AU750012B2 - Jig assembly - Google Patents

Description

<1 Our Ref: 736638 P/00/011 Regulation 3:2

AUSTRALIA

Patents Act 1990

ORIGINAL

COMPLETE SPECIFICATION STANDARD PATENT Applicant(s): Address for Service: Justoy Pty Ltd 4 Russell Road Mt Thorley Via Singleton New South Wales 2330

AUSTRALIA

DAVIES COLLISON CAVE Patent Trade Mark Attorneys Level 10, 10 Barrack Street SYDNEY NSW 2000 Jig assembly Invention Title: The following statement is a full description of this invention, including the best method of performing it known to me:- 5020 P:\WPDOCS\AMD\SPECI\736638.JUS 29/6/99 -1- JIG ASSEMBLY BACKGROUND OF THE INVENTION The present invention relates to a jig assembly, and in particular, to a jig assembly which includes a universal joint to enable precise positioning to a work piece.

DESCRIPTION OF THE PRIOR ART Various types of jig assemblies are currently known which are used to locate and hold work pieces and/or to guide cutting tools in the manufacture of various devices the servicing of machinery and other equipment, etc. In such applications, often the work to be held is of cumbersome size and/or weight and/or the work piece or tool is required to be provided in an awkward and/or fairly inaccessible location. Presently known jig assemblies usually comprise a movable frame supported on wheels) with hydraulic cylinders attached to arms, wherein the ends of the arms may be located proximal to the work by activation of the hydraulic cylinders. A number of sequential operations often have to be performed to locate such a jig in the desired position. For example, when the jig needs to be moved to a different angular disposition, it is has to be separately moved, up or down, sidewards and also back or forth. Often, in the process of moving it closer in one dimension further disalignment in one or other of the other two dimensions occurs. Consequently, the separate movement in 20 each dimension often has to be performed a number of times prior to the jig being provided S'in the desired location.

SUMMARY OF THE INVENTION The present invention seeks to provide a jig assembly which overcomes the 25 disadvantages of prior art jig assemblies.

The present invention seeks to provide a jig assembly which incorporates a universal joint in the head of the device such that alignment of the head to the desired work is enabled more expeditiously.

P:\WPDOCS\AMD\SPECI\736638.JUS -29/6/99 -2- In one broad form, the present invention provides a jig assembly, including a frame supporting a head, characterised in that the head includes a universal joint for precise positioning to a work piece.

Preferably, the universal joint comprises a ball joint.

Alternatively, but also preferably, the universal joint comprises a pair of ball joints, a first of the ball joints being a load bearing ball joint and a second of the ball joints being a guide ball joint.

Most preferably, the ball joints is/are movable by actuation of one or more hydraulic cylinder or the like.

In a preferred form, the ball joints is/are supported by at least one arm extending from a main frame member.

Also preferably, movement of the universal joint and/or jig assembly is controlled from a remote position.

In a preferred embodiment the present invention further includes a handling device for attachment to the jig assembly to enable full 3 dimensional rotations and translational control and the ability to tip a wheel motor or final drive on end for servicing or maintenance.

In one form, the handling device is a device to handle a type of earthmoving, mining, 25 or like equipment.

.o.e In a further form, the handling device is a fork lift device.

In yet a further form, the handling device is a device for handling a front wheel hub of a mining, earthmoving, or like equipment.

P:\WPDOCS\AMD\SPECI\736638.JUS 10/5/02 -3- In yet a further form, the handling device is a cylinder clamp.

In yet a further form, the handling device is a wheel motor handler for handling a wheel motor of a mining, earthmoving, or like equipment.

In a further broad form, the present invention provides an apparatus for handling heavy articles, including: a mobile base frame for movement of said apparatus over a substrate surface; a support frame extending upwards from said base frame; first alignment means, to effect side-to-side alignment relative to said support frame, said first alignment means being formed of a plate member provided substantially parallel to and spaced apart from said support frame by a pair of interconnecting members, side-to-side alignment being effected by pivotal connections provided between said support frame, said plate °member and said interconnecting members; ::second alignment means, to effect vertical alignment relative to said first alignment means, said second alignment means being formed of a pair of outwardly extending arms 15 pivotally connected to said plate member and also linked at their remote ends to form a parallelogram configuration; and, having actuation means to effect pivotal rotation of said arms relative to said plate member; and, a head supported by said second alignment means, the head including a universal joint S 20 or ball joint adapted to support said heavy article, the head able to be raised or lowered and be moved side-to-side whilst being maintained in vertical and horizontal alignment.

