WOODWARD 9907-1375

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The WOODWARD 9907-1375 is an actuator, specifically a V45TD-1515-FURXM-X-S-X Double Acting Actuator. This information is consistently listed in Woodward’s industrial product catalog.

WOODWARD 9907-1375: V45TD Double Acting Actuator

The WOODWARD 9907-1375 is a crucial component in industrial control systems. Its primary function is to convert a control signal—typically hydraulic or pneumatic pressure from a governor or another control module—into precise linear mechanical motion. This motion is then used to operate various industrial devices, such as a steam turbine’s inlet valve, a fuel valve, or a damper.

Product Overview

This specific part number identifies a configuration within the V45TD series of actuators, which are renowned for their robust design and exceptional reliability in demanding industrial environments.

• Product Type: Actuator
• Manufacturer: Woodward
• Part Number: 9907-1375
• Model Designation: V45TD-1515-FURXM-X-S-X
• Function: Converts hydraulic or pneumatic pressure into precise linear mechanical motion for controlling industrial equipment.
• Action Type: Double Acting. This means that pressure is actively applied to both sides of the internal piston to move the actuator in both extending and retracting directions. This provides more positive and controlled movement compared to single-acting actuators that rely on a spring for return.

Detailed Product Description

The WOODWARD V45TD series of actuators are engineered for durability and precise control in heavy-duty applications. While a comprehensive, publicly available datasheet specifically for the 9907-1375 might not be immediately available, its model designation provides key insights into its characteristics:

• Hydraulic or Pneumatic Operation: V45TD actuators can operate using either hydraulic fluid (often turbine lube oil in steam turbine applications) or pneumatic pressure. This pressure is supplied by an associated governor or electronic control system, which generates the precise control signal the actuator responds to.
• Double-Acting Mechanism: The “Double Acting” feature is essential for its operation, enabling precise and controlled movement in both directions (e.g., opening and closing a valve) by actively applying pressure to both sides of the piston. This design offers superior control, especially when strong, positive force is needed for both extension and retraction.
• Linear Mechanical Output: The actuator produces linear force and stroke. This linear motion is then mechanically linked to the equipment it controls, such as a steam turbine’s admission valve, a fuel valve on an engine, or a large industrial damper.
• Rugged Industrial Construction: These actuators are built for the harsh conditions of industrial settings. Their robust construction ensures reliable operation under high temperatures, significant vibrations, and continuous duty cycles. Features like chrome-plated piston rods, internal and protected feedback sensors, stepped cushions, and triple shaft seal technology contribute to their longevity and ability to withstand side loads of up to 5% of the output force.
• Specific Configuration (1515-FURXM-X-S-X): The alphanumeric suffix provides specific details about this particular actuator:
  • The “1515” likely indicates a specific stroke length, referring to the maximum linear travel of the actuator (e.g., 151.5 mm or a similar measurement, depending on Woodward’s internal scaling, often correlating to a 6-inch bore and a specific stroke length).
  • The remaining codes (FURXM-X-S-X) define various configuration options, which can include mounting style, internal valving, feedback mechanisms (e.g., female rod end with internal position feedback), special features, and potentially specific material compositions. These codes adhere to Woodward’s established naming conventions for actuator variants.

Technical Specifications (General for V45TD Actuators, Specifics for 9907-1375)

Typical Applications

The WOODWARD 9907-1375 V45TD Double Acting Actuator is commonly found in heavy industrial applications that demand precise, powerful, and reliable control over mechanical devices, including:

• Steam Turbines: Used for the accurate positioning of steam admission valves, which directly controls the flow of steam to the turbine and, consequently, its speed and power output.
• Gas Turbines: May be employed for the precise actuation of fuel gas or liquid fuel valves.
• Compressors and Pumps: In systems where precise flow or pressure regulation is achieved by adjusting large, heavy-duty valves or dampers.
• General Industrial Process Control: Any industrial process requiring robust, powerful, and highly accurate positioning of valves, louvers, or other control elements.