Basic
Considerations in Automating Degating Methods
By John
Westbeld, Design Manager, and Josh Long, Design
Engineer, >SAS< Automation, LLC
Although
hot runner molding continues to increase in
popularity, for many injection molded parts,
cold runner molding is still the process of
choice. With cold runner molding, of course, the
challenge is to remove the runner from the
molded part economically. In many
instances, the operator removes the runner by
cutting edge gates with a hand-held blade or
pneumatic cutter. As with any operation
performed by a person, manual degating can lead
to an inconsistent cut, increased operator costs
and possible cycle time issues.
There
are several ways to automate the gate cutting
process:
- Pneumatic
sprue cutters can be integrated onto a
robotic EOAT (end-of-arm-tool) to cut the
gate if the injection molding machine is
equipped with a robot.
- Floor-mounted
or robot beam-mounted degating fixtures that
have pneumatic sprue cutters similar to
those on EOAT, or cutting blades actuated by
pneumatic cylinders.
- Guillotine-style
punch presses can be used to shear gates
from the parts.
- CNC
gate cutters can be programmed to cut gates
for several applications.
- 5-
or 6-axis robots can be equipped with
pneumatic cutters to cut gates.
- Lasers
can also be used in gate cutting
applications.
With
all of these methods available, it is important
to note that the equipment needed is just one
part of the evaluation equation. It is prudent
to spend time evaluating all gate-cutting
methods based upon the level of automation
needed. The most important factors in making
your decision will be cost, gate vestige
requirements, level of automation needed and
available floor space.
Sprue
cutters on robotic EOAT
Many times the most cost effective way to
automate degating for any single degating
application is to incorporate the sprue cutters
with the EOAT (see Fig 1). This can be done by
clamping the sprue cutters to the existing
framework of the EOAT. This may require one or
two additional air circuits and a programmed
sequence from the robot.
The
runner can be up to 0.75 in. dia, depending upon
the material to be cut. Sprue cutters work
better on cylindrical or rectangular runners
rather than fan gates. If you want to secure the
runner until you reach a specified drop area, a
sprue plier can be mounted to the EOAT. It can
come with or without a sensor to detect whether
the sprue is present.
The
estimated gate vestige left on the part after
cutting with sprue cutters is approximately
0.015 to 0.025 in., depending on the precision
of the robot, the type of plastic used and the
location and cross-sectional profile of the
runner.
Floor-mounted
or robot beam-mounted degaters.
Floor-or robot beam-mounted degaters have
pneumatic sprue cutters similar to those that
would mount to the EOAT (see Figs 2 and 3) or
cutting blades mounted to a pneumatic cylinder
(see Figs 4 and 5). As the name indicates, the
framework of the degater can be mounted to the
robot beam or floor. In either case the robot
secures the parts from the mold with the EOAT
and then presents the parts to the degater for
cutting.
Advantages
of this type of degater are that the robot does
not have to carry the weight of the cutters on
the EOAT, which prolongs the life of your robot.
In addition, the sprue cutter assemblies can
have change-over tooling to accommodate the
degating of several different molds with one
frame.
Yet
another advantage is that the degater can be
equipped with valves so extra air circuits for
the robot are not required. Specifications on
the cutting vestige are similar to those for the
sprue cutters on the EOAT.
Punch
press degating
Punch presses can be used when the cutting
vestige requirements are critical and range
between 0.003 and 0.010 in. (see Fig 6). The
punch press can be operated manually or
automatically and can be integrated to the robot
or press.
A
punch press usually consists of pneumatic slide
and ram cylinders, slide table with rods and
bearings, part nests with part down switches,
two hand non-tie down push buttons, hardened
cutting steel, polycarbonate guarding and a
control box with a PLC.
Options
include light curtains, scrap chutes and part
inspection sensors. Advantages of the punch
press are the "flush" cut that it
provides and the fact that it can be used to cut
large fan gates.
CNC
degating
CNC gate cutters are used when several
gate-cutting applications are needed at the same
press. The CNC gate cutter can be robot
beam-mounted or floor-mounted. They can hold up
to 20 different programs with various steps. A
teach pendant is used for positional programming
and x,y,z and theta axes, which are driven by
stepper motors.
The
robot beam-mounted version has a pneumatic sprue
cutter mounted to the end of its arm (see Fig
7). The robot presents the parts to the degater
on the EOAT and then sends a signal to the
degater to begin its cycle. After completing the
cycle, a signal is sent back to the robot to
continue its cycle.
The
floor-mounted version generally works in
conjunction with a sprue picker (see Fig 8). The
sprue picker hands the parts off to the degater,
which has a pneumatic gripper to secure the
sprue. The degater then presents the parts (on
the runner) to a fixed mounted pneumatic sprue
cutter for removal. The gate vestige left for
either unit is estimated at 0.007 to 0.015 in.
Robotic
degating
Five- or 6-axis robots can be equipped with a
pneumatic sprue cutter or a rigid cutting blade
at the end of its arm (see Fig 9). The parts are
presented to the robot on the EOAT and the robot
positions the cutter at the gate for cutting.
the gate vestige remaining is estimated at 0.005
to 0.015 in. Advantages include unlimited
programming for different gate cutting
applications and high level of repeatability.
Laser
Degating
CO2 laser cutting is another option for gate
cutting, but is not usually cost effective for
most applications. The cutting beam of the laser
can be fixed or driven by pneumatic cylinder or
electric motor. The gate vestige left by a laser
cut is limited to the device providing motion to
the laser, with estimates of 0.002 to 0.010 in.
The laser does offer a "clean" cut to
remove gates from class A surfaces as well as
fan gates.
Reprinted
with permission from Plastics
Auxiliaries Magazine, April 2001
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