The T6CC hydraulic vane pump is a high-performance, fixed displacement pump designed for demanding fluid power applications. It offers high pressure (up to 4000 PSI) and efficient operation, making it ideal for industrial and mobile systems. With its SAE B mount and versatile shaft configurations, the T6CC delivers reliable performance in various hydraulic circuits, ensuring durability and precision in operation.
1.1 Overview of the T6CC Series
The T6CC series by Parker Hannifin is a high-performance, fixed displacement hydraulic vane pump designed for demanding applications. With a max pressure of 4000 PSI and 2800 rpm shaft speeds, it offers superior efficiency and durability. The SAE B mount and versatile displacements make it ideal for industrial and mobile fluid power systems.
1.2 Importance of the T6CC in Hydraulic Systems
The T6CC pump is crucial in hydraulic systems for its high-pressure and high-flow capabilities, enabling efficient operation in heavy-duty applications. Its compact design and versatile fluid compatibility ensure reliability across various industries, making it a cornerstone in modern fluid power technology and essential for optimizing system performance and reducing operational costs.
Key Features and Benefits of the T6CC Pump
The T6CC pump offers high-pressure operation, compact design, and versatile fluid compatibility, ensuring efficient performance in demanding hydraulic systems while reducing size and operational costs significantly.
2.1 High Pressure and Flow Capacity
The T6CC pump delivers exceptional high-pressure performance, reaching up to 4000 PSI, and offers increased displacement through advanced cam rings, optimizing flow capacity. This ensures efficient operation in high-demand applications while minimizing system size and cost. Its robust design handles heavy workloads, making it ideal for both industrial and mobile hydraulic systems.
2.2 Compact Design and Mounting Options
The T6CC pump features a compact design with SAE B mount compatibility, enabling easy installation in space-constrained applications. Its versatile mounting options, including keyed and splined shaft configurations, allow for seamless integration into various hydraulic systems, enhancing flexibility and reducing installation complexity.
2.3 Versatility in Fluid Compatibility
The T6CC pump is compatible with a wide range of fluids, including phosphate esters, chlorinated hydrocarbons, water glycols, and invert emulsions. Its design allows operation with various viscosities, ensuring reliable performance across diverse applications and environments while maintaining high-pressure capabilities and efficiency.
Technical Specifications of the T6CC Pump
The T6CC pump operates at pressures up to 4000 PSI and shaft speeds of 2800 rpm. It features an SAE B mount with versatile shaft configurations and displacements.
3.1 Displacement Range and Shaft Speeds
The T6CC pump offers a displacement range of 10.8 to 58.3 ml/rev, ensuring versatility for various applications. Shaft speeds can reach up to 2800 rpm, providing efficient performance across different operational demands. This balance of displacement and speed ensures optimal fluid flow and pressure delivery in hydraulic systems.
3.2 Pressure Ratings and Viscosity Limits
The T6CC pump operates at pressure ratings up to 4000 PSI, ensuring robust performance in high-demand applications. It accommodates a wide viscosity range, from 60 SUS to 9240 SSU, enabling operation with various fluids, including phosphate esters and water glycols, across diverse temperature conditions, ensuring reliability and adaptability in hydraulic systems.
3.4 SAE B Mount and Shaft Configurations
The T6CC pump features an SAE B mount with a two-bolt J744 mounting flange, ensuring compatibility with standard hydraulic systems. It offers keyed or splined shaft options, providing flexibility in installation and application. A severe-duty shaft option is available for challenging environments, enhancing durability and performance in demanding fluid power applications.
Applications of the T6CC Pump
The T6CC pump is ideal for industrial machinery, mobile hydraulic systems, and high-performance fluid power applications. Its robust design ensures reliable operation in demanding environments.
4.1 Industrial Machinery and Equipment
The T6CC pump excels in industrial machinery, providing consistent fluid power for manufacturing, material handling, and heavy-duty equipment. Its high-pressure capability ensures efficient operation in challenging environments, while its compact design allows seamless integration into existing systems, enhancing productivity and reliability in industrial settings.
