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All Piranha Shear
Models Provide:
Guillotine design
Single cylinder linkage system allows
constant parallel alignment of beam throughout
shearing movement.
Extra-long, hardened ways, with
adjustable non-metallic gibs, guide the ram
laterally and front-to-back at all times during the
shearing process to increase rigidity, shearing
accurace, and blade life. |
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Information |
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The straight line shearing action improves |
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shearing
accuracy in all metal thicknesses.
All pivot points are lined with
maintenance-free bearings. These stat-of-the-art,
aerospace bearings provide high load capacity and
low friction in the form of a thin-walled sleeve.
They are non-metallic and require no lubrication.
The upper shear blade moves parallel
to the lower blade, providing maximum blade life
High carbon, high chrome four-edge
blades, top and bottom.
120v controls with overload-protected
magnetic motor starter and circuit breaker
disconnect.
Hardened, micro-finished oversize
link pins.
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OUR COMPETITORS' DESIGNS
Torque Tube Design
The complex drive mechanism on the torque tube
design requires the use of additional pivot
points. Adjusting blade clearance after blade
sharpening is extremely difficult. The design
lacks rigidity, which affects blade life,
shearing accurace, and shear service life. |
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Swing Beam Design
The upper blade moves at an arc in relation to
the lower blade which reduces blade life when
compared to Piranha's guillotine design.
Typically, two rollers are used to control the
lateral position of the shear ram. However, the
ram is not guided front-to-back, which can
affect blade clearance. |
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