AU2013100615A4 - Mounting of wear members - Google Patents

Abstract

A retaining pin assembly for an excavator tooth assembly. The retaining pin assembly has opposable locating members each having a shank portion able to be slidably insertable via a respective retaining pin aperture on opposite 5 sides of a wear member into a transversely extending mounting aperture of a mounting nose of an excavator. Each locating member also has an enlarged inwardly convergent tapered wedge portion adjacent a normally outer end. The retaining pin assembly also has a tensionable retaining member extending between the locating members from one side of the retaining pin 10 assembly. When tension is applied to the retaining member relative contraction of the locating members occurs to urge the wear member into engagement with the mounting nose by wedging engagement between each of the wedge portions and a rear wall of respective retaining pin apertures. 1/6 c co 0 CN U') 0

Description

P/00/012 Regulation 3.2 AUSTRALIA Patents Act 1990 ORIGINAL COMPLETE SPECIFICATION INNOVATION PATENT Invention Title: "MOUNTING OF WEAR MEMBERS" The following statement is a full description of this invention, including the best method of performing it known to me/us: 1 TITLE "MOUNTING OF WEAR MEMBERS" FIELD OF THE INVENTION This invention is concerned with improvements in mounting of 5 wear members to earth excavating devices. The invention is concerned particularly, although not exclusively, with the mounting of excavator teeth adaptors to adaptor noses on an excavating device such as an excavator bucket or the like. BACKGROUND OF THE INVENTION 10 Excavator tooth assemblies mounted to the digging edge of excavator buckets and the like generally comprise a replaceable digging point, an adaptor body and an adaptor nose which is secured by welding or the like to the digging edge of a bucket or the like. The adaptor has a socket-like recess at its rear end to receivably locate a front spigot portion of 15 the adaptor nose and a removable locking pin extends through aligned apertures in the adaptor and nose to retain the adaptor in position. In use, excavator teeth are subjected to extensive load forces along a longitudinal axis of a tooth as well as in vertical and transverse directions. A snug fit is required between the digging point and the front 20 portion of the adaptor and also between the adaptor socket and the nose spigot portion and their respective mounting pins to avoid premature wear between the components. As the various components wear, the locking pins can loosen thereby increasing the risk of loss of a digging point or an entire adaptor/tooth combination. This necessitates considerable downtime to 2 replace the lost wear members and where items such as locking pins are not recovered, these can cause damage and/or further downtime in downstream operations such as ore crushing and the like. The greatest loads experienced by excavator tooth assemblies 5 are vertical loads which tend to generate large moment forces capable of rotating a tooth off the front of an adaptor and/or rotating the adaptor off the adaptor nose. In addition, twisting or "yaw" loads are frequently imposed on such tooth assemblies. Despite many prior art attempts to improve the mounting of an 10 adaptor to a nose, most of these proposals suffer from one or more deficiencies. As described hereinafter, many of the prior art references relate to direct mounting of a tooth onto an adaptor without an intermediate adaptor but in those assemblies, the mounting systems for securing teeth directly onto excavator noses is considered analogous to the mounting of an 15 adaptor onto a nose. United States Patent No 4,182,058 describes an excavator tooth having a rearwardly divergent tapering socket to receive a nose having a complementary-shaped front spigot portion. Resistance to rotational moment forces is borne by a resilient steel cotter pin extending through 20 aligned vertical apertures in the socket and spigot portions. United States Patents 3,774,324, 4,338,736, 4,481,728, 4,903,420, 5,469,648, 7,100,315 and 6,735,890 all describe nose and tooth combinations wherein the nose has a generally convergently tapering spigot portion with a forward tip having a box-like configuration with at least the 3 upper and lower surfaces thereof having faces parallel to each other and to a longitudinal axis of the nose portion. With the exception of Patent No 4,338,736, which describes a transverse locking pin, each of the tooth mounting arrangements is heavily reliant on a large vertical locking pin to 5 resist rotational moment forces tending to rotate the teeth off respective noses. United States Patent No 4,231,173 describes a tapered adaptor nose having a box-like free end, which engages in a mating box-like socket cavity to resist rotational moments. Opposed pairs of rearwardly 10 extending tongues engage in corresponding recesses in the outer surfaces of the adaptor nose to resist rotational movements. Because the tongues themselves are unsupported, they possess a limited capacity to resist rotational moment forces. United States Patent No 5,272,824 describes a structure 15 similar to that of United States Patent No 4,231,173 except that the side tongues are of more robust dimensions and the upper and lower tongues are formed as box-like members with apertures to receive a vertical mounting pin passing through aligned apertures in the tooth and adaptor nose. United States Patent No 4,404,760 provides flat rail surfaces 20 on the adaptor nose to engage with mating grooves in the socket aperture of a corresponding tooth wherein the mating rail and groove surfaces are generally parallel to the longitudinal axis of the tooth. United States Patent No 5,423,138 describes a generally tapered nose having a box-like front end with upper and lower transverse 4 surfaces generally parallel to a longitudinal axis of a tooth which located directly thereon. The parallel upper and lower transverse surfaces are contiguous with upper and lower rail surfaces on each side of the nose and parallel to the longitudinal axis of the tooth. A pair of rearwardly extending 5 side tongues locate in recesses formed in the outer side faces of the nose, ostensibly to resist rotational moment forces in the tooth. Because the side tongues are recessed to accommodate the side rail portions, the robustness of the side tongues is somewhat compromised. United States Patent No 4,233,761 describes a fairly stubby 10 tapered nose having a box-like front portion with upper and lower surfaces generally parallel to a longitudinal axis of an excavatortooth, an intermediate rearwardly diverging tapered portion and a rear portion having upper and lower surfaces extending generally parallel to a longitudinal axis of the tooth. Formed on the upper and lower surfaces of the front, intermediate and rear 15 portions of the nose are spaced