4.2 Mobile Hydraulic Systems
The T6CC pump is widely used in mobile hydraulic systems, including construction equipment, agricultural machinery, and utility vehicles. Its lightweight, compact design, and high-pressure capabilities ensure optimal performance in mobile applications, where space and weight constraints are critical. The pump’s reliability and efficiency make it a preferred choice for mobile fluid power systems.
4.3 High-Performance Fluid Power Systems
The T6CC pump excels in high-performance fluid power systems, delivering precise control and high flow rates. Its balanced design compensates for wear and temperature changes, ensuring consistent performance. Used in advanced industrial and specialized equipment, the T6CC supports demanding applications where reliability, efficiency, and high-pressure operation are essential.
Maintenance and Repair of the T6CC Pump
The T6CC pump requires regular maintenance, including lubrication and inspection of wear parts. Recommended repair kits and procedures are available, ensuring optimal performance and longevity. Service intervals should be followed to prevent contamination and wear, maintaining the pump’s efficiency and reliability in hydraulic systems.
5.1 Recommended Repair Kits and Procedures
Recommended repair kits for the T6CC pump are available, including standard and severe-duty options. These kits ensure optimal performance and longevity. Procedures outlined in the T6CC PDF manuals provide detailed instructions for replacing wear parts, such as seals and bearings, to maintain efficiency and prevent operational issues. Proper lubrication and service intervals are also emphasized to ensure reliability and extend the pump’s lifespan.
5.2 Lubrication and Service Intervals
Proper lubrication is essential for the T6CC pump’s longevity. Service intervals are recommended every 500 hours or as specified in the T6CC PDF manual. Using the correct hydraulic fluid ensures optimal performance and prevents damage. Regular servicing maintains efficiency, prevents wear, and extends the pump’s operational lifespan, ensuring reliable hydraulic system functionality.
5.3 Troubleshooting Common Issues
Common issues with the T6CC pump include pressure imbalances, noise, and fluid contamination. Checking pressure settings, ensuring proper fluid compatibility, and inspecting for worn components can resolve many problems. Regular maintenance and referencing the T6CC PDF manual can help diagnose and address issues promptly, ensuring optimal performance and extending pump lifespan effectively.
Accessories and Components for the T6CC Pump
The T6CC pump offers a range of accessories, including severe duty shafts, cartridge configurations, and mounting flanges, enhancing its versatility and compatibility with various hydraulic systems.
6.1 Severe Duty Shaft Options
The T6CC pump offers severe duty shaft options, designed for high-stress applications. These shafts feature enhanced strength and durability, with keyed or splined configurations for secure connections. They support bi-directional rotation and are compatible with high-pressure demands, ensuring reliable performance in heavy-duty hydraulic systems.
6.2 Cartridge Pump Configurations
The T6CC pump offers cartridge configurations designed for easy installation and adaptability. These modular designs simplify system integration, reducing installation time and maintenance needs. Cartridge pumps are compatible with multiple mounting options and fluid systems, ensuring enhanced reliability and performance in demanding hydraulic applications.
6.3 Mounting Flanges and Adapters
The T6CC pump features SAE B 2-bolt J744 mounting flanges, offering compatibility with standard hydraulic systems. Adapters are available for flexible installation across different applications, ensuring secure and precise alignment. These mounting options enhance versatility, allowing the pump to integrate seamlessly with existing machinery and equipment, optimizing performance and reducing installation challenges.
Spare Parts and Replacement Guidelines
The T6CC series offers a comprehensive range of spare parts, including seals, shafts, and cam rings, ensuring optimal performance and longevity. Detailed replacement guidelines are provided to facilitate maintenance and minimize downtime, ensuring the pump operates at peak efficiency throughout its service life.
