BRINKMAN CJWINTER 192 Series User manual
192 Series
Precision Involute Knurl / Spline Tools
Instruction Manual
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Table of Contents
Introduction ......................................................................................................... 3
What is an Involute Knurl or Spline?.................................................................... 3
Why Roll Involute Knurl Connections?................................................................. 3
Why Use a CJWinter Knurl Rolling Tool?.............................................................. 4
192 Series Tool Size and Capacity ........................................................................ 6
Package Contents................................................................................................. 7
Machine Mounting .............................................................................................. 7
Assembling the Tool............................................................................................. 8
Periodic Maintenance.......................................................................................... 9
Preparing the Tool ............................................................................................... 9
Pre-Setting the Knurl Diameter.......................................................................... 11
Shifting the Size Adjustment Range ................................................................... 12
Work Piece (Blank) Preparation......................................................................... 14
Work Piece Materials......................................................................................... 14
The Knurling Procedure ..................................................................................... 15
Ordering Parts.................................................................................................... 15
Assembly Drawing.............................................................................................. 16
Legal Disclosure ................................................................................................. 17
Contact Information........................................................................................... 17
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Introduction
Congratulations on your purchase of a CJWinter 192 Series Involute Knurl
Rolling Tool. These tools have been designed specifically for use in the
manufacture of Precision Involute Knurls and Splines on various machine tools.
This manual will help you use and maintain your tool.
What is an Involute Knurl or Spline?
Involute knurls and involute splines are two names for the same type of
feature. They are a series of ridges formed on the periphery of a cylinder,
where the shape of each ridge is defined by the involute formulas of a gear
tooth. They are primarily used as shaft connection devices to transmit torque
to components that are pressed onto or over molded the end of a shaft. The
involute ridges transmit torque more effectively than a simple press into a
round hole, and also can orient features between the shaft and the over-
pressed component.
Why Roll Involute Knurl Connections?
Involute Knurl connections can be manufactured by a wide variety of means,
including casting, forging, cutting, broaching, milling etc... However, none of
these processes can match the speed at which rolling can form a knurl, the
economy of the process, the convenience of performing the operation in a
traditional metalworking lathe or mill without specialized equipment, nor the
strength of the final product.
Knurl rolling typically occurs in 2 to 3 seconds. Time will naturally vary with the
knurl length, and diameter, but in virtually all cases, rolling is an order of
magnitude faster than conventional machining processes.
Tooling cost per part is extremely competitive to all other processes, usually 5
to 10 times less expensive than the next closest option, which makes it perfect
for high volume, low margin jobs.
Knurling can be completed on virtually any lathe, mill, or multi-spindle
machine. No specialized equipment is required, no secondary processes are
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required. For the most part, if you can machine the blank, you can knurl the
part.
Knurl rolling is a cold-forming process, where material is displaced and formed
into the final shape at room temperature. The material's grain structure is
refined, and the grain boundaries are forced to flow smoothly past all root
radii, rather than being cut. As a result, the final part is work-hardened into a
tougher connection. The knurl tooth is more resistant to deformation, and
cracking, and can carry a higher load than a cut counterpart.
Why Use a CJWinter Knurl Rolling Tool?
For nearly 50 years, CJWinter has been an industry leader in supplying thread
rolls, knurls, burnishing rolls and thread rolling tools globally. CJWinter has
used that experience to design knurling tools specifically for the Precision
Involute Knurling applications. We believe this is the easiest to use, most
precise tool to manufacture involute knurls on the market. Our in-house
engineering staff is always available to assist with any technical manufacturing
situation.
The CJWinter 192 Series tools and rolls have incorporated unique, Patent
Pending features and advantages not always found on other knurl tools.
1-Twist Size Adjustment. The CJWinter tools requires the loosening of only
3 locking screws, and a simple twist of the head to adjust the distance between
the 3 knurling rolls. This 1 twist will cause all three rolls move equally towards,
or away, from the centerline of the tool, ensuring that each roll does an equal
amount of work, that the work piece is always evenly supported, and ensuring
the best concentricity of the knurl surfaces back to the part centerline. Other
axial knurling tools on the market require as many as 27 separate screws to
adjust size, and have no means of keeping the rolls concentric to the tool axis.
