1. Field of the Invention
The invention relates in general to knife and tool sharpeners and more particularly, to an oval abrasive rod having an interrupted diamond coated sharpening surface.
2. Summary of the Prior Art
Many designs of hand held knife and tool sharpeners have long been present in the marketplace. One type of sharpener that provides a superior sharpening effect utilizes a diamond coated abrasive surface. Many prior diamond coated sharpeners possess a continuous, uninterrupted sharpening surface. During the sharpening process using a continuous diamond abrasive, metal filings build up on the surface requiring frequent cleaning. A continuous abrasive surface in the prior art is also incapable of delivering optimum honing and realigning of the cutting edge being sharpened.
Recently, diamond sharpening stones have been introduced having a flat diamond interrupted surface to attain superior results over a continuous flat surface. None of these designs for an interrupted diamond surface are provided on a continuous curved surface, on which optimum sharpening results can be attained. Accordingly, it is desirable in the prior art to provide a curved interrupted diamond sharpening surface for sharpening edges.
It is therefore an objective of the invention to provide an improved knife and tool sharpener and process of manufacture wherein the invention has an oval rod formed with an exterior interrupted diamond surface. The abrasive rod herein disclosed is provided with a unique interrupted hole pattern attaining sharpening results that can not be duplicated by diamond coated sharpening steels having a continuous abrasive surface as provided in the prior art. The oval shape of the abrasive rod allows uniform blade contact with the abrasive surface during the entire sharpening stroke. The plastic tip of the oval rod of the invention prevents scratching of the support surface bearing the sharpener during use, such as a counter and the like. The pattern of the interrupted overlapping holes aids in speeding up the sharpening process by holding and collecting the metal filings, which ordinary accumulate on the abrasive surface during the sharpening process. The abrasive surface of the invention herein is coated with multiple layers of micron-sized diamonds, such as monocrytalline diamonds, the hardest known material. The oval diamond abrasive rod herein disclosed provides a highly effective and easy to use implement for improved sharpening results.
Referring now to
Multiple layers 50 of micron-sized diamonds are coated along the entire length of the exposed surface 10a and 10b to provide an abrasive sharpening surface extending circumferentially around the rod generally along the length of rod 4. Although any suitable diamonds coatings may be employed, monocrystalline diamonds are highly effective in use. The multiple layers 50 are not applied to the plastic in holes 16 and thus the diamond layers 50 form wells 52 in the holes 16. The wells 52 formed in the overlapping holes 16 thus collect and hold the metal filings during the sharpening process to allow the abrasive surface to remain clean and increase the speed and efficiency of the sharpening process.
In the process of manufacturing the oval sharpening rod 2 of the invention, two identical flat steel blanks (not shown) are stamped with the overlapping pattern of holes 12 as previously described. After stamping, the two blanks are mechanically formed to create the two oval half portions 6a, 6b. These two mirror image portions 6a, 6b are welded along their longitudinal 8a, 8b edges to create the unitary oval rod 4. A plastic is then injected by a conventional process into the interior cavity formed by the welded oval rod 4 filling the interior of the rod until plastic comes out of the holes 12. The outer surface of the rod is then ground so the outer surface of the steel of the rod 4 and the plastic in holes 12 are flat and at the same level to form a uniform surface. The multiple layers 50 of diamond abrasive layers are then applied to the outer surface 10a, 10b which layers build up on the steel and create wells 52, since the abrasive layers 50 will not adhere to the plastic in holes 12. As stated previously, the well 52 create a place for the metal filings to collect during the sharpening process, which allows the abrasive surface to remain clean and thus speeds up the sharpening process.
Number | Name | Date | Kind |
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1866384 | Abranathy | Jul 1932 | A |
5458534 | Campione et al. | Oct 1995 | A |
5611326 | Caspani et al. | Mar 1997 | A |
6151991 | Seville | Nov 2000 | A |
Number | Date | Country | |
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20060009141 A1 | Jan 2006 | US |