LOCKING ASSEMBLY FOR A SHROUD FOR A GROUND ENGAGING TOOL

Abstract

A locking assembly is arranged for releasably locking a shroud to a carrier. The locking assembly includes a main body, a piston and a bolt provided with a thread engaging a corresponding thread of the piston for controlling the position of the piston relative to the main body. The locking assembly also includes a retaining arrangement including a plurality of balls securing the bolt within a central recess of the main body.

Claims

1. A locking assembly for releasably locking a shroud to a carrier, the locking assembly comprising: a piston; a main body provided with a through central recess arranged for receiving the piston such that the piston is movable back and forth along a longitudinal axis of the recess with an outer end portion of the piston extending outside the central recess of the main body; a bolt provided within the central recess, wherein the bolt includes a shank and a gripping portion extending through a first end opening of the central recess such that the gripping portion is accessible from outside the main body for rotation of the bolt, wherein at least a portion of the shank is provided with a thread engaging a corresponding thread of the piston, wherein the bolt is provided with a first bearing surface facing a corresponding second bearing surface of the main body, wherein the first and second bearing surfaces are configured such that when the bolt is rotated to force the piston out of the central recess, the first bearing surface of the bolt bears against the second bearing surface of the main body thereby preventing movement of the bolt in a first direction along the longitudinal axis; and a retaining means arranged for preventing movement of the bolt in a second direction opposite the first direction, wherein the retaining means is provided in the central recess with an outer surface of the retaining means facing an inner surface of the central recess, wherein the outer surface of the retaining means is provided with a first recess extending at least partly around a circumference of the retaining means, wherein the inner surface of the central recess is provided with a second recess extending at least partly around a circumference of the inner surface of the main body, wherein the first recess and the second recess jointly define an intermediate space arranged for receiving a plurality of balls distributed about the longitudinal axis such that the plurality of balls limit movement of the retaining means in the second direction relative to the main body, and wherein the retaining means is either integrated with the bolt, or provided as a separate part positioned around the shank of the bolt and arranged to limit movement of the bolt relative to the retaining means in the second direction.

2. The locking assembly according to claim 1, wherein the first recess and the second recess are shaped and positioned to allow the plurality of balls a predetermined amount of axial movement along the longitudinal axis relatively relative to the main body and/or relative to the retaining means, such that the plurality of balls are not axially loaded when the first bearing surface touches the second bearing surface.

3. The locking assembly according to claim 1, wherein the retaining means and the bolt are configured to allow a predetermined axial play between the bolt and the retaining means when the first bearing surface touches the second bearing surface.

4. The locking assembly according to claim 1, wherein the main body or the bolt is provided with a passage connecting the intermediate space to an outside of the locking assembly such that the plurality of balls are movable into the intermediate space through the passage.

5. The locking assembly according to claim 4, wherein the passage is provided with a closure means arranged for closing the passage.

6. The locking assembly according to claim 1, wherein the main body and the piston are provided with corresponding guide means configured such that the piston is guided for movement along the longitudinal axis and such that the piston is prevented from co-rotating with the bolt.

7. The locking assembly according to claim 6, wherein the guide means includes at least one protrusion provided on the piston and extending radially outwards from the piston, wherein the main body is provided with at least one support surface or recess extending parallel to the longitudinal axis, and wherein the support surface or recess is configured to guide the protrusion along the longitudinal axis and to prevent rotation of the piston.

8. A shroud system for a carrier, the shroud system comprising: a shroud; a locking assembly according to claim 1; and a lug or boss attachable to the carrier to provide a means for the piston of the locking assembly to engage such that the main body moves relative to the lug or boss upon rotation of the bolt.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0024] FIG. 1 shows a prior art shroud and a corresponding prior art locking assembly for releasably locking the shroud to a carrier.

[0025] FIG. 2 shows the prior art shroud and the locking assembly also shown in FIG. 1 with the shroud positioned on the carrier.

[0026] FIG. 3 shows with semi-transparent parts a first embodiment of a new locking assembly.

[0027] FIG. 4 shows a shroud and a carrier for use with the locking assembly also shown in FIG. 3. An arrow indicates the shroud being forced onto the carrier.

[0028] FIGS. 5-7 show the locking assembly also shown in FIG. 3, together with the shroud and the carrier also shown in FIG. 4, in different stages of mounting and dismounting of the shroud to the carrier.

[0029] FIG. 5 shows insertion of the locking assembly into a corresponding opening of the shroud.

[0030] FIG. 6 shows rotation of the bolt of the locking assembly for extension of the locking assembly in order to force the shroud further onto the carrier towards its mounted use position.

[0031] FIG. 7 shows dismounting of the shroud by rotation of the bolt in the opposite direction to the direction shown in FIG. 6, wherein the main body of the locking assembly abuts an outer portion of the shroud to force it off the carrier.

