Heavy-Duty Push-Pull Stainless Steel Control Cable Assembly With Cylinder
Product Description:
The heavy-duty push-pull control cable assembly is designed for precise mechanical motion transmission in demanding environments. Engineered with a high-strength inner core, durable outer conduit, and corrosion-resistant metal end fittings, this control cable ensures smooth, reliable push and pull operation over long service life.This assembly is ideal for remote actuation of mechanical systems where direct linkage is impractical. Its robust construction allows it to withstand vibration, temperature variations, and heavy loads, making it suitable for automotive, industrial, agricultural, and off-road vehicle applications.
Applications:
• Commercial buses and coaches
• Heavy-duty trucks
• Construction and engineering machinery
• Agricultural machinery
• Special-purpose vehicles
• Industrial automation equipment
• Marine and offshore equipment
• Military and defense vehicles
Features:
• Heavy-duty push-pull design for high load transmission
• Stainless steel cylinder for enhanced strength and durability
• Smooth, low-friction linear movement
• Adjustable threaded ends for precise installation
• Flexible routing with minimal backlash
• Secure mounting bracket for stable operation
Advantages:
• Superior Durability: Stainless steel components provide excellent wear and corrosion resistance
• High Precision: Ensures accurate motion control with consistent performance
• Flexible Installation: Allows complex routing without loss of efficiency
• Customizable Design: Tailored solutions available for specific application requirements
• Low Maintenance: Designed for long service life with minimal upkeep
Working Principle:
The control cable assembly operates by transmitting linear force through a flexible conduit. When an external force is applied, the stainless steel inner core moves axially inside the outer casing, pushing or pulling the integrated cylinder rod. The outer conduit resists compression while guiding the motion, ensuring stable, accurate force transfer from the input mechanism to the output device.
Real Picture:
