AU605268B2 - Positive keeper means for pins of earthworking tips - Google Patents

Description

2 1 V'A 1MOtAmC'e4W* 0 IiH C. L f -v 09L4J k9 I n -t 10 l i Arwic4ii .it :i RLTEL UAL PROPERTY ORGANIZATION ternational Bureau "m 0 J^ q^^t 3 6 4- bT INTERNATIONAL APPLICATION PUBLISHED UNDER THE PATENT COOPERATION TREATY (PCT) e: (51) International Patent Classification 4 (11) International Publication Number: WO 88/ 05483 E02F 9/28, 3/40 Al (43) International Publication Date: 28 July 1988 (28.07.88) (21) International Application Number: PCT/US87/03157 (74) Agents: BURROWS, W. et al.; Caterpillar Inc., 100 Northeast Adams Street, Peoria, IL 61629-6490 (US).

(22) International Filing Date: 30 November 1987 (30.11.87) (81) Designated States: AU, DE (European patent), FR (Eu- (31) Priority Application Numbers: 004,515 ropean patent), GB (European patent), JP, SE (Euro- 004,516 pean patent).

(32) Priority Dates: 20 January 1987 (20.01.87) January 1987 (20.01.87) Published With international search report (33) Priority Country: US With amended claims.

Date of publication of the amended claims: (71) Applicant: CATERPILLAR INC. [US/US]; 100 Nor- 7 September 1988 (07.09.88) theast Adams Street, Peoria, IL 61629-6490 (US).

(72) Inventors: DIEKEVERS, Mark, Steven 205 McKinney Parkway, Washington, IL 61571 FIDLER, Jerry, Dale 117 Melody Lane, East Peoria, IL 61611 This document contains the JENSEN, Brian, D. 402 S. French Drive, Dun- amIldmeits made under lap, IL 61525 (US. etion 49 and is correct for printing.

(54) Title: POSITIVE KEEPER MEANS FOR PINS OF EARTHWORKING TIPS 4 6 (57) Abstract Pin retainer assembly having a keeper means for retaining earth- 3G working tips on adapters. Positive retention of earthworking tips on their adapters by their retaining pins during its work cycle is extremely important from an operational as well as a cost standpoint. The loss of the tips materially affect productions in addition to the time consuming expense of replacement of repair of the components. Not only must the tips be adequately retained, they must be capable of quick removal for replacement purposes. Keeper means (44) for the pin (17) is captured in 4 a recess (28) between a nose (16) of the adapter (12) and a sidewall (36) of the tips (14) and includes a washer (46) slidably disposed on the pin (17) and a resilient retaining ring (68, 78) having a predetermined radial 41 47-J (822 thickness disposed in locking engagement in a groove (21) on the pin (17) and a groove (50) of the washer One of the grooves (21, 50) in the pin (17) and the washer has a depth equal to or greater than the predetermined radial thickness of the retaining ring (68, 78) and the other one of the grooves (21, 50) has a depth sufficient to prevent cam- ming of the ring (68, 78) out of the groove (21, 50) and to provide substantially the maximum cross-section width of the ring (68, 78) in shear.

In order to disassemble the pin the ring (68, 78) must be sheared or ,8 the washer (46) fractured. 9 _7 AU-AI-13964/88 WORLD INTELLECTUAL, PROPERTY ORGANIZATION International Bureau

PCT

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INTERNATIONAL APPLICATION PUBLISHED UNDER THE PATENT COOPERATION TREATY (PCT) (51) International Patent Classification 4 (11) International Publication Number: WO 88/ 05483 E02F 9/28, 3/40 Al (43) International Publication Date: 28 July 1988 (28.07.88) (21) International Application Number: PCT/US87/03157 (74) Agents: BURROWS, W. et al.; Caterpillar Inc., 100 Northeast Adams Street, Peoria, IL 61629-6490 (US).

(22) International Filing Date: 30 November 1987 (30.11.87) (81) Designated States: AU, DE (European patent), FR (Eu- (31) Priority Application Numbers: 004,515 ropean patent), GB (European patent), JP, SE (Euro- 004,516 pean patent).

(32) Priority Dates: 20 January 1987 (20.01,87) January 1987 (20.01.87) Published With international search report.

(33) Priority Country: US Before the expiration of the time limit for amending the claims and to be republished in the event of the receipt of amendments.

(71) Applicant: CATERPILLAR INC. [US/US]; 100 Northeast Adams Street, Peoria, IL 61629-6490 (US).