parallel reinforcing ribs which are located in mating grooves in the excavator tooth. A large vertical locking pin extends through aligned apertures in the tooth and nose between the reinforcing ribs. This structure is heavily reliant on the locking pin to resist rotational moment forces however it is considered that this configuration may be prone to failure 20 in the rear portion of the adaptor. United States Patent No 5,709,043 describes a nose/adaptor combination wherein the adaptor socket tapers convergently towards a box like front portion having upper and lower bearing surfaces generally parallel to a longitudinal axis of the tooth, a front transverse upright bearing surface 5 and rearwardly divergent bearing surfaces formed at obtuse angles between the converging upper and lower walls and the side walls of the socket, ostensibly to avoid areas of stress concentration. United States Patent No 6,018,896 describes a pin/retainer 5 system for locking an excavation tooth onto an adaptor wherein the retainer is inserted in the adaptor and a wedge-shaped pin is driven into aligned apertures in the tooth and adaptor to resiliently engage with the retainer. United States Publication No US 2002/0000053A1 describes a mechanism for releasably retaining an adaptor into the nose of a bucket lip 10 or the like wherein a tapered threaded socket is non-rotatably located on the inside of an aperture in the side wall of the adaptor. A threaded retaining pin extends through the threaded socket and locates in an aligned aperture in the bucket nose. United States Patent No 5,337,495 describes a tooth assembly 15 with a two-piece telescopically engageable adaptor secured to a nose with a tapered wedge pin assembly. A similar mounting system is described in United States Patent No 5,172,501 and United States Patent No 6,052,927. Other retention systems for digging points on adaptors or adaptors on noses are described in United States Patents Nos 6,119,378, 6,467,204, and 20 6,467,203. Other devices for removably securing replaceable wear elements on earth working equipment such as a retaining pin, a bolt, a pin lock and locking blocks engageable in a top aperture in a wear member are described in United States Patents Nos 3,839,805, 3,982,339, 4,587,751, 6 5,088,214 and 5,653,048 respectively. United States Patent No 5,937,550 describes a lock assembly for releasably securing an adaptor to a nose of an excavator support structure. The lock assembly comprises a body and a base coupled together 5 and adapted for insertion, while coupled together, in a hole in the nose of the support structure. The length of the lock assembly is extended to secure the adaptor and is retracted to release the adaptor. While adequate for securing an adaptor to a nose of an excavator support structure, the lock described in this patent is relatively complex in design and operation leading to high costs 10 and labour intensive extraction procedures in the field. Canadian Patent Application No 2,161,505 describes a system for removably retaining an excavation point on an adaptor with at least one flanged sleeve having a screw-threaded aperture therein, the flanged sleeve being non-rotatably locatable in a transverse bore in the adaptor before 15 fitment of the point onto the adaptor. A screw-threaded pin is inserted into the sleeve via an aperture in the point whereby portion of the head of the pin retains the point on the adaptor. Australian Patent Application No 2003264586 describes a locking pin assembly comprising a body member having a non-circular cross 20 sectional shape locatable in a bore of complementary shape extending laterally between opposite sides of an excavator lip mounting nose. After locating the body member in the nose aperture, an adaptor can be engaged over the nose with apertures in opposite side walls aligned with the body member. Threaded bolts engage in threaded apertures in opposite ends of 7 the body member, the bolts each having a tapered shank portion with an enlarged boss at a free end thereof, the boss being locatable in a respective aperture in a side wall of said adaptor to prevent the adaptor from disengaging with the nose. 5 While generally satisfactory for their intended purpose, the abovementioned prior art nose/adaptor (or nose/tooth equivalent) combinations all suffer from one or more shortcomings or disadvantages in terms of inadequate resistance to rotation of an adaptor off a nose under the influence of vertical loads applying a rotational moment to the adaptor, a 10 predisposition to premature wear, difficulties in retention of the adaptors on noses, inadequate locking systems and unduly complicated configurations giving rise to increased fabrication costs. OBJECT OF THE INVENTION It is an aim of the present invention to overcome or alleviate at 15 least some of the abovementioned prior art disadvantages or otherwise to provide consumers with a convenient choice. SUMMARY OF THE INVENTION According to one aspect of the invention, there is provided an excavator tooth assembly comprising: 20 a mounting nose projectable from a digging edge of an excavator, said mounting nose including a mounting aperture extending laterally of said nose between opposite side walls thereof, said mounting aperture having a non-circular cross-section; a wear member having a longitudinal axis, a forward end and a 8 rearwardly opening socket for receiving said mounting nose, said wear member including opposed wall apertures communicating with a hollow interior of said socket, said opposed wall apertures, in use, being at least partially alignable with said mounting aperture; and, 5 a retaining pin assembly, in use, non-rotatably located in said mounting aperture, said retaining pin assembly including locating members insertable via respective opposed wall apertures for slidable location in said mounting aperture, said locating members being retainable in said assembly by a tensionable retaining member extending between said locating 10 members whereby an enlarged free end of each locating member is engagable with a wall of a respective opposed wall aperture. Suitably, said mounting aperture may include a generally oval shaped cross-section. Preferably, said mounting aperture may include a generally tear 15 drop shaped cross-section. Optionally, said opposed wall apertures may have a generally oval shape. A longitudinal dimension of said opposed wall apertures may be greater than the longitudinal dimension of the mounting aperture. 