7.1 Spare Part List for T6CC Series
The T6CC series provides a detailed spare part list, including cam rings, severe-duty shafts, and mounting flanges. This comprehensive list ensures easy identification and procurement of components, facilitating timely maintenance and repairs. Each part is designed to meet high-performance standards, ensuring optimal functionality and longevity of the pump in various hydraulic systems.
7.2 Ordering Codes and Model Numbers
The T6CC series uses standardized ordering codes and model numbers for precise part identification. For example, model numbers like T6CC W-022-008-1R00-C100 include details on displacement, shaft type, and mounting options. This structured coding ensures easy identification of components, facilitating accurate orders and minimizing errors in procurement and installation processes for users worldwide.
7.3 International Availability and Distributors
The T6CC pump is widely available through Parker Hannifin’s global network of authorized distributors. Manufactured in France by Denison Vane Pumps, these units are distributed internationally to meet diverse market demands. Customers can access product support and purchasing options via Parker’s toll-free number (1-800-27-27-537) and through authorized regional distributors worldwide.
Performance Enhancements and Upgrades
The T6CC pump offers high-performance cam rings for increased displacement and balanced designs to compensate for wear. It also features bi-directional rotation capability, enhancing versatility in fluid power systems.
8.1 High-Performance Cam Rings
High-performance cam rings in the T6CC pump increase displacement, enabling higher flow rates within the same envelope size. They support operation at pressures up to 4000 PSI, reducing system component costs and enhancing efficiency in demanding fluid power applications.
8.2 Balanced Design for Wear Compensation
The T6CC pump features a balanced design that compensates for wear and thermal variations, ensuring consistent performance over time. This design maintains optimal efficiency by evenly distributing stress and heat, extending service life and reliability in high-viscosity applications and demanding operating conditions.
8.3 Bi-Directional Rotation Capability
The T6CC pump offers bi-directional rotation, allowing operation in both clockwise and counterclockwise directions. This flexibility enhances system design adaptability, enabling reversible flow in hydraulic circuits. The design simplifies integration into diverse applications, improving operational efficiency and reducing complexity in industrial and mobile hydraulic systems.
Environmental and Fluid Considerations
The T6CC pump supports phosphate esters, chlorinated hydrocarbons, water glycols, and invert emulsions, enabling operation with diverse fluids. Its design accommodates varying viscosities and temperatures, ensuring sustainability and compatibility in demanding environments while maintaining high performance and efficiency.
9.1 Compatibility with Various Fluid Types
The T6CC pump is compatible with a wide range of fluids, including phosphate esters, chlorinated hydrocarbons, water glycols, and invert emulsions. This versatility ensures optimal performance across different hydraulic systems, accommodating diverse operational requirements while maintaining efficiency and reliability.
9.2 Operating Temperature Ranges
The T6CC pump operates efficiently within a broad temperature range, accommodating both low and high extremes. Its balanced design ensures stable performance across varying temperatures, maintaining optimal functionality even in challenging environmental conditions.
9.3 Environmental Impact and Sustainability
The T6CC pump is designed to minimize environmental impact through efficient operation and compatibility with eco-friendly fluids. Its durable construction reduces waste and energy consumption, while its balanced design ensures long-term reliability, aligning with sustainable practices in hydraulic system applications.
Safety Precautions and Operational Guidelines
The T6CC pump requires adherence to strict safety protocols, including proper installation, startup, and maintenance procedures. Operators must follow guidelines to prevent accidents, ensure system integrity, and handle emergencies effectively.
10.1 Installation and Startup Procedures
Proper installation involves aligning the pump with the motor, ensuring secure mounting, and verifying shaft configurations. Startup requires priming the pump, checking fluid levels, and testing operation under load to ensure smooth performance and system readiness. Always follow manufacturer guidelines to prevent initial operational issues.
10.2 Safety Measures for Handling and Maintenance
Always wear protective gear and ensure the system is de-energized before servicing. Use proper tools to avoid damage. Follow the manufacturer’s manual for safe procedures. Be cautious of high-pressure lines and moving parts. Regularly inspect components for wear and ensure proper fluid handling to prevent accidents and maintain system integrity.