(72) Inventors: DIEKEVERS, Mark, Steven 205 McKinney Parkway, Washington, IL 61571 FIDLER, Jerry, Dale 117 Melody Lane, East Peoria, IL 61611 A. J. 5 SPE 198 JENSEN, Brian, D. 402 S. French Drive, Dun- 1 P 1 lap, IL 61525 (US).

AU

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T5 UAP AUG 1988 PATENT OFFI(CE (54) Title: POSITIVE KEEPER MEANS FOR PINS OF EARTHWORKING TIPS (57) Abstract Pin retainer assembly having a keeper means for retaining earthworking tips on adapters. Positive retention of earthworking tips on their adapters by their retaining pins during its work cycle is extremely important from an operational as well as a cost standpoint. The loss of the tips materially affect productions in addition to the time consuming expense of replacement of repair of the components. Not only must the tips be adequately retained, they must be capable of quick removal for replacement purposes. Keeper means (44) for the pin (17) is captured in a recess (28) between a nose (16) of the adapter (12) and a sidewall (36) of the tips (14) and includes a washer (46) slidably disposed on the pin (17) and a resilient retaining ring (68, 78) having a predetermined radial thickness disposed in locking engagement in a groove (21) on the pin (17) and a groove (50) of the washer One of the grooves (21, 50) in the pin (17) and the washer has a depth equal to or greater than the predetermined radial thickness of the retaining ring (68, 78) and the other one of the grooves (21, 50) has a depth sufficient to prevent camming of the ring (68, 78) out of the groove (21, 50) and to provide substantially the maximum cross-section width of the ring (68, 78) in shear.

In order to disassemble the pin the ring (68, 78) must be sheared or the washer (46) fractured.

-1- Description Positive Keeper Means For Pins of Earthworkinq Tips Technical Field This invention relates generally to a pin retainer assembly for securing an earthworking tip to an adapter on an earthworking device and more particularly to a keeper means for positively securing the pin in the apertures in the tip and the bore in the nose of the adapter.

Backcround Art Replaceable earthworking tips or teeth commonly si.ied on rippers, loader buckets and trenchers must be positively secured in place on their support adapters and yet be capable of quick removal for replacement purposes. In addition to the monetary value of the tip that is lost, the loss of the tip will subject the adapter to damage requiring time consuming expensive repairs and/or replacement.

Loss of the tip, when used in conjunction with rock crushing equipment, causes severe damage to the equipment should it become digested or jammed therein.

Prior art retaining pins for securing an earthworking tip on its adapter have not been totally successful especially when used in combination with impact rippers. In such application, the retaining pins are subjected to extreme vibration resulting in breakage of the pins or the retaining mechanism becoming loose causing loss of the pin and the tip.

British patent specification 1,518,824 teaches a pin retainer mechanism that has a torsion spring retainer substantially encapsulated by an LIA elastomeric material. The torsion spring and elastomer assembly is disposed in a recess of an (RDelsomrc aera.Th orin pin n T E 06 1~B ;I -1/1adapter nose and a pin is slideably disposed through a transverse bore of the adapter nose and axially aligned holes of a tip. The pin is forced through the torsion spring and held in place by the force from the torsion spring. In one embodiment of the mechanism, the pin has a groove and when assembled, the torsion spring is located in the groove.

Typically, retaining devices have been employed which relies on friction between mating surfaces for retention. U.S. Patent 3,624,827 issued 6UeB~ad'-T f w6 88/05483 PCT/US87/03157 -2to Richard K. Liess et al on November 30, 1971 discloses a retaining pin having a friction ring disposed in a deep, wide, central groove of the pin.

The pin is retained in a bore defined by the adapter nose solely by friction between the ring and the bore.

Although this type of pin has been successful in normal ripper and bucket tip retaining applications, the central groove materially reduces the strength of the pin and subjects it to early failure in extremely severe applications. In addition, the pin can vibrate out of the bore since it is not positively retained.

U.S. Patent 3,959,901 issued to Gene R.

Klett on June i, 1976 discloses another friction type retaining device in which the pin is retained solely by frictional engagement of the retaining pin with a lock ring. As before, vibration allows the pin to work its way loose resulting in loss of the pin and the separation of the tip from the adapter.

U.S. Patent No. 3,952,433 issued to Lloyd K. Heinold, et al on April 27, 1976 and U.S.