Preferably, said plate member of said first alignment means is moved relative to said support frame by one of more hydraulic cylinder.

•"Also preferably, vertical rotation of said head is effected by operation of a vertical rotation cylinder to cause rotation about the horizontal axis of said universal joint; and horizontal rotation of said head is effected by operation of a horizontal rotation cylinder to cause rotation about the vertical axis of said universal joint.

Also preferably, said universal joint comprises a pair of ball joints, a first of the ball joints being a load bearing ball joint and a second of the ball joints being a guide ball joint.

Also preferably, movement of at least one of said universal joint and jig assembly is controlled from a remote position.

P:\WPDOCS\AMD\SPECI\736638.JUS- 10/5/02 -3A- BRIEF DESCRIPTION OF THE DRAWINGS The present invention will become more fully understood from a following detailed description of a preferred by non-limiting embodiment thereof, described in connection with the accompanying drawings wherein Fig. 1 illustrates an isometric view of the jig assembly in accordance with the present invention; Fig. 2 shows an alternative isometric view of the assembly shown in Fig. 1, to more clearly depict the arrangement of cylinders to effect movement of the head of the assembly; Fig. 3 details the head of the assembly; Fig. 4 shows, in schematic form, the "tilt" function of the head of the device; Fig. 5 shows, in schematic form, the "turn" function of the head of the device; Fig. 6 shows, the rotation mechanism of the head of the device; 7 shows a tyre handling device attached to the jig assembly of the present invention; 15 Fig. 8 shows a fork lift device attached to the jig assembly; Fig. 9 shows a front wheel hub handler attached to the jig assembly; Fig. 10 shows a cylinder clamp device attached to the jig assembly; and, Fig. 11 shows a wheel motor handler device attached to the jig assembly of the present invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS .1" Throughout the drawings like numerals will be used to identify similar features, except where expressly otherwise indicated.

As shown in the drawings, and in particular, in Figs. 1 to 3, a jig assembly, generally designated by the numeral 1, comprises a support frame 2 and a head 3.

P:\WPDOCS\AMD\SPECI\736638.JUS- 10/5/02 -4- The frame may include a platform like member 4 which may for example be provided on wheels, on a vehicle, or. the like, such that it is optionally movable. The device may alternatively be attached to the front end of a loader. Supported on the platform 4 is an upward support frame 5. A first alignment means, to effect side-to-side alignment relative to the support frame 5 is attached thereto. The alignment means, generally designated by the numeral 21 includes a plate member 24 which remains substantially parallel to and spaced apart from the support frame 5 by a pair of interconnecting members 22 and 23. The members 22 and 23 are pivotally connected to the support frame 5 and plate member 24 parallel to the frame Relative movement may be enabled by hydraulic cylinders or the like. The upper end of the support member 24 has one or more arms 6 extending therefrom. The arms 6, in this case upper arms 7 and lower arms 8, are pivotally connected to the upright frame portion 5 at pivot points 9 and 10 respectively. Movement of the arms 7 and 8 may be effected by operation of one or more hydraulic cylinder such that the head 3 may be moved as desired and be precisely positioned in the transverse and longitudinal directions to be provided adjacent to a work piece, as required. The head comprises a main load bearing ball joint 11 and a guide ball joint 12 supporting the jig attachment 13. It will be understood that by movement of the ball joints 11 and 12, any desired positioning of the jig attachment 13 may be enabled three dimensionally by activation of appropriate cylinders. Details of the operation of cylinders which may be attached to the ball and socket joints are shown in Figs. 4 to 6, with Fig. 4 illustrating a "tilt" function, S 20 Fig. 5 illustrates a turn function of the head components and Fig. 6 illustrating the rotation mechanism. Upwards, downwards, inwards, outwards and sideways movement may therefore i be effected by activation of appropriate hydraulic cylinders or the like.

In Fig. 4 is detailed, in schematic form, the "tilt" function. Fig. 4(a) shows a neutral position of the two cylinders 14 and 15, whilst Fig. 4(b) illustrates the cylinders 14 and retracted such that a rearward tilt is achieved, and Fig. 4(c) shows how cylinders 14 and 15 are extended to achieve a forward tilt of head 17. Fig. 4(d) illustrates schematically the double parallelogram configuration which enables for the head to be raised and lowered without any lift head tilt angle deviation in the neutral position.

