Headstock and tailstock sets are most often utilized for weld positioning and assembly. Specifically, headstock and tailstock sets hold long, heavy components between them and allow rotation of the component to facilitate welding or assembly of parts to the held component.

What is a Headstock and Tailstock?

The head and tailstock are components of welding positioning systems. The basic headstock tailstock definitions are:

• Headstock: The headstock is the part of the lathe that facilitates its rotational power and houses the mechanical components.
• Tailstock: Found opposite the headstock, the tailstock is a non-rotating component that supports the workpiece to ensure it is held steady, enabling quality work and accuracy. Tailstocks can also mount cutting tools and be adjusted to accommodate different size workpieces.

The Purpose of Headstocks and Tailstocks

The main difference between headstock and tailstock is their function — the headstock powers the rotational functions while the tailstock ensures workpiece stability. The headstock’s purpose is to house the mechanical components, including the spindle, motor, belt drive and gear mechanism. It powers the lathe’s rotation and controls the spindle speed. Headstocks are available in flexible and fixed index drives.

Tailstocks are mainly used for workpieces with a length-to-diameter ratio (L:D) greater than 3:1. Tailstocks offer the necessary stability for welding applications to reduce bending and vibration, but they have other uses as well.

For applications that require drilling through the center of the workpiece, the tailstock can hold cutting tools like drills, reamers or tappers. Workpieces with an L:D of 10 to 1 or greater may also require a steady rest in addition to a tailstock for the best support.

Advantages of Using Headstocks and Tailstocks

Headstock tailstock positioning systems come with many benefits:

• Precision: Headstocks provide precise indexing and rotation, while tailstocks offer exceptional stability and centering. The components work together to ensure precision and accuracy in welds.
• Safety: Using headstocks and tailstocks can improve ergonomics, decreasing the risk of accidents or injuries while working on and around large, heavy components.
• Increase Welding Productivity: The use of headstocks and tailstocks can increase welding productivity and weld quality by providing the proper welding angle and allowing the welder to quickly get into the right position for the next weld.
• Reduce Floor Footprint: The integration of positioners helps optimize floor space, as multiple workstations can be created without the need for additional robots.
• Customizability: Headstocks and tailstocks with customizable mounting plate hole patterns can suit unique manufacturing needs.

Considerations for Using Headstocks and Tailstocks

In weld positioning applications, headstocks and tailstocks are generally oriented horizontally so that the axis of rotation is parallel to the ground. If you’re working on a shorter weldment, using just a headstock and clamping the weldment to the bed may be possible, though this could create an overhung load and unstable rotation.

Heavier and longer parts must be paired with a tailstock to prevent accidents and extend the life of the headstock. In the case of very heavy parts, use rollers under the weldment to distribute the load and facilitate smooth rotation.

You have the option to create the whole assembly system you need to fit your application. If your manufacturing requirements involve flexibility Motion Index Drives can include custom features such as:

• Can be ordered as a complete assembly with a headstock tailstock positioning system and base frame.
• Headstock and tailstock with customizable mounting plate hole patterns.
• Safety locking devices to be used during maintenance and tooling/fixture assembly.
• Slip Rings – Rotary Air Unions

How to Choose the Right Headstock Tailstock Positioner for Your Needs

Here are some tips to help you select the most suitable headstock and tailstock positioner:

1. Evaluate the Load Capacity: Ensure the positioner can handle the weight of your workpieces.
2. Define Your Purpose: Understand the specific tasks you need the positioner to perform.
3. Select the Appropriate Type: Choose a model that aligns with your work requirements and operational needs.
4. Check Product Specifications: Review the technical details to ensure compatibility with your workflow.
5. Decide on Automation: Determine if you need an automated system or a manual setup with a single headstock and tailstock unit.
6. Match Electrical Specifications: Verify that the positioner’s electrical requirements align with the power output at your installation site.

Choose Motion Index Drives for Custom-Engineered Equipment

Given that the durability of the headstock and tailstock system is essential for reliability and accuracy, it is important to work with an experienced headstock/tailstock provider. Motion Index Drives carefully evaluates all engineering factors to help you select the right control and drive options. Our headstock tailstock trunnion positioners produce exceptional results through precise welds and efficient operation. We can also work with you to determine the best solution and custom-engineer equipment for your manufacturing needs.

Meet deadlines and accomplish more with equipment built for longevity and reliability from Motion Index Drives. Reach out for more information on our offerings.