Technical Data Sheet: CNC Machine Tool (Year of Construction: 2001)

Introduction

This CNC machine, built in 2001, is a solid option for milling and advanced machining operations. Equipped with a Fanuc 18T control, it is designed for high precision and reliability. The machine is used and in good condition, ready to continue providing excellent performance in a variety of industrial applications.

Technical Data

• Year of Construction: 2001
• CNC control: Fanuc 18T
• Weight: 9000 kg
• Dimensions: Length 1905 mm × Width 2720 mm × Height 3260 mm

Features and Main Components

1. Longitudinal travel X: 390 mm

   • The longitudinal travel X indicates the distance the table can move horizontally. This travel is essential for machining appropriately sized workpieces and for performing milling operations on large surfaces.

2. Vertical Travel Z: 780 mm

   • The Z-axis travel represents the distance the spindle can move vertically. This measurement is crucial for machining large workpieces or for operations that require significant milling depth.

3. Rotary Table: Not present

   • The machine is not equipped with a rotary table, which limits its ability to machine parts with complex angles or three-dimensional geometries.

4. Tool magazine: 12 positions

   • The 12-slot tool magazine allows for automatic switching between different tools during the machining process, improving efficiency and reducing setup times.

5. Spindle Connection: A2-11

   • The A2-11 spindle mount is a standard that allows for safe and precise tool mounting, ensuring stability during milling operations.

6. Maximum Spindle Speed: 2000 rpm

   • The maximum spindle speed of 2000 rpm allows milling operations to be performed on materials of different hardness and characteristics.

7. Spindle Motor Power: 37 kW

   • The 37 kW motor power provides robust cutting and milling capacity, making the machine suitable for working with tough materials and performing high-intensity operations.

Usage Procedure

1. Machine Preparation:

   • Make sure the machine is properly connected and all components are in working order. Check lubrication and fluid levels.

2. Assembly of the Piece:

   • Secure the workpiece to the worktable using appropriate clamping devices. If necessary, use support devices to ensure stability during machining.

3. Setting Up Tools:

   • Load and calibrate tools in the warehouse. Configure automatic tool changers to optimize processing times.

4. Programming and Setup:

   • Use the Fanuc 18T control to program toolpaths and milling operations. Enter part dimensions and machining parameters such as spindle speed and feed.

5. Startup and Monitoring:

   • Start the machine and monitor the milling process to ensure the part is being machined to specifications. Make adjustments if necessary.

6. Check and Finish:

   • After machining, inspect the piece for quality and precision. Perform any manual finishing touches if required.

Matching accessories

• Rotary Table:

  • To add the ability to machine parts with complex angles.

• Cooling System:

  • To keep the temperature of the tools and the workpiece under control, improving the life and quality of the machining.

• Additional Fasteners:

  • To ensure greater stability of the workpiece during milling.

Formulas for Optimal Use Parameters

• Cutting Speed ​​(Vc):

  • Formula: Vc = (π × D × N) / 1000
  • Vc = Cutting speed in m/min
  • D = Tool diameter in mm
  • N = Spindle rotation speed in rpm

• Progress per Lap (f):

  • Formula: f = (D × N) / (1000 × n)
  • f = Feed per revolution in mm/rev
  • D = Workpiece diameter in mm
  • N = Rotation speed in rpm
  • n = Number of tool teeth

Workable Materials

• Metals: Steel, aluminium, brass, copper
• Plastic Materials: Polymers, composite materials

Maintenance

• Lubrication:

  • Check and replace lubricants regularly to keep your machine in good working order.

• Regular Inspection:

  • Perform periodic checks of mechanical parts, bearings, and tools for signs of wear or damage.

• Cleaning:

  • Keep the machine clean by removing chips and debris, to prevent material buildup that could compromise performance.

• Component Replacement:

  • Replace any worn or damaged components to ensure continued, accurate machine operation.

Evaluation of used cars

• General Status:

  • Check that there is no structural damage and that all major components are in good condition.

• Documentation:

  • Request maintenance documentation and operating logs to ensure the machine has been properly maintained.

• Functional Test:

  • Perform tests to ensure that the machine performs as expected and meets the stated specifications.

Sectors of Use

• Manufacturing Industry:

  • Suitable for milling precision components and general mechanical machining.

• Aerospace Sector:

  • Used for the production of complex and high-precision parts.

• Automotive sector:

  • For the processing of automotive components and engine parts.

Advantages of Buying Used

• Lower Cost:

  • Buying a used car can save you significant money compared to buying a new model.

• Minor Depreciation:

  • Used cars depreciate more slowly than new models, offering good long-term value.

• Reliability:

  • With good maintenance, a used machine can continue to provide excellent performance for many years.

, and ready for sale. Suggested PRICE €38,000 https://photos.app.goo.gl/a1mu46bjcXnGssGV8