The present disclosure relates generally to a corner segment mountable on a ground engaging tool, such as a bucket of a wheel loader, and, more particularly, to a corner segment having protrusions provided on wear zones of the corner segment.
A work implement, such as a bucket, is mounted to a machine and used to dig into and to move materials, such as sand, gravel, stone, soil, or debris. The bucket may have a ground engaging tool (GET) mounted to an edge of the bucket. The GET engages with the materials to protect the edge of the bucket from wear and, therefore, prolongs the life of the bucket. Wash-out, or accelerated wear, may occur on only some portions of the GET, such as a corner of the GET. As a result, the life of the GET is reduced to a life of the portion subjected to accelerated wear. Replacement of the GET is costly due to the expense of a new GET, downtime during replacement, and the effort and expense associated with the replacement process.
To reduce the frequency of replacement of the work implement, wear plates may be used. As described in U.S. Pat. No. 10,066,371, for example, rectangular wear plates can be tack welded along outer surfaces of end walls of a bucket. Carbide matrix deposits or plugs are formed on the wear plates by filling or overfilling a plurality of holes drilled into the wear plate. The plugs are arranged in a grid like pattern across an entire surface of the wear plate.
When the wear plates, such as those described in the '317 patent, are attached to end walls of the bucket, the wear plates protrude from surfaces of the end walls by an amount equal to a thickness of the wear plates. That is, the wear plates are not co-planar with surfaces of the end wall of the bucket. Moreover, the flat, rectangular wear plates may not be suitable for attachment to a non-planar surface of the bucket, such as a corner segment or a lip of the bucket. Replacement of the wear plates may require burning, cutting, and welding, which can be time consuming and costly, requires additional tools or machinery, and requires manual labor.
The corner segment of the present disclosure may solve one or more of the problems set forth above and/or other problems in the art. The scope of the current disclosure, however, is defined by the attached claims, and not by the ability to solve any specific problem.
In one aspect, a corner segment, configured to be mounted to a work implement, may include a body having a plurality of surfaces including a rear surface, an upper surface, a front surface, a bottom surface, an outer side surface, an inner side surface, and a corner surface that is adjacent to each of the front surface, the outer side surface, the upper surface, and the bottom surface. A portion of the bottom surface forms a bottom surface wear zone, and a portion of the front surface forms a front surface wear zone. The corner segment may also include a plurality of protrusions provided on wear zones, the wear zones including the bottom surface wear zone and the front surface wear zone.
In another aspect, a corner segment, configured to be mounted to a work implement, may include a body including a mounting portion for mounting to the wheel loader bucket, the mounting portion having a mounting portion outer side surface, and a lip portion, integrally formed with the mounting portion. The lip portion has a lip portion front surface, a lip portion upper surface, a lip portion bottom surface, and a lip portion outer corner surface that is adjacent to each of the lip portion front surface, the lip portion upper surface, the lip portion bottom surface, and the mounting portion outer side surface. A portion of the lip portion bottom surface forms a bottom surface wear zone, and a portion of the lip portion front surface forms a front surface wear zone. The corner segment may also include a plurality of protrusions provided on wear zones, the wear zones including the bottom surface wear zone and the front surface wear zone.
In still another aspect, a corner segment, mountable to a work implement, may include a mounting portion configured to attach to the bucket, and a working surface portion integrally formed with the mounting portion. The working surface portion may include a front surface, an upper surface, a bottom surface, and an outer corner surface adjacent to each of the front surface, the upper surface, and the bottom surface. A portion of the bottom surface forms a bottom surface wear zone, a portion of the front surface forms a front surface wear zone, and the corner surface forms a corner surface wear zone. The corner segment may also include a plurality of protrusions provided on wear zones, the wear zones including the bottom surface wear zone, the side surface wear zone, the front surface wear zone, and the corner surface wear zone.
Both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the features, as claimed. As used herein, the terms “comprises,” “comprising,” “having,” including,” or other variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements, but may include other elements not expressly listed or inherent to such a process, method, article, or apparatus. Moreover, in this disclosure, relative terms, such as, for example, “about,” “generally, “substantially,” and “approximately” are used to indicate a possible variation of ±10% in the stated value.
As shown in
The lip portion front surface 118 is generally planar, and may be perpendicular to the mounting portion upper surface 110 and angled relative to the lip portion upper surface 116. An edge 128 between the lip portion upper surface 116 and the lip portion front surface 118 may be a fillet edge. The lip portion outer side surface 122 is generally planar, and may be perpendicular to the mounting portion upper surface 110 and to the lip portion front surface 118. An edge 130 between the lip portion outer side surface 122 and the lip portion upper surface 116 may be a fillet edge. The lip portion corner surface 120 is a curved surface or a curved portion that is adjacent to the planar lip portion upper surface 116, the planar lip portion front surface 118, and the planar lip portion outer side surface 122. By virtue of the curve of the lip portion corner surface 120, the lip portion corner surface 120 may be continuous, i.e., uninterrupted by an edge, with the lip portion front surface 118 and the lip portion outer side surface 122. An edge 132 between the lip portion corner surface 120 and the lip portion upper surface 116 follows a slope or angle of the lip portion upper surface 116, and may be a fillet edge.
