巴西专利BR112014013827B1 excavator lock and wear member assembly

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专利摘要:
EXCAVATOR WEAR SET. A lock assembly for locking two members together, typically an excavator wear member, such as a tine, on an adapter. The locking assembly has a locking pin with a flange portion and a retaining assembly that receives the locking pin. The retaining assembly includes a locking member, in the form of a locking ring, which deforms radially when a tapered portion of the locking pin is inserted into the retaining assembly. In the locked position, the lock ring engages with the flange portion of the lock pin to prevent withdrawal of the lock pin from the retaining assembly.
公开号:BR112014013827B1
申请号:R112014013827-3
申请日:2012-12-10
公开日:2021-05-04
发明作者:Josua Kirsch；Miguel Guimaraes；Bruce Lilley；Douglas Wallis；Edwin Schuetz
申请人:Cqms Pty Ltd；
IPC主号:

专利说明:

FIELD OF THE INVENTION
[001] The invention relates to an excavator wear assembly. In particular, though not exclusively, the invention relates to an assembly for releasably attaching an excavator tooth to a nose of an excavator. BACKGROUND OF THE INVENTION
[002] Excavator tine assemblies mounted to the digging edge of excavator buckets and the like generally comprise a replaceable digging tine, an adapter body and an adapter nose that is fixed by welding or the like to the edge digging a bucket or the like. The tooth generally has a socket-like recess at its rear end to receptively locate a front post portion of the adapter nose and a removable locking pin is generally used to releasably secure the tooth to the adapter.
[003] In use, excavator tines are subjected to extensive loading forces along a longitudinal axis of a tine as well as in a vertical and transverse direction. A tight fit is required between the dig point and the front portion of the adapter and also between the adapter socket and the nose post portion and their respective mounting pins to prevent premature wear between components. As the various components wear out, the locking pins can loosen thus increasing the risk of losing a digging point or an entire adapter/tooth combination. This requires considerable downtime to replace lost wear members and where items such as locking pins are not recovered they can cause damage and/or even more downtime in downstream operations such as ore crushing and the like.
[004] The largest loads experienced by excavator tine assemblies are vertical loads that tend to generate large moment forces capable of rotating a tine off the front of an adapter and/or rotating the adapter off the adapter nose. Additionally, torsional or "yaw" loads are often imposed on these tooth sets.
[005] Despite the many attempts in the prior art to improve the mounting of a wear member to an excavator nose, most of these proposals suffer from one or more deficiencies. As described below, many of the prior art references refer to direct mounting of a tine to a nose without an intermediate adapter, but in these assemblies, mounting systems for attaching tines directly to excavator noses are considered analogous to mounting a a tooth for an adapter.
[006] United States Patent No. 4,182,058 describes an excavator tine having a socket tapering backwards to receive a nose having a complementary shaped front post portion. Resistance to rotational moment forces is supported by a resilient steel peg extending through aligned vertical openings in the socket and spigot portions.
[007] 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 in which the nose has a spike portion tapering generally convergingly with a leading tip having a box-like configuration with at least the 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 dependent on a large vertical locking pin to resist rotational moment forces tending to rotate the teeth outward. of their noses.
[008] United States Patent No. 4,231,173 describes a tapered adapter nose having a box-like free end, which engages a mating box-type socket cavity to resist rotational moments. Opposite pairs of rearwardly extending tongues engage in corresponding recesses in the outer surfaces of the adapter nose to resist rotational movement. Because the pawls themselves are unsupported, they have a limited ability to resist rotational momentum forces.
[009] United States Patent No. 5,272,824 describes a structure similar to that of United States Patent No. 4,231,173, except that the side tongues are of sturdier dimensions and the upper and lower tongue are formed as box-like members with openings to receive a vertical mounting pin passing through aligned openings in the tine and adapter nose.
[010] United States Patent No. 4,404,760 provides flat rail surfaces on the adapter nose to engage with mating grooves in the socket opening of a mating tooth where the mating groove and rail surfaces are generally parallel to the longitudinal axis of the tooth.
[011] United States Patent No. 5,423,138 describes a generally tapered nose having a box-like front end with upper and lower transverse surfaces generally parallel to a longitudinal axis of a tooth which is 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 lateral tongues locate in recesses formed in the outer lateral faces of the nose, apparently to resist rotational moment forces on the tooth. Because the side tongues are recessed to accommodate the side rail portions, the strength of the side tongues is somewhat compromised.
[012] United States Patent No. 4,233,761 describes a rather thick tapered nose having a box-like front portion with upper and lower surfaces generally parallel to a longitudinal axis of an excavator tooth, a tapered portion diverging back intermediate, 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, middle and rear portions of the nose are spaced parallel reinforcing ribs that are located in mating grooves in the excavator tine. A large vertical locking pin extends through aligned openings in the tooth and nose between the stiffening ribs. This structure is heavily dependent on the locking pin to resist rotational moment forces however it is considered that this configuration may be prone to failure at the rear portion of the adapter.
[013] United States Patent No. 5,709,043 describes a nose/adapter combination in which the adapter socket tapers convergingly toward a box-like front portion having upper and lower support surfaces generally parallel to a longitudinal axis of the tooth. , a front transverse vertical support surface and rearward diverging support surfaces formed at obtuse angles between the converging top and bottom walls and the socket side walls, ostensibly to avoid areas of stress concentration.
[014] United States Patent No. 6,018,896 describes a pin/restrain system for locking a digging tooth to an adapter in which the retainer is inserted into the adapter and a wedge-shaped pin is driven to aligned openings in the tooth and adapter to resiliently engage with the retainer.
[015] United States Publication No. US 2002/0000053A1 describes a mechanism for releasably retaining a nose adapter of a bucket flap or the like wherein a tapered threaded socket is non-rotatably located within an opening in the wall. side of the adapter. A threaded retaining pin extends through the threaded socket and locates in an aligned opening in the bucket nose.
[016] United States Patent No. 5,337,495 describes a tooth assembly with a two-piece telescopically snap-on adapter 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 excavation points on adapters or nose adapters are described in U.S. Pat. 6,119,378, 6,467,204, and 6,467,203.
[017] Other devices for detachably securing replaceable wear elements in ground work equipment such as a retaining pin, a bolt, a pin lock and lock blocks engageable in a top opening in a wear member are described in Patents of the United States Nos. 3,839,805, 3,982,339, 4,587.75, 5,088,214 and 5,653,048, respectively.
[018] United States Patent No. 5,937,550 describes a lock assembly for releasably securing an adapter to a nose of an excavator support structure. The lock assembly comprises a body and base coupled together and adapted for insertion, while coupled together, into a hole in the nose of the support structure. The length of the lock assembly is extended to secure the adapter and is retracted to release the adapter. While suitable for attaching an adapter to a nose of an excavator support structure, the lock described in this patent is relatively complex in design and operation leading to high cost and labor-intensive extraction procedures in the field.
[019] Canadian Patent Application No. 2,161,505 describes a system for removably retaining an excavation point in an adapter with at least one flanged sleeve having a threaded screw opening therein, the flanged sleeve being non-rotatably locatable in a cross hole in adapter before fitting the stitch into the adapter. A threaded screw pin is inserted into the sleeve through an opening at the point where the head portion of the pin retains the point in the adapter.