Patent No. 3,990,162 issued to Lloyd K. Heinold, et al on November 9, 1976 disclose spring clips that straddle diametrially opposite sides of the retaining pin in expanded friction engagement. The clips are substantially encapsulated by an elastomeric material which aids in maintaining the spring clips in frictional engagement with the pins. Undesirably, the spring clips only partially engage the pins and the pins are easily removed by the spreading of the spring clips.

Accordingly, an improved earthworking device is provided so constructed that the earthworking tip is retained on the nose of the adapter by a pin that is positively retained in aligned apertures in the earthworking tip and the bore of the adapter.

88/05483 PCT/US87/03157 -3- Preferably, the retaining pin is positively secured by a keeper means that is simple and economical in construction while maintaining the pin against outward axial movement during operation of the earthworking device.

The present invention is directed to overcoming one or more of the problems as set forth above.

Disclosure of the Invention In one aspect of the present invention, a pin retainer assembly is provided. The pin retainer assembly includes a pin having an outer peripheral surface with an annular groove defined in the outer peripheral surface thereof, a washer slideably disposed on the pin and having an annular groove defined in an inner peripheral surface, and a resilent retaining ring which when assembled is disposed in locking engagement within the groove on the pin and the groove in the washer. The retaining ring has a cross section with a predetermined radial thickness and one of the grooves in the pin and washer has a depth equal to or greater than the predetermined radial thickness of the retaining ring.

In another aspect of the present invention, an earthworking device includes an adapter having a nose defining a transverse bore and a earthworking tip telescopically mounted on the nose and having a pair of spaced apart side walls and a pair of axially aligned holes in the sidewalls. The bore in the nose

A

of the adapter and the holes in the sidewalls of the tip are substantially axially aligned. A recess is formed in the nose or the tip and is in axial alignment with the bore and the holes. A retaining pin having a groove disposed adjacent one end is slidably disposed in the aligned bore and the holes for retaining the tip on the adapter. A keeper means WO 88/05483 PCT/US87/03157 -4for securing the pin in the bore is located in the recess and captured between the adapter and a sidewall of the tip and includes a metallic washer having an inside surface defining a bore and a groove opening into the bore. A resilient retaining ring having a cross-section of a predetermined radial thickness is provided and is captured in one of the grooves in the pin and the washer and adapted to permit slidable insertion of the pin in the bores and the holes for locking engagement of the retaining ring with the other of the grooves. One of the grooves in the pin and the washer has a depth equal to or greater than the predetermined radial thickness of the retaining ring and the other of the grooves has a depth and configuration sufficient to prevent camming of the ring out of the groove. The retaining ring and washer being of a configuration sufficient to permit shearing of the retaining ring or fracture of the washer during disassembly.

Brief Description of the Drawings Fig. 1 is an exploded isometric view of an earthworking device comprising an earthworking tip retained on the nose of an adapter by a retaining pin and a keeper means of the present invention; Fig. 2 is an enlarged cross-sectional view of an assembled earthworking device; Fig. 3 is an enlarged partial sectional view taken in the direction of arrows III-III in Fig. 2; Fig. 4 is an enlarged cross-sectional view of the resilient retaining ring located in the groove of the pin and the groove of the washer; Fig. 5 is an enlarged cross-sectional view of an alternate embodiment of the resilient retaining ring; and I I F1T1I WO 88/05483 PCT/US87/03157 Fig. 6 is an enlarged cross-sectional view of an alternate embodiment of the subject invention.

Best Mode for Carrying Out the Invention Referring to Figs. 1, 2, 3, and 4 an earthworking device 10 comprising a support member or adapter 12 having a tip 14 detachably mounted by a pin retainer assembly 15 on a forward end or nose 16 thereof. The pin retainer assembly 15 includes a cylindrical pin 17 which has an outer peripheral surface 20 and an annular groove 21 defined therein.

A pair of beveled surfaces 18 and 19 are provided at the intersection of the outer peripheral surface with the ends of the pin 17. The nose 16, preferably of wedge shape, defines a transverse bore 22 and a pair of forwardly converging lateral sidewalls 24 and 26. It is noted that in some adapters 12, the sidewalls 24 and 26 may not be forwardly converging but be substantially parallel. A recess 28 having an end wall 29 is formed in the lateral sidewall 24 of the nose 16 and in concentric relationship with the bore 22.

A wedge-shaped socket 30 is formed in the tip 14 to accommodate the like-shaped nose 16 of the adapter 12. The nose preferably terminates at its apex defined by a surface 32 adapted to at least partially abut a surface 34 formed at the apex of recess 30 in the tip 14.

The tip 3.4 has a pair of forwardly converging spaced sidewalls 36 and 38 and a pair of laterally aligned holes 39 and 40 defined by peripheral surfaces 41 and 42. The sidewalls 36 and 38 are normally designed to conform generally to the sidewalls 24 and 26 of the nose 16. The holes 39 and 40 straddle bore 22 in the nose 16 and are in I i Ii I i i WO 88/05483 PCT/US87/03157 -6substantially axially alignment therewith.

As best shown in Figs. 2 and 3, the pin retainer assembly 15 also includes a keeper means 44 mounted in the recess 28 formed in the lateral wall 24 of the nose 16 for securing the pin 17 in the bore 22 of nose 16. It is recognized that the recess 28 could equally be formed in lateral sidewall 26 of the nose 16 or in either of the sidewalls 36 or 38 of the tip without departing from the subject invention.

The keeper means 44 includes a washer 46 having an inside surface 47 defining a bore 48 with a radial annular groove 50 defined in the washer and opening into the bore. The washer 46 is preferably made of metallic material or any other suitable material. The washer 46 further has a flat inner side surface 52 adjacent the end wall 29 of the counterbore 28 and a frusto-conical outer side surface 54 adjacent the sidewall 36 of the tip 14. It should be recognized that a similar outer frusto-conical surface could be on the opposite side of the washer 46 without departing from the essence of th.. subject invention.

As best shown in Fig. 4, the groove 50 of the washer 46 has a pair of generally parallel sidewalls 56 and 58 and a bottom surface 60 spaced from the bore 48 defining a predetermined depth A for the groove.

The groove 21 in the pin 17 has a pair of generally parallel sidewalls 62 and 64 and a bottom surface 66 spaced from the outer peripheral surface of the pin 17 defining a predetermined depth B for the groove.

The keeper means 44 also includes a metallic split resilient retaining ring 68. The retaining ring 68 has a cross-section that is generally rectangular with a pair of generally parallel sidewalls 70 and 72 defining a predetermined width C and a pair of W;3o 88/05483 PCT/US87/03157 -7generally parallel inner and outer surfaces 74 and 76 defining a predetermined radial thickness D. The ring 68 is slidably captured in the groove 50 of the washer 46. The ring 68 may be composed of a conventional spring steel or like material which exhibits the desired resiliency, hardness and spring back capabilities required for pin retention purposes.

The pin 17 in the assembled position is slidably disposed within the bore 22 of the nose 16, the bore 48 of the washer 46 and extends substantially through the holes 39 and 40 of the sidewalls 36 and 38 of the tip 14. The ring 68 is disposed in locking engagement with the groove 21 of the pin 17 and the groove 50 in the washer 46.

Preferably, the depth A of groove 50 in the washer 46 has depth A is equal to or greater than the predetermined radial thickness D of the ring 68. The predetermined depth B of the groove 21 in the pin 17 is generally equal to one-half of the predetermined radial thickness D of the ring 68.

Referring now to Fig. 5, an alternate embodiment of the present invention is illustrated and includes a split resilient retaining ring 78 having a cross-section that is generally circular with a predetermined radial thickness E.

The ring 78 is slidably captured in the groove 50 of the washer 46. A bottom surface 80 of the groove 50, spaced from the bore 48, has a profile generally corresponding to the ciruclar cross-section of the ring 78 and defines a depth F for the groove.

The groove 21 in the pin 17 has a root profile 82 generally corresponding to the circular cross-section of the ring 78 and defines a predetermined depth G for the groove.

I WOt 88/05483 PCT/US87/03157 -8- The ring 78 is disposed in locking engagement with the groove 21 of the pin 17 and the groove 50 in the washer 46.

It is recognized that the bottom surface of groove 50 and the profile 82 of groove 21 in pin 17 need not correspond exactly to the circular cross-section of the ring 78 and may in fact be like that shown in Fig. 4.

Preferably, the depth F of groove 50 in the washer 46 is equal to or greater than the predetermined radial thickness E of ring 78 and the predetermined depth G of the groove 21 in the pin 17 is generally equal to one-half of the predetermined radial thickness E of the ring 78.

Referring now to Fig. 6, another alternate embodiment of the present invention is illustrated.

