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The ER collet system is a tried-and-true tool holding system used by just about every machine shop. Customers like the ability to meet almost any job from drilling to milling to tapping and the flexibility to hold a variety of shank diameters by just changing the bore size of the collet. However, achieving optimal clamping pressure and repeatable accuracy are challenges that have resulted in some &#;creative solutions&#;. We&#;ve seen it all. From cheater bars to provide additional torque on the collet nuts to tapping tool shanks for better accuracy.
In this article we will dissect what&#;s going on with the ER collet system that creates these challenges and why these &#;creative solutions&#; actually work against improving holding power and accuracy. Finally, we will explore the unique solutions Techniks Tool Group has develop to counter the shortcomings of ER collet system including the revolutionary new Parlec P3 collets.
We&#;ve all seen it. It&#;s time to setup an ER collet chuck and out comes the cheater bar to tighten the collet nut. Why do shops feel the need to use cheater bars to adequately tighten collet nuts? Well, no one wants to under tighten a collet nut for fear of the cutting tool coming loose during operation potentially requiring re-work, producing scrap, or worse, creating a serious safety issue. But, as we shall see, cheater bars can actually negatively affect clamping pressure and accuracy.
Cheater bars are an attempt to overcome one of the largest challenges of the ER collet system &#; friction. Friction robs the ER collet system of clamping pressure and can create inconsistent run-out of the cutting tool. Friction occurs between all mating surfaces of the ER tool holder assembly, most notably between the threads of the collet nut and the tool holder and between the collet nut and the 30° face of the collet.
Let&#;s first look at the friction between the threads of the collet nut and the tool holder. The threaded areas of the collet nut and the tool holder create a lot of contact surface area. As a collet nut is tightened on the tool holder the ground threads of the nut and the ground threads of the tool holder produce a great amount of friction.
When using a torque wrench, the buildup of friction between the threads will cause the torque wrench to indicate the proper torque value has been achieved. However, the actual torque being transferred to the cutting tool shank in the form of clamping pressure may be far less than anticipated or required for optimal holding power.
To see a demonstration of how the friction robs the ER collet chuck assembly of holding power, click here.
Shops have been using the extra leverage cheater bars provide to overcome the friction buildup between the nut and holder threads in order to increase the clamping pressure on the cutting tool. However, there is no control over how much torque is actually being produced. Without control, there can be no consistency.
In fact, cheater bars often result in too much torque that can create a host of issues like cracked collet pockets in the holders, cracked collets, and inconsistent run-out.
The first line of defense to ensure proper torque and setup of an ER collet chuck is a torque wrench. Torque wrenches are the &#;great equalizers&#;. Everyone, regardless of strength or size, can achieve the same torque on the collet nut with repeatable results. Shops looking to improve consistency should throw away their cheater bars and incorporate torque wrenches in their ER tooling setup.
To overcome the challenges of friction buildup between the threads of the collet nut and the threads of the tool holder, Techniks Tool Group developed our exclusive &#;Power-Coat&#; collet nuts. Power-Coat collet nuts have a special anti-friction coating that drastically reduce the friction between the threaded connection as well as the at the 30° face of the collet.
This permanent anti-friction coating helps Power-Coat ER collet nuts to achieve about 75% greater clamping pressure on the tool shank at the same torque specification as a standard, uncoated collet nut. No cheater bar required! Power-coat nuts come standard on all our Parlec and Techniks ER collet chucks.
To see a demonstration of the superior holding power of the Power-Coat nuts, click here.
Contact us to discuss your requirements of high speed cylinders. Our experienced sales team can help you identify the options that best suit your needs.
In addition to optimal clamping pressure, shops often struggle with achieving consistent accuracy from their ER tooling. It seems that one setup will produce good accuracy, while just loosening and retightening the collet nut will result in poor accuracy. To correct this, some operators tap the cutting tool shank until the desired accuracy is achieved. What&#;s going on?
As the collet nut and collet assembly is being threaded onto the tool holder the collet will generally rotate with the collet nut. As the 8° taper of the collet mates with the collet pocket, it will stop rotating with the collet nut. You can rotate the nut back-and-forth and the collet will stay stationary.
However, the collet nut must be further tightened to achieve the proper torque specification. As the collet nut continues to rotate, friction builds-up between the now stationary 30° collet face and the collet nut. This friction twists the top of the collet, causing radial distortion.
Think of having your feet buried while someone is turning your shoulders. Eventually, your spine will twist and break. Ouch! This radial distortion produces uneven clamping pressure around the tool shank reduces clamping pressure and creates accuracy issues.