[020] Australian Patent Application No. 2003264586 describes a locking pin assembly comprising a body member having a non-circular cross-sectional shape locatable in a complementary shaped hole extending laterally between opposite sides of a flange mounting nose of excavator. After locating the body member in the nose opening, an adapter can be engaged over the nose with openings in opposite side walls aligned with the body member. Threaded screws engage in threaded openings at opposite ends of the body member, the screws each having a tapered shank portion with an enlarged protrusion at a free end thereof, the protrusion being locatable in a respective opening in a side wall of said adapter to prevent the adapter from disengaging from the nose.
[021] While generally satisfactory for its intended purpose, the aforementioned prior art all suffer from one or more flaws or disadvantages in terms of inadequate resistance to rotation of a tooth outside a nose or adapter under the influence of vertical loads applying a rotational moment to the tooth, a predisposition to premature wear, difficulties in retaining the teeth in the nose or adapters, inadequate locking systems and unduly complicated configurations that give rise to increased manufacturing costs. Furthermore, the prior art in general relies on locking devices that require threaded components. Threaded components in locking assemblies are generally disadvantageous as dirt and impurities can seep into the threaded assembly causing cementation and resulting in difficult removal. PURPOSE OF THE INVENTION
[022] It is an object of the present invention to overcome or at least alleviate one or more of the aforementioned problems and/or provide the consumer with a useful or commercial choice. DISCLOSURE OF THE INVENTION
[023] In one form, although not necessarily the only or even the broadest form, the invention resides in a lock assembly for an excavator wear assembly, the lock assembly comprising: a lock pin having a portion of flange and a longitudinal axis; and a retainer assembly having a locking member, the retainer assembly adapted to receive the locking pin; wherein the locking member of the retaining assembly is adapted to deform perpendicular to the longitudinal axis of the locking pin when the locking pin is inserted longitudinally into the retaining assembly; and wherein the locking member of the retaining assembly is adapted to engage with the flange portion of the locking pin to prevent withdrawal of the locking pin from the retaining assembly when the locking assembly is in a locked position.
[024] The locking member preferably has two side walls, an inner wall and an outer wall. Preferably, the side walls are parallel to each other and the outer wall is perpendicular to the side walls. Preferably, the inner wall has at least one portion which is not parallel to the longitudinal axis of the locking pin when the locking pin is being received by the retaining assembly. In a preferred form, at least a portion of the inner wall is chamfered with respect to the side walls. The beveled portion preferably extends substantially between the side walls. The beveled word preferably includes several slopes, and is not intended to be limited to about 45°.
[025] Preferably, the locking member is a resilient locking ring. Preferably, the resilient locking ring is adapted to expand radially around a portion of the locking pin. The locking ring is preferably substantially annular with an opening that allows, or at least facilitates, radial expansion. The locking ring is preferably partially annular with an opening having a circumferential extension which is preferably less than 60°, or even more preferably less than 45°. In a preferred form, the locking ring is a partially annular member that extends circumferentially about 330° to 340° with a respective opening of 30° to 20°.
[026] According to one form of the invention, the locking ring has a tab. The tab can be in the form of a flattened portion which is preferably in the form of a segment of the locking ring. The tab preferably corresponds to the flange portion of the locking pin. The tab is preferably located through the inner wall of the locking ring. Preferably, the inner wall of the locking ring is chamfered except for the tab. The tab is preferably located approximately 90° from the opening. The tab preferably increases the radial width of the locking ring.
[027] The flange portion of the locking pin is preferably formed by a groove in the locking pin. In one form the groove extends circumferentially around the locking pin and defines two flange portions on either side of the groove. In another form the groove extends only partially around the circumference of the locking pin. In this form, the groove preferably has a flat bottom surface. Opposite walls of the groove, which are preferably perpendicular to the longitudinal axis of the locking pin, are preferably perpendicular to the flat bottom surface.
[028] Preferably, the locking pin has a tapered portion adjacent to the groove. Preferably, the tapered portion is formed by a progressive increase in diameter of a main body portion of the locking pin to adjacent the flange portion.
[029] Preferably, the retaining assembly comprises a resilient spacer located adjacent to the locking member. Preferably, the resilient spacer receives the locking ring therein. The resilient spacer is preferably compressible.
[030] In one form, the resilient spacer is a circular gasket. In another form, the resilient spacer is a partially annular gasket with an opening. When the resilient spacer is partially annular, the opening in the resilient spacer is preferably substantially the same size as the opening in the locking ring. Preferably, the ring has an inside diameter that is substantially the same as the outside diameter of the locking ring. Preferably, the resilient spacer is concentric with the locking member.
[031] Preferably, the retaining assembly further comprises a retaining member and a retaining washer. The retaining ring preferably has a tapered interior surface to facilitate locating the locking pin therethrough.
[032] Preferably, the retaining member receives the locking member and the resistant spacer, more preferably, the locking ring and the sealing ring, respectively. Preferably, a retainer extends outwardly from a body of the retaining member. The retainer preferably prevents rotation of the retaining member in use. Preferably, the retaining member has a first seat that receives the locking ring and the sealing ring. Preferably, the retaining member has a second seat that receives the washer. Preferably, the second seat is adjacent to the first seat such that the washer abuts the locking ring and sealing ring.
[033] The first retaining member seat preferably has a boss. The protrusion is preferably of a size similar to the size of the opening of the locking ring and the sealing ring. Preferably, the protrusion is adapted to be received by an opening in the locking ring and preferably an opening in the resilient spacer. The protrusion preferably locates the locking ring in a fixed orientation. Preferably, the protrusion locates the tab of the locking ring at a predetermined location relative to the retaining member.
[034] The first seat is preferably closer to the longitudinal axis of the locking pin than the second seat in the locked position. Preferably, the seats are substantially annular with the first seat having a smaller diameter than the second seat. Preferably, the retaining member has an opening therethrough which receives the locking pin in use. Preferably, the opening is defined by an inner circumferential side wall of the retaining member, the inner circumferential side wall extending between an upper surface and a lower surface of the retaining member. Preferably, the opening of the retaining member has a tapered portion that corresponds to the tapered portion of the locking pin.
[035] Preferably, the locking pin has a head portion. The head portion preferably has a diameter generally greater than the diameter of a main body portion of the locking pin. Preferably, the head of the locking pin has a recess therein. Preferably, the recess is molded to receive and allow a tool to supply torque to the locking pin. The recess may also be shaped to receive and allow a tool to provide leverage to the locking pin. The locking pin recess may have a rail for receiving a prying tool.
[036] The head of the locking pin may additionally or alternatively have a pry rope. The pry rope is preferably formed of a wire loop affixed to the head of the locking pin. The wire hoop can be affixed to the head of the locking pin by rope locking members, preferably screws, received therein. The pry rope can be contained in a cap attached to the head of the locking pin.
[037] The head of the lock pin preferably has at least one molded portion, preferably a circumferential ramp, which engages with portions of the wear assembly to provide longitudinal force to the lock pin when the lock pin is rotated . Preferably, the head of the locking pin has at least one protrusion. Preferably, the head of the locking pin has two protrusions. Preferably, the protrusions engage with wear assembly ramps. The protrusions can be ramps that correspond to the wear member ramps.