The groove 21 in the pin 17 has a depth H preferably equal to or greater than the predetermined radial thickness D of the ring 68. The ring 68 is slidably captured in the groove 21 of the pin 17. The radial annular groove 50 in washer 46 preferably has a depth J generally equal to one-half of the radial thickness of the ring 68. A pair of beveled surfaces 84 and E6 are provided at the intersection of the bore 48 and the side surfaces 52 and 54 of the washer 46. The beveled surfaces 84 and 86 are dimensioned to provide a camming function to compress ring 68 into groove 21 during assembly.

It is recognized that the split resilient ring 78 having a cross-section that is generally circular could be slidably captured in the groove 21.

Industrial Applicability The earthworking device 10 of the present invention is particularly adaptable for positive retention of earthworking tips or teeth detachably SWO 88/05483 PCT/US87/03157 -9mounted on support adapters and may be equally useful for the retention of tips used on trenchers or on the cutting edge of a loader bucket. Because the tips and the pins are subjected to extreme bending, twisting and vibration it is extremely difficult to providing positive pin retention while still allowing periodic replacement.

In operation, referring to Fig. 1, 2, 3, and 4, the keeper means 44 is initially placed in recess 28 and the tip 14 is telescopically mounted on the nose 16 of the adapter 12. This captures keeper means 44 between the end wall 29 of the recess 28 and the sidewall 36 of the tip 24. The flat inner surface 52 of the washer 46 is positioned adjacent the end wall 29 of the recess with conical outer side surface 54 adjacent the sidewall 36 of the tip. Pin 17 is then driven manually, by a sledge hammer or the like, through the aligned holes 39 and 40 in the tip 14,' the bore 22 in the nose 16 of adapter 12 and the bore 48 in the washer 46 of the keeper means 44. Driving of the pin 17 through the bore 48 of the washer 46 expands the split resilient retaining ring 68 outward into the groove 50 of the washer an around the pin 17 until the groove 21 in the pin 17 radially aligns with the groove 50. At this point, the retaining ring 68 "springs inward" engaging the groove 21 of the pin.

This pos tively locks the pin 17 in place and retains the tip 14 on the adapter 12. Depending upon the direction the pin 17 is driven t-hrough the bore 48, one of the beveled surfaces 18 or 19 provides a camming function to expand te ring 68 outward into groove In the design of Fig. 1, 2, 3 and 4, the ring 68 has a cross-section that is generally rectangular with generally paralled sidewalls 70 and WO 88/05483 PCT/US87/03157 72 that engage the generally parallel sidewalls 56 and 58 of the groove 50 in the washer 46 and the generally parallel sidewalls 62 and 64 of the groove 21 in the pin 17. As shown in the figures, in the assembled position, approximately one-half of the predetermined thickness D of the ring 68 is located in the groove 21 of the pin 17 and approximately one-half is located in the groove 50 of the washer 56. It is recognized that the groove 21 in the pin 17 need only have a depth B sufficient to prevent camming of the ring 68 out of the groove 21. Desirably, any axial force on the end of the pin 17, during operation of the earthworking device 10, trying to dislodge the pin 17 from the bore 48 of the captured washer 46 is resisted by the ring 68 overlapping the grooves 21 and 50 with the maximum section thickness C of the ring 68 being in shear.

in order to disassembly the pin 17 from the bore 22 of the nose 16 for periodic replacement of the tip 14, a force must be applied on the end of the pin by a sledge hammer or the like sufficient to physically shear the ring 68 at the interface of the grooves 21 and 50 or alternately to cause fracture of the washer 46. It is recognized that the amount of force to shear the ring 46 or the fracture of the washer 46 can be changed or controlled by changing either the cross-section of the ring or washer that is in shear, the type of material and/or the heat treatment of the elements. In one working example, the force necessary to cause the retaining ring 68 to shear is in the range of 143 257 kN (32,200 57,700 lbs.). This being based on having a section thickness C in shear of approximately 3.0 mm (.118 inches).

When the pin 17 is driven towards the sidewall 36 of the tip 14, the frusto-conical outer side surface 54 of the washer 46 cooperates with the WO 88/05483 PCT/US87/03157 -11forwardly converging sidewall 36 in such a manner that contact of the surface 54 with wall 36 will be substantially towards the outer peripheral surface of the pin. Thus there is less tendency of the washer 46 to "cock" relative to the pin 17 and concentrate more of the force to shear ring 68 close to the interface of the groove 21 and 50. It is recognized that both side surfaces of the washer 46 could be frusto-conical whereupon the washer could not be installed backwards.