20 Suitably, at least a portion of a wall of at least one of said opposed wall apertures has an inwardly convergent tapered portion. According to another aspect of the invention, there is provided a retaining pin assembly for an excavator tooth assembly, said retaining pin assembly comprising:- 9 opposable locating members each comprising a shank portion, in use, slidably insertable via a respective retaining pin aperture on opposite sides of a wear member into a transversely extending mounting aperture of a mounting nose of an excavator, said locating members each 5 having an enlarged inwardly convergent tapered wedge portion adjacent a normally outer end of a respective locating member; and a tensionable retaining member extending between said opposable locating members from one side of said retaining pin assembly whereby, in use, tension applied to said retaining member causes relative contraction of 10 said locating members to urge said wear member into engagement with said mounting nose by wedging engagement between each said wedge portion and a rear wall of respective retaining pin apertures. Suitably, each said shank portion and said complementary mounting aperture are of non-circular cross-sectional shapes. 15 If required, said retaining pin assembly may include a body member located intermediate of said locating members, said body member including an aperture extending longitudinally thereof to accommodate said tensionable retaining member. The body member and said mounting aperture may be of 20 complementary non-circular cross-sectional shapes. Preferably, said body member comprises a longitudinally extending body aperture to slidably locate in opposite ends thereof, respective shank portions of said locating members. If required, said body aperture may include a centrally located 10 abutment. Preferably, said shank portion of each said locating member slidably locatable in said body member has a cross-sectional shape complementary to said cross-sectional shape of said body aperture. 5 Suitably, said tensionable retaining member comprises a screw-threaded fastener. The screw-threaded fastener may be captively located in a slotted aperture in one of said locating members. Suitably, a driver engageable head of said screw-threaded 10 fastener is accessible via a longitudinally extending bore extending between opposite ends of one of said locating members. Preferably, said retaining pin assembly includes a plug member removably locatable in said longitudinally extending bore. According to a still further aspect of the invention, there is 15 provided a method of removably securing a wear member to a projecting mounting nose of a digging edge of an excavator, said method comprising the steps of: locating on said mounting nose, a wear member having opposed wall apertures at least partially alignable with said mounting 20 aperture; inserting through one said opposed wall aperture, a locating member having a screw-threaded aperture at an inner end and an enlarged outer end thereof; inserting through an opposite opposed wall aperture, a further locating 11 member having a screw-threaded fastener located therein, a threaded end of said screw-threaded fastener extending beyond an inner end of said further locating member, a drivable head of said screw-threaded fastener being accessible via a bore extending through an enlarged outer end of said further 5 locating member; and, coupling said screw-threaded fastener with said screw-threaded aperture of said one locating member whereby tensioning of said screw threaded member causes relative contraction between said one locating member and said further locating member to prevent disengagement of said 10 wear member. Suitably, said enlarged outer ends of said locating members include inwardly convergent tapered portions which engage against respective walls of said opposed wall apertures in said wear member to urge said wear member into engagement with said nose when said screw 15 threaded fastener is tensioned. Preferably, said opposed wall apertures each include a complementary tapered portion engageable with respective tapered portions of said locating members to urge said wear member into engagement with said nose when said screw-threaded fastener is tensioned. 20 If required, said further locating member may include an apertured abutment engageable with a head of said screw-threaded fastener whereby, in use, unscrewing of said fastener urges said locating members apart. Throughout this specification, unless the context requires 12 otherwise, the word "comprise", and variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated integer or group of integers or steps but not the exclusion of any other integer or group of integers. 5 BRIEF DESCRIPTION OF DRAWINGS In order that the various aspects of the invention may be readily understood and put into practical effect, reference will now be made to preferred embodiments illustrated in the accompanying drawings in which: FIG. 1 shows an exploded view of an excavator tooth 10 assembly; FIG. 2 shows a cross-sectional view of the excavator tooth assembly of FIG. 1 in an assembled state; FIG. 3 shows an exploded view of a retaining pin assembly; FIGS. 4 and 4a show schematically one embodiment of a 15 retaining pin assembly; FIGS. 5 and 5a show schematically an alternative embodiment of a retaining pin assembly; FIG. 6 shows a still further embodiment of a retaining pin assembly; and 20 FIG. 7 shows an expandable plug assembly. In the accompanying drawings, like numerals have been employed for like features for the sake of simplicity of description. DETAILED DESCRIPTION OF THE DRAWINGS In FIG. 1, the excavator tooth assembly 1 comprises a 13 mounting nose 2, in use, normally mounted on or integrally formed with a cutting edge (not shown) of an excavator bucket or the like (also not shown). As illustrated, only the front portion of nose 2 is shown. Slidably engageable over nose 2 is a wear member in the form of an adaptor 3. Located in the 5 rear portion of adaptor 3 is a socket aperture (not shown) having an internal shape generally complementary to the front portion of nose 2 illustrated. Adaptor 3 includes a front formation 3a to accept replaceable digging teeth or points (not shown). A hoist loop 3b is mounted on the top of adaptor 3 to enable ease of handling by a hoist during attachment and detachment 10 operations. When adaptor 3 is engaged on nose 2,opposed wall apertures in the form of side wall apertures 4 in opposed side walls 5 of adaptor 3 are at least partially aligned with a mounting aperture 6 which extends between opposite side walls 7 of nose 2. Both apertures 4 and 6 are of a generally 15 oval cross-sectional shape to locate a retaining pin assembly shown generally at 8 in an exploded state. Retaining pin assembly 8 comprises a hollow body member 9 having a cross-sectional shape complementary to that of aperture 6 in nose 2 and allows body member 9 to be slidably but non-rotatably located in 20 aperture 4. Assembly 8 also includes locating members 10a, 10b, each having a shank portion 11 a, 11 b slidably locatable within the hollow interior aperture 12 extending between opposite ends of body 9. Interior aperture 12 has a cross-sectional shape complementary to the cross-sectional shape of shank portions 11a, 11b.