This can lead to one knurl working harder than the others, bent parts, knurls
that run out, and material slivering.
Graduated Scale. Adjustments to size are made while referencing a
graduated scale on the side of the head. The scale is clearly labeled (+) and (-)
so fine adjustments can be made with confidence.
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Master Pinion Gear with Adjustable Backlash. Precision Involute Knurls
can require very tight orientation between the 3 rollers to properly roll the
part. The CJWinter 192 series knurling head uses a master pinion that has the
same form as the finished work piece, to mesh with the three knurling rolls
with little to no backlash. Backlash is adjustable within tenths. Other knurl
rolling systems either do not orient the rolls, which often leads to double
tracking and a malformed work piece, or have coarse timing mechanisms which
can lead to part size variation, or material slivering.
Reversible Rolls. The rolls, as well as the master pinion, are reversible, so as
one edge wears out, you can get twice the life out of each set of tools.
Retractable Master Pinion. The master pinion is spring loaded, and can be
pushed back into the head by the rotating end of the work piece, to allow for
knurls on the work piece that are longer than the workface width of the rolls.
As the master pinion is pushed back, it disengages from the knurl rolls, and as
the work piece is withdrawn, it automatically re-engages the knurl rolls, to
maintain timing for the next cycle.
Coolant Thru Tooling. The shank of the tool is equipped with a coolant port
so coolant can be directed right at the interface between the knurls and the
part.
Wide Range of Knurl Sizes. The tool can be modified to accommodate
knurled parts ranging in size from roughly Ø0.625" to Ø1.250" with a variety of
different involute pitches. Please consult with a CJWinter Applications
Engineer for more details.
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192 Series Tool Size and Capacity
Overall dimensions for the standard tool are illustrated above.
Capacity of the tool includes most parts in the following ranges:
Knurl Major Diameter: Ø0.630" min to Ø1.250" max
Knurl Lengths up to: .813" all diameters
2.0" for Ø.80 or less
Typical Involute Pitches: 16 D.P to 128 D.P.
* Note: Not all pitches can be rolled on all size parts without interference.
Contact CJWinter engineering for an evaluation of your application.
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Package Contents
This tool is shipped complete with everything you need to knurl you parts
except the knurls themselves, which are application specific.
In the event you need a spare, each part (size permitting) is permanently
identified with laser-marked part # for easy identification, and replacement.
All part identification in this manual will refer to the BOM Balloon # on the
Assembly Drawing contained in this manual, and be noted as in parentheses
after the part name, i.e.: Center Plate (#3).
Machine Mounting
The 192 Series tool is available with a standard 2.00" shank. Alternate shank
diameters are available on a custom order basis. Drill bushings can also be
used to adapt to larger tool holders.
Shanks are roughly 4" long, and have an additional 1" protrusion for the
coolant hook-up and backlash adjusting screw. Most CNC lathes have more
than adequate clearance behind the tool holder to accommodate the entire
length of this tool, and this tool can be extended out from shallow tool holders
if required. Each shank is equipped with a single, flat for the holder retaining
screws. Overall dimensional drawings are available from our sales department
to help determine if this tool fits your machine application.
192 Series tool shanks are also equipped with a 1/4-NPT port for thru-coolant
connections.
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Assembling the Tool
Your tool will come pre-assembled from the factory. In the event you need to
disassemble your tool, please refer to the supplied assembly drawing for an
exploded view and proper part assembly order.
Please note, should you need to disassemble the gear train for the 3 eccentric
roll pins, proper orientation at re-assembly is critical to ensure the rolls are
concentric to the tool shank. See detailed instructions in the section titled
"shifting the size adjustment range" for the recommended disassembly and re-
assembly procedure.
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Periodic Maintenance
CJWinter recommends an annual teardown and inspection of this tool.
We recommend the periodic lubrication of all moving parts with oil, and
replacement of the Thrust Bearings (#10) and Thrust Washers (#11 & #22) in
the tool. The frequency of lubrication and replacement depends greatly on the
severity of service the tool sees, the type of knurl being rolled, and the
adherence to proper setting and operation procedures. The frequency should
be determined by your own in-shop experience, and be scheduled in a
preventative manner. At a minimum, we recommend replacement of these
components during the annual inspection.