[0032] FIG. 8 shows the retaining means of the locking assembly with the main body shown in cross section for revealing the passage through which the balls have been introduced into the intermediate space of the retaining means and with the closure means shown in exploded state as indicated by the arrows.

TABLE-US-00001 1 locking assembly 2 shroud 3 carrier 4 piston 5 main body 6 bolt 7 gripping portion 8 first end opening 9 first bearing surface 10 second bearing surface 11 longitudinal axis 12 retaining means 13 intermediate space 14 balls 15 passage 16 protrusion of guide means 17 support surface of guide means 18 lug or boss 19 protruding portion of main body D1 first direction D2 second direction PA30  Prior art locking assembly PA110 Prior art locking assembly - exploded view

DETAILED DESCRIPTION

[0033] A locking assembly 1 according to a first embodiment will hereinafter be described with reference to the appended drawings.

[0034] As for example shown in FIGS. 3 and 5, the locking assembly 1 is for use with a shroud and a carrier and works on the same principle as the prior art locking assembly PA-110 shown in FIGS. 1 and 2.

[0035] The locking assembly 1 is for releasably locking the shroud 2 to a carrier 3. Mounting of the shroud to the carrier using the locking assembly is illustrated in FIGS. 4-6

[0036] The locking assembly 1 comprises a piston 4 and a main body 5 provided with a through central recess for receiving the piston 4 such that the piston 4 is movable back and forth along a longitudinal axis 11 of the central recess with an outer end portion of the piston 4 extending outside the central recess of the main body 5. The locking assembly 1 further comprises a bolt 6 provided within the central recess, wherein the bolt 6 comprises a shank and a gripping portion 7 extending through a first end opening 8 of the central recess such that the gripping portion 7 is accessible from outside the main body 5 for rotation of the bolt 6. At least a portion of the shank is provided with a thread engaging a corresponding thread of the piston 4. Also, the bolt 6 is provided with a first bearing surface 9 facing a corresponding second bearing surface 10 of the main body. The first 9 and second 10 bearing surfaces are configured such that when the bolt 6 is rotated to force the piston 4 out of the central recess, the first bearing surface 9 of the bolt bears against the second bearing surface 10 of the main body 5 thereby forcing the main body in a first direction D1 along the longitudinal axis 11. The locking assembly 1 further comprises a retaining means 12 (see FIG. 3) for preventing movement of the bolt 6 in a second direction D2 (see FIG. 6) opposite the first direction D1. The retaining means 12 is provided in the central recess with an outer surface of the retaining means facing an inner surface of the central recess. The outer surface of the retaining means 12 is provided with a first recess extending at least partly around the circumference of the retaining means 12, wherein the inner surface of the central recess is provided with a second recess extending at least partly around the circumference of the inner surface of the main body 5, wherein the first recess and the second recess jointly define an intermediate space 13 for receiving a plurality of balls 14 distributed about the longitudinal axis such that the balls 14 limit movement of the retaining means 12 in the second direction D2 relative to the main body 5. In this embodiment the retaining means 12 is provided as a separate part positioned around the shank of the bolt 6 and adapted to limit movement of the bolt 6 relative to the retaining means 12 in the second direction D2. However, the retaining means 12 could in other embodiments alternatively be integrated with the bolt 6, for example attached to the bolt or integrally formed with the bolt.

[0037] The retaining means 12 and the bolt 6 are configured to allow a predetermined axial play between the bolt 6 and the retaining means 12 when the first bearing surface 9 touches the second bearing surface 10. The play ensures that the retaining means 12 is not loaded when the locking assembly 1 forces the shroud 2 onto the carrier 3 upon mounting of the shroud 2 to the carrier 3.

[0038] The main body 5 or the bolt is provided with a passage 15 connecting the intermediate space 13 to the outside of the locking assembly 1 such that the plurality of balls 14 are movable into the intermediate space 13 through the passage 15 for assembly of the locking assembly 1. After the balls 14 have been inserted into the intermediate space, the passage 15 has been provided with a closure means 18 for preventing balls 14 from leaving the intermediate space 13 through the passage 15. The closure means 18 is shown in FIG. 7 exploded from its mounted position in the passage 15. In this embodiment, the closure means 18 is a metal plug which is welded in place. However, other materials and means of attaching the plug may alternatively be provided in other embodiments. Also, the closure means 18 may alternatively instead of being welded in place, be removable such as to enable easy access to the passage for removal or lubrication of the balls 14.