14 Captively located in a recess 13 in shank portion 11b of locating member 10b is a tensionable retaining member which in the embodiment is in the form of a threaded bolt 14 which is inserted from the side with a shank portion 15 in a slot 16 and the screw head 17 located in an 5 enlarged recess 18. A resilient plug 19 is insertable into an axial bore (not shown) aligned with a drivable portion of the screw head 17 to seal the bore against the ingress of moisture and/or earthen materials. The outer ends of locating members 10 a, 1 Ob respectively include a cross-sectionally enlarged portion 21 having an inwardly convergent tapered portion 22, the purpose of 10 which will be described later. In order to secure the adaptor 3 to nose 2, the body member 9 of retaining pin assembly 8 is slid into aperture 6 of nose 2 such that neither end of body member protrudes beyond opposed side walls 7. Adaptor 3 is then engaged over nose 2 and locating members 10 a and 1 Ob with captively 15 located bolt 14 are inserted, via opposed side wall apertures 4 in adaptor 3, into opposite ends of body member 9. A hexagonal drive member (not shown) is inserted via the axial bore in the end of locating member 1Ob to engage the driver portion of the head 17 of bolt 14. As bolt 14 rotates, it engages an aligned threaded bore (not 20 shown) in the shank portion 11 a of locating member 1 0a to cause locating members 10a, 10b to move inwardly relative to each other. When tapered portions 22 of locating members 10a, 10b wedgingly engage against the rearward walls 23 of respective apertures 4 in adaptor 3, they urge adaptor 3 into tight engagement with nose 2.