The remaining components are not generally considered "wear" parts, and
should be replaced only in the event of damage or excessive wear.
Preparing the Tool
To install the appropriate knurl rolls, follow these simple steps:
1. Remove the three Low Head Cap
Screws (#8) from the Front Plate
(#1).
2. Pull the Front Plate (#1) away
from the rest of the tool body,
being careful not to drop any of
the Thrust Washers (#11 & #22),
Bearings (#10) or Carbide
Bushings (#5).
3. Install a new master pinion by
loosening the Button Head
Socket Screw (#17) at the
center of the gear, replacing the
gear, and reinstalling the screw
with the Thrust Washer (#15)
under the head.
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4. Unlock the Adjusting Sleeve (#14) by removing the #8-32 SHCS (#21) and
the Spline Brake (#19) at the
rear of the Shank (#6).
5. Add backlash to the gear
train by unthreading the
Adjusting Sleeve (#14) until
the top of master pinion is
protrudes roughly 3/16"
above flush with the top of
the Center Plate (#3).
6. Make sure the Thrust Washers (#11 & #22), Thrust Bearings (#10),
Eccentric Roll Pins (#20) and the Carbide Bushings (#5) all are freshly
oiled, and free from any contaminants.
7. Oil the ID and faces of the knurl rollers, and slide them onto the Carbide
Bushings/Eccentric Roll Pins.
8. Reassemble Front Plate (#1).
9. Turn the Adjusting Sleeve (#14) in, to tighten the backlash until the rolls
just bind, and then back off slightly until they rotate freely. Lock the
backlash adjustment by re-installing the Spline Brake (#19) and #8-32
SHCS (#21).
Note: Step #9 can be delayed if you need to adjust part size, as it will just
need to be repeated again later.
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Pre-Setting the Knurl Diameter
New knurl rolls may vary in diameter somewhat from batch to batch, and from
new to used. When installing new rolls, the easiest way to pre-set the knurl
size is to use a previously knurled part, inserted between the 3 knurl rollers,
and pinch down on that part using the head size adjustment. To adjust the
diameter, follow these steps:
1. Loosen the three hex head bolts (#9) a 1/2 turn using a 9/16 open end
wrench.
2. Twist the head of the tool relative to the shank. The graduated scale on
the side will tell you if you are adjusting the part size up or down.
3. Lock the size by tightening the three hex head bolts.
Note: When running the knurls with little to no backlash, it is advisable
to add backlash by loosening the Adjusting Sleeve (#14) before adjusting
part size downward. This will avoid binding the knurls on the master
pinion gear. After size has been adjusted and locked, reset the Adjusting
Sleeve (#14) position so the rollers just rotate freely, and lock this
adjustment as well.
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Shifting the Size Adjustment Range
The 192 series head is designed with an ample adjustment range, while
maintaining the ability to make small, precise changes. If you run out of
adjustment when setting your part size, the range can be shifted upwards or
downwards to accommodate your particular part and roll diameter
combination. The steps required to shift the range are as follows:
1. Remove the Front Plate (#1), Knurl Rollers ,
Thrust Washers (#11 & #22), Thrust Bearings
(#10) and the Carbide Bushings (#5) from the
body of the tool.
2. Place the tool face DOWN (Shank UP), on a
workbench.
3. Loosen the three hex head bolts (#9)
approximately a 3/16" (3 turns) using a 9/16
open end wrench.
4. Twist the head relative to the
shank, until the graduated
scale on the side reads
approximately ZERO.
5. Lay the tool on its side, and
slide the Shank (#6) back
away from the Center Plate
(#3) approximately 3/16".
6. Using a .070" pin or wire,
insert the pin into one of the
three gear timing holes in
the Center Plate (#3), and
twist the size adjustment
slightly until the pin drops
between a gear tooth and
locks the head.
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7. Place additional pins in the two remaining gear timing holes.
Tips and Tricks:
Using a small dab of thick grease in the pin hole, or three small magnets,
will help hold the pin in place while handling the head.
8. Completely remove the three Hex Head Bolts (#9), and pull the Shank
(#6) away from the Center Plate (#3) until the gears are disengaged.