[038] In another form, the invention resides in a lock assembly for an excavator wear assembly, the lock assembly comprising: a lock pin having a flange portion and a longitudinal axis, wherein at least one portion the flange portion is substantially perpendicular to the longitudinal axis; and a retainer assembly having a locking member with a tab, the retainer assembly adapted to receive the locking pin; wherein the locking member of the retaining assembly is adapted to deform perpendicular to the longitudinal axis of the locking pin when the locking pin is inserted longitudinally into the retaining assembly; and wherein the tab of the locking member is adapted to engage with the flange portion of the locking pin to prevent withdrawal of the locking pin from the retaining assembly when the locking assembly is in a locked position.
[039] In another form, the invention resides in an excavator wear member for use with a lockout assembly as previously described.
[040] In another form, the invention resides in an excavator wear member comprising: a lock opening extending through a side wall of the excavator wear member, the lock opening having a receiving passage and a recess of retention; wherein, the receiving passage extends inwardly from an outer face of the side wall and the retaining recess is located on an interior face of the side wall so that the receiving passage terminates in the retaining recess; and a retaining assembly located within the retaining recess, the retaining assembly having a locking member; wherein the locking aperture and retaining assembly located in the retaining recess are adapted to receive a locking pin, the locking member being adapted to deform perpendicular to the longitudinal axis of the locking pin when the locking pin is inserted longitudinally into the retention set; and wherein the locking member is adapted to engage with a flange portion of the locking pin to prevent withdrawal of the locking pin when the locking pin is in the locked position.
[041] Preferably, the locking member is a locking ring and preferably the locking ring is adapted to expand radially around a portion of the pin.
[042] The retaining assembly preferably further comprises a spacer, preferably a sealing ring, and a washer. The retaining assembly may further comprise a retaining member received in the retaining recess. The retaining member preferably has a first seat that receives the locking ring and sealing ring and a second seat that receives the washer. The retaining member can be secured in the retaining recess of the wear member. Alternatively, the retaining recess may have a retaining portion which retains the locking ring.
[043] In another form, the invention resides in an excavator wear member comprising: a lock opening extending through a side wall of the excavator wear member, the lock opening extending inwardly from an outer face the sidewall; and a retaining assembly having a locking member located within the locking aperture; wherein the locking aperture and retaining assembly located in the locking aperture are adapted to receive a locking pin, with the locking member being adapted to deform perpendicularly to the longitudinal axis of the locking pin when the locking pin is inserted longitudinally into the retaining assembly and engaging with a locking pin flange portion to prevent withdrawal of the locking pin from the locking opening when the locking pin is in the locked position.
[044] The locking member is preferably a resilient locking ring. Preferably, the locking ring expands radially around a portion of the locking pin. The retaining assembly preferably further comprises a resilient sealing ring. The sealing ring is preferably located concentrically with the locking ring.
[045] In another form, the invention resides in an excavator wear assembly comprising: an excavator wear member having a socket cavity and locking opening extending through a side wall of the excavator wear member, the opening lock having a receiving passage and a retaining recess; a retaining assembly located within the retaining recess, the retaining assembly having a locking member; and an adapter having a spike portion located within the excavator wear member socket cavity and a retaining passage; wherein a locking pin is adapted to be located through the excavator wear member locking aperture and the adapter retaining passage and wherein the locking member is adapted to deform perpendicularly to a longitudinal axis of the locking pin when the lock pin is inserted longitudinally into the retaining assembly and to engage with a flange portion of the lock pin to prevent withdrawal of the lock pin when the lock pin is in a locked position.
[046] Preferably, the locking member is a locking ring. Preferably, the locking ring expands radially around a portion of the pin.
[047] In another form, the invention resides in a method of attaching an excavator wear member to an adapter having a spike portion, the method comprising the steps of: fitting the excavator wear member to the spike portion. adapter spike; inserting a locking pin through an excavator wear member locking aperture, an excavator wear member locking aperture located within an excavator wear member retaining recess, and an adapter retaining passage; and applying a force to the locking pin longitudinally to force a locking member of the retaining assembly to deform perpendicularly to a longitudinal axis of the locking pin when the locking pin is longitudinally inserted and engaging with a flange portion of the locking pin to thereby retain the locking pin in a locked position.
[048] Preferably, the locking member is a locking ring and the step of applying force to the locking pin longitudinally forces the locking ring to expand radially around a tapered portion of the locking pin and engage with the flange portion of the locking pin.
[049] Preferably, the flange portion of the locking pin is a substantially rectangular groove. Preferably, the locking member is a locking ring and the tab is a flat portion of the locking ring.
[050] Other features of the present invention will become apparent from the following detailed description. BRIEF DESCRIPTION OF THE DRAWINGS
[051] To aid understanding of the invention and to enable one skilled in the art to put the invention into practical effect, preferred embodiments of the invention will be described by way of example only with reference to the accompanying drawings, in which:
[052] Figure 1A shows a perspective view of an excavator wear assembly according to an embodiment of the invention;
[053] Figure B shows a side elevation view of the excavator wear assembly shown in Figure 1A;
[054] Figure 1C shows an exploded perspective view of the excavator wear assembly shown in Figure 1A;
[055] Figure 2A shows a reverse perspective view of a tooth forming portion of the excavator wear assembly shown in Figure 1A;
[056] Figure 2B shows a rear perspective view of a tooth forming portion of the excavator wear assembly shown in Figure 1A;
[057] Figure 2C shows a sectional perspective view of the tooth as shown in Figure 2B;
[058] Figure 3A shows a perspective view of a lock assembly as shown in Figure 1A;
[059] Figure 3B shows an exploded perspective view of the lock assembly shown in Figure 3A;
[060] Figure 4A shows a perspective view of a locking pin forming part of the locking assembly shown in Figure 3A;
[061] Figure 4B shows an enlarged side elevation view of the locking pin shown in Figure 4A;
[062] Figure 4C shows an end elevation view of the locking pin shown in Figure 4A;
[063] Figure 5A shows a perspective view of an alternative locking pin to that shown in Figures 4A to 4C;
[064] Figure 5B shows an enlarged perspective view of the locking pin shown in Figure 5A;
[065] Figure 5C shows an end elevation view of the locking pin shown in Figure 5A;
[066] Figure 6A shows an exploded perspective view of a retainer assembly that is part of the lock assembly shown in Figure 3A;
[067] Figure 6B shows an exploded side cross-sectional view of the retainer assembly shown in Figure 6A;
[068] Figure 6C shows a side cross-sectional view of the retainer assembly shown in Figure 6A;
[069] Figure 7A shows a front elevation view of a locking ring of the retainer assembly shown in Figure 6A;
[070] Figure 7B shows a cross-sectional view of the locking ring shown in Figure 7A;
[071] Figure 8A shows an enlarged side cross-sectional view of the lock assembly shown in Figure 3A;
[072] Figure 8B shows an enlarged rear perspective view of the lock assembly shown in Figure 3A with the retaining member shown in transparency;
[073] Figure 9A shows a sectional rear perspective view of the retainer assembly shown in Figure 6A located with the tooth shown in Figure 2A;
[074] Figure 9B shows a top cross-sectional view of the tooth and retainer assembly;
[075] Figure 10A shows a top cross-sectional view of the tooth located in the adapter with the locking assembly inside;
[076] Figure 10B shows an enlarged view of the retainer assembly portion of Figure 10A;
