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Publication numberUS3496685 A
Publication typeGrant
Publication dateFeb 24, 1970
Filing dateMar 7, 1968
Priority dateMar 8, 1967
Also published asDE1989339U
Publication numberUS 3496685 A, US 3496685A, US-A-3496685, US3496685 A, US3496685A
InventorsGrunwald Josef, Schmidt Erich
Original AssigneeZuckermann Kg Maschf
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Abrading tool
US 3496685 A
Abstract  available in
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Claims  available in
Description  (OCR text may contain errors)

United States Patent O 3,496,685 ABRADING TOOL Erich Schmidt and Josef Grnwald, Vienna, Austria, as-

signors to Maschinenfabrik Zuckermann K.G., Vienna, Austria, a corporation of Austria Filed Mar. 7, 1968, Ser. No. 711,382 Claims priority, application Austria, Mar. 8, 1967, A 2,203/67 Int. Cl. B24d 9/02 U.S. Cl. 51-373 10 Claims ABSTRACT OF THE DISCLOSURE An abrading wheel, designed for the sanding of elongate workpieces such as funiture legs, has an inflated toroidal body mounted on a central hub and supporting a surrounding abrasive band, the wall thickness of this body ranging from not more than about 2 mm. at its outer periphery to a substantially larger value at its inner periphery, the sidewalls of the body being of tapering thickness and being reinforced by adjoining flanking disks of metal or other stiff material.

Our present invention relates to a wheel-shaped abrading tool adapted to be used for the sanding of elongate workpieces, such as furniture legs, which may be moved past the rotating wheel on a conveyor, e.g` as disclosed in copending application Ser. No. 431,331, filed Feb. 9, 1955 by Erich Schmidt, now Patent No. 3,376,672.

In the shaping of such workpieces it is important that the abrasive surface of the wheel be sufficiently flexible to adapt itself to the desired contour and, in particular, that the workpiece-confronting edge of that surface be yieldable enough to avoid the formation of unsightly scratches which could otherwise occur upon minor shifts between the abrasive band and its rotatable support.

It is, therefore, the general object of our invention to provide an abraiding wheel for the purpose described which satisfies all the requirements of adaptability and yieldability while being sufficiently firm to insure proper machining.

This object is realized, pursuant to our present invention, by the provision of an abrading Wheel having an inflated toroidal body whose outer periphery supports an encircling abrasive band or belt and whose inner periphery is mounted on a rigid hub serving to secure the wheel to a rotary shaft; the hub also carries a pair of stiff flanking disks which bear upon the sidewalls of the toroidal body, thereby preventing its outward bulging, while terminating short of its outer perpihery carrying the abrasive band.

Furthermore, in order that this body may have the desired degree of flexibility, its outer peripheral wall should be substantially thinner than its inner peripheral wall, with the sidewalls tapering from the thickness of the inner to that of the outer peripheral wall.

With the elastomeric materials currently available, including natural and synthetic rubbers as well as plastics such as polyethylene, the outer perihpheral wall of the toroidal body should have a thickness up to approximately 2 mm., a minimum thickness of about 0.1 mm. being adequate in many instances. The thickness of the inner peripheral wall may be several times that of the outer wall and should, of course, be sufficient to transmit the torque of the rotating shaft to the toroidal body in the face of the peripheral drag encountered by the abrasive band. This inner peripheral Wall may be formed by integral annular extensions of the two sidewalls space axially apart to define a central gap which is occupied by an annular strip of the same or similar elastomeric material, heatsealed or otherwise bonded to these extensions in a fluidtight manner; this strip advantageously carries a nipple ICC for the admission of air or other inating gas into the body. We have found that the degree of inflation should be limited to a range between 1 and 1.5 atmospheres absolute in order that the body and, with it, the abrasive band supported thereon may have the desired deformability; the higher limit will generally require somewhat heavier outer peripheral walls within the range of thicknesses specified above.

According to a more particular feature of our invention, the toroidal body has at least one rounded peripheral edge overhung by the abrasive band which extends tangentially of that edge along a cylindrical surface terminating substantially in the plane of the adjoining sidewall. The overhanging portion of the abrasive band will thus yield readily inwardly, being entirely supported except by the inherent stiffness of the band itself; the latter may be of the usual construction, including an endless paper carrier studded on its outer surface with corundum granules or the like. This abrasive band may be conveniently mounted on the wheel body with the aid of transverse straps having radially extending ends anchored to the two flanking disks.

