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Title:
A WEAR MEMBER FOR A WORK TOOL
Document Type and Number:
WIPO Patent Application WO/2019/108313
Kind Code:
A1
Abstract:
A wear member (120) for attachment with a work tool (100) includes a body portion (126) configured to be coupled to the work tool. The body portion (126) includes a first outer surface(130), a second outer surface (132) positioned opposite the first outer surface, a coupling surface (138) configured to engage the work tool, and a wear surface (134) disposed along a front edge of the body portion. The wear member further includes a lifting passage (200) extending through the body portion from the first outer surface to the second outer surface and is positioned between the wear surface and the coupling surface.

Inventors:
BJERKE NATHAN (US)
Application Number:
PCT/US2018/055792
Publication Date:
June 06, 2019
Filing Date:
October 15, 2018
Export Citation:
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Assignee:
CATERPILLAR INC (US)
International Classes:
E02F9/28; E02F3/80
Foreign References:
US20050172524A12005-08-11
US20170009431A12017-01-12
US20140230293A12014-08-21
US20150107075A12015-04-23
US20150013134A12015-01-15
Attorney, Agent or Firm:
FISHER, Bart A. et al. (US)
Download PDF:
Claims:
Claims

1. A wear member (120) for attachment to a work tool (100), the wear member comprising:

a body portion (126) configured to be coupled to the work tool, the body portion including a first outer surface (130), a second outer surface (132) positioned opposite the first outer surface, a coupling surface (138) configured to engage the work tool and a wear surface (134) disposed along a front edge of the body portion; and

a lifting passage (200) extending through the body portion from the first outer surface to the second outer surface and positioned between the wear surface and the coupling surface.

2. The wear member of claim 1, wherein the lifting passage is configured to allow a lifting tool (500) to extend through the body portion and facilitate lifting of the wear member.

3. The wear member of claim 1 , wherein the lifting passage (200) is positioned adjacent the wear surface (134).

4. The wear member of claim 1, wherein the lifting passage (200) includes a first wall (202) and a second wall (204) spaced apart and parallel to the first wall, wherein the first wall and the second wall are connected to each other by a first curved wall (206) and a second curved wall (208).

5. The wear member of claim 1, wherein the lifting passage defines a first beveled edge (212) with the first outer surface and a second beveled edge (214) with the second outer surface.

6. The w¾ar member of claim 4, wherein the lifting passage (200) is arcuate in cross-section with the first wall having a first radius of curvature (Rl) and the second wall having a second radius of curvature (R2), the first radius of curvature and the second radius of curvature extend in a direction from the wear surface (134).

7. The wear member of claim 1 , wherein the body portion (126) defines an opening (184) to receive a connector (186) to couple the wear member (120) to the work tool (100).

8. The wear member of claim 1, wherein the body portion (126) includes a base portion (144), a first leg portion (146) extending longitudinally from the base portion, and a second leg portion (148) disposed substantially parallel and spaced apart from the first leg portion to define a cavity (180) therebetween for receiving the work tool.

9. The wear member of claim 8, wherein a length (LI) of the first leg portion (146) is greater than a length (L2) of the second leg portion (148).

10. The wear member of claim 1 , wherein the wear member (120) is a side protection member.

Description:
Description

A WEAR MEMBER FOR A WORK TOOL

Technical Field

The present disclosure relates generally to a wear member for a work tool of a machine and, more particularly, to the wear member having a lifting passage that facilitates a lifting of the wear member for assembly or dis assembly with the work tool.

Background

Work machines such as excavators, and the like, include work tools to perform work at a work site. The work tool generally includes various wear members mounted to edges of the work tool to protect the work tool from wear. For example, teeth, shrouds, and side protection bars are coupled to the edges of a bucket of the excavator. The wear members are generally provided with lifting hooks to facilitate lifting of the wear members during assembly or dis-assembly of the wear members. Generally, the lifting hook is a protrusion extending from an outer surface of a body of the wear member to facilitate an attachment of a lifting strap. However, the lifting hooks are susceptible to wear due to placement in a material flow path, and are often sheared off the wear member before the end of service life.

US Published Application number 2015/0013134A1 discloses a lifting connector that is removably coupled with a wear part for an earth moving machine. The lifting connector is inserted into a hole formed into the wear part for coupling with the wear part wiien a lifting of the wear part is needed.

Summary of the. Disclosure

In one aspect of the present disclosure, a wear member for attachment with a work tool is disclosed. The wear member includes a body portion configured to be coupled to the work tool. The body portion includes a first outer surface, a second outer surface positioned opposite the first outer surface, a coupling surface configured to engage the work tool, and a wear surface disposed along a front edge of the body portion. The wear member further includes a lifting passage extending through the body portion from the first outer surface to the second outer surface and is positioned between the wear surface and the coupling surface.

In another aspect of the present disclosure, a work tool assembly is disclosed. A work tool assembly includes a work tool and a wear member including a body portion and a lifting passage. The wear member is coupled to the work tool. The body portion includes a first outer surface, a second outer surface positioned opposite the first outer surface, a coupling surface engaged with the work tool, and a wear surface disposed along a front edge of the body portion. The lifting passage extends through the body portion from the first outer surface to the second outer surface and is positioned between the wear surface and the coupling surface.

Brief Description of the Drawings

FIG. 1 is a perspective view of a work tool assembly having a work tool and one or more wear members coupled with the work tool, in accordance with an embodiment of the present disclosure;

FIG. 2 is a perspective view of the wear member of the work tool assembly, in accordance with an embodiment of the present disclosure;

FIG. 3 is a sectional perspective view' of the wear member of the work tool assembly, in accordance with an embodiment of the present disclosure;

FIG. 4 is a sectional side view of the wear member of the work tool assembly, in accordance with an embodiment of the present disclosure; and

FIG. 5 is sectional side view' of the wear member coupled with a lifting tool, in accordance with an embodiment of the present disclosure.

Detailed Description

FIG. 1 show's an exemplary work tool assembly 100 in the form of a bucket assembly for an underground mining machine. The work tool assembly 100 may be coupled to a linkage assembly of a machine, and manipulated to perform various operations at a worksite. Examples of the machine may include, but not limited to, an excavator, a track type tractor, a wheel loader, or any other such earthmoving machine, a construction machine, a mining machine, an agricultural machine, etc.

The work tool assembly 100 includes a work tool 102 that performs various type of work such as digging, loading, grading, etc., at the worksite. Examples of the work tool 102may include a bucket 106 (as shown in FIG. 1), a scraper blade, a snow plow, a ripper, or any other such work tool adapted to be coupled with any of the earthmoving machine, construction machine, agricultural machine, mining machine, etc., for performing work. As illustrated, the work tool 102 may include a pair of side members, lor example a first side member 108 and a second side member 110, disposed spaced apart from each other and positioned substantially parallel to each other. The work tool 102 may also include a concave shaped member 112 disposed between the first side member 108 and the second member 110. The concave shaped member 1 12, the first side member 108, and the second side member 110 together define a chamber! 14 to receive and store material.

The work tool assembly 100 further includes one or more wear members 120 coupled to the work tool 102 to protect the work tool 102 from wear and erosion. In some implementations, the wear member 120 may also facilitate digging and removal of earth along with protection against wear and erosion. In an exemplary embodiment, the w r ear member 120 may be a side protection member 122 configured to be coupled to the side members 108, 110 of the work tool 102 to protect the side members 108, 110 from wear and erosion. Although the wear member 120 is contemplated and described hereinafter as side protection member 122, it may be appreciated that the wear member 120 may be any other component such as, but not limited to, an adapter, a shroud, a tooth, or any other such member configured to be attached to the work tool 102.

Referring to FIGS. 2-5, the wear member 120 includes a body portion 126 having a first outer surface 130, a second outer surface 132, a wear surface 134 extending along a front edge 136 of the body portion 126, and a coupling surface 138 configured to abut the work tool 102 and facilitate an engagement of the wear member 120 with the work tool 102. The body portion 126may further includes a base portion 144, a first leg portion 146 extending longitudinally from the base portion 144, and a second leg portion 148 extending longitudinally from the base portion 144 and disposed space apart and substantially parallel to the first leg portion 146.

The base portion 144 includes a first longitudinal end 152, a second longitudinal end 154, a first surface 158 extending between the first longitudinal end 152 and the second longitudinal end 154, a second surface 160 extending between the first longitudinal end 152 and the second longitudinal end 154 and disposed opposite to the first surface 158, and a back surface 162 disposed at the second longitudinal end 154. The first surface 158 and the second surface 160 converge towards each other in a longitudinal direction away from the second longitudinal end 154 and towards the first longitudinal end 152. Therefore, in an embodiment, the base portion 144 may include a substantially delta shaped structure (as shown in FIGS. 4 and 5), and the back surface 162 disposed at the second longitudinal end 154 forms a base of the delta shaped structure. The first longitudinal end 152 of the base portion 144 defines the front edge 136 of the body portion 126, and also defines the wear surface 134 of the wear member 120. The base portion 144 further includes a first lateral end 166 and a second lateral end 168. The front edge 136 and the wear surface 134 extend between the first lateral end 166 and the second lateral end 168 in a lateral direction of the wear member 120. Also, in certain embodiments, an extension of the base portion 144 between the first lateral end 166 and the second lateral end 168 may be larger than an extension of base portion 144 between the first longitudinal end 152 and the second longitudinal end 154. Further, in an assembly of the wear member 120 with the work tool 102, the base portion 144 extends outwardly from an edge of the work tool 102. As illustrated, the base portion 144 extends outwardly from an edge defined by one of the pah of side members, for example the first side member 108, of the work tool 102.

