This invention relates to a grinding wheel for treatment of a cutting edge, such as a knife's edge, the grinding wheel arranged mountable on a rotatable shaft to be brought in rotation by a driven rotation of the shaft, and comprising two grinding discs opposing each other and arranged movable relative to each other in the shaft's longitudinal direction and pre-tensioned away from one another, each of the grinding discs having a hub section with fingers protruding freely from the hub section at a radial and an axial component of direction, wherein the fingers are arranged at intervals dimensioned for passage of the corresponding fingers of the opposite grinding disc such that the finger's axial components of direction form an outwardly open, in an axial cross-sectional plane generally V-shaped notch defined by the intersecting rotational planes of the crosswise running fingers, and in which the fingers has an area for treatment of the knife's edge.
A grinding wheel having two each other opposing and away from each other pre-tensioned grinding discs arranged on a shaft with crosswise arranged free protruding fingers is previously known from U.S. 989,692. This grinding wheel is not intended to be brought into a driven rotation, as is the grinding wheel of the present invention, and requires a manual forth and back movement of the blade of a knife in the notch that is formed between the stationary arranged fingers. A disadvantage of this grinding wheel is the limited use of the abrasive surface of the grinding disc, which results from that only a narrow peripheral region is active for treatment of the edge. Another disadvantage is the risk that an edge having a sharp, unprotected corner getting caught by the grinding wheel upon insertion of the edge into the grinding wheel. This disadvantage can be seen as less important in connection with the stationary grinding wheel of U.S. 989.692, but is of great importance in connection with a grinding wheel which is driven to rotate at speeds of around 3000 rpm. Another disadvantage with this prior-art grinding wheel is that the treated edge, as viewed in a cross-section, is formed with a thin edge with concave-shaped sides, whereby the edge becomes thin and fragile and sensitive to deformation and wear. Furthermore, the efficiency of this grinding wheel is suffering from the fact that the operator needs to turn the grinding wheel into a non-used area before the grinding takes place.
The invention aims at providing a grinding wheel of the initially mentioned type, in which the active surface for treatment of an edge or equivalent is maximized.
Another object of the present invention is to provide a grinding wheel designed to eliminate the risk of hooking into the grinding wheel upon insertion of an edge having an exposed and sharp corner.
Still another object of the invention is to provide a grinding wheel in which the treated edge, as viewed in a cross-section, is formed with a tip having convex-shaped sides.
Yet another object of the invention is to provide a grinding wheel comprising abrasive discs which are suitable for manufacture by plastic deformation of a single metal workpiece.
According to the invention, one or more of these objectives are met in a grinding wheel having the characterizing features of claim 1. Preferred embodiments are defined in the subordinate claims.
Briefly there is disclosed a grinding wheel of the initially mentioned type, which is characterized in that the grinding disc's fingers, as well as the intervals between the fingers, from the hub section towards the periphery of the grinding disc, has increasing width between a leading edge and a trailing edge of the finger as viewed in the direction of rotation, and in that the V-shaped notch in an axial cross section comprises an insertion region in which the notch width is wider at the finger's leading edge than the corresponding width at the trailing edge of the finger, when measured at equal radial distances from the grinding wheel centre, whereas the width of the notch radially inside said insertion region is the same at the leading and trailing edges of the finger.
The grinding wheel preferably comprises grinding discs in which the fingers, in the longitudinal direction of the finger, are formed with a concave surface in the plane of rotation.
Preferably, the concave surface of the finger turns into a convex curvature of the finger tip. The connection between the concave surface and the curved, convex finger-tip is located at a shorter radial distance from the grinding disc centre at the fingers leading edge than at its trailing edge, with respect to the direction of rotation. The transition between the concave surface and the finger tip preferably includes a radius in such a way that the curved, convex finger tip has a first radius at the connection to the fingers leading edge, which first radius is greater than a second radius at the connection of the finger tip to the trailing edge of the finger.
A grinding disc according to the above mentioned embodiment is preferably produced by shaping a single metal workpiece. The workpiece can be punched out or cut out from a flat plate to the shape of a star, which is given its final shape in a plastic deformation process, advantageously in a deep-drawing procedure. During the shaping process, the grinding disc's fingers may be given a longitudinal reinforcement in at least one of the finger's edges. This reinforcement can take the form of a flange that extends out of the grinding disc's plane of rotation.
Preferably, the concave surface of the grinding disc's finger is double-curved as a result of giving the grinding disc a conical basic shape at manufacture, wherein the finger in addition to the concave shape in the length direction of the finger also has a convex curvature lying on the cone's mantle surface, as seen in the direction of rotation.
Each finger of the grinding disc has an abrasive or polishing surface structure or coating on the surface that defines the plane of rotation. Appropriate materials and coatings for different applications can be applied in procedures which are known per se, suitable for coating with diamond, ceramic material, hard metal or other hard abrasive, e.g.