A plurality of protrusions or inserts 134 may be provided on one or more surfaces of the lip portion 108 of the corner segment 102. For example, as shown in
As shown in
Although the wear zone 152 is shown in
Referring to
With reference to
In addition, four protrusions 134 may be provided on the outer side surface wear zone 158. The protrusions 134 provided on the outer side surface wear zone 158 may be arranged in a particular pattern. For example, as shown in
Referring to
In addition, of the three protrusions 134 positioned along the arc E-E, one protrusion 134E-1 may be closest to the lip portion front surface 118 and closest to the inner side surface 150, one protrusion 134E-2 may be closest to the lip portion outer side surface 122, and another protrusion 134E-3 may be positioned between the protrusions 134E-1 and 134E-2. That is, with respect to a depth along the z-axis, the protrusion 134E-2 may be at a greater depth than the protrusion 134E-3, and the protrusion 134E-3 may be at a greater depth than the protrusion 134E-1. In addition, with respect to a length along the x-axis, the protrusion 134E-2 may be at a greater length than the protrusion 134E-3, and the protrusion 134E-3 may be at a greater length than the protrusion 134E-1. The other protrusion 134E-3 may closer to the protrusion 134E-2 than the protrusion 134E-1. In addition, the protrusion 134E-2 and the protrusion 134E-3 may be positioned within ridges 146 of the ridged portion 144.
Of the four protrusions 134 positioned along the arc F-F, one protrusion 134F-1 may be closest to the lip portion front surface 118 and closest to the inner side surface 150, and one protrusion 134F-2 may be closest to the lip portion outer side surface 122 and closest to the back surface 148. The other two protrusions 134F-3 and 134F-4 are positioned between the protrusion 134F-1 and the protrusion 134F-2 along the arc F-F. The protrusions 134F-2, 134F-3, and 134F-4 may be positioned within ridges 146 of the ridged portion 144. With respect to a length along the x-axis, the protrusion 134F-2 may be at a greater length than the protrusion 134F-3, the protrusion 134F-3 may be at a greater length than the protrusion 134F-4, and the protrusion 134F-4 may be at a great length than the protrusion 134F-1. And, with respect to a depth along the z-axis, the protrusion 134F-2 may be at a greater depth than the protrusion 134F-3, the protrusion 134F-3 may be at a greater depth than the protrusion 134F-4, and the protrusion 134F-4 may be at a greater depth than the protrusion 134F-1.
The insert 134 also may have a semi-spherical, or dome-shaped top portion 170. The top portion 170 may have a height of approximately 9 mm. The top portion 170 is configured to protrude from the surface of the lip portion 108 on which the insert 134 is inserted. That is, when installed or inserted into the holes formed in the surfaces of the corner segment 102, the protrusions 134 protrude from the respective surfaces by approximately 9 mm. The holes formed on the surfaces of the corner segment 102 may be cast or machined, for example.
The protrusions 134 may be formed of a material having a greater hardness than that of a material that forms the corner segment 102. For example, the protrusions 134 may be formed of one of tungsten carbide, ceramic, industrial diamond, or a combination thereof.
The corner segment 102 of the present disclosure, and, in particular, the corner segment 102 having the protrusions 134 provided on the wear zone 152, provides an easily replaceable GET for a work implement, such as the bucket 100, that reduces uneven wear and thereby prolongs the overall life of the GET. In addition, the particular arrangement of the protrusions 134 on wear zones of the corner segment 102 of the present disclosure reduces wear along curved and angled surfaces of the corner segment 102.
The lip portion upper surface 116, the lip portion front surface 118, the lip portion corner surface 120, the lip portion outer side surface 122, the lip portion bottom surface 136, and the angled lip 138 of the corner segment 102 are working surfaces. That is, when the corner segment 102 is mounted to the bucket 100, and the bucket 100 is in use, these surfaces of the lip portion 108 engage the material being moved by the bucket 100.
The arrangement of the protrusions 134 on the wear zone 152 serves to reduce accelerated wear on the surfaces of the corner segment 102 that engage the material. More specifically, the arrangements of the protrusions 134 on each of the front surface wear zone 154, shown in
By providing the protrusions 134 on an angled lip 138 and on the ridged portion 144, and not providing protrusions 134 on other portions of the lip portion bottom surface 136 or the mounting portion bottom surface 114, bottom surfaces of corner segment 102, including the lip portion bottom surface 136 and the mounting portion bottom surface 114 of the corner segment 102, can remain on plane with respect to a bottom surface of the bucket 100, and with respect to a working surface, such as a flat ground surface. In addition, by providing the protrusions 134 on the lip portion front surface 118, the lip portion corner surface 120, and the lip portion outer side surface 122, and not on the lip portion upper surface 116, the lip portion upper surface 116 remains planar and sharp for biting into a material to be moved by the bucket 100.
Further, providing the protrusions 134 on the lip portion front surface 118, the lip portion corner surface 120, and the lip portion outer side surface 122 prevents wash-out of the material of the lip portion 108 that holds the protrusions 134 in the holes on the angled lip portion 138 and on the ridged portion 144. That is, without the protrusions 134 on the lip portion front surface 118, the lip portion corner surface 120, and the lip portion outer side surface 122, the material that forms the lip portion 108 is susceptible to wear on the lip portion front surface 118, the lip portion corner surface 120, and the lip portion outer side surface 122. As the material wears on the lip portion front surface 118, for example, the holes formed in the angled lip 138 and in the ridged portion 144 may be exposed. That is, the lip portion front surface 118 loses material due to wear, resulting in exposure or opening up of the holes formed in the angled lip 138 and in the ridged portion 144. As a result, the interference fit maintaining the protrusions 134 in those holes may be lost, and the protrusions 134 may fall out. Thus, the addition of protrusions 134 on the lip portion front surface 118, the lip portion corner surface 120, and the lip portion outer surface 122 provide the additional benefit of preventing loss of the protrusions 134 on the angled lip 138 and on the ridged portion 144, in addition to reducing wear on those surfaces of the lip portion 108, and prolonging the overall life of the bucket 100.
To install the protrusions 134 on the corner segment 102, a plurality of holes may be cast, machined, drilled, or otherwise formed in the lip portion front surface 118, the lip portion corner surface 120, the lip portion outer side surface 122, the angled lip 138, and the ridged portion 144. The positions of the drilled holes on the surfaces of the corner segment 102 correspond to the arrangement of the protrusions 134, such as the arrangement shown in
The corner segment 102 with protrusions 134 of the present disclosure provides a GET that reduces accelerated wear on some surfaces or a portion of surfaces of the GET, or balances wear more evenly across the surfaces of the component, by virtue of the arrangement of the protrusions 134 on one or more wear zones. As a result, the corner segment 102 with protrusions 134 may require less frequent replacement as compared to that of a conventional GET. In addition, the corner segment 102 with protrusions 134 also provides a component that can be used on planar, angled, and/or curved surfaces of a work implement, such as a bucket. Further, installation or replacement of the corner segment 102 with protrusions 134 is relatively simple, in that it may not require burning, cutting, or welding, and may require relatively less machinery and manual labor as compared to a welded wear plate, for example. Further, replacement of the corner segment 102 with the protrusions 134 may incur less downtime, as compared to replacement of a welded wear plate or replacement of the work implement. As a result, the replaceable corner segment 102 with protrusions 134 of the present disclosure reduces the time, cost, machinery, and/or manual labor needed to replace a GET and/or components thereof.
The geometric shapes, geometric relationships, and dimensions of the surfaces, edges, and through holes of the corner segment 102, and of the portions and edges of the protrusions 134, as described above, are examples, and other geometric shapes, geometric relationships, and dimensions may be used. The materials that form the corner segment 102 and the protrusions 134 described above are examples, and other materials may be used.
The wear zones described herein, and their relationships to the surfaces of the corner segment 102, are examples, and other wear zones or relationships of wear zones to surfaces may be used. For example, the front surface wear zone 154 may be only on an outer third of the width W118 of the lip portion front surface 118, i.e., the third of the width W118 closest to the lip portion outer side surface 122. Similarly, the angled lip wear zone 160 may only be on an outer third of the width W138 of the angled lip 138, i.e., the third of the width W138 that is closest to the lip portion outer side surface 122. Further, the ridged portion wear zone 162 may only be on an outer third of the width W144 of the ridged portion 144, i.e., the third of the width W144 that is closest to the lip portion outer side surface 122.
In addition, the arrangements and patterns of the protrusions 134 on each wear zone are examples, and other arrangements or patterns may be used. For example, the radii of curvature of the arcs along which the protrusions 134 are arranged may differ from the values noted above. In addition, the relationships between the radii of curvature may differ from the relationships described above. Moreover, the offset distance between the center C and the center D, and the offset distance between the center E and the center F may differ from the distances noted above. Alternatively, the center C and the center D may be concentric, and the center E and the center F may be concentric. And, for example, with reference to
Further, the corner segment 102 with the protrusions 134 provided in one or more wear zones may be used on a work implement of any type, size, or configuration. That is, the shapes, geometric relationships, and dimensions of the corner segment, the particular locations and sizes of the wear zones, and the arrangement of the inserts in the wear zones may be subject to change based on the type, the size, or the configuration of the work implement.
It will be apparent to those skilled in the art that various modifications and variations can be made to the disclosed corner segment without departing from the scope of the disclosure. Other embodiments of the corner segment will be apparent to those skilled in the art from consideration of the specification and the accompanying figures. It is intended that the specification, and, in particular, the examples provided herein be considered as exemplary only, with a true scope of the disclosure being indicated by the following claims and their equivalents.