In a manner similar to the preceeding design, Fig. 5 discloses a split resilient retaining ring 78 having a generally circular cross-section with approximately one-half of the predetermined radial thickness E of the ring located in the groove 50 of he washer 46 and approximately one-half located in the groove 21 of the pin 17 to prevent camming of the ring 78 out of the grooves 21 and 50. Desirably, during operation, any axial force on the end of the pin 17 trying to dislodge the pin from the bore 48 of washer 46 is resisted by the ring 78 overlapping the grooves 21 and 50 places the maximum radial section thickness E of the ring in shear.

To disassemble pin 17 the ring 78 must be sheared or the washer 46 must be fractured.

In the alternate embodiment of Fig. 6, the ring 68 is slidably captured in the groove 21 of the pin 17. Preferably the depth H of the groove 21 is equal to or greater than the predetermined radial thickness D of the ring 68 and the depth J of the groove 50 in the washer 46 is equal to one-half the radial thickness D of the ring 68. In the assembled position, approximately one-half of the predetermined thickness D of the ring is located in the groove 21 of the pin 17 and approximately one-half is located in WO 88/05483 PCT/US87/03157 -12the groove 50 of the washer 46. As set forth above, it is recognized that the groove 50 in the washer 46 need only have a depth H sufficient to prevent camming of the ring 68 out of the groove When pin 17 is driven manually through bore 48 of the washer 46, the split resilient ring 68 is compressed into groove 21 until the groove 50 in the washer 46 radially aligns with the groove 21. At this point, the retaining ring 68 "springs back" engaging the groove 50 of the washer 46. Depending upon the direction, the pin 17 is driven through bore 48, one of the beveled surfaces 84 or 86 provides a camming function to compress the ring 68 into the groove 21.

From the foregoing, it will be apparent the subject invention provides a means for postively retaining the earthworking tip 14 on the adapter 12.

Other aspects, objects, and advantages can be obtained from a study of the drawings, the disclosure and the appended claims.

Claims (11)

1. A retaining pin (17) and a keeper means (44) adapted for use in an earthworking device (10) having a nose (16) and a tip (14) telescopically mounted on the nose the nose (16) has a transverse bore (22) and laterally converging sidewalls (24,26), and the tip (14) defines a mating socket (30) with laterally spaced apart converging sidewalls (36,38) defining a pair of aligned holes (39,40) therein axially aligned with the bore and a recess (28) defined in one of the nose (16) and the tip (14) in axial alignment with the bore (22) and the holes (39,40), the retaining pin (17) having an outer peripheral surface (20) with an annular groove (21) defined in the outer peripheral surface characterized in that, *•on .the keeper means (44) having a metallic washer (46) and a resilient retaining ring (68,78), the washer (46) has a frusto-conical side surface (54) and an inner •°peripheral surface (47) with an annular groove (50) defined in the peripheral surface s: one of the grooves (21,50) in the pin (17) and washer (46) has a depth equal to or greater than the predetermined radial thickness of the retaining ring (68,78), the keeper means (44) when assembled is disposed in the recess (28) and the pin (17) is *,*,disposed in the aligned bore (22) and holes (39,40) to retain the tip (14) on the nose the washer (46) begin slidably disposed on the pin and the ring (68,78) has a cross section with a predetermined radial thickness and is disposed in locking 0 0. engagement within the groove (21) on the pin (17) and the groove (50) in the washer the ring (68,78), in use, is operative in conjunction with the grooves (21,50) in the pin (17) and the washer (46) to prohibit disassembly of the pin (17) from the washer (46) without an external force being applied to the pin (17) sufficient to shear the ring (68,78) or to fracture the washer (46) with one of the sides (54,52) of the washer (46) being operative to cooperate with one of the lateral side walls (24,26,36,38) of the nose (16) and the tip (14) to effectively concentrate the external force close to the interface of the grooves (21,50).

2. The retaining pin (17) and the keeper means (44) of claim 1 wherein said cross-section of the retaining ring (68) is generally rectangular in cross-section.

3. The retaining pin (17) and the keeper means (44) of claim 1 wherein the other 4 i 14 one of the grooves (21,50) has a depth equal to one half of the predetermined radial thickness of the retaining ring (68,78).

