Rotary die cutter apparatus and method
First Claim
1. A method of precisely preloading a rotary die cutter shaft bearing, comprising:
- a) supporting a rotary die cutter shaft having a shoulder, a tapered surface adjacent to said shoulder, and a threaded portion adjacent to said tapered surface;
b) sliding a first shim onto said rotary die cutter shaft until said first shim abuts said shoulder, said first shim having a predetermined thickness;
c) sliding a spherical bearing onto said tapered surface, said spherical bearing having an inner race, an outer race and a plurality of roller elements positioned between said inner race and said outer race;
d) expanding said inner race by tightening a lock nut onto said threaded portion of said rotary die cutter shaft to expand said inner race and force said inner race into contact with said first shim, thereby preloading said spherical roller bearing;
e) connecting said outer race of said spherical bearing to a motor and operating said motor at a predetermined speed;
f) measuring the torque required to rotate said outer race of said spherical bearing;
g) comparing said measured torque to a predetermined torque range to determine if said spherical bearing is precisely preloaded; and
h) providing a swivel plate for retaining said rotary die cutter shaft in an axial relationship with said motor.
1 Assignment
0 Petitions
Accused Products
Abstract
Apparatus and method precisely preload bearings onto shafts. A swivel plate swivels up to 360° and locks a rotary shaft axially with a motor shaft. A shim and bearing adjacent the shim preload onto shaft shoulder by lock nut secured to the threaded shaft. The lock nut forces the bearing inner race to expand outwardly, preloading the bearing. A force sensor measures torque on the bearing outer race. Measured torque is monitored within a predetermined range to establish the precisely loaded bearing. The method slides a shim onto support shaft shoulder. A bearing is slid onto tapered surface, and lock nut tightened onto the threaded shaft. The lock nut expands the bearing inner race, reducing the distance between the inner and outer races and preloading the bearing. The outer race at a predetermined, constant speed has torque monitored to a predetermined range to provide a precisely preloaded bearing.
16 Citations
10 Claims
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1. A method of precisely preloading a rotary die cutter shaft bearing, comprising:
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a) supporting a rotary die cutter shaft having a shoulder, a tapered surface adjacent to said shoulder, and a threaded portion adjacent to said tapered surface;
b) sliding a first shim onto said rotary die cutter shaft until said first shim abuts said shoulder, said first shim having a predetermined thickness;
c) sliding a spherical bearing onto said tapered surface, said spherical bearing having an inner race, an outer race and a plurality of roller elements positioned between said inner race and said outer race;
d) expanding said inner race by tightening a lock nut onto said threaded portion of said rotary die cutter shaft to expand said inner race and force said inner race into contact with said first shim, thereby preloading said spherical roller bearing;
e) connecting said outer race of said spherical bearing to a motor and operating said motor at a predetermined speed;
f) measuring the torque required to rotate said outer race of said spherical bearing;
g) comparing said measured torque to a predetermined torque range to determine if said spherical bearing is precisely preloaded; and
h) providing a swivel plate for retaining said rotary die cutter shaft in an axial relationship with said motor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification