Mining or in situ disintegration of hard material – Cutter tooth or tooth head – Wear shield or replaceable wear sleeve
Reexamination Certificate
2000-12-20
2004-09-07
Kreck, John (Department: 3673)
Mining or in situ disintegration of hard material
Cutter tooth or tooth head
Wear shield or replaceable wear sleeve
C299S107000, C411S520000
Reexamination Certificate
active
06786557
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to a manually replaceable protective wear sleeve having a tapered design in combination with a beveled retainer for insertion between the bit holder and cutting tool.
BACKGROUND OF THE INVENTION
For many years the conventional method of attaching cutting bit holder to a drum or chain in the mining and construction industries was to directly weld the bit holding block to the mining or construction machine cutters. This welding method of attachment of cutters to drums and chains required the use of a cutting torch to remove a cutting bit holder, and welding equipment to connect the cutting bit holder to the drum or chain. A skilled welder was needed to remove bit holders and replace the old bit holder with a new bit holder. Because of the difficulties in finding experienced welders and the problems of welding bit holders onto machines on site the bit holders and cutting tools were simply not replaced. This resulted in adjacent bits becoming overloaded and wearing at an accelerated rate. U.S. Pat. Nos. 4,542,943 and 4,068,897 disclose bit holder designs in which the bit holder is removably attached to a support block base typically welded onto the cutting machine to permit easy replacement of the bit holder by unskilled personnel.
In mining machines such as continuous miners, road working machines like road planers and earth moving machines such as mechanized shovels a plurality of cutting bits are mounted on these apparatus for cutting earth strata or man made surfaces such as asphalt, pavement and concrete. Moving means such as a rotating wheels, chains, rotating arms or rotating drums move the bits. Mining machines themselves are of various types including undercutting machines, continuous mining machines and long wall mining machines. The bits generally include bit holders for holding the cutting bits. The bit holder is connected directly to the moving machinery or is connected to a support block that is welded onto the operating machinery. A protective wear sleeve is inserted in the bit holder for reducing the wear on the bit holder caused by fretting between a shank of the cutting bit and a bit holder bore.
The wear sleeves of the prior art are fixed in there proper position in the bit holder by wedge arrangements between the protective wear sleeve and a bit holder bore taught in U.S. Pat. No. 5,498.069 to Siebenhofer et al and U.S. Pat. No. 4,057,294. These wedge arrangements are designed for fixing the protective wear sleeve to the bit holder in such a manner that substantially no relative movement occurs between the protective sleeve and the bit holder. The bit holders in these patents are provided with a tapered portion and the bit holder is provided with a tapered cavity to receive the tapered portion of the wear sleeve. The contact and friction between the protective wear sleeve and the bit holder prevents relative rotation and fretting between the sleeve and bit holder.
The protective wear sleeves of the cutting bit assemblies in industry must be replaced regularly as they wear out. However the protective sleeve must be sufficiently secured in the bit holder so as not to be knocked loose by loads and torques that occur during normal operation of the mining/construction machinery. The prior art protective sleeves in addition to the wedge design include connecting means such as pins, screws, and bolts as taught by U.S. Pat. No. 4,337,980 to Kreckler and U.S. Pat. No. 5,370,448 to Sterwerf.
UK Patent Application 2182373 A, to Alder discloses a cutting tool assembly wear sleeve that is connected to the bit holder by a pin 25 and retainer clip 19 in addition to a tapered wedge.
Cylindrical split ring retainers that are positioned about an annular grooved shank portion of a cutting bit are well-known in the art for securing a wear sleeve to the cavity of a bit holder as seen in U.S. Pat. No. 5,628,549 to Ritchey et al. U.S. Pat. No. 3,833,265 to Elders also shows a split sleeve retainer between the sleeve and bore. The split sleeves is constructed from a resilient spring-like material that is compressed when the split sleeve ring is axially hammered into the cavity of the bit holder. The cylindrical split sleeve becomes biased outwards against the corresponding bit holder cavity bore tightly securing the sleeve against axial movement. The retainer is frictionally held in place against the sidewall of the bit holder bore preventing axial displacement of the retainer. The sidewalls of the annular groove wear sleeve about against the split sleeve retainer and the sleeve is thereby prevented from being axially knocked out of the bit holder. However, such designs sometimes are inadequate since they are somewhat likely to become knocked out during operation of cutting machinery.
U.S. Pat. No. 5,725,283 to O'Neill discloses a wear sleeve that is affixed to the bit holder block by interference fit. The bore dimension of the bit holder and the outer diameter of the wear sleeve have to be precisely cut and honed. There is little tolerance for error in manufacturing the outside diameter of the wear sleeve and the bore of the bit holder. This type of precise manufacturing is expensive and time consuming.
SUMMARY OF THE INVENTION
The protective wear sleeve of the present invention is replaceably mounted in a bit holder so as to prevent relative rotation between the bit holder and protective wear sleeve. The protective wear sleeve of applicant's invention is much less likely than the prior art to be accidentally knocked out by abnormal loads and torques that occur during cutting operations.
The applicant's invention cutting tool assembly includes a protective wear sleeve that is fixed in the cavity of a bit holder by a tapered wedge portion that is compressed in a correspondingly tapered portion of the bit holder cavity and a second retainer fixing means.
The applicant's protective wear sleeve invention can be set in the bit holder by several axial blows with a hammer or other appropriate tool. Unlike some other designs in the prior art which require the insertion of a pin or nut threaded onto a bolt or clip connected to the rear end of the cutting to secure the wear protection sleeve to the bit holder in the invention, no other assembly step is necessary to secure the applicant's protective sleeve inside the bit holder cavity. The protective sleeve will remain in this position with no relative axial movement or rotation between the wear sleeve and the bit holder.
When it is desired to remove the protective wear sleeve form the bit holder the wear sleeve is removed by a prying action using a well-known prying fork that is wedged between a shoulder of the wear sleeve and the exposed mining face of the bit holder. The wear sleeve is easily removed in one prying step without the necessity of disconnecting a retainer, split safety ring or unthreading a bolt for instance as in the prior art.
The split sleeve retainer clip of the present invention includes beveled portions at opposite ends of the cylinder. The beveled ends upon insertion of the retainer into the bit holder cavity bore are compressed into contact with the protective wear sleeve. The angle of taper of the beveled ends decreases from the initial angle of taper of the retainer sleeve in its uncompressed position prior to the protective wear sleeve being inserted into the bit holder The beveled ends of the retainer in its noncompressed unbiased state are initially angled at approximately 25 degrees with respect to the central axis C—C in
FIG. 4
of the retainer sleeve, the beveled ends are compressed to an angle between about 12 to 18 degrees when the cutting bit is inserted into the cavity bore of the bit holder.
The beveled ends function, as leaf springs to apply a supplemental restoring force component to the retainer ring. The deflection of the beveled ends occurs within the elastic range limits of the retainer split sleeve material.
Another objective of the applicant's inventions is to design the protective wear sleeve to have an weakened undercut ad
Kennametal Inc.
Kreck John
Prizzi John J.
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