The grinding discs of the grinding wheel are pre-tensioned away from each other in the axial direction by means of a spring which is inserted between the two, such that the ends of the spring are received in hub formed for this purpose in each of the grinding discs. This hub can be molded on the grinding disc, or formed integrally with the same.
The invention is explained more closely below with reference made to the appended drawings, in which an embodiment of the grinding wheel is shown schematically. In the drawings,
A grinding wheel according to the invention comprises the basic elements shown in
Referring now to
An advantageous and preferred feature of the grinding wheel according to the invention is that the surface which is available for treatment of the edge can be utilized to a maximum. Against the force of the spring element 6 acting between the grinding discs 1, 2, the notch V opens to a depth corresponding to the radial insertion depth of the edge, and corresponding to the radially directed force applied from the edge. The force required is determined by the strength and characteristics of the spring element, and can for each specific application be determined by a person skilled in the art. By appropriate choice of the spring characteristics, a substantially constant resistance towards insertion of the edge can be attained, independent of the radial insertion depth of the edge.
The grinding disc 1, 2 is preferably shaped from a generally star-shaped work piece as illustrated in
With reference to
In effect of the finger's axial component of direction, an essentially V-formed notch V is formed in an axial sectional plane, and defined through the crosswise oriented fingers in intersecting rotational planes in which the fingers comprises an area 11 for treatment of a cutting edge that is inserted in the notch. The area 11 can be arranged for grinding or for polishing, for which purpose the area has a structure and/or a coating which provides a polishing or abrasive effect on the edge. Through coating processes, which are known per se, the area 11 may be coated with diamond, ceramic, hard metal or other hard abrasives, e.g. Such coating may also be applied to extend beyond the area 11, and may for example be extended through the entire length of the finger.
An advantageous and preferred feature of the grinding wheel according to the invention is that the treated edge will be shaped with convex sides as seen in a transverse section of the edge. To this purpose, the fingers of the grinding disc are formed in the longitudinal direction to project a concave area 11 in the plane of rotation, as illustrated in the cut out detail view of
More particularly, the area 11 is double curved since the finger on which the area 11 is arranged also has a convex curvature along the surfaces of a cone resulting from the basic conical shape of the grinding wheel, as seen in the direction of rotation. This way, the width of the fingers can be fully exploited in the form of a continuous contact with the cutting edge from the finger's leading edge to its trailing edge, as viewed in the direction of rotation.
Another advantageous and preferred feature of the grinding wheel according to the invention is that the notch V, defined by the rotational planes, is formed with an insertion region I in which the width B1 of the notch, as viewed in an axial cross section, is larger at the leading edge of the finger than the corresponding width B2 at the trailing edge of the finger when measured at the same radial distance R1 from the wheel centre C. In this way is avoided the risk that a cutting edge having an unprotected sharp corner will hook onto the grinding wheel upon insertion.
This feature is best understood when looking at
The finger's leading edge, which is the first to meet the cutting edge introduced between the grinding discs in common rotation, is this way angled out of the rotational plane and provides a guiding surface 12a directed towards the rotational plane and which gradually moves the substantially tangentially oriented cutting edge towards the middle of the notch, in
Radially inside the transition region T, the width B of the notch V is essentially the same at the fingers leading and trailing edges.
From the above it is realized that the grinding wheel's grinding discs are not symmetrical and interchangeable, and that a right hand and a left hand grinding disc 1, 2 are required for the grinding wheel, as illustrated in
The complementary width of fingers, the conical basic shape of the grinding discs which provides a continuous contact with the cutting edge, and the grinding discs relative motion against the force of the spring elements all contribute to a maximum utilization of the active and polishing area in a grinding according to the invention.
A person skilled in the art will realize that the grinding discs in the grinding wheel can be produced by means other than through the above mentioned deep drawing procedure, such as by molding, casting, sintering or machining operations. A person skilled in the art will also realize that the grinding discs of the grinding wheel can be made from materials other than metal, such as plastic or ceramic materials, without departing from the inventive idea. Although the grinding discs of the illustrated embodiment are mounted on the shaft using a separate hub, which is subsequently molded on a pre-shaped grinding disc, it is of course possible alternative to cast the grinding disc and the hub in the same material, or in two separate materials by a double-casting process.
Finally, it should be noted that the grinding wheel according to the invention can be used for the treatment of other edges than the cutting edge of a conventional knife blade. Notwithstanding the invention being described in connection with the treatment of knives' edges it is not limited to this application, but it can likewise be used for other purposes such as for grinding/polishing of circular knives and for removing burr on the edges of sheet metal or other sheet materials.
Number | Date | Country | Kind |
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0950126-3 | Mar 2009 | SE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/SE10/50115 | 2/2/2010 | WO | 00 | 8/31/2011 |