A Specialized CNC Solution for Precision Valve Machining The valve lathe is a specialized CNC machine tool designed for
precision valve manufacturing, offering high accuracy, efficiency,
and multi-functional capabilities to meet diverse valve processing
requirements. Its advanced technology makes it indispensable across
various industries, including oil & gas, chemical processing,
power generation, and shipbuilding. Key Applications1. Valve ManufacturingBall Valves: Machining valve bodies, seats, and spherical components. Gate Valves: Processing valve bodies, gate plates, and sealing surfaces. Globe Valves: Manufacturing valve bodies, bonnets, and discs. Butterfly Valves: Precision machining of valve bodies, discs, and sealing rings. Check Valves: Producing valve bodies and discs for unidirectional flow control.
2. Shipbuilding & Marine ApplicationsMarine Valves: Manufacturing critical valves for shipboard systems, including
seawater, fuel, and air control valves. Subsea Valves: Producing high-pressure, corrosion-resistant valves for deep-sea
exploration and submersible equipment.
3. Water Treatment & Hydraulic EngineeringWater Supply Valves: Fabricating valves for municipal water distribution and wastewater
treatment plants. Hydraulic Valves: Machining large-scale valves used in dams, reservoirs, and
irrigation networks.
4. General Industrial MachineryIndustrial Process Valves: Producing standard valves for chemical, petrochemical, and power
generation systems. Custom Valve Solutions: Manufacturing bespoke or non-standard valves tailored to specific
operational demands.
Typical Machined ComponentsValve Body: Ensuring dimensional accuracy and pressure integrity. Valve Bonnet: Achieving precise fitment with the valve body. Valve Stem: Delivering high surface finish and mechanical strength for
reliable actuation. Sealing Surfaces: Guaranteeing leak-proof performance under extreme conditions. Flanges: Maintaining strict tolerances for secure pipeline integration.
ConclusionAs a cornerstone of modern valve production, CNC valve lathes
enable manufacturers to achieve superior precision, durability, and
efficiency. Their versatility makes them essential for industries
requiring high-performance fluid control systems. By leveraging
advanced valve lathe technology, businesses can enhance product
quality, reduce lead times, and optimize manufacturing workflows.
Details | Item | Unit | YCIC300HT | YCIC300HT-GLQ | YCIC600HT | | Maximum turning diameter | mm | φ460 | φ460 | φ840 | | X-axis travel(mm) | mm | 170 | 170 | 270 | | Z-axis travel(mm) | mm | 395 | 515 | 520 | | Coaxiality(mm) | mm | ≤0.1 | ≤0.1 | ≤0.15 | | Parallelism(mm) | mm | ≤0.1 | ≤0.1 | ≤0.15 | | Surface roughness | - | 6.3 | 6.3 | 6.3 | | Transmission from(Gearshifting) | - | 4speed change | 4speed change | 2 speed change | | Spindle speed range | r/min | 72–256 | 69–157 | 32–47 | | Spindle motor model | - | YE2–132M–6–5.5KW | YE2–132M–6–5.5KW | YE2–160L–8–7.5KW | | CNC control system (optional) | - | Nanjing Huaxing—Stepper system | Nanjing Huaxing—Servo system | Guangzhou CNC—stepping system | | Feed form (optional) | - | Stepper motor | Stepper motor | Stepper motor | | Actuating motor | Nm | 7.7N.m | 7.7N.m | 10N.m | | Fully protected overall dimensions (length × width × height) | mm | 2300X1900X1700 | 2500X1900X1700 | 3000X2300X2500 | | Simple protected overall dimensions (length × width × height) | mm | 2100X1900X1700 | 2300X1900X1700 | 2700X1800X2300 | | Machine weight | kg | 1800 | 2000 | 4500 |
Processed Products
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