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ROUTER BITS FOR THE SIGN INDUSTRY
Signs and the information
they convey have become an integral part of daily life. Companies of various
sizes serve this vast market, but they all have common problems when it comes to
routing of the materials common to the industry. Wood, aluminum, foam and
plastic all have different cutting characteristics and no individual tool can
solve all routing problems. This is particularly evident in the routing of
plastics in the sign industry.
As a starting point, plastics can be placed into two general categories:
flexible and rigid. The tools of choice for flexible plastic usually involve the
use of single or double edge “O” flute tools, which are available in straight or
spiral flute configurations. In terms of rigid plastics double edge straight “V”
flute tools, spiral “O” flutes with hard plastic geometry, and two and three
flute finishers are recommended. The tool materials for most of these router
bits are readily available in high-speed steel for hand operations and solid
carbide for CNC routing. . Solid carbide is a very durable material when
utilized in a controlled environment of CNC, but not reliable in hand routing,
which tends to be less rigid with more opportunity for tool breakage.
The aforementioned recommendations are general in nature and are just a
beginning for tool selection. In order to target an application, the sign maker
has a new resource on the Internet at www.plasticrouting. com. This site
provides a specific tool recommendation for a variety of plastic materials. The
major emphasis of this web site is to recommend router tools that provide the
best finish at a productive feed rate. Sign makers, who historically use smaller
diameter tools to achieve the necessary radii associated with lettering, will be
pleasantly surprised. The tool diameter is the controlling factor in feed rate,
but larger diameters were not necessarily superior in terms of finish. The use
of micro grain carbide with the necessary geometry to achieve chip evacuation
has made smaller diameter tools more effective for the sign industry. The site
can also be accessed via a link on IAPD’s web site at www.iapd.org.
Recently, there have been several new styles of specialty tools developed to
improve finishes with faster cycle times without tool changes and or advanced
programming techniques. Both should prove to be advantageous to the sign
industry.
The first of these tools was developed to provide a smooth bottom surface in
lettering or pocketing applications. Most router tools are designed to plunge
and rout with the emphasis on the side geometry rather than the point.
Consequently, the point end would always leave swirl marks, which required a
secondary operation to remove the swirls. The new tool (Figure 1) utilizes a
near flat point with radiused corners to create a smooth bottom with an
aesthetically pleasing result.
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Figure 1
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Figure 2
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Solid Carbide Bottom Surfacing |
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Solid Carbide Rout and Chamfer
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The second innovation (Figure 2) is the
development of a rout and chamfer bit designed for plastic sheets. By combining
both a straight flute optimized for cutting plastics with a cutting edge sized
for specific sheet sizes and a 45 degree chamfer edge, these tools can rout out
plastic parts and apply a variable depth edge chamfer in a single pass. By
combining these features into a single tool, tool changes within the machining
cycle are eliminated and CNC routers without tool changing spindles have new
capabilities for parts production.
The advances in router tooling have generally followed the rapid growth and
usage of CNC routers or router tables as they are commonly called in the sign
industry. These machines have revolutionized the speed and accuracy of sign
making and the ability to produce intricate shapes and designs with specialized
software. Router tooling has enhanced the CNC user by providing stronger tools
with improved cutting geometry specific to the material being machined. However,
merely choosing the correct tool without effective machining practices is an
exercise in futility. Consequently, a review of proper machining practices would
be in order.
- Maintain CNC machines per manufacturer’s
recommendation with proper lubrication of machine slides and drive systems
- Check for play in the table or spindle
mounting systems
- Establish a collet, collet nut, and tool
holder maintenance program and replace collets after 600-700 hours of usage
- Insure part rigidity by following proper
spoilboard technique
- Establish colleting procedures to maximize
tool rigidity
- Maximize chipload to minimize tool wear
- Select tools with the shortest possible
cutting edge length to achieve depth of cut
- Use straight through tools where the cutting
edge length and shank are the same size to reduce breakage
- Maximize dust collection to completely
evacuate gummy chips produced by some plastics
The right tool for the job and sound CNC
machining practices will improve throughput, product quality and profitability
in the sign industry.
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