To correct for poor accuracy, some operators will tap the tool shank to bring it into the desired accuracy. However, just tapping the tool shank into tolerance does not solve for the uneven clamping pressure resulting from twisting the top of the collet. Once the machining starts, the tool shank will find its point of lowest energy and will, once again, move out of tolerance.
In order to achieve consistent accuracy, the friction between the 30° collet face and the collet nut must be reduced. Here, again, the Power-Coat collet nut helps overcome this challenge. Power-Coat collet nuts have the anti-friction coating on the mating surface with the 30° collet face. This greatly reduces the friction between the 30° collet face and the collet nut, so the radial distortion is reduced providing improved and consistent accuracy.
To further improve the holding power and accuracy of the ER collet system, Techniks Tool Group has developed the world&#;s first coated ER collet system &#; the P3 ER collet system. P3 (Parlec Pro Precision) has a special anti-friction coating on the 30° collet face. This anti-friction coating enhances the results of the Power-Coat collet nuts to further reduce friction buildup between the 30° collet face and the collet nut reducing radial distortion. Also, P3 ER collets have a reduced number of slots making the collets more rigid and further reducing radial distortion.
The result? Improved clamping pressure on the tool shank and improved accuracy. No tapping required!
For the ultimate in accuracy, Parlec offers the ERos ER system. ERos collet chucks (ERos = ER on-size) are proudly Made-in-the-USA and feature several design improvements that enhance the performance you can expect an ER tooling setup.
ERos chucks and nuts have two pilots to more concentrically align the nut on the holder further improving accuracy. ERos collet nuts do not have any slots, reducing wind vibration at high spindle speeds. Also, the ERos collet nuts have a concentric extraction ring to remove the collet from the holder creating a superior balanced assembly. While the ERos system will improve the performance of standard ER collets, when combined with P3 collets, the ERos system produces results that some of our customers say exceeds that of shrink fit or hydraulic chucks.
Shops considering other tooling technologies to improve consistent accuracy and holding power shouldn&#;t abandon their investment in ER collet chucks and give the Power-Coat collet nuts and P3 ER collet system a try. Want the ultimate in accuracy and holding power? Try out the ERos collet system and P3 collets.
These are just a few of the technologies Techniks Tool Group has developed to overcome some of the challenges of the ER collet system and achieve superior results.
For help with your specific application, give the experts at Techniks Tool Group a call at (800) 803- or us at .
Three-jaw chucks are the standard work holding device for most CNC lathe users. It is among the most widely used types of chuck in a variety of turning applications. However, that does not mean it is the best chuck for all jobs. A collet chuck is an alternate work holding device that also uses mechanical forces to hold a workpiece. While a collet chuck does not work with the same wide range of workpiece sizes that a jaw chuck can accommodate, it offers advantages in speed, accuracy, and productivity that may be crucial for certain jobs.
The standard work holding system that comes with most CNC lathes and turning centers consists of a three-jaw power chuck, a hydraulic actuating cylinder, and a drawtube. The hydraulic cylinder is attached to the rear end of the spindle, while the chuck is mounted to the spindle&#;s front or working side. The cylinder and chuck are usually connected via a hollow, steel drawtube that passes through the spindle bore.
Similarly, a CNC collet chuck is mounted to the front of a CNC lathe spindle, using the machine&#;s existing cylinder and drawtube to actuate:
The axial motion of the hydraulic actuator&#;s piston is what causes the collet chuck&#;s jaws to open and close. The drawtube moves in unison with the piston, driving a wedge-shaped plunger within the chuck body as the piston slides back and forth. The plunger, in turn, converts axial motion to radial motion, accomplishing the opening and closing of the jaws. The gripping force of the jaws to a workpiece corresponds directly to the output of the actuator; thus, this force is easily regulated via a pressure valve.
Of course, a collet chuck requires a collet to function. Typically, collets have something like a 0.062&#; gripping range. Collets are readily available for round, hex, and square stock. A collet chuck can handle a fairly wide range of collets (e.g. 3/16&#; all the way through to 2-5/8&#;). Special collet requirements can be accommodated. Most modern collet chucks have a quick (e.g. 10 seconds) change functionality for reduced set-up times.
Our preferred supplier partner for collet chucks is Royal Products. Royal provides a wide range of work holding options, including several lines of collet chucks.
For more information about the benefits of collet chucks and help selecting the right work holding device for your operation, contact us.
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