4. The retaining pin (17) and the keeper means (44) of claim 3 wherein said retaining ring (68,78) has a circular cross section. The retaining pin (17) and the keeper means (44) of claim 1 wherein the depth of the groove (21) in the pin (17) is generally equal to one half of the predetermined radial thickness of the retaining ring (68,78) and the groove (50) in the washer (46) has a depth equal to or greater than the predetermined radial thickness of the retaining ring (68,78).

6. The retaining pin (17) and the keeper means (44) of claim 1 wherein the resilient retaining ring (68,78) is split and circular.

7. An earthworking device (10) including an adapter (12) having a nose (16) with forwardly converging lateral sidewalls (24,26) and defining a transverse bore an earthworking tip (14) telescopically mounted on the nose (16) of the adapter (12) and having a pair of spaced apart forwardly converging lateral sidewalls (36,38) and a pair of laterally aligned holes (39,40) defined in the sidewalls (36,38), the bore (22) and 6*6 the holes (39,40) being substantially axially aligned, a recess (28) formed in one of the nose (16) and the earthworking tip (14) and in substantial axial alignment with the bore (22) and the holes (39,40), a cylindrical pin (17) having a groove (21) and during *assembly being slideably disposed in the bore (22) and the holes (39,40) for retaining the tip (14) on the adapter characterized by, a keeper means (44) for securing the pin (17) in the bore (22) being located A in the recess (28) for abutting contact with the nose (16) and one of the sidewalls (24,26,36,38), the keeper means (44) including a metallic washer (46) and a split resilient retaining ring (68,78), the metallic washer (46) having a frusto-conical side surface (54) disposed adjacent one of the pair of spaced apart forwardly converging lateral sidewalls (36,38) of the earthworking tip (14) or one of the forwardly converging lateral sidewalls (24,26) of the nose (16) and an inside surface (47) defining a bore (48) and a groove (50) opening into the bore the bore (48) of the metallic washer (46) being axially alignable with the bore (22) in the nose the resilient retaining ring (68,78) having a cross-section of a predetermined radial thickness captured in one of the grooves (21,50) in the pin (17) and the washer (46) and adapted during assembly to permit slidable insertion of the pin (17) in the bore (22) and the holes (39,40) for locking engagement of the retaining ring (68,78) with the other of the grooves (21,50), one of the grooves (21,50) in the pin (17) and washer (46) has a depth equal to or greater than the predetermined radial thickness of the retaining ring (68,78), the depth and configuration of the grooves (21,50) being sufficient to prevent camming of the ring (68,78) out of the grooves (21,50), and the retaining ring (68,78) and washer (46) being a configuration sufficient to prohibit disassembly of the pin (17) without an external force being applied to the pin (17) sufficient to shear the retaining ring (68,78) or to fracture the washer (46) with each of the sides (52,54) of the washer (46) constructed to effectively concentrate the force •close to the interface of the grooves (21,50). 5.

8. The earthworking device (10) of claim 7 wherein the retaining ring (68) has a rectangular cross-section.

9. The earthworking device (10) of claim 8 wherein the groove (50) in the washer @50 S" (46) has a pair of parallel sidewalls (56,58), the groove (21) of the pin (17) has a pair of parallel sidewalls (62,64) and the retaining ring (68,78) has a pair of parallel sidewalls (70,72) in engagement with the pair of sidewalls of the groove (21) in the pin (17) and the groove (50) in the washer (46). The earthworking device (10) of claim 7 wherein the depth of the groove (21) in the pin (17) is generally equal to one half of the predetermined radial thickness of Sthe retaining ring (68,78) and the groove (50) in the washer (46) has a depth equal to or greater than the predetermined radial thickness of the retaining ring (68,78).

11. The earthworking device (10) of claim 7 wherein the recess (28) is formed in the nose (16).

12. The earthworking device (10) of claim 7 wherein the other one of the grooves 7 1. 16 (21,50) has a depth generally equal to one half of the predetermined radial thickness of the retaining ring (68,78).

13. The earthworldng device (10) of claim 12 wherein the retaining ring (68,78) has a circular cross-section. DATED this 28th day of September, 1990. CATERPILLAR INC. S 5* S S S S. S .5 S S S S S .55. *555 S. S. S PSS5 S S S. S 555 5 COWME, CARTER HENDY PATENT TRAD=-IARK ATTORNEYS 71 QUEENS ROAD, MEL.BOURf'1E, '3004, AUSTRALIA