Inline Check Valve | Ball-Type Inline Check Valve
C&C Industries
The C&C Ball-Type Inline Check Valve is a compact, high-pressure solution designed for reliable backflow prevention in instrumentation and fluid control systems. Built for pressures up to 6000 PSI, it provides dependable performance in applications where space is limited and system integrity is critical.
Featuring a simple spring-loaded ball design, the valve allows flow in one direction while preventing reverse flow with minimal delay. Its inline configuration and small footprint make it ideal for tight installations where larger check valves are not practical.
Constructed with a stainless steel body, internal components, and Viton sealing, this valve delivers corrosion resistance, durability, and consistent sealing performance across a wide range of service conditions.
Typical Applications:
Instrumentation lines, chemical injection systems, hydraulic systems, sampling lines, and high-pressure fluid control systems
Key Features
- Pressure rating up to 6000 PSI (ambient)
- Temperature range up to 250°F
- Sizes from 1/8” through 1”
- Inline ball-type check design
- Spring-assisted closure
- 316 stainless steel body
- 304 stainless steel ball and spring
- Viton O-ring seal
- Threaded end connections (M x F configurations)
- Compact, lightweight construction
- Cv values from 0.8 to 1.8 depending on size
PERFORMANCE ADVANTAGES
Why the C&C Inline Check Performs Where It Counts
COMPACT DESIGN FOR
TIGHT SYSTEM INTEGRATION
The inline configuration allows the valve to be installed directly into piping or tubing systems without requiring additional space. This makes it ideal for instrumentation panels and compact skids.
FAST RESPONSE FOR
RELIABLE BACKFLOW PREVENTION
The spring-loaded ball design reacts quickly to changes in flow direction, helping prevent reverse flow before it can impact upstream equipment.
HIGH-PRESSURE PERFORMANCE
IN SMALL FORM FACTOR
Rated up to 6000 PSI, this valve delivers performance typically associated with larger components while maintaining a compact footprint. This makes it well suited for high-pressure control systems.
LOW FLOW RESISTANCE
WITH CONSISTENT PERFORMANCE
Optimized internal geometry provides consistent flow characteristics across sizes, with Cv values tailored for controlled flow without excessive restriction.