15 To remove adaptor 3 from nose 2, the drive member (not shown) of a drive apparatus (also not shown) is engaged with the driver portion of the head 17 of bolt 14 and the bolt is rotated in a direction reverse to the tightening direction. As the head 17 bears on a rear wall 24 of recess 5 18, locating members 1 0a, 1 Ob are urged apart in a relative sense. If only one of locating members 10, 1Ob moves relative to adaptor 3, it may be allowed to retract a predetermined distance before giving it a tap with a hammer or the like to loosen the other locating member before fully withdrawing the initially movable locating member. In the event that one of 10 the locating members is difficult to remove due to tightly packed earthen fines or cementation thereof, an impacting tool (not shown) may be engaged in inwardly inclined slots 25 in locating members 10a, 10b to assist in removal thereof from body member 9. Although not prone to wear, body member 9 is readily removable from aperture 6 in nose 2 in the event that 15 replacement or maintenance is necessitated. On the inner forward surfaces of locating member 10a is a flatted indentation 26 having a shouldered abutment 27 at one end thereof. The purpose of this indentation 26 and shouldered abutment 27 will be described later. A similar formation exists with slot 16, recess 18 and wall 24 20 of recess 18. FIG. 2 shows a cross-sectional view in a horizontal plane through the excavator tooth assembly of FIG. 1 in an assembled state. As can be seen, when bolt 14 is tensioned to a desired degree, the wedging engagement between the tapered portions 22 of locating 16 members 10a, 10b and respective outwardly divergent tapering rearward walls 23 of side wall apertures 4 permits adaptor 3 to be drawn into tight engagement with nose 2 whereby the forward end 30 of nose 2 closely abuts an inner forward wall 31 of the nose locating socket cavity 32. 5 FIG. 2 shows in detail the configuration of the retaining pin assembly 8 wherein seal assemblies in the form of oval-shaped resilient sealing rings 33 are located in grooved recesses 34 formed on the inner surface of the interior aperture 12 in body member 9. These seals assist in preventing the ingress of moisture and/or earthen material which might 10 otherwise cause binding between body member 9 and locating members 10a, 1Ob slidably located therein. In the central region of the forward side of aperture 12 is an inwardly protruding portion 35 having shouldered abutments 36 which engage abutment 27 of locating member 10 a and rear wall 24 of recess 13 15 of locating member 1 Ob to limit the extent of inward movement towards each other. Also located within aperture 12 is a central wall 37 though which the shank of screw 14 extends. Also shown in FIG. 2 is the threaded bore 38 in locating member 10a into which bore the threaded portion of screw 14 extends and the axial bore 39 in locating member 10b through which the 20 head 17 of screw 14 may be rotated to tighten or loosen the retaining pin assembly. To prevent loosening of screw 14 during use and also to assist in maintaining screw 14 captive within the slot 16 and recess 13 of locating member 1Ob, a pin 40 is mounted in slot 16 through pin aperture 40A and 17 engaging the opposed side wall of slot 16 such that pin 40 frictionally engages a shank portion 15 of bolt 14. FIG. 3 shows schematically an exploded view of the retaining pin assembly 8 illustrated in FIGS. 1 and 2. 5 The generally oval cross-sectional shape of the wall of body member 9 has a relieved region 41 at each end to prevent contact with the inwardly convergent tapered regions 22 of locating members 10a, 1 Ob when the pin assembly 8 is fully retracted. FIGS. 4 and 4a show schematically one embodiment of a 10 retaining pin assembly. FIG. 4 is an isometric view of a retaining pin assembly and FIG. 4a is an end elevational view thereof. As can be seen, the body member 9 has a generally oval-shaped cross-section as does the shank portions of locating members 10a, 10b slidably located therein. The outer ends of 15 tapered portions 22 are of an elongated oval shape tapering inwardly to the oval shape of the shank portions of the locating members. FIG. 5 is an isometric view of an alternative embodiment of a retaining pin assembly and FIG. 5a is an end elevational view thereof. As shown, body member 9 has a generally tear drop-shaped 20 outer cross-section and a generally cylindrical bore therein to slidably locate generally cylindrical shank portions of locating members 10 a, 1 Ob. The outer ends of tapered portions 22 are of an oval shape tapering inwardly to the generally cylindrical shank portions thereof. The advantage of the tear drop cross-sectional shape over an 18 oval cross-sectional shape is that with the tapering face portions of the mounting aperture converging in a forward direction, a greater thickness of metal between the interior of the mounting aperture 6 and the forwardly inclined front faces 50 of the nose 2 (illustrated in FIG. 1) is maximised 5 thereby maximising the strength of the nose in comparison to a nose having an oval-shaped cross-section mounting aperture. Yet another advantage of the tear drop shaped cross-sectional shape of the retaining pin assembly is that in certain excavation environments, the build up of earthen fines within the mounting aperture can 10 cause hydraulic "packing" between the retaining pin assembly and the mounting aperture and this, in tum, can lead to loosening of the adaptor on the nose. Because the surface area of the forwardly tapered portion of the tear drop shaped cross-section of the pin assembly and a corresponding region of the mounting assembly is much greater than the rearward surfaces, 15 any tendency of fines to pack between the retaining pin assembly and the mounting aperture tends to cause a rearward and thus tightening force urging the adaptor further into engagement with the nose. FIG. 6 shows an alternative embodiment of a retaining pin assembly 60. 