[077] Figure 11A shows a perspective view of a locking pin that is part of a locking assembly according to another embodiment of the invention;
[078] Figure 11B shows an enlarged view of a head portion of the lock pin shown in Figure 11A;
[079] Figure 12 shows a perspective view of a lock ring that is part of the retainer assembly using the lock pin shown in Figure 11A;
[080] Figure 13 shows a perspective view of a spacer that is part of the retainer assembly using the locking pin shown in Figure 11A;
[081] Figure 14 shows a perspective view of a washer that is part of the retainer assembly using the locking pin shown in Figure 11A;
[082] Figure 15 shows a perspective view of a retaining member that forms part of the locking device with the locking pin shown in Figure 11A;
[083] Figure 16A shows a plan view of a retainer assembly that forms part of the locking device with the locking pin shown in Figure 11A.
[084] Figure 16B shows a perspective view of the retainer assembly shown in Figure 16A;
[085] Figure 17A shows a partially transparent perspective view of the locking device with the locking pin shown in Figure 11A;
[086] Figure 17B shows a cross-sectional plan view of the lock assembly shown in Figure 17A;
[087] Figure 18A shows a cut away perspective view of the locking device illustrated in Figure 17A fitted to a tooth; and
[088] Figure 18B shows an enlarged perspective view of an outer end of the lock assembly shown in Figure 18A. DETAILED DESCRIPTION OF THE INVENTION
[089] The excavator wear assembly and lockout assembly are described with reference to an excavator wear member in the form of a tooth detachably attached to an adapter. The adapter is in turn attached to a nose of an excavator bucket or similar. A skilled recipient will appreciate that the invention can be used to detachably attach a nose adapter or tooth directly to a nose of an excavator bucket flap and the like.
[090] In addition, the lock assembly can be used in other applications such as a retaining pin for components in dredge excavator excavation and the like.
[091] Figure 1A shows a perspective view of an excavator wear assembly 1000 according to an embodiment of the invention in the locked position.
[092] Figure 1B shows a side elevation view of the 1000 excavator wear assembly.
[093] Figure 1C shows an exploded perspective view of excavator wear assembly 1000 that is effectively in an unlocked position. Excavator wear assembly 1000 comprises a wear member in the form of a tooth 1100 mounted on an adapter 1200 and a lock assembly 1300 adapted to releasably secure tooth 1100 on the adapter 1200 as will be discussed in greater detail below.
[094] Adapter 1200 is suitably configured for mounting on an excavator digging edge via a 1210 adapter socket. Adapter socket 1210 is formed in a complementary shape with a nose of an excavator digging edge (not shown ).
[095] Adapter 1200 has transverse aligned openings 1221 each extending through a respective opposite side wall 1220. Transverse aligned openings 1221 are adapted to receive an adapter retaining pin (not shown) that extends through transverse aligned openings 1221 and a passageway of complementary formed adapter retaining pin in nose (not shown) to thereby retain adapter 1200 on the excavator digging edge.
[096] In addition, adapter 1200 has a pair of sidewall mounting recesses 1203 and 1204 located in a forward portion of the respective opposite sidewall 1220.
[097] Adapter 1200 further includes a post portion 1230 extending from a front portion thereof. Spike portion 1230 has converging upper and lower rear support surfaces 1231, 1232 which terminate in substantially parallel upper and lower front support surfaces 1233, 1234, respectively.
[098] A front support face 1235 is disposed between upper front support surface 1233 and lower front support surface 1234.
[099] Spike portion 1230 also has a retaining passage 1237 extending through between opposing side walls 1236 thereof. [100] Figure 2A shows a reverse perspective view of the wear member in the form of tooth 1100. Figure 2B shows a rear perspective view of tooth 1100 and Figure 2C shows a sectional perspective view of tooth 1100. [101] Tooth 1100 has a forwardly projecting working end 1101 and a socket cavity 1110 formed from converging upper and lower rear support surfaces 1111 and 1112, respectively. The upper and lower support surfaces 1111 and 1112 each terminate in substantially parallel upper and lower front support surfaces 1113 and 1114, respectively. A front support face 1115 is disposed between upper front support surface 1113 and lower front support surface 1114. [102] Support surfaces 1111, 1112, 1113, and 1114 and front support face 1115 of tooth socket 1110 are configured to be complementary with support surfaces 1231, 1232, 1233 and 1234 and front support face 1235, respectively, of spigot portion 1230 of adapter 1200. Socket cavity 1110 is adapted to receive spigot portion 1230 of adapter 1200. [103 Tooth 1100 further includes mounting lugs 1103 and 1104 extending rearwardly of tooth body 1102 from opposite sides thereof. In use, mounting lugs 1103 and 1104 are adapted to be located within mounting recesses 1203 and 1204, respectively, of adapter 1200. [104] In addition, a finger opening 1130 extends through mounting lug 1103 and an opening lock 1120 extends through opposite mounting lug 1104 as shown. In use, finger aperture 1130 and locking aperture 1120 are adapted to at least partially align with retaining passage 1237 of adapter 1200. [105] Finger aperture 1130 is generally circular in cross section and extends through mounting lug. 1103 as shown. Finger opening 1130 is generally smaller than locking opening 1120. [106] Locking opening 1120 extends through mounting lug 1104 and is formed from a receiving passage 1121 and a retaining recess 1125. locking opening 1120 may extend through the entire wall of tooth 1100. [107] Reception passage 1121 has a generally circular main portion 1122 and a pair of ramps 1124 extending over an inner face of reception passage 1121 such that each ramp 1124 starts from diametrically opposite sides of reception passage 1121 adjacent an outer end and traverses a half circumferential path over interior face of reception passage 1121 to terminate adjacent retaining recess 1125. Each ramp 1124 defines an overturned insertion face out 1124A. [108] Retaining recess 1125 has a generally circular main portion 1126 and an optional dead-end slot 1127 extending outwardly from circular main portion 1126. Circular main portion 1126 of retaining recess 1125 is concentric with through circular main portion 1122 seat 1121 with circular main portion 1126 having a relatively larger diameter thus forming a locking face 1128 at an inner end of retaining recess 1125. [109] Figure 3A shows a perspective view of locking assembly 1300 in the locked position and Figure 3B shows an exploded perspective view of locking assembly 1300. [110] Locking assembly 1300, seen more clearly in Figure 3B, comprises a locking pin 1310 and a retaining assembly 1330. Locking pin 1310 has a portion of finger 1313 extending from an end of main portion 1312 distal to a head portion 1314. Finger portion 1313 is adapted to s It is located at finger opening 1130 of tooth 1100 as will be discussed in greater detail below. [111] Figures 4A, 4B, and 4C show locking pin 1310 in greater detail. Locking pin 1310 has a main portion 1312, finger portion 1313, and head 1314, with a flange portion 1311 between main portion 1312 and head 1314. Main portion 1312 may optionally be tapered, tapering toward the portion. of finger 1313. [112] Head portion 314 has a recess 1314A therein with a runner 314B forming a groove that extends around the walls of recess 1314A. Recess 1314A is open on one side which, in conjunction with chute 1314B, can be used with pry tools as will be discussed later. Head 1314 of locking pin 1310 also has shaped portions in the form of ramps 1317 that correspond with ramps 1124 of wear member 1100. As shown in Figure 4C, head portion 1314 is formed and recess 1314A is generally rectangular, but other shapes as well. may be suitable including, for example, a recess formed generally hexagonally. Head portion 1314 is molded to mate with a locking aperture receiving portion 1120. [113] Flanged portion 1311, seen more clearly in Figure 4B, has a circumferential groove 1318 that defines side walls 1318A and 1318B. Adjacent sidewall 1318B is a tapered portion 1319 that increases in diameter from main portion 1312 of post 1310 to a larger diameter adjacent sidewall 1318B. [114] Figures 5A, 5B, and 5C show an alternative locking pin 2310 having a similar main portion 2312, finger portion 2313, and a flange portion 2311, but a distinctly different head portion 2314. Head portion 2314 , shown in more detail in Figures 5B and 5C, has a recess 2314A with a plug in the form of a cap 2314B residing therein. Although the plug is only illustrated in relation to alternate locking pin 2310, it should be noted that a plug can also be used in recess 1314A of locking pin 1310 of Figures 4A through 4C. [115] Head portion 2314 of alternative locking pin 2310 has shaped portions in the form of ramps 2317 and a pry rope in the form of a wire 2320 secured to the head portion 2314 of locking pin 2310 by means of screws 2321 which can be rotated using a 2321A tool holder. 