In Fig. 5 is detailed, in schematic form, the "turn" function. Fig. 5(a) is shown the neutral position, wherein the right and left cylinders, 14 and 15, are both at mid stroke, whilst g 5(b) shows the right cylinder 14 retracted and the left cylinder extended to tilt the P:\WPDOCS\AMD\SPECI\736638.JUS 29/6/99 lift head 17 right, and, Fig. 5(c) shows the right cylinder extended and the left cylinder retracted to achieve a left turn of the head 17. Fig. 5(d) shows an isometric view of the schematic control mechanism, with the rotation mechanism omitted for clarity.

In Fig. 6 is detailed the rotation mechanism of the assembly of the present invention.

The rotation mechanism undergoes movement illustrated schematically by the third parallelogram 19. This parallelogram constrains both the control cylinder mounts and the small ball to rotate about the centre of the main ball in the directions illustrated by arrow For rotational movement only, the control cylinders 14 and 15 remain at a fixed extension to maintain both the "tilt" and "turn" constant. The third parallelogram is hence rotated by extension or retraction of rotation cylinder 16. This third parallelogram 16 exerts a transverse load through the small ball 12 to produce a torque about the main ball 11 to effect rotation shown by arrows Figs. 7 to 11 show various devices attached to the jig assembly 1 of the present invention.

In Fig. 7, a tyre handler device is connected to the head of the jig assembly, with Fig.

7(a) showing an isometric view, Fig. 7(b) showing a front view, Fig. 7(c) showing a top view 20 and Fig. 7(d) showing a side view. As will be appreciated, the jig assembly is particularly useful for changing such tyres of large dimensions of earthmoving, mining and other equipment.

In Fig. 8, a fork lift device is shown attached to the head of the jig assembly. Fig.

25 8(a) illustrates an isometric view of the fork lift apparatus, Fig. 8(b) illustrates a front view, ooo, Fig. 8(c) shows a top view and Fig. 8(d) shows a side view with the fork lift in both an elevated and lowered position. Such a fork lift has advantages over conventional fork lift ,i devices in that fine adjustment of the positioning of the fork lift attachment is more readily made without the necessity to relocate the entire assembly.

P:\WPDOCS\AMD\SPECI\736638.jUS 29/6/99 -6- In Fig. 9, a front wheel hub handling, typically useful in servicing earthmoving and mining equipment is illustrated, with Fig. 9(a) showing an isometric view, Fig. 9(b) showing a front view, Fig. 9(c) showing a top view and Fig. 9(d) showing a side view.

In Fig. 10, a cylinder clamp attachment is shown attached to the jig assembly of the present invention, Fig. 10(a) showing an isometric view, Fig. 10(b) showing a front view, Fig. 10(c) showing a top view and Fig. 10(d) showing a side view. It will be appreciated that the cylinder can be grasped and moved as desired for servicing and the like.

Fig. 11 illustrates a wheel motor handler shown attached to the jig assembly of the present invention. Firstly, in Figs. 11(a) to 11(d) is illustrated various views of the wheel motor attached to a handler base which can be used as a transportation pallet, with Fig. l(a) showing an isometric view, Fig. l(b) showing an end view, Fig. 11(c) showing a side view, and Fig. l(d) showing another side view with the base tipped onto one end useful for servicing or maintenance. Figs 11(e) to 11(g) then show the wheel motor and its associated handler base attached to the jig assembly, with Fig. 11(e) showing an isometric view of the assembly with the wheel motor rotated foward, Fig. 11(f) showing a side view of the assembly with the wheel motor rotated forward and Fig. 11(g) showing a side view with the wheelmotor rotated backwards. Figs. 11l(h) to 11(k) then show further views of the wheel motor handler device connected to the jig assembly, but with the wheel assembly and its handler base rotated in an orthogonal direction to that shown in Figs. l(e) to That is, Fig. 11l(h) shows an isometric view, Fig. 11l(i) shows a front view, Fig. 1l1(j) shows a top view and Fig. 11l(k) shows a side view.