20 In this embodiment, the assembly comprises opposed locating members 61, 62, each having a generally parallel sided shank portion 63 and an enlarged outer end portion 64 with an inwardly convergent tapered portion 65. A tensionable retaining member in the form of a screw-threaded cap screw 66 has an unthreaded shank portion 67 slidably located in a 19 longitudinal aperture 67a in locating member 62 and a screw-threaded portion 68 located in an aligned screw-threaded aperture 68a in locating member 61. A recessed portion 69 in locating member 62 accommodates a head portion 70 of screw 66 when in situ with screw 66 under tension. A 5 driveable portion 70a is located on head portion 70 to interact with and mate with a driven tool. In a further variation of the embodiment shown in FIG. 6, an intermediate spacer member (not shown) having the same cross-sectional shape as the shank portions 63 may be located between locating members 10 61, 62 with the shank 67 of screw 66 extending longitudinally therethrough. Such a spacer member may assist in aligning the threaded portion 68 with the threaded aperture (not shown) of locating member 61. FIG. 7 shows an expandable plug assembly for use with various retaining pin assemblies according to the invention. 15 In the retaining pin assembly of FIG. 1, separate mechanisms 40, 19 are utilised to prevent loosening of screw 14 and packing of earthen material in the bore 39 (FIG. 2) respectively. FIG. 7 illustrates an alternative embodiment of the invention to combine both functions of resisting loosening of screw 14 and plugging the access bore 39. 20 As shown in FIG. 7, plug member 71 comprises a hexagonal shank portion 72 with a screw-threaded bore (not shown) extending longitudinally thereof. A hex headed screw 73 is threadably engaged in shank portion 72 with a resilient plastics or rubber sleeve 74 secured between the shouldered inner end of shank portion 72 and a bearing washer 20 75 abutting the hex head 76 of screw 73. With the screw 73 loosely engaged in shank portion 72, the plug member 71 is inserted into bore 39 until the hexagonal shank portion 72 engages in the hexagonal socket 77 of screw 14. Utilising a powered driver 5 (not shown) with a hexagonal socket driver (not shown) engaged over the head 76 of screw 73, screw 73 is rotated while hexagonal shank portion 72 is prevented from rotation by engagement in the socket 77 of tensioned screw 14. As screw 73 rotates, a longitudinal compression force is applied to sleeve 74 which then undergoes radial expansion within bore 39. At a 10 predetermined degree of rotational torque on screw 73, radially expanded sleeve 74 not only provides an effective seal to prevent ingress of water and earthen contaminants, the frictional engagement between bore 39 and sleeve 74, with hexagonal portion 72 engaged in socket 77 of screw 14 prevents loosening of screw 14. 15 It will be readily apparent to a person skilled in the art that the excavating tooth assembly, the retaining pin assembly and methods of use thereof in accordance with the invention offer substantial advantages over prior art systems and methods. After a period of time in the field, some degree of wear between 20 the wear member and the nose is inevitable. This wear usually occurs on upper and lower bearing faces of a nose and the front of a nose and the corresponding contact surfaces in the socket cavity of the wear member. When such wear occurs, any slack between the nose and wear adaptor is readily taken up by retensioning the bolt of the retaining pin assembly. The 21 bolt is readily accessible and the complementary ramped engaging surfaces of the adaptor side wall apertures and the tapered portions of the locating members allows for a considerable degree of movement between the nose and wear member along a longitudinal axis with only a relatively small 5 degree of rotation of the screw of the retaining pin assembly. The various embodiments of the invention are quick and simple to install and uninstall with readily available tools and do not require severe impacts with a sledge hammer or the like which is a slow and dangerous procedure. 10 Whilst the invention has been described with reference to the mounting of a wear member to nose, it is equally applicable to the mounting of points or digging teeth to adaptors. Generally, teeth have wall apertures extending through opposed top and bottom walls and adaptors have a corresponding mounting aperture. A skilled addressee will appreciate that 15 the retaining pin assembly of the invention may be employed to releasably secure a point or digging tooth to an adaptor. It also will be readily apparent to persons skilled in the art that many modifications and variations may be made to the various aspects of the invention without departing from the spirit and scope thereof. 20 The reference to any prior art in this specification is not, and should not be taken as, an acknowledgement or any form of suggestion that the prior art forms part of the common general knowledge.

Claims (22)

1. An excavator tooth assembly comprising: a mounting nose projectable from a digging edge of an excavator, said mounting nose including a mounting aperture extending laterally of said nose 5 between opposite side walls thereof, said mounting aperture having a non circular cross-section; a wear member having a longitudinal axis, a forward end and a rearwardly opening socket for receiving said mounting nose, said wear member including opposed wall apertures communicating with a hollow 10 interior of said socket, said opposed wall apertures, in use, being at least partially alignable with said mounting aperture; and, a retaining pin assembly, in use, non-rotatably located in said mounting aperture, said retaining pin assembly including a body member being configured to be non-rotatably located within the mounting aperture of said 15 mounting nose prior to said wear member being mounted upon said mounting nose, locating members insertable via respective opposed wall apertures for slidable location in said mounting aperture relative to said body member, said locating members being retainable in said assembly by a tensionable retaining member extending between said locating members 20 whereby an enlarged free end of each locating member is engagable with a wall of a respective opposed wall aperture.

2. The excavator tooth assembly of claim 1, wherein said mounting aperture has a generally oval shaped cross section. 23

3. The excavator tooth assembly of claim 1, wherein said mounting aperture has a generally tear drop shaped cross section. 5

4. The excavator tooth assembly according to any one of the preceding claims, wherein said opposed wall apertures have a generally oval shaped cross section.

5. The excavator tooth assembly according to any one of the preceding 10 claims, wherein a longitudinal dimension of said opposed wall apertures is greater than a longitudinal dimension of said mounting aperture.

