Brush roller assembly for vacuum cleaner sweeper
First Claim
1. A brush roller assembly comprising an essentially rigid and essentially cylindrical spindle having a central axis and a pair of co-axial end assemblies for rotatably supporting said spindle at opposite ends thereof, wherein:
- (a) said spindle has opposite first and second ends and a cylindrical, circumferential surface extending between said ends and further includes an axial bore of predetermined depth extending inwardly from each end, each of said bores having a closed inner end and an open outer end and comprising a cylindrical side wall and a transverse end wall at said inner end;
(b) said brush roller assembly further includes an annular shoulder surrounding the open outer end of each of said bores, said shoulders each being adapted to receive and position a bearing;
(c) each of said end assemblies comprises;
(1) an essentially cylindrical, shoulderless stub shaft of essentially uniform diameter over its entire length, said stub shaft comprising a smooth, cylindrical inboard portion which is received in a respective one of said bores, a roughened middle portion which frictionally grips that bore so that said shaft and said spindle rotate together, and a smooth, cylindrical outboard portion which extends axially outwardly beyond that bore, said stub shaft having a first end which abuts the inner end of said bore;
(2) a bearing mounted on the outboard portion of said shaft; and
(3) an end cap comprising a radially extending end plate having inner and outer surfaces and a flange extending axially inwardly therefrom and surrounding said bearing, said end cap being adapted to be fixedly mounted on a chassis member of a vacuum cleaner sweeper;
each said bearing being in abutting relationship with a respective one of said shoulders and a respective one of said end plates.
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Accused Products
Abstract
A roller assembly comprises an essentially cylindrical spindle which is rotatably supported at opposite ends by a pair of end assemblies. The spindle has brush elements on a circumferential surface and axial bores extending inwardly from each of the ends. Each end assembly comprises a shoulderless cylindrical stub shaft which is coaxial with and rotatable with the spindle, a bearing frictionally mounted on an outer end of the stub shaft, and a non-rotating end cap which may be mounted in a vacuum cleaner chassis member, such as two opposite side walls of a vacuum cleaner nozzle. The stub shaft comprises along its axial length a smooth inboard portion, a roughened middle portion which frictionally engages a bore wall, and a smooth outboard portion which extends beyond the end of a spindle. The bearing is mounted on this outboard portion. The end assembly may also include a thread guard and a washer which rotate with the spindle. An annular shoulder surrounding the open outer end of the bore positions the bearing. The end cap may have an axially inwardly extending flange which forms a receptacle for the bearing, and the spindle may have a counterbore extending axially inwardly from each end to provide a recess for the bearing and this flange. The roller assembly can be readily built to close tolerances in overall length, bore depth, and stub shaft diameter, and with a high degree of concentricity, thereby minimizing both bearing wear and vibration.
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Citations
11 Claims
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1. A brush roller assembly comprising an essentially rigid and essentially cylindrical spindle having a central axis and a pair of co-axial end assemblies for rotatably supporting said spindle at opposite ends thereof, wherein:
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(a) said spindle has opposite first and second ends and a cylindrical, circumferential surface extending between said ends and further includes an axial bore of predetermined depth extending inwardly from each end, each of said bores having a closed inner end and an open outer end and comprising a cylindrical side wall and a transverse end wall at said inner end; (b) said brush roller assembly further includes an annular shoulder surrounding the open outer end of each of said bores, said shoulders each being adapted to receive and position a bearing; (c) each of said end assemblies comprises; (1) an essentially cylindrical, shoulderless stub shaft of essentially uniform diameter over its entire length, said stub shaft comprising a smooth, cylindrical inboard portion which is received in a respective one of said bores, a roughened middle portion which frictionally grips that bore so that said shaft and said spindle rotate together, and a smooth, cylindrical outboard portion which extends axially outwardly beyond that bore, said stub shaft having a first end which abuts the inner end of said bore; (2) a bearing mounted on the outboard portion of said shaft; and (3) an end cap comprising a radially extending end plate having inner and outer surfaces and a flange extending axially inwardly therefrom and surrounding said bearing, said end cap being adapted to be fixedly mounted on a chassis member of a vacuum cleaner sweeper; each said bearing being in abutting relationship with a respective one of said shoulders and a respective one of said end plates. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A brush roller assembly comprising an essentially rigid and essentially cylindrical spindle having a central axis and a pair of co-axial end assemblies for rotatably supporting said spindle at opposite ends thereof, wherein:
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(a) said spindle has opposite first and second ends and a cylindrical circumferential surface extending between said ends and further includes an axial bore of predetermined depth extending inwardly from each end, each of said bores having a closed inner end and an open outer end, and comprising a cylindrical side wall and a transverse end wall at said inner end; (b) said brush roller assembly further includes an annular shoulder surrounding the open outer end of each of said bores, said shoulders each being formed on said spindle at the outer end of a respective one of said bores and being adapted to receive and position a bearing; (c) each of said end assemblies comprises; (1) an essentially shoulderless stub shaft of essentially uniform diameter over its entire length, said stub shaft comprising a smooth, cylindrical inboard portion which is received in a respective one of said bores, a roughened middle portion which frictionally grips that bore so that said shaft and said spindle rotate together, and a smooth, cylindrical outboard portion which extends axially outwardly beyond that bore, said stub shaft having a first end which abuts the inner end of said bore; (2) a bearing mounted on the outboard portion of said shaft; and (3) an end cap comprising a radially extending end plate having inner and outer surfaces and a flange extending axially inwardly therefrom and surrounding said bearing, said end cap being adapted to be fixedly mounted on a chassis member of a vacuum cleaner sweeper; and
wherein further;(d) the spindle further includes an axial counterbore extending inwardly from each end, each of the counterbores forming a recess for its associated bearing and flange, and a second counterbore at each end of said spindle, each of said second counterbores being of greater diameter and less axial depth than each aforementioned counterbore, each of said second counterbores forming a recess for a respective one of said end caps; and (e) each said end plate has a circular outer circumference and each said end cap further comprises a cylindrical wall at the outer circumference of the respective end plate, and a radially extending flange which extends radially outwardly from said cylindrical wall, said cylindrical wall forming a spool for threads and said radially extending flange forming a thread guard.
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Specification