2320 wire can be secured by other means and can be configured under cover 2314B for protection. [116] Retention assembly 1330 is shown in Figures 6A, 6B, and 6C. Retaining assembly has a retaining member 1331, a locking member in the form of a resilient locking ring 1332, a spacer in the form of a resilient sealing ring 1333, and a washer 1334. Retaining member 1331 is generally cylindrical with a 1343 opening in it. Retaining member 1331 has a first seat 1340 that receives locking ring 1332 and sealing ring 1333 and a second seat 1341 that receives washer 1334, as shown in Figure 6C. The opening 1343 retaining member 1331 has a tapered portion 1343A shown more clearly in Figures 6B and 6C. Tapered portion 1343A of retaining member 1331 corresponds with tapered portion 1319 of locking pin 1310. [117] Seal ring 1333 and washer 1334 are both annular. As can be seen in Figure 6C, lock ring 1332 is concentrically received within sealing ring 1333 and confined by washer 1334 when located on retaining member 1331. The inner diameter of lock ring 1332 is less than the diameter. interior of washer 1334 and retaining member 1331 thus extending into opening 1343 of retaining member 1331. [118] As shown in Figures 7A and 7B, locking ring 1332 has parallel side walls 1350, an outer wall 1351, and an interior wall 1336. The interior wall is chamfered, providing an interior diameter increase over most of the axial length of the locking ring. Locking ring 1332 is resilient and, as shown in Figure 7A, has an opening 1337. Locking ring 1332 has an inside diameter that is smaller than the maximum outside diameter of tapered portion 1319 of pin 1310, but larger than the outside diameter of slot 1318 of pin 1310. [119] Figures 8A and 8B show retainer assembly 1330 locked with locking pin 1310. Resilient locking ring 1332 is located around locking pin 1310 in groove 1318 of flange portion 1311. Lock pin 1310 is longitudinally locked relative to retainer assembly 1330 as side walls 1318A and 1318B prevent the smaller inner diameter of lock ring 1332 from passing through. [120] Figures 9A and 9B show tooth 1100 with retainer assembly 1330 located in retainer recess 1125 such that washer 1334 abuts locking face 1128. Dead-end slot 1127 can optionally be used with a retainer in the retainer assembly 1330 (shown in Figures 16A and 16B) to prevent rotation of retainer assembly 1330 within retainer recess 1125 if desired. [121] In an optional embodiment, retainer assembly 1330 may be permanently secured within retaining recess 1120 lock aperture 1120 of tooth 1100 by means of a chemical fastener or the like. Alternatively, retainer assembly 1330 may be integrally formed with tooth 1100. In such an embodiment, a skilled recipient will appreciate that reference to a retainer assembly or member in this specification would be a reference to a retaining portion of the wear member under the tooth shape 1100. The locking member, preferably in the form of a locking ring 1332, would be captured within the retaining portion of tooth 1100 rather than being held in place by the other components of retaining assembly 1330. , the other components, in particular the sealing ring 1333, can also be captured within the tooth retaining portion 1100. In such an embodiment retaining ring 1332, and any other retaining components (e.g. sealing ring 1333 ), attached to the retaining portion of tooth 1100 would effectively be integral parts of, and therefore replaced with, tooth 1100. [122] Locking assembly 1300 is shown. As shown in Figures 10A and 10B in the locked position with adapter 1200 and tooth 1100 being secured together by lock assembly 1300. In this position, retainer assembly 1330 is captively retained in retainer recess 1125 of tooth 1100 in view of the recess of retainer 1125 is coaxial with retainer passage 1237 of adapter 1200. In this way, the lower surface of retainer member 1331 contacts an outer face of sidewall 1236 of tang portion 1230 of adapter 1200 to thereby captively retain assembly. retainer 1330 in retaining recess 1125 of tooth 1100 as shown. Retaining pin 1310 of locking assembly 1300 is located by means of locking opening 1120, retaining passage 1237 and finger opening 1130 in the locked position to releasably retain tooth 1100 in adapter 1200. [123] As can be seen more clearly in Figure 10B, retaining member 1331 is located between the outer face of sidewall 1236 of spigot portion 1230 of adapter 1200 and locking face 1128 at an inner end of retaining recess 1125 of tooth 1100. Locking ring 1332, concentrically located sealing ring 1333, and adjacent washer 1334 are coaxially secured within retaining member 1331 with washer 1334 abutting locking face 1128 of retaining recess 1125 of tooth 1100. [124] Locking pin 1310 is located axially across the locking opening 1120 of tooth 1100, retaining member 1331, locking ring 1332, sealing ring 1333, washer 1334 and retaining passage 1237 of adapter 1200. Pin d and lock 1310 is held in place by lock ring 1332 projecting into groove 1318 of lock pin 1310. [125] Figures 11A to 18B show a lock assembly in accordance with an alternative embodiment of the invention. From Figures 11A and 11B, locking pin 3310 is shown having a finger portion 3313 extending from an end of the main portion 3312 distal to a head portion 3314. Finger portion 3313 is adapted to be located in the opening of finger 1130 of tooth 1100. [126] Instead of circumferential groove 1318 of lock pin 1310, lock pin 3310 has a substantially rectangular groove 3318 that is substantially perpendicular to the longitudinal axis of lock pin 3310. As shown more clearly in Figure 11B, rectangular slot 3318 opposite side walls 3318A and 3318B. Sidewalls 3318A and 3318B are substantially parallel to each other and are generally partially annular, separated by a flat bottom surface. [127] Adjacent to the substantially rectangular slot 3318 is a tapered portion 3319 that increases in diameter from the main portion 3312 of the stud 3310 to an adjacent larger diameter sidewall 3318B. Head 3314 of locking pin 3310 also has portions shaped in the form of protrusions 3317. Protrusions 3317 are arranged to align with ramps 1124 of wear member 1100. As shown in Figures 18A and 18B, head portion 3314 has a recess 3314A which it is generally rectangular, but other shapes would also be suitable including, for example, a recess formed generally hexagonal. [128] Figure 12 shows a locking ring 3332 that has parallel sidewalls 3350, an outer wall 3351, and an inner wall 3336. The inner wall 3336 is chamfered, providing an interior diameter increase over most of the axial length of the Lock ring 3332. Lock ring 3332 is resilient and has an opening 1337. [129] Lock ring 3332 generally has an inside diameter that is less than the maximum outside diameter of tapered portion 3319 of pin 3310. Lock ring 3332 has a tab in the form of a flattened portion 3336A that is in the form of a segment of a circle generally across the inner wall 3336 of the locking ring. The inside diameter of the locking ring 3332 is reduced by the flat portion 3336A. Correspondingly, the radial width of the locking ring 3332 is increased by the flat portion 3336A. In addition, flat portion 3336A is not chamfered like interior wall 3336, but has an interior surface that is substantially flat and perpendicular to parallel exterior walls 3350. [130] Figure 13 illustrates a spacer in the form of a partially annular sealing ring 3333. Sealing ring 3333 has an opening 3337 that corresponds with opening 1337 of locking ring 3332. Sealing ring 3333 is made of a resiliently deformable material, and is sized to coaxially receive locking ring 3332 within. [131] Figure 14 illustrates a washer 3334 that is annular. The washer is sized such that its inner diameter is generally the same as the inner diameter of the locking ring 3332 and its outer diameter is generally the same as the inner diameter of the second seat 3333. Washer 3334 has a chamfered inner surface 3334A. [132] Shown in Figure 15 is a retaining member 3331 that is generally cylindrical with a body 3331A having an opening 1343 therein. Retaining member 3331 has retainer 3335 extending outwardly from retaining member body 3331A. The retainer is shaped to fit the dead-end slot 1127 of the wear member 1100. [133] The retainer member 3331 has a first seat 3340 which receives the locking ring 3332 and the sealing ring 3333, and a second seat 3341 which receives the 3334 washer. The first seat 3340 has a protrusion 3340A that has a generally curved trapezoidal shape. Protrusion 3340A is approximately the size of openings 1337 and 3337 of locking ring 3332 and sealing ring 3333, respectively. The height of protrusion 3340A is the same as the height of first seat 3340, with an upper surface of protrusion 3340A being substantially coplanar with second seat 3341. [134] Figures 16A and 16B illustrate retaining member 3331, locking ring 