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AU646330B2 - Conveyor trolley wheel assembly - Google Patents
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AU646330B2 - Conveyor trolley wheel assembly - Google Patents

Conveyor trolley wheel assembly Download PDF

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Publication number
AU646330B2
AU646330B2 AU13270/92A AU1327092A AU646330B2 AU 646330 B2 AU646330 B2 AU 646330B2 AU 13270/92 A AU13270/92 A AU 13270/92A AU 1327092 A AU1327092 A AU 1327092A AU 646330 B2 AU646330 B2 AU 646330B2
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AU
Australia
Prior art keywords
shaft part
wheel
wheel body
shaft
configuration according
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
AU13270/92A
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AU1327092A (en
Inventor
Russell Mcmullen
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
VFV Polymers Pty Ltd
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VFV Polymers