Apparatus and method of precisely preloading a bearing onto a shaft
First Claim
1. A method of precisely preloading a rotary die cutter shaft bearing, said method comprising the steps of:
- a) providing 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 roller bearing onto said tapered surface, said spherical roller bearing having an inner race, an outer race and a plurality of spherical 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 force said inner race into contact with said first shim, thereby preloading said spherical roller bearing;
e) connecting said outer race of said spherical roller 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 roller bearing; and
g) comparing said measured torque to a predetermined torque range to determine if said spherical roller bearing is precisely preloaded.
2 Assignments
0 Petitions
Accused Products
Abstract
An apparatus and method of precisely preloading a bearing onto a shaft is disclosed. The apparatus includes a base plate and a support mounted to and extending upward from the base plate. The support is capable of supporting a shaft. The shaft has a shoulder, a tapered surface adjacent to the shoulder and a threaded portion adjacent to the tapered surface. A shim is positioned on the shaft adjacent to the shoulder and a bearing is positioned adjacent to the shim. The bearing has an inner race, an outer race and a plurality of roller elements positioned therebetween. The bearing is preloaded onto the shaft by a lock nut which is secured to the threaded portion of the shaft and which contacts the inner race of the bearing. The apparatus further includes a motor mounted to the base plate and an output shaft which is axially aligned with and connectable to the outer race of the bearing. The motor is capable of rotating the outer race of the bearing at a predetermined speed. A force sensor is attached to the motor which is capable of measuring the amount of torque required to rotate the outer race at a predetermined speed. The measured torque is then visually displayed on a display unit. When the measured torque is within the predetermined torque range, the bearing will be precisely loaded. The method includes sliding a first shim onto the support shaft until it abuts the shoulder. The first shim has a predetermined thickness. A bearing is then slid onto the tapered surface and a lock nut is tightened onto the threaded portion of the shaft. As the lock nut contacts the inner race of the bearing it causes the inner race to contact the first shim and also to radially expand outwardly, thereby preloading the bearing. The outer race of the bearing is then connected to a motor and the motor is operated at a predetermined, constant speed. The torque required to rotate the outer race of the bearing is measured and compared to a predetermine torque range to determine if the bearing is precisely preloaded.
46 Citations
20 Claims
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1. A method of precisely preloading a rotary die cutter shaft bearing, said method comprising the steps of:
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a) providing 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 roller bearing onto said tapered surface, said spherical roller bearing having an inner race, an outer race and a plurality of spherical 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 force said inner race into contact with said first shim, thereby preloading said spherical roller bearing; e) connecting said outer race of said spherical roller 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 roller bearing; and g) comparing said measured torque to a predetermined torque range to determine if said spherical roller bearing is precisely preloaded. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of precisely preloading rotary die cutter shaft bearings on both ends of a rotary die cutter shaft, said method comprising the steps of:
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a) providing 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 roller bearing onto said tapered surface, said spherical roller bearing having an inner race, an outer race and a plurality of spherical 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 force said inner race into contact with said first shim, thereby preloading said spherical roller bearing; e) connecting said outer race of said spherical roller bearing to a motor and operating said motor at a predetermined speed; f) measuring and displaying the torque required to rotate said spherical roller bearing; and g) comparing said measured torque to a predetermined torque range to determine if said spherical roller bearing is precisely preloaded. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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19. A method of precisely preloading a reconditioned spherical roller bearing onto both ends of a rotary die cutter shaft, said method comprising the steps of:
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a) providing 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 reconditioned spherical roller bearing onto said tapered surface, said reconditioned spherical roller bearing having an inner race, an outer race and a plurality of spherical 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 force said inner race into contact with said first shim, thereby preloading said reconditioned spherical roller bearing; e) connecting said outer race of said reconditioned spherical roller bearing to a motor and operating said motor at a predetermined speed; f) measuring and displaying the torque required to rotate said reconditioned spherical roller bearing; g) comparing said measured torque to a predetermined torque range to provide a measured torque comparison value and to determine if said reconditioned spherical roller bearing is precisely preloaded, wherein if said measured torque comparison value is outside of said predetermined torque range, said method further includes; h) removing said lock nut, said reconditioned spherical roller bearing, and said first shim; i) replacing said first shim with a second shim having a different thickness, the thickness of said second shim being selected based upon an amount of difference said measured torque comparison value is away from said predetermined torque range; and j) positioning said second shim onto said rotary die cutter shaft until said second shim abuts said shoulder, reassembling said reconditioned spherical roller bearing and lock nut onto said shaft, and repeating steps (d-g) to preload said reconditioned spherical roller onto said rotary die cutter shaft. - View Dependent Claims (20)
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Specification
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- Resources
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Current AssigneeKimberly-Clark Worldwide Incorporated (Kimberly-Clark Corporation)
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Original AssigneeKimberly-Clark Worldwide Incorporated (Kimberly-Clark Corporation)
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InventorsHoward, Jimmy Harrell Jr., Beduhn, Mark William
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Primary Examiner(s)Bryant, David P.
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Assistant Examiner(s)Butler, Marc W.
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Application NumberUS08/570,950Time in Patent Office1,470 DaysField of Search73/9, 73/862.23, 73/862.24, 29/898.09, 29/898.07, 29/407.02, 29/407.04, 29/407.05US Class Current29/898.09CPC Class CodesB23P 19/066 by electrical meansF16C 2229/00 Setting preloadF16C 25/06 Ball or roller bearingsY10T 29/49696 MountingY10T 29/497 Pre-usage process, e.g., pr...Y10T 29/49766 torquing threaded assemblag...Y10T 29/49769 Using optical instrument [e...Y10T 29/49771 Quantitative measuring or g...