3332, O-ring 3333, and O-ring 3334 (transparent) when arranged together. Retaining member 3331 receives locking ring 3334 and sealing ring 3333 in first seat 3340 with openings 1337 and 3337 being arranged around protrusion 3340A. The washer 3334, which is transparent in Figures 16A and 6B, is located on top of the locking ring 3334 and the sealing ring 3333 in the second seat 3341 of the retaining member 3331. [135] Notably, the flat portion 3336A of the ring The locking ring 3334 projects into the opening 1343 of the retaining member 3331. The protrusion 3340A of the retaining member 3331 ensures that the locking ring 3334 is located in a particular orientation so that the flat portion 3336A of the locking ring 3334 is located at a predetermined location in the opening 1343 of the retaining member 3331. In the illustrated embodiment, this predetermined location is the portion of the opening 1343 that is adjacent to the retainer 3335 of the retaining member 3331. [136] Figure 17A shows a view of the lock assembly 3300 including retaining member 3331 (transparent), locking ring 3332, and sealing ring 3333 when engaged with locking pin 3310 in a locked position. Figure 17B is a cross-sectional plan view of the lock assembly 3300 in Figure 17A. As can be seen in Figures 17A and 17B, the flat portion 3336A of the locking ring 3332 corresponds to, and is received by, the rectangular groove 3318 of the locking pin 3312. [137] The substantially flat surface of the flat portion 3336A abuts against the Bottom flat surface of rectangular slot 3318, seen most clearly in Figure 17B. Locking ring 3332 is prevented from rotating due to protrusion 3340A of retaining assembly 3331 which in turn prevents rotation of locking pin 3312 when received in the locked position, as shown in Figures 17A and 17B, by the abutment of the flat portion. 3336A of locking ring 3332 with the flat bottom surface of rectangular groove 3318 of locking pin 3312. [138] The inner diameter of locking ring 3332 is smaller than the outer diameter of locking pin 3312 around rectangular groove 3318 , causing lock ring 3332 to expand radially to receive lock pin 3312 and clamp flat portion 3336A under pressure in rectangular groove 3318. [139] Figure 18A shows a cut away view of retaining member 3331 when located in the retaining recess 1125 of wear member 1100. Retainer 3335 of retainer member 3331 can be seen located in dead-end slot 1127 of retainer recess 1125. Figure 18B shows a perspective view. increased engagement of an outer end of locking pin 1310 in locking opening 1120 of wear member 1100. [140] To retain tooth 1100 in adapter 1200, tooth 1100 is slidably mounted in adapter 1200 such that tooth 1100 is slidably mounted on adapter 1200. spigot 1230 is located within socket 1110 cavity of tooth 1100. Lock pin 1310, 3310 of lock assembly 1300, 3300 is then located adjacent to lock opening 1120. [141] In order to move the assembly keys 1300, 3300 from an unlocked position to a locked position, thereby releasably securing tooth 1100 in adapter 1200, finger portion 1313, 3313 of locking pin 1310, 3310 is first located through tooth locking aperture 1120 1100. Finger portion 1313, 3313 travels through receiving passage 1121 of locking opening 1120, aligned opening 1343, 3343 of retaining member 1331, 3331 and in retaining passage 1237 of spigot portion 1230 d and adapter 1200. [142] When locking pins 1310, 3310 are inserted into the openings in line with the main body portion 1312, 3312 of the locking pin 1310, 3310 slides relative to the locking ring 1332, 3332 to the tapered portion 1319, 3319 reaches the locking ring 1332, 3332. The inner diameter of the locking ring 1332, 3332 is smaller than the outer diameter of at least a portion of the tapered portion 1319, 3319 and therefore when the locking pin 1310, 3310 is additionally inserted tapered portion 1319, 3319 forces the resilient locking ring 1332, 3332 to deform perpendicularly to the longitudinal axis of the locking pin 1310, 3310 to allow the locking pin 1310, 3310 to pass. Lock ring 1332, 3332 deforms by expanding axially which widens opening 1337 and compresses concentric sealing ring 1333, 3333 in seat 1340, 3340 of retaining member 1331, 3331. [143] Since sidewalls 1318B, 3318B of flange portion 1311, 3311 of locking pin 1310, 3310 reach locking ring 1332, 3332 the ring contracts into groove 1318, 3318 of locking pin 1310, 3310. At this point, locking pin 1310, 3310 is releasably locked with respect to the longitudinal axis by locking ring 1332, 3332, and prevents removal of tooth 1100 from adapter 1200 as shown in Figures 10A and 10B. To allow pin 1310, 3310 to reach this point, ramps 1317 or protrusions 3317 of pin head 1314, 3314 must be aligned with corresponding ramps 1124 of tooth 1100. This can be done prior to insertion of either 1317 pin ramps or protrusions 3317 and tine ramps 1124 may engage with each other to rotate the pin axially under longitudinal insertion force when the locking pin 1310, 3310 is inserted. [144] The lockout assembly 1300, 3300 and tooth 1100 arrangements discussed above have particular advantages when it is time to replace tooth 1100 due to wear. [145] First locking pin 1310, 3310 is required to be removed. Locking pin 1310, 3310 can be removed in two ways, namely by rotation or leverage. To remove locking pin 1310, 3310, by rotation, a tool is then used to axially rotate locking pin 1310, 3310 such that ramps 1317 of locking pin 1310 or protrusions 3317 of locking pin 3310 engage with ramps 1124 of tooth 1100 to translate rotational force to longitudinal force to urge locking pin 1310, 3310 to eject out of locking opening 1120. Additionally or alternatively, locking pin 1310, 3310 can be leveraged with a tool lever. Rail 1314B (shown in relation to locking pin only 1310) can be used to acquire the pin, and the opening end of recess 1314A can be used to allow the tool to pry off another surface, such as outside tooth 1100. [146] As tooth 1310, 3310 is dragged from tooth 1100, locking ring 1332, 3332 abuts sidewall 1318B, 3318B, providing resistance to removal. With increasing removal forces, beveled inner wall 1336, 3336 of locking ring 1332, 3332 engages, and slides over, sidewall 1318B, 3318B causing resilient locking ring 1332, 3332 to expand. When locking ring 1332, 3332 expands sealing ring 1333, 3333 compresses and pin 1310, 3310 is able to be removed from the retainer assembly. An outward end of locking pin 1310, 3310 will then be available in order to drag the locking pin entirely from the aligned openings and thereby remove tooth 1100 from adapter 1200. [147] Locking pin 2310 as shown in Figures 5A to 5C, functions in the same way, but is directed to removal by prying, particularly through the use of pry handle 2320 to pry locking pin 2310 from retainer assembly 1330 and aligned openings. The pry tool may be passed under pry rope 2320 and raised off another surface, such as outside tooth 1100, to pry locking pin 2310 from its locked position. [148] Ejection of locking pin 1310, 2310, 3310 from locking opening 1120 as with locking assembly 1300, 3300 described in annex is particularly advantageous in circumstances where locking pin 1310, 2310, 3310 becomes it is cemented into retaining passage 1237 of post portion 1230 of adapter 1200 through ingress of impurities and moisture. In this regard, restraint assemblies are relatively well protected against entry. Even if impurities penetrate the locking assemblies and accumulate in the slot 1318, 3318 of locking pin 1310, 3310 they can be overcome during removal by beveled inner side 1336, 3336 of locking ring 1332, 3332 by expanding locking ring 1332, 3332 to accommodate impurities. [149] In addition, the tapered portion 1319, 3319 of the locking pin 1310, 3310 ensures that once any initial cementation is broken, the pin can be removed without any significant friction between the faces of the locking pin 1310, 3310 and the faces of the opening and passage. [150] The inventive excavator wear assembly and lock assembly for securing the tooth-shaped wear member to an adapter avoid the need for threaded components and complex parts. Thus, the invention provides an effective method of releasably securing the tooth to the adapter. [151] Throughout the descriptive report, the objective was to describe the invention without limiting the invention to any one modality or specific set of characteristics. Those skilled in the relevant art can make variations from the specific embodiments which, however, will fall within the scope of the invention. Although the invention has been described in relation to wear assemblies, it will be appreciated that the lock assembly can be applied to other systems, such as, for example, in connecting portions of dredge assemblies, and the like. [152] It will be appreciated that various other changes and modifications may be made to the described embodiments without departing from the spirit and scope of the invention. [153] In this descriptive report, where different modalities share identical characteristics, common reference numbers are used to identify identical characteristics.

