining a compact footprint. The TCC-2000 L3 is commonly used for machining shafts, bushings, fittings, flanges, hydraulic components, and automotive parts requiring consistent dimensional accuracy.

The Takisawa TCC-1000 is better suited for smaller precision components where floor space, fast cycle times, and economical operation are priorities. It is ideal for machining smaller diameter parts such as connectors, pins, sleeves, and small mechanical components.

The TCC-2000 L3 provides additional flexibility for manufacturers handling a wider range of parts. Its larger machining envelope allows heavier cutting operations and longer components while maintaining the accuracy expected from Takisawa machines.

Both machines offer excellent reliability and production efficiency. The TCC-1000 is a strong choice for compact high-volume machining, while the TCC-2000 L3 is recommended for shops requiring more machining capacity and versatility.

For companies purchasing a used CNC lathe, the Takisawa TCC-2000 L3 provides an excellent balance of performance, durability, and long-term manufacturing value.


TAKISAWA TCC-2000 L3 SPINDLE NOT TURNING – CAUSES AND TROUBLESHOOTING

If the spindle on a Takisawa TCC-2000 L3 does not rotate, the problem may be caused by spindle drive faults, CNC control alarms, electrical failures, hydraulic issues, lubrication problems, chuck clamping faults, or machine safety interlocks. A proper troubleshooting procedure helps identify the cause quickly and reduces unnecessary downtime.

Begin by checking the CNC control display for active alarms. Emergency stop activation, door interlock faults, spindle amplifier alarms, servo errors, lubrication warnings, chuck clamp alarms, or thermal overload conditions can prevent spindle operation. Clear all active alarms before attempting to restart the spindle.

Inspect the spindle drive system for electrical problems including loose connections, damaged encoder cables, faulty spindle drives, blown fuses, spindle motor overload, or overheating. Verify that the lubrication system, hydraulic pressure, coolant system, compressed air supply, and machine power are operating correctly.

Check the CNC program and manual commands to confirm the spindle start command is correct. Missing M03 or M04 commands, incorrect spindle speed settings, spindle orientation errors, incorrect chuck clamping conditions, or interrupted machining cycles may prevent spindle rotation.

If the spindle starts and immediately stops, inspect the spindle bearings, tool holders, spindle taper, chuck condition, and cutting parameters. Excessive vibration, unusual noise, overheating, or poor workholding may indicate spindle bearing wear or mechanical damage.

Regular inspection of spindle components, lubrication systems, electrical connections, and machine operating conditions helps prevent unexpected spindle failures and maintains reliable performance.


TAKISAWA TCC-2000 L3 MAINTENANCE AND PREVENTIVE CARE GUIDE

The Takisawa TCC-2000 L3 is designed for continuous CNC turning operations requiring accuracy, repeatability, and dependable production performance. Proper preventive maintenance is essential for protecting spindle life, maintaining machining accuracy, and reducing unexpected downtime.

Daily maintenance should include removing chips from the machining enclosure, spindle area, chuck, turret, guideways, and chip conveyor. Operators should check coolant levels, coolant concentration, lubrication system operation, hydraulic pressure, compressed air supply, cutting tools, and spindle condition before starting production.

The spindle taper and chuck area should be cleaned regularly to maintain accurate tool and workpiece positioning. Proper chip removal prevents contamination of guideways and moving components.

Weekly maintenance should include inspection of coolant pumps, chip conveyors, centralized lubrication systems, hydraulic units, turret indexing operation, electrical cabinet filters, coolant filtration systems, and pneumatic components. Any unusual noise, vibration, leakage, or temperature increase should be investigated immediately.

Monthly maintenance should include checking spindle runout, chuck accuracy, turret alignment, ball screws, guideways, spindle bearings, encoder cables, lubrication lines, hydraulic hoses, and electrical connections. Machine geometry checks should be performed periodically to maintain precision machining capability.

Additional preventive maintenance includes replacing filters, monitoring spindle vibration, checking axis backlash, servicing lubrication systems, inspecting coolant quality, and maintaining complete maintenance records.

A structured maintenance program extends machine life, improves machining consistency, reduces repair costs, and ensures the Takisawa TCC-2000 L3 continues delivering reliable CNC turning performance.


FAQ

What is the Takisawa TCC-2000 L3?

The Takisawa TCC-2000 L3 is a compact CNC turning center designed for precision turning operations including facing, boring, threading, drilling, and general machining. It features a rigid machine structure, high-performance spindle, automatic turret, advanced CNC control, and efficient chip management system.

The machine is part of Takisawa’s TCC Series, which focuses on compact CNC lathes designed for accurate and efficient production. The TCC-2000 L3 is commonly used in automotive, aerospace, hydraulic, electronics, medical, and general manufacturing industries.

It is capable of machining shafts, bushings, fittings, flanges, valve components, and precision mechanical parts made from steel, stainless steel, aluminum, brass, and other engineering materials.

Its compact design, rigid construction, and reliable spindle performance make the Takisawa TCC-2000 L3 a popular choice for job shops and production facilities requiring consistent machining accuracy.


What are the most common problems with the Takisawa TCC-2000 L3?

The most common problems with the Takisawa TCC-2000 L3 include spindle alarms, turret indexing faults, lubrication warnings, hydraulic pressure issues, chuck clamping problems, servo drive errors, encoder failures, coolant contamination, spindle orientation faults, electrical communication problems, and axis positioning errors.

Machines operating for long production hours may also experience spindle bearing wear, turret alignment issues, ball screw backlash, hydraulic component wear, coolant pump failures, and normal mechanical fatigue.

Common causes of premature wear include insufficient lubrication, contaminated coolant, improper tooling, excessive cutting loads, poor chip management, and delayed preventive maintenance.

Regular spindle inspection, lubrication servicing, coolant management, hydraulic system checks, electrical inspections, turret maintenance, machine calibration, and scheduled preventive care help minimize downtime.

With proper maintenance, the Takisawa TCC-2000 L3 can continue providing accurate, efficient, and reliable CNC turning performance for many years.