Coolant Through Spindle (CTS)
Simple Type CTS 20bar, CTS 20bar + Paper Filter
Coolant through spindle (CTS) is an optional accessory to integrate with CNC bed type milling machine from Geng-Shuen Co., Ltd. CTS improves overall productivity capability and gain benefits on drilling, hole quality, thought, tool speed and tool life as well.
The CTS option includes an auxiliary high-pressure pump (20bar or more), which supplies high pressure coolant to the cutting edge. CTS not only improves tool life as cost-effective option, but also allows high speeds and reduces cycle time in value-added performance.
Features
- Suit for heavy-duty cutting.
- Enhance hole quality.
- Better surface finishes.
- Increase tool speed.
- Extend tool life.
Coolant Through Spindle (CTS) | Custom CNC Machining Accessories for Optimized Performance
GENG-SHUEN CO., LTD (GSM) specializes in the manufacture of high-performance Coolant Through Spindle (CTS). Established in 1991, the company offers a range of products including CNC Vertical Machining Centers, CNC Bed Type Full-guarding Milling Machines, and CNC Bed Type Semi-guarding Milling Machines. With over 30 years of experience, GSM integrates advanced technology and innovation to meet the high-end market demands. Their products are designed to enhance productivity and precision in machining operations, supported by a dedicated R&D team focused on continuous improvement and technological cooperation with EU and American manufacturers.
The CNC Bed Type Full-guarding Milling Machines from GSM provide enhanced safety and operational performance. These machines feature full guarding to protect operators and ensure a safe working environment. Designed for heavy-duty machining applications, they offer high rigidity, stability, and precision, reflecting GSM's commitment to safety and quality.
GSM has been providing customers with affordable CNC milling machines for industrial use since 1991, both with advanced technology and 25 years of experience, GSM ensures that each customer's requirements are met.