权利要求:
Claims (17)
[0001]
1. A lock assembly for an excavator wear assembly, the lock assembly characterized in that it comprises: a lock pin having a flange portion and a longitudinal axis; and a retainer assembly having a locking member with a tab, the retainer assembly being adapted to receive the locking pin; wherein the locking member of the retaining assembly is adapted to deform perpendicularly to the longitudinal axis of the locking pin when the locking pin is inserted longitudinally into the retaining assembly; wherein the locking member of the retaining assembly is adapted to engage with the flange portion of the locking pin to prevent withdrawal of the locking pin from the retaining assembly when the locking assembly is in a locked position; and wherein the tab is in the form of a segment of a circle generally through an inner wall of the locking member; and the tab engages the flange portion in a manner to help prevent relative rotation therebetween.
[0002]
2. Locking assembly according to any one of claims 1, characterized in that the locking member is a resilient locking ring.
[0003]
3. Locking assembly according to claim 2, characterized in that the resilient locking ring is substantially annular with an opening.
[0004]
4. Locking assembly according to claim 2, characterized in that the locking ring is partially annular with an opening that has a circumferential extension of less than 45 °.
[0005]
5. Locking assembly according to claim 4, characterized in that the locking ring circumferentially extends approximately 330° to 340° with a respective opening of 30° to 20°.
[0006]
6. Locking assembly according to claim 2, characterized in that the tab forms a segment of an inner surface through the locking ring.
[0007]
7. Locking assembly according to claim 6, characterized in that the tab includes a substantially flat portion of the interior surface.
[0008]
8. Locking assembly according to claim 6, characterized in that the flap is a flat portion.
[0009]
9. Locking assembly according to claim 6, characterized in that the inner surface of the locking ring is chamfered except for the tab.
[0010]
10. Locking assembly according to claim 6, characterized in that the flap is located approximately 90 ° from the opening.
[0011]
11. Locking assembly according to claim 6, characterized in that the tab increases the radial width of the locking ring.
[0012]
12. Locking assembly according to claim 1, characterized in that the locking pin has a head portion.
[0013]
13. Excavator wear member for use with a locking assembly as defined in claim 1, the excavator wear member characterized in that it comprises: a locking aperture extending through a side wall of the excavator wear member, the locking opening having a receiving passage and a retaining recess; wherein, the receiving passage extends inwardly from an outer face of the side wall and the retaining recess is located on an interior face of the side wall so that the receiving passage terminates in the retaining recess; and the locking assembly retaining assembly located within the retaining recess; wherein the locking aperture and retaining assembly located in the retaining recess are adapted to receive the locking pin of the locking assembly.
[0014]
14. Locking assembly according to claim 3, characterized in that the retaining assembly includes a retaining member having a protrusion for engaging with the opening.
[0015]
15. Locking assembly according to claim 4, characterized in that the retaining assembly includes a retaining member having a protrusion for engaging with the opening.
[0016]
16. Locking assembly for an excavator wear assembly, the locking assembly characterized in that it comprises: a locking pin having a flange portion and a longitudinal axis, wherein at least a portion of the flange portion is substantially perpendicular to the longitudinal axis; and a retainer assembly having a locking member with a tab, the retainer assembly being adapted to receive the locking pin; wherein the locking member of the retaining assembly is adapted to deform perpendicular to the longitudinal axis of the locking pin when the locking pin is inserted longitudinally into the retaining assembly; and wherein the tab of the locking member is adapted to engage with the flange portion of the locking pin to prevent withdrawal of the locking pin from the retaining assembly when the locking assembly is in a locked position; and wherein the tab is in the form of a segment of a circle generally across an inner wall of the locking member and the tab engages the flange portion in a manner to help prevent relative rotation therebetween.
[0017]
17. The locking assembly of claim 16, characterized in that the retaining assembly includes a retaining member having a protrusion for engaging an opening in the locking member.