10.3 Emergency Shutdown and Failure Prevention
Implement emergency shutdown procedures by activating fail-safe mechanisms. Use pressure relief valves to prevent over-pressurization. Conduct routine inspections of seals and bearings. Monitor fluid levels and temperatures to avoid overheating. Ensure all safety protocols are followed to prevent system failure and maintain operational reliability.
Comparison with Other Vane Pump Models
The T6CC hydraulic vane pump outperforms other models with its high-pressure capability and efficient design. It offers superior flow rates and durability compared to T6, T67, and T6C models.
11.1 T6CC vs. T6/T67/T6C Models
The T6CC offers higher pressure (4000 PSI) and shaft speeds (2800 rpm) compared to T6, T67, and T6C models. It features a bi-directional rotation capability, improved wear compensation, and severe duty shaft options, making it more versatile and durable for demanding applications. Its design enhances performance in high-viscosity fluids and extreme operating conditions.
11.2 Performance and Cost Analysis
The T6CC offers superior performance with higher pressure and flow ratings, reducing system costs. Its balanced design and efficient operation lower operational expenses. While initial costs may be higher, its durability and reliability provide long-term savings, making it a cost-effective solution for demanding hydraulic applications and ensuring a strong return on investment.
11.3 Market Position and User Feedback
The T6CC hydraulic vane pump is widely recognized for its high performance and reliability, making it a leading choice in the fluid power industry. Users and engineers praise its durability, efficiency, and versatility. Positive feedback highlights its ability to handle demanding applications, positioning it as a benchmark for hydraulic systems in industrial and mobile markets.
Resources and Documentation
Comprehensive resources for the T6CC pump include downloadable PDF manuals, technical guides, and service information. Parker Hannifin offers detailed documentation, including spare part lists and repair kits, ensuring easy access to maintenance and troubleshooting information.
12.1 T6CC PDF Manuals and Guides
Downloadable T6CC PDF manuals and guides provide comprehensive technical details, including installation, maintenance, and troubleshooting procedures. These resources also cover spare part lists, repair kits, and performance specifications, ensuring users have everything needed for optimal pump operation and longevity.
12.2 Technical Support and Contact Information
For T6CC hydraulic vane pump inquiries, Parker Hannifin SAS VPDE in Vierzon, France, provides dedicated technical support. Contact their team via toll-free number: 1-800-27 27 537 or visit www.parker.com for assistance. Authorized distributors worldwide ensure prompt service and genuine parts availability, catering to global customer needs effectively.
12.3 Online Communities and Forums
Online forums like ResearchGate and LinkedIn groups discuss T6CC hydraulic vane pumps, offering technical insights and user experiences. These platforms facilitate troubleshooting, best practices sharing, and connectivity among industry professionals and engineers, fostering collaborative problem-solving and knowledge exchange within the fluid power community.
The T6CC hydraulic vane pump excels in high-pressure applications, offering reliability and efficiency. Future advancements may integrate advanced materials and smart technologies, enhancing performance and sustainability, ensuring its continued relevance in fluid power systems.
13.1 Summary of Key Points
The T6CC hydraulic vane pump offers high pressure (up to 4000 PSI) and efficient operation, suitable for industrial and mobile systems. Its compact design, versatile mounting options, and compatibility with various fluids ensure reliability. Enhanced features like high-performance cam rings and bi-directional rotation make it a robust choice for demanding hydraulic applications, ensuring optimal performance and durability.
13.2 Future Developments in Hydraulic Pump Technology
Future advancements in hydraulic pump technology will focus on improving energy efficiency, integrating smart control systems, and developing advanced materials. Innovations like adaptive displacement control and real-time monitoring systems will enhance performance. Additionally, eco-friendly designs and reduced emissions will be prioritized, ensuring hydraulic systems like the T6CC remain versatile and sustainable for evolving industrial demands.