Combining different machining processes on the same platform has been a major
theme in machine tool design for two decades or so. Some of these “marriages”
resulted in strained relationships in which one or both processes were
compromised. Not so, it seems, with the combination of hard turning and
cylindrical grinding on one machine, as indicated by the Studer S242. This
machine was recently introduced by Fritz Studer AG to the world market after its
initial debut in Europe at EMO 2007. (Studer AG is represented in the U.S. by United Grinding of
Miamisburg, Ohio). A look at this machine shows that hard turning and
cylindrical grinding seem to need each other.
The inherent rigidity of a machine designed for precision grinding is ideal
for hard turning because it allows this process to deliver the roundness,
concentricity and surface finish on hardened workpieces for which it is noted.
The vibration-damping characteristics of a precision grinding machine prolong
the life of turning tools when machining hardened materials. Likewise, turning
the hardened workpiece on the same machine benefits cylindrical grinding. The
part holds its original centering. No distortions or uneven stock conditions
will be introduced by an intervening heat-treating step, so grinding is more
predictable. The consistency of hard-turning results allows the grinding cycle
time to be reduced when the same turned surfaces are subsequently ground.
Of course, all of the productivity advantages of finishing a part in one
setup also apply to a combined hard turning/cylindrical grinding machine.
However, according to the builder, the S242 was designed from the ground up
to support both processes. For example, the Granitan epoxy- granite machine bed
is slanted to promote the free fall of turning chips and has cast-in channels
for the necessary chip conveyor.
The machine’s cross slides are arranged in parallel so that the modular
grinding heads and turrets can be configured as desired. The modular units
include four styles of OD heads (left or right, straight or angled), two styles
of tooling turrets and an ID grinding turret that can have as many as three
spindles. The machine can be configured with two cross slides (10 different
combinations of heads and/or turrets) or with three cross slides (15 different
combinations). See the box for other key specifications.
|
|
with two slides |
with three slides |
|
Distance between centers |
400/1,000 mm |
800 mm |
|
Machinable length |
400/800 mm |
600 mm |
|
Swing diameter |
185 mm |
185 mm |
|
Maximum workpiece weight |
60 kg |
60 kg |
|
Grinding wheel size |
500 x 50 (63 with F5) mm |
400 x 50 (63 with F5) mm |
The tool turret (available with 8 or 12 positions) is not limited to turning
tools. All 8 or 12 positions can be powered for milling, drilling or other
operations.
Customers in Europe are already providing some interesting applications for
this type of machine. In one case, the user had been machining armatures for
electric motors on six conventional machines—a lathe for thread cutting, another
for turning the collector packets and laminate cores and four different grinders
to do four ODs on the shaft. Now, the armatures are completed on an S242 in one
setup by one operator. Moving to a single clamping has also reduced runout on
the shafts and armatures, resulting in quieter, cooler-running electric
motors.
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