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in-house
RILA
High-performance double-column platform for precision machining at scale. Symmetrical rigidity, box-in-box RAM guidance, and hydraulic tie-rod reinforcement minimize deflection under heavy loads, while full linear-scale feedback sustains repeatable accuracy and surface finish.
- Double-column rigidity for stable long-term accuracy
- Hydraulic tie-rod reinforcement for high-load stability
- Full linear-scale feedback for precise, repeatable motion
Brand:
- MILCO LTD
Overview
High-Performance Double-Column Horizontal Milling Machine
The RILA series delivers extreme rigidity and precision for large-format machining tasks. Built around a symmetrical double-column structure, a box-in-box ram, and FEM-optimized cast or welded structures, RILA ensures minimal deflection even under heavy cutting forces.
Advanced motion systems include master-slave rack-and-pinion drives (X/Y), dual ball screws with safety brakes (Z), high-precision roller guides, and absolute linear scales on all axes. A CNC-controlled hydraulic tie-rod system further increases stiffness during high-load machining.
Equipped with direct-drive spindle technology, RILA achieves efficient torque transfer, quick acceleration, and excellent surface finish – ideal for molds, precision frames, structural elements, and heavy-duty industrial machining.
Key Features – RILA
Symmetrical Double-Column Structure
Exceptional torsion resistance and rigidity for long-term stability.
Box-in-Box RAM Carriage
Ten roller carriages ensure stiffness and smooth vertical motion.
Hydraulic Tie-Rod Reinforcement
Automatically adjusted to maintain optimal rigidity.
High-Precision Motion Systems
Rack-and-pinion X/Y and dual ball screws on Z with full linear scale feedback.
All machines are also available in full cast-iron structural configuration upon request, ensuring maximum vibration damping and thermal stability for demanding environments.
HEADS
MILCO Ltd head portfolio (compatible across machine families):
Universal 45° – 2.5° × 2.5° (Automatic Change)
Universal 45° – 1° × 1° (Automatic Change)
Universal 45° – 2.5° × 2.5° (Integrated)
Orthogonal Head – 2.5° × 2.5° (Integrated)
Specifications
|
Category |
Item |
Unit |
Value |
|---|---|---|---|
|
TRAVERSES |
|||
|
Longitudinal — X |
mm |
4,000–20,000 |
|
|
Cross — Y |
mm |
2,000–2,500 |
|
|
Vertical — Z |
mm |
1,250–1,500 |
|
|
FEEDS |
|||
|
Maximum — X |
m/min |
30 |
|
|
Maximum — Y |
m/min |
20 |
|
|
Maximum — Z |
m/min |
20 |
|
|
SPINDLE SPECIFICATIONS |
|||
|
Taper |
— |
DIN69871 (ISO50) Big Plus |
|
|
Programmable speed |
rpm |
4000 to 8000 |
|
|
Maximum power |
kW |
40 |
|
|
Maximum torque |
Nm |
830 |
Applications
General machining
Mixed prototype and production work across sizes; flexible envelopes and quick changeovers speed setups, reduce handling, and keep output consistent day to day.
Capital goods
Industrial equipment components from plates and frames to precision shafts and housings; scalable platforms and stable processes preserve accuracy over long runs.
Automotive
Tooling and production parts across the supply chain, from fixtures and dies to turned and milled components; repeatable referencing supports surface quality and tight tolerances.
Energy
Pump and valve components, compressor parts, and auxiliary housings; controlled cutting and chip/coolant management help protect tolerances, surface finish, and tool life.
Oil & Gas
Valve bodies, manifolds, housings, and high-integrity flanges; robust machining strategies and chip/coolant control help maintain tolerances in demanding alloys.
Wind energy
Drivetrain and auxiliary components including hubs, seats, flanges, and structural parts; rigid setups and stable processes sustain accuracy, finish, and tool life across long runs.
Railway
Frames, brackets, axlebox housings, and brake components; rigid machining and effective chip evacuation keep geometry and flatness consistent on large parts.