The invention will be described in greater detail with reference to the accompanying drawing in which:

FIG. l is an axial cross-sectional view yof an abrading wheel according to the invention;

FIG. 2 is a view similar to part of FIG. 1, drawn to a smaller scale and illustrating a modification; and

FIG. 3 is an enlarged fragmentary View taken on the line III-III of FIG. l.

The abrading wheel shown in FIG. 1 comprises a metallic hub 1 removably molnted on the cantilever end of a shaft 2 which is rotatable about its axis by conventional drive means not shown, e.g. in a grinding machine of the type described in the above-identified Schmidt application. Hub 1 is provided for this purpose with a pair of mounting rings 1', 1" clamped between a shoulder 2' of a shaft 2 and a nut 19 engaging a threaded extremity thereof; a pin 20 projects into a keyway 21 of ring 1' to insure positive rotary coupling between the hub and the shaft.

A toroidal body of' elastomeric material, seated on hub 1, has a relatively thin outer peripheral wall 3, a pair of tapering sidewalls 5, 6 and an inner peripheral wall of increased thickness formed in part by annular extensions 4', 4 of wall 5 and 6, these extensions being separated by a central gap 8 (FIG. 2) which is occupied by an annular strip 9 seated on ledges 7', 7" of the two ringshaped extensions 4', 4"; strip 9 is bonded to the rings 4', 4", e.g. by vulcanization or heat-sealing, in a fiuidtight manner. An inlet opening 10 in strip 9 receives the discharge end of a bent nipple 11 through which air or other gas may be admitted into the interior of body 3-'6 under the control of a releasable check valve 12 of the type usually employed in automotive tires. Nipple 11 is accommodated in a peripheral recess 13 of hub 1 so as to be readily accessible from the side for purposes of attachment to a pump or compressor.

A pair of metallic stiifening disks 14', 14" are rigidly mounted on hub 1 and flank the toroidal body 3-6, bearing upon the tapering sidewalls 5 and 6 thereof to prevent outward bulging of same. It will be noted that the radius of the outwardly curled peripheral edges of disks 14' and 14" is smaller than that of the outer peripheral wall 3 so that these disks, and particularly the exposed front disk 14", terminate short of a cylindrical surface tangent to this outer periphery, i.e. the inner surface of a thin abrasive band 18 encircling the body 3 6. Band 18 is provided with a plurality of peripherally spaced straps 17 having their ends frictionally anchored in generally H-shaped slots 16 (best seen in FIG. 3) of disks 14' and 14", this mode of fastening enables a quick replacement'of a worn sanding belt 18a-upon` deflation-*of the supporting body 3 6.

As illustrated in IFIG. 1, the toroidal body 3-6 has a rounded peripheral front edgev 3a at theYY junction of its walls3 and 6, this edge being normally closer to the workpiece ton be machined than the rearward edge definedV by walls 3` and 5. As shown in FIG. 2, however, both edges 3a and 3b may be rounded off in this manner. The overhanging part of sanding belt 18 is thus readily deformable and does not exert any appreciable pressure upon the workpiece.: Y

Except for this verhanging edge zone, the sanding belt 18 Will apply itself under substantially uniform pressure to the entire contact surface of a workpiece held thereagainst. This is particularly so if the internal pressure of body 3-6 is kept within the aforestated limits of approximately l and 1.5 atmospheres absolute so that the elastomeric body has no appreciable tendency to'expand, its internal volume remaining substantially constant. The band-supporting body portion 3 should have a thickness of not more than about 2 mm., as noted above, the band or belt 18 being preferably of the same order of thickness.

When necessary, the entire supporting body 3-6 may be withdrawn from its hub 1 after removal of one of the two stiffening disks 14', 14 vwhich are fastened to the hub 1 by respective sets of screws 15', 15".

Minor structural modifications of the tool described 4and illustrated are, of course, possible without departing from the spirit and scope of our invention as disclosed in the appended claims.