[0039] As shown in FIGS. 3 and 6p, the main body 5 and the piston 4 are provided with corresponding guide means 16, 17 configured such that the piston 4 is guided for movement along the longitudinal axis 11 and such that the piston 4 is prevented from rotating about the longitudinal axis 11 relative to the main body 5. The guide means comprises at least one protrusion 16 provided on the piston 4 and extending radially outwards from the piston 4. The main body 5 is provided with a left and a right support surface 17 provided on a respective left and right protruding portion 19 and/or by the ‘overhang’ of the main body availing the support surfaces 17. In other embodiments, one or more recesses may be provided instead of the protrusions in order to instead provide the support surface(s) 17 inside the recesses. Preferably, such recesses would extend parallel to the longitudinal axis 11 although the recesses or the protrusions 19 could be slightly curved as long as co-rotation of the piston at rotation of the bolt 6 is prevented and longitudinal displacement is allowed. Hence, the support surface 17 or recess is configured to guide the protrusion 16 along the longitudinal axis 11 and to prevent rotation of the piston 4.

[0040] Instead of, or in addition to, providing a predetermined axial play between the retaining means 12 and the bolt 6, the first recess and the second recess may alternatively be shaped and positioned to allow the balls 14 a predetermined amount of axial movement along the longitudinal axis 11 relatively the main body 5 and/or relatively the retaining means 12, such that the balls 14 are not axially loaded when the first bearing surface 9 touches the second bearing surface 10.

[0041] In an embodiment according to the second aspect, a shroud system is provided, wherein the shroud system comprises the shroud 2, the above described locking assembly 1, and a lug or boss 18 attachable to the carrier 3 to provide a means for the piston 4 of the locking assembly 1 to engage such that the main body 5 moves relative to the lug or boss 18 upon rotation of the bolt 6. The lug or boss 18 is shown in cross-section in FIGS. 4-6. The lug or boss 18 has a central recessed portion for receiving an outer portion of the piston 4 of the locking assembly 1 in an insertion direction shown by the large arrow in FIG. 5. Also, the lug or boss 18 and the outer portion of the piston 4 are provided with respective mating protrusions and recesses configured to engage at insertion of the locking assembly 1 along the insertion direction and then prevent relative displacement between the piston 4 and the lug or boss 18 along the longitudinal axis 11.

[0042] At mounting of the shroud 2 to the carrier 3, the shroud 2 is first moved onto the carrier 3 as shown in FIG. 4. Once the central recess of the shroud 2 is aligned with the lug or boss 18 provided on the carrier 3, the locking assembly 1 is inserted into the central recess of the shroud 2 as shown in FIG. 5. The outer portion of the piston 4 of the locking assembly 1 engages the lug or boss 18 upon insertion. The locking assembly 1 is subsequently expanded by rotation of the its bolt 6 as shown in FIG. 6. Upon expansion/elongation of the locking assembly 1, the locking assembly 1 pushes apart the lug or boss 18 and the shroud 2 to force the shroud 2 further onto the carrier 3 to bring the shroud 2 into its final use position. The shroud 2 seats against the carrier 3 in a fixed use position. Also, the locking assembly 1 uses its first and second bearing surfaces 9, 10 to transfer force from the bolt 6 to the shroud 2 and thus provides a very robust design capable of handling the large stresses involved at use of the carrier 3. It should be understood that the retaining means 12 would most likely not be able to cope with such high forces as those involved at use of the carrier 3 and hence the design provides for the retaining means 12 to be substantially unloaded in use, thereby preventing damage to the retaining means 12.

[0043] Sometimes it is necessary to remove the shroud 2 for replacement or service. Merely loosening the locking assembly 1 by reducing its length by rotation of its bolt 6 would not release the shroud 2 which is typically held in place by substantial frictional forces. An advantage of the present locking assembly 1 is that it can be used to force the shroud 2 off the carrier 3. The outer portion of the piston 6 engages the lug or boss 18 and the retaining means 12 keeps the bolt 6 inside the main body 5 at rotation of the bolt 6. This enables the locking assembly 1 to force the main body 5 towards the lip of the carrier 3 until the main body 5 eventually forces the shroud 2 outwards as shown in FIG. 7. It should be noted that the bolt 6 is rotated the opposite direction to the rotational direction shown in FIG. 6. Also, it should be noted that the bolt 6 now transfers force to the main body 5 via the retaining means 12 and not via the first and second bearing surfaces 9, 10. Prior art locking assemblies not exhibiting the present retaining 12 means sometimes fail due to the large forces involved when trying to force a shroud off a carrier. The present locking assembly 1 has a very robust retaining means 12 capable of coping with larger forces than prior art locking assemblies and therefore reduce the risk of failure at dismounting of a shroud from a carrier.

[0044] Plastic, rubber or elastomer covers may be mounted on the shroud for protection of the locking assembly. The provision of such covers lowers the risk of having foreign particles, such as dust and dirt, entering the locking assembly 1 and also protects the gripping portion of the bolt 6 from external abuse. Altogether, this improves lifetime of the locking assembly 1 whilst still being easy to remove such that the gripping portion can be operated for dismounting the shroud 2 from the carrier 3.