Controlled position axle nut system and method to preload tapered roller bearings
First Claim
1. An axle nut system for preloading roller bearings comprising:
- an axle having roller bearings mounted thereon, said axle having an end portion, said end portion having threads thereon of a predetermined pitch which include outboard thread faces and inboard thread faces;
an inner member having threads thereon of a predetermined pitch being mounted on said end portion of said axle, said inner member abutting against at least a portion of said bearings and establishing a compressive preload on said bearings;
an intermediate member mounted on the end portion of said axle and abutting against said inner member, said intermediate member being fixed against rotation relative to said end portion of said axle;
an outer member mounted on said end portion of said axle and abutting against said intermediate member, said outer member being connected to said end portion of said axle to prevent outward movement of said inner member and said intermediate member when said inner member is rotated in an opposite direction to which said inner member was initially rotated with respect to said axle during which said inner member threads are engaged with said inboard thread faces of the axle threads so that said inner member becomes tightly immovable with respect to the intermediate and outer members while retaining the compressive preload condition on said bearings.
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Accused Products
Abstract
A novel axle nut system is provided on the spindle ends of an axle which mounts a wheel assembly that includes tapered roller bearings. The axle nut system of the present invention includes an adjustment nut, a washer and a retainer member. The adjustment nut is threaded into position having torque applied to it in a controlled manner to achieve specific preload bearing pressure against the outer bearings. Thereafter, the washer is placed into contact with the nut and is rotationally fixed with respect to the axle. Next, the threaded retainer member is rotated into contact with the washer. With the threaded retainer member placed on the axle to prevent any outward movement of either the wheel assembly components or the adjustment nut and washer, the adjustment nut is rotated in the opposite direction by which it was installed until it jams forcibly against the washer and thus, the threaded retainer member. With this rotational movement of the adjustment nut, the original bearing pressure or preload exerted outward against the adjustment nut is transferred and bears against the washer and retainer member.
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Citations
20 Claims
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1. An axle nut system for preloading roller bearings comprising:
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an axle having roller bearings mounted thereon, said axle having an end portion, said end portion having threads thereon of a predetermined pitch which include outboard thread faces and inboard thread faces; an inner member having threads thereon of a predetermined pitch being mounted on said end portion of said axle, said inner member abutting against at least a portion of said bearings and establishing a compressive preload on said bearings; an intermediate member mounted on the end portion of said axle and abutting against said inner member, said intermediate member being fixed against rotation relative to said end portion of said axle; an outer member mounted on said end portion of said axle and abutting against said intermediate member, said outer member being connected to said end portion of said axle to prevent outward movement of said inner member and said intermediate member when said inner member is rotated in an opposite direction to which said inner member was initially rotated with respect to said axle during which said inner member threads are engaged with said inboard thread faces of the axle threads so that said inner member becomes tightly immovable with respect to the intermediate and outer members while retaining the compressive preload condition on said bearings. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of providing a preload compressive condition on an axle comprising the steps of:
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providing an axle having roller bearings mounted thereon, said axle having an end portion, said end portion having threads thereon of a predetermined pitch which include outboard thread faces and inboard thread faces; placing an inner member having threads thereon of a predetermined pitch on said end portion of said axle; establishing a compressive preload on said bearings by rotating said inner member against said bearings; placing an intermediate member on said end portion of said axle, said intermediate member being fixed against rotation with respect to the end portion of said axle; moving said intermediate member into engagement with said inner member; placing an outer member on the end portion; moving said outer member into engagement with said intermediate member, said outer member defining a spacing between said outer member and said bearings which is provided by said inner and intermediate members; retaining said inner member against retrograde axial movement while retaining the compressive preload condition on said bearings by rotating said inner member in an opposite direction to which said inner member was initially rotated with respect to the axle by engaging said inner member thread with said inboard thread faces of the axle threads so that said inner member becomes tightly immovable with respect to the intermediate and outer members while retaining the compressive preload condition on said bearings. - View Dependent Claims (12, 13, 14, 15, 16, 17)
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18. A method of providing a preload compressive condition on an axle comprising the steps of:
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providing an axle having inner and outer roller bearings mounted thereon, said axle having an end portion, said end portion having threads thereon of a predetermined pitch which includes outboard threads and inboard threads; placing inner means on the end portion of said axle, said inner means comprising a nut having threads thereon of a predetermined pitch and a member fixed against rotation relative to said end portion of said axle; establishing a compressive preload on said outer roller bearing by moving said inner means against said outer roller bearing to apply a predetermined amount of thrust force against said outer roller bearing, said nut being moved by rotating said nut in a first direction; placing a lock member on said end portion for securing said inner means on said axle by moving said lock member into an abutting position with said inner means without increasing the compressive preload on said outer roller bearings; and rotating said nut in a second direction opposite to said first direction with sufficient torque to cause a jammed condition of said nut within said assembly. - View Dependent Claims (19, 20)
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Specification