25 The advantage of the present invention is primarily achieved by use of one or more .o.o ball joints, as illustrated. Two joints are utilised in the present embodiment, one as the load bearing joint, and one as a guide. It will however be appreciated by persons skilled in the *art, that these may be embodied in one universal joint. Other types of universal joint may be used, however, it is anticipated that a ball and socket type joint whereby a ball is embraced by spherical cup like device is the preferred type of universal joint to permit the required P:\WPDOCS\AMD\SPECI\736638.JUS 29/6/99 -7relative angular movement it any plane.

It will be appreciated that the present invention is particularly useful for holding tools, or for holding heavy and awkwardly positioned work pieces during repair/ maintenance/installation.

Whilst the present invention has been hereinbefore described with reference to a particular embodiment, it will be understood that numerous variations and modifications will be envisaged by persons skilled in art. All such variations and modifications should be considered to fall within the scope of the invention as broadly hereinbefore described and as hereinafter claimed.

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Claims (5)

1. 8- The claims defining the present invention are as follows: 1. A jig assembly, including a frame supporting a head, characterised in that the head includes a universal joint for precise positioning to a work piece. 2. A jig assembly as claimed in claim 1, wherein said universal joint comprises a ball joint. 3. A jig assembly as claimed in claims 1 or 2, wherein said universal joint comprises a pair of ball joints, a first of the ball joints being a load bearing ball joint and a second of the ball joints being a guide ball joint. 4. A jig assembly as claimed in any one of claims 1 to 3, wherein said ball joints is/are movable by actuation of one or more hydraulic cylinder or the like. 5. A jig assembly as claimed in any one of claims 1 to 4, wherein said ball joints is/are supported by at least one arm extending from a main frame member. 6. A jig assembly as claimed in any one of claims 1 to 5, wherein movement of said universal joint and/or jig assembly is controlled from a remote position. 9*e# S 20 7. A jig assembly as claimed in any one of claims 1 to 6, wherein a handling device is attached thereto to enable three-dimensional rotational and translational control. 8. A jig assembly as claimed in claim 7, where said handling device is a device for handling a tyre, a fork lift attachment, a front wheel hub, a cylinder, a wheel motor, or other like device typically used in mining, earthmoving or like equipment.
2. 9. An apparatus for handling heavy articles, including: a mobile base frame for movement of said apparatus over a substrate surface; a support frame extending upwards from said base frame; first alignment means, to effect side-to-side alignment relative to said support frame, a st alignment means being formed of a plate member provided substantially parallel to and P:\WPDOCS\AMD\SPECI\736638.JUS- 10/5/02 -9- spaced apart from said support frame by a pair of interconnecting members, side-to-side alignment being effected by pivotal connections provided between said support frame, said-plate member and said interconnecting members; second alignment means, to effect vertical alignment relative to said first alignment means, said second alignment means being formed of a pair of outwardly extending arms pivotally connected to said plate member and also linked at their remote ends to form a parallelogram configuration; and, having actuation means to effect pivotal rotation of said arms relative to said plate member; and, a head supported by said second alignment means, the head including a universal joint or ball joint adapted to support said heavy article, the head able to be raised or lowered and be moved side-to-side whilst being maintained in vertical and horizontal alignment. An apparatus as claimed in claim 9, wherein said plate member of said first alignment means is moved relative to said support frame by one of more hydraulic cylinder.
3. 11. An apparatus as claimed in claim 9 or 10, wherein: vertical rotation of said head is effected by operation of a vertical rotation cylinder to cause rotation about the horizontal axis of said universal joint; and horizontal rotation of said head is effected by operation of a horizontal rotation cylinder *to cause rotation about the vertical axis of said universal joint. 12 The apparatus defined in claim 9, wherein said universal joint comprises a pair of ball joints, a first of the ball joints being a load bearing ball joint and a second of the ball joints being a guide ball joint.
4. 13. The apparatus defined in claim 9, wherein movement of at least one of said universal joint and jig assembly is controlled from a remote position.
5. 14. A jig assembly, substantially as herein described with reference to the accompanying P:\WPDOCS\AMD\SPEC1\736638.JUS 10/5/02 10 An apparatus for handling heavy articles, substantially as herein described with reference to the accompanying drawings. DATED this 10th day of May, 2002 JUSTOY PTY LIMITED By Their Patent Attorneys DAVIES COLLISON CAVE 0:00