The first leg portion 146 and the second leg portion 148, each extend from the back surface 162 of the base portion 144, and protrude away from the hack surface 162 in the longitudinal direction. In an embodiment, a length‘LI’ (shown in FIG 4) of the first leg portion 146 is greater than a length ‘L2’ (showm in FIG. 4) of the second leg portion 148. In certain implementations, the first leg portion 146 is configured to abut an outer surface 116 (showm in FIG. 1) of the work tool 102, while the second leg portion 148 is configured to abut an inner surface 118 of the work tool 102

Referring to FIGS. 3 and 4, the first leg portion 146 includes an outer surface 170 and an inner surface 172 disposed opposite to the outer surface 170 and extending substantially parallel to the outer surface 170. In an assembly of the wear member 120 with the work tool 102, the outer surface 170 of the first leg portion 146 may be disposed outside the chamber 114 and exposed to an ambient, while the inner surface 172 of the first leg portion 146 may abut the outer surface 116 of the work tool 102. Similar to the first leg portion 146, the second leg portion 148 may include an outer surface 176 and an inner surface 178 disposed opposite to the outer surface 176 and extending substantially parallel to the outer surface 176 In an assembly of the wear member 120 with the work tool 102, the outer surface 176 of the second leg portion 148 may be disposed inside the chamber 1 14 and exposed to the ambient, while the inner surface 178 of the second leg portion 148 may abut the inner surface 118 of the work tool 102. Therefore, the second leg portion 148 may be disposed inside the chamber 114 of the work tool 102 such as the bucket 106.

As the first leg portion 146 and the second leg portion 148 are disposed spaced apart from each other, a cavity 180 is defined between the first leg portion 146 and the second leg portion 148. The cavity 180 is configured to receive a portion of the work tool 102, for example, a portion of the first side member 108 of the work tool 102 to facilitate a coupling of the wear member 120 to the work tool 102. In an assembly of the work tool 102 and the wear member 120, an edge of first side member 108 may abut the back surface 162 of the base portion 144 i.e., the coupling surface 138 of the body portion 126.

The body portion 126 may further define an opening 184 to receive a connector 186 (shown in FIG. 1) to attach the wear member 120 with the work tool 102. The connector 186 is configured to hold the wear member 120 with the work tool 102. The connector 186 may include fasteners, adapters, or any other locking mechanism known in the art. In an embodiment, the opening 184 is defined by the first leg portion 146, and extends from the outer surface 170 of the first leg portion 146 to the inner surface 172 of the first leg portion 146.

Further, as illustrated, the outer surface 170 of the first leg portion 146 and the first surface 158 of the base portion 144 together form the first outer surface 130 of the body portion 126, while the outer surface 176 of the second leg portion 148 and the second surface 160 of the base portion 144 together constitute the second outer surface 132 of the body portion 126. Also, the inner surface 172 of the first leg portion 146, the inner surface 178 of the second leg portion 148, and the back surface 162 of the base portion 144 together define the coupling surface 138 of the body portion 126. Therefore, in an assembly of the wear member 120 with the work tool 102, the coupling surface 138 abuts or engages with the work tool 102, and therefore facilitate an engagement of the wear member 120 with the work tool 102.

Referring to FIGS. 1 -4, the wear member 120 further includes a lifting passage 200 that is configured to allow a lifting tool 300 (shown in FIG. 5) to extend through the body portion 126 and facilitates lifting of the wear member 120. Referring to FIGS. 3 and 4, the lifting passage 200 extends from the first outer surface 130 to the second outer surface 132, and is disposed between the wear surface 134 and the coupling surface 138. In an embodiment, the lifting passage 200 is positioned adjacent the wear surface 134. As shown, in certain embodiments, the lifting passage 200 may be formed within the base portion 144. In such a case, the lifting passage 200 may extend from the first surface 158 to the second surface 160 through a thickness of the base portion 144. The lifting passage 200 may be a curved passage having an arcuate cross-section, and having a first wall 202 extending from the first surface 158 i.e., the first outer surface 130 to the second surface 160 i.e., the second outer surface 132. The first wall

202 may be an arcuate wall having a first radius of curvature TIG (shown in FIG. 4) extending in a direction of the wear surfaeel34. Therefore, the first wall 202 includes a concave shape having a concavity that is directed towards the wear surface 134 or the first longitudinal end 152 of the base portion 144 i.e., the front edge 136.

The lifting passage 200 may further include a second wall 204 disposed spaced apart and substantially parallel to the first wall 202. The first wall 202 is disposed proximate to the back surface 162 i.e., the coupling surface 138 relative to the second wall 204. Similar to the first wall 202, the second wall 204 may extend from the first surface 158 i.e., the first outer surface 130 to the second surface 160 i.e., the second outer surface 132. The second wall 204 may ¬ be disposed relatively proximate to the front edge 136 or the wear surface 134 as compared to a distance of the first wall 202 relative to the front edgel36 or the w r ear surface 134 in the longitudinal direction of the wear member 120. The second wall 204 may be an arcuate wall having a second radius of curvature‘R2 extending in the direction of the wear surface 134. Therefore, the second wall 204 may include a concave shape having a concavity that is directed towards the wear surface 134 or the first longitudinal end 152 of the base portion 144 i.e., the front edge 136. Although the first wall 202 and the second wall 204 are contemplated as curved walls, it may be appreciated that the first wall 202 and the second wall 204 may be flat walls.

The lifting passage 200 may further include a first curved wall 206 (shown in FIG. 3) and a second curved wall 208 (shown in FIG. 2) spaced apart from the first curved wall 206 and extending substantially parallel to the first curved wall 206. The first curved wall 206 and the second curved wall 208, each may extend from the first surface 158 i.e., the first outer surface 130 to the second surface 160 i.e., the second outer surface 132, and may connect the first wall 202 to the second wall 204. Therefore, the first wall 202 and the second w r ali 204 are connected to each other by the first curved wall 206 and the second curved wall 208. The lifting passage 200 may further define a pair of beveled edges, for example a first beveled edge 212 (shown in FIGS. 2 and 4) defined with the first outer surface 130 of the body portion 126 i.e., with the first surface 158 of the base portion 144, and a second beveled edge 214 defined with the second outer surface 132 of the body portion 126 i.e., with the second surface 160 of the base portion 144. As shown, the first beveled edge 212 may be disposed at an interface of each of the first wall 202, the second wall 204, the first curved g wall 206, the second curved wall 208 with the first outer surface 130. Similarly, the second beveled edge 214 may be disposed at an interface of each of the first wall 202, the second wall 204, the first curved wall 206, the second curved wall 208 with the second outer surface 132. In an embodiment, both the first beveled edge 212 and the second beveled edge 214 have a same radius of curvature. 0 Industrial Applicability

During operation of the machine at the worksite, the work tool assemblylOO of the machine is manipulated to perform a work such as a digging of soil, a lifting of soil, etc. For performing the w r ork, the w r ork tool assembly 100 may encounter debris and may be subject to various forces of operation,5 which may result in wear and erosion of the work tool assembly 100. Generally, one or more of the wear members 120 are attached to the work tool 102 for protecting the work tool 102 from wear, and thereby prolonging a useful life of the work tool 102. However, as the wear member 120 encounters the debris and forces, the wear memberl20 gets damaged, and may need to be replaced to0 ensure smooth operation of the work tool assembly 100, and to ensure protection of the work tool 102 from wear and erosion. To facilitate removal of the wear member 120, the lifting tool 300 such as a lifting strap 302 may be utilized. To facilitate a disengagement and a lifting of the wear member 120, one end of the lifting strap 302 is connected to a hook of a crane, while other end of the lifting5 strap 302 is inserted through the lifting passage 200, and connected to the hook.

In this manner, the wear member 120 is coupled with the hook of the crane. Thereafter, the wear member 120 is disengaged from the work tool 102 by removing or disengaging the connector 186. Subsequently, the wear member 120 is transported to another location by operating the crane. Similarly, for coupling0 a new wear member, such as wear member 120, with the work tool 102, the lifting strap 302 is inserted through the lifting passage 200, and thereby coupled and lifted with the crane. The new wear member 120 is positioned at an appropriate position on the work tool 102, such as on the first side member 108, and engaged with the work tool 102 by inserting a portion of the work tool 102, for example a portion of the first side member 108 into the cavity 180 of the body portion 126. Thereafter, the new wear member 120 may be coupled with the work tool 102 by the connector 186. In this manner, the lifting passage 200 facilitates a lifting and transportation of the new wear member 120. Further, as the lifting passage 200 is formed within the body portion 126, and does not extend outwardly as a protrusion, the lifting passage 200 may facilitate a lifting of the wear member 120 throughout a useful life of the wear member 120. Further, the beveled edges 212, 214 of the lifting passage 200 also prevents cutting of the lifting tool 300 such as the lifting strap 302 by otherwise sharp edges of a lifting passage.