We claim:

i. An abrading wheel comprising an inflatable toroidal body of elastomeric material, an abrasive band encircling the outer periphery'of said body, a rigid central hub supporting said body, and a pair of stiff flanking disks on said hub extending along the sides of said body but terminating short of the outer periphery thereof, said body having a relatively thin and highly deformable outer peripheral wall, ra relatively heavy inner peripheral wall and sidewalls tapering from the thickness of said inner peripheral wall to that of said outer peripheral wall, said disks bearing upon said sidewalls.

2. A wheel as defined in claim 1 wherein said outer peripheral wallhas a thickness ranging between substantially 0.1 and'2 mm.

3. A wheelas defined in claim 1 wherein said body in its inflated state has an internal pressure between substantially I and 1.5 atmospheres absolute.

4. A wheel as defined in claim 1 wherein said inner peripheral wall consists of two annular integral extensions of said sidewalls separated by a central gap and an annular strip in said gap sealed to said extensions', said strip being provided with inlet means for an in'ating gas.

5. A wheel as defined in claim 4 wherein said inlet .'eans includes an axially bent nipple, saidhub being provided with a recess accommodating said nipple.

6. A Wheel as defined in claim 1 wherein said body has a rounded edge at the junctionV of said outer periphery and at least one of said sidewalls, said abrasive band -overhanging said rounded edge and extending tangentially thereof along a cylindrical surface terminating substantially in the plane of the last-mentioned sidewall.

7. A wheel as defined in claim -6 wherein said band is provided with fastening means for securing same to said body, said fastening means including a plurality of straps bent around said rounded edge and provided with radially extending ends anchored to the disk adjoining said lastmentioned sidewall.

A8. A wheel as defined in claim 7 lwherein said straps also have ends anchored to the disk adjoining the opposite sidewall.

9. A wheel as defined in claim 8 wherein said disks are provided with peripherally spaced slots receiving the ends of said straps.

l0. A wheel as defined in claim 9 wherein said slots are generally H-shaped.

FOREIGN PATENTS 219,334 12/1958 Australia. 385.147 5/l908 France.

OTHELL M. SIMPSON, Primary Examiner

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2671297 *Apr 6, 1951Mar 9, 1954Bryant Grinder CorpMethod of finishing internal bores
AU219334B * Title not available
FR385147A * Title not available
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US4897968 *Sep 26, 1988Feb 6, 1990Heinz HuttInflatable grinding roller
US5007208 *Jun 22, 1989Apr 16, 1991Garfield Theodore FAnchor for rotary sanding drum
US5351447 *Jan 8, 1993Oct 4, 1994Grauert Robert JInflatable sanding drum
US6083086 *Mar 12, 1999Jul 4, 2000Technicor Inc.Expanding device for grinding sleeves
US6241589Jun 21, 2000Jun 5, 2001Technicor, Inc.Quick change bit holder
US6439967 *Sep 1, 1998Aug 27, 2002Micron Technology, Inc.Microelectronic substrate assembly planarizing machines and methods of mechanical and chemical-mechanical planarization of microelectronic substrate assemblies
US6736708Oct 13, 2000May 18, 2004Micron Technology, Inc.Microelectronic substrate assembly planarizing machines and methods of mechanical and chemical-mechanical planarization of microelectronic substrate assemblies
US6969309Mar 29, 2004Nov 29, 2005Micron Technology, Inc.Microelectronic substrate assembly planarizing machines and methods of mechanical and chemical-mechanical planarization of microelectronic substrate assemblies
US7824248 *Sep 17, 2004Nov 2, 2010Treffner Peter PWheel assembly for a pneumatic sander
US20040192177 *Mar 29, 2004Sep 30, 2004Carpenter Craig M.Microelectronic substrate assembly planarizing machines and methods of mechanical and chemical-mechanical planarization of microelectronic substrate assemblies
US20070281595 *Sep 17, 2004Dec 6, 2007Treffner Peter PWheel Assembly for a Pneumatic Sander
US20090156100 *Dec 18, 2008Jun 18, 2009Alcoa Inc.Apparatus and method for grinding work rollers
USRE38742Sep 12, 2002Jun 14, 2005Techniglass CorporationQuick change bit holder
U.S. Classification451/505
International ClassificationB24D9/00, B24D9/02
Cooperative ClassificationB24D9/02
European ClassificationB24D9/02