9. If you need to shift the adjusting range UPWARDS to make a bigger part,
twist the Shank so that the Zero timing mark on the Shank slides towards
the (-) side of the scale, skipping 1 or 2 gear teeth. Twist towards the (+)
side of the scale if you need to shift the range to make a smaller part.
10.Carefully re-engage the ring gear on the Shank (#6), with the three
Eccentric Gears (#4), and slide the Center Plate (#3) and Shank (#6) back
together. This will push the three locking pins back out of the holes, and
they can be removed.
11.Reinstall the Ring Washer (#7), and the three Hex Head Bolts (#9).
12.Reassemble the Thrust Washers (#11 & #22), Thrust Bearings (#10),
Carbide Bushings (#5) and Knurl Rollers.
13.Reattach the Front Plate (#1).
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Work Piece (Blank) Preparation
Prior to knurling, the work piece needs to be prepared. Typically, the blank
needs to be turned to a diameter approximately halfway between the major
OD and Minor OD of the finished knurled part. To start, you may want to bias
this diameter about .003"/inch smaller, so that the dies do not overfill. This
can later be adjusted upwards to get the proper amount of fill, and achieve the
desired Major diameter. The lead-in chamfer should typically be a flat 30°
(measured from the part axis), and should extend down below the minor
diameter of the part. Failure to properly chamfer your blank will lead to
premature roll breakage. Surface finish should be 125 RMS or better, and the
tolerance held on the pre-knurl blank diameter should be roughly 1/3 of the
tolerance on the finished knurl major diameter. Adjustments made to the
blank diameter should be small, since there is a roughly 3 to 1 relationship
between blank diameter and the finished major diameter. The knurl can
extend into an undercut, or terminate right on the blank diameter prior to a
shoulder. It should be noted that each knurl roll has a lead-on chamfer. Unless
a sufficient undercut is present in the blank, the knurl roll will leave a partially
incomplete section of knurl at the inboard end of the part knurl surface. The
size of this incomplete section is variable by the Knurl Roller design, but shorter
knurl chamfers tend to diminish the life of the roll. Consult with our application
specialists for your particular application.
Work Piece Materials
Knurl Rolling can be performed on almost any ductile metal material under
Rc40. Some materials roll better than others. For questions on the rollability
of your particular part, please consult with our application specialists.
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The Knurling Procedure
The tool motion should be programmed much like a drill cycle. The
recommended SFM is between 50 and 200, with tougher and work-hardening
materials trending towards the low end, and easily machinable materials
trending towards the high.
Axial feed rates of .010"/rev and .020"/rev are usually adequate to produce a
quality knurl.
If no prior parts are available to help set size, start with the head open, and
adjust the opening between the dies downward until the dies pinch on a pin
roughly .010 larger than the minor diameter of the knurl you will be rolling.
Run a trial part on an undersized blank prepared per the section entitled "Work
Piece (Blank) Preparation" , and adjust the die opening downwards until proper
pitch diameter size is obtained. Then, adjust the blank size upwards until
proper major diameter and die fill is obtained. Make blank diameter size
changes slowly, as adjustments to the blank are amplified by a factor of 3 on
the finished rolled knurl major diameter.
Ordering Parts
Our sales staff will be happy to assist you in ordering rolls or replacement parts
for your tools. We can be contacted in a variety of ways.
By phone at: 1-800-288-ROLL
1-800-288-7655
By fax at: 585-235-6568
Or on the web at: www.cjwinter.com
Assembly Drawing
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Legal Disclosure
The devices described within this manual use technologies which are Patent
Pending, and are protected under U.S. and international patent law. The
manual and all content contained herein is copyrighted by CJWinter Machine
Technologies, Inc., and is protected under U.S. Copyright Laws. Reproduction in
part or in whole, is permitted by written authorization ONLY.
Contact Information
167 Ames Street | Rochester, NY 14611
p: 800.288.7655 | f: 585.429.5095 | http://cjwinter.com/
CJWinter Machine Technologies, Inc. is a Brinkman Products company.
Brinkman Products is a part of the Brinkman International Group.
Please visit all of our companies via our website below.
http://brinkmanig.com
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