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FAQ

 
Get the Answers to Your Questions!

Q: What is the Ball Lock® System?

A: A means of locating and locking two flat surfaces together. These are usually a fixture plate and a subplate.

Q: How does it locate the plate?
A: It locates in the same manner as locating pins. In other words, there are two precision bores
(receiver bushings) located on two precision pins (shanks).

Q: How many shanks (pins) do I need to locate the plate or part?
A: Two shanks are the maximum needed to locate. Anything more is a hindrance rather than a help.
(This also applies to locating pins.)

Q: How does it lock?
A: The Ball Lock® system achieves its holding force by a combination of force generators.
A threaded screw exerts force onto a center ball which, in turn, directs this force onto three balls that register on a taper seat.

Q: How many do I need to lock the part?
A: This would depend on the particular application, but in most cases, we would recommend that at least four
shanks be used (two shanks to locate and lock, and two shanks to lock only).

Q: If I should only locate on two shanks, how do I install the other two shanks without causing interference?
A: This is accomplished by only using liner bushings for the locating shanks and drilling a clearance hole
(shank diameter plus approximately .030") for the remaining shanks.

Q: How close a repeatability can I expect?
A: If the center distance between the two locating holes (receiver bushings) is held to ±.0002" tolerance,
and two primary liner bushings are used, then repeatability of ±.0005" can be maintained.

Q: What is the difference between the primary and the secondary liner bushings?
A: The only difference between the primary and the secondary liner bushings is that the secondary liner bushing
has an oversized I.D. to accommodate the wider center distance tolerance on your fixture.

Q: Is there a preferable location for the liner bushing?
A: The location of the liner bushing is not critical, but in order to be consistent, we recommend that wherever possible,
locate the liner bushings at bottom left and at top right.

Q: What are the advantages of using the Ball Lock® System over the conventional method of dowel pins and cap screws?
A: Both locating and locking are accomplished in the same motion. Two and one half turns are the maximum needed to lock
(whereas a 1/2–13 cap screw with one and a half diameters of thread engagement would need ten turns to lock).
On C.N.C. machines, the repeatability of fixture locations makes indicating of the fixture unnecessary.

Q: If I need to recess the fixture plate in order to have a clear surface, what do I have to do?
A: Counterbore the fixture plate to a diameter large enough to allow easy removal of the shank.
Note: The thickness of the plate section under the head of the shank is critical! It must conform to plate
thickness recommended in the catalog.

Q: What if my plate is thinner than the recommended thickness?
A: It is possible that by adjusting the depth of the counterbore for the receiver bushing, you can still use the Ball Lock® System.
If there are any questions on this type of application, please call 1-877-426-2504.

Q: Can I use the shanks in a heated environment?

A: The shank is made of alloy steel, heat treated to 40-45Rc and should stand temperatures up to 400°F. However, the “O” Ring that retains the balls could disintegrate. Note! Be aware that thermal expansion of your plate could affect the center distance tolerance and repeatability.