6. The excavator tooth assembly according to any one of the preceding claims, wherein at least a portion of a wall of at least one of said opposed 15 wall apertures has an inwardly convergent tapered portion.

7. The excavator tooth assembly according to any one of the preceding claims, wherein said body member has a body aperture extending longitudinally thereof and is adapted to receive said tensionable retaining 20 member.

8. The excavator tooth assembly according to any one of the preceding claims, wherein said enlarged free end of each said locating member is formed from an inwardly convergent wedge portion each adapted to abut and 24 engage said wall of said respective opposed wall aperture.

9. The excavator tooth assembly according to any one of the preceding claims, wherein said tensionable retaining member comprises a screw 5 threaded fastener, one of said locating members having a slotted aperture adapted to captively retain said screw threaded fastener therein.

10. A retaining pin assembly for an excavator tooth assembly, said retaining pin assembly comprising: 10 a body member being configured to be non-rotatably located within a transversely extending mounting aperture of a mounting nose of an excavator prior to a wear member being mounted upon said mounting nose; opposable locating members each comprising a shank portion, in use, slidably insertable via a respective retaining pin aperture on opposite sides of 15 the wear member into the transversely extending mounting aperture of the mounting nose, said locating members each having an enlarged inwardly convergent tapered wedge portion adjacent a normally outer end of a respective locating member; and a tensionable retaining member extending between said opposable 20 locating members from one side of said retaining pin assembly whereby, in use, tension applied to said retaining member causes relative contraction of said locating members to urge said wear member into engagement with said mounting nose by wedging engagement between each said wedge portion and a rear wall of respective retaining pin apertures. 25

11. The retaining pin assembly of claim 10, wherein each said shank portion and said transversely extending mounting aperture are of a non circular cross sectional shape. 5

12. The retaining pin assembly of claim 10 or claim 11, further including a body member located intermediate of said locating members.

13. The retaining pin assembly of claim 12, wherein said body member 10 comprises an aperture extending longitudinally thereof adapted to receive said tensionable retaining member.

14. The retaining pin assembly of claim 12, wherein said body member and said mounting aperture are of complimentary non-circular cross sectional 15 shape.

15. The retaining pin assembly of claim 12, wherein said body member comprises a longitudinally extending body aperture adapted to slidably receive in opposite ends thereof a respective shank portion of said locating 20 members.

16. The retaining pin assembly of claim 12, wherein said body aperture comprises a centrally located abutment. 26

17. The retaining pin assembly of any one of claims 10 to 16, wherein said tensionable retaining member comprises a screw threaded fastener.

18. The retaining pin assembly of claim 17, wherein one of said locating 5 members has a slotted aperture adapted to captively retain said screw threaded fastener therein.

19. The retaining pin assembly of claim 17, wherein a driver engagable head of said screw threaded fastener is accessible via a longitudinally 10 extending bore extending at least partially between opposed longitudinal ends of one of said locating members.

20. A method of removably securing a wear member to a projecting mounting nose of a digging edge of an excavator, said method including the 15 steps of: inserting a body member within a mounting aperture of said mounting nose prior to said wear member being located upon said mounting nose; locating on said mounting nose, the wear member having opposed wall apertures at least partially alignable with the mounting aperture of said 20 mounting nose; inserting through one said opposed wall aperture, a locating member having a screw-threaded aperture at an inner end and an enlarged outer end thereof; inserting through an opposite opposed wall aperture, a further locating 27 member having a screw-threaded fastener located therein, a threaded end of said screw-threaded fastener extending beyond an inner end of said further locating member, a drivable head of said screw-threaded fastener being accessible via a bore extending through an enlarged outer end of said further 5 locating member; and, coupling said screw-threaded fastener with said screw-threaded aperture of said one locating member whereby tensioning of said screw threaded member causes relative contraction between said one locating member and said further locating member to prevent disengagement of said 10 wear member.

21. The method of claim 20, wherein said enlarged outer end of each said locating member includes an inwardly convergent tapered portion which engages against a respective wall of said opposed wall apertures in said 15 wear member to urge said wear member into engagement with said nose when said screw threaded fastener is tensioned.

22. The method of claim 21, wherein said opposed wall apertures include a complementary tapered portion to abut and engage with a respective tapered 20 portion of a said locating member to urge said wear member into engagement with said nose when said screw threaded fastener is tensioned.