类似技术:

公开号 | 公开日 | 专利标题

BR112014013827B1|2021-05-04|excavator lock and wear member assembly

US9834909B2|2017-12-05|Excavator wear assembly

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ES2876441T3|2021-11-12|Cover to be removably attached to a head of a clamping element and tool retention system comprising a jaw and a wedge assembly that includes said cover

AU2012100452B4|2012-06-07|An excavator wear assembly

AU2013205251C1|2020-01-23|A lock assembly for an excavator wear member

同族专利:

公开号 | 公开日

PE20142050A1|2014-12-16|

IN2014KN01273A|2015-10-16|

US9476184B2|2016-10-25|

ZA201404212B|2018-12-19|

CN104105830A|2014-10-15|

CA2858626C|2021-03-16|

US20130333254A1|2013-12-19|

AU2012350166B2|2017-02-16|

AP2014007726A0|2014-06-30|

PE20190880A1|2019-06-18|

CL2014001496A1|2015-02-27|

CA2858626A1|2013-06-13|

WO2013082678A1|2013-06-13|

EP2788552A4|2016-04-20|

RU2621815C2|2017-06-07|

AU2012350166A1|2014-06-26|

CN104105830B|2018-01-12|

EP2788552A1|2014-10-15|

RU2014127694A|2016-01-27|

BR112014013827A8|2019-12-17|

BR112014013827A2|2017-06-13|

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法律状态:
2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2020-02-11| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2021-03-23| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2021-05-04| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 10/12/2012, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

AU2011905123A|AU2011905123A0|2011-12-08|An excavator wear assembly|

AU2011905123|2011-12-08|

AU2012902643A|AU2012902643A0|2012-06-22|An excavator wear assembly|

AU2012902643|2012-06-22|

PCT/AU2012/001511|WO2013082678A1|2011-12-08|2012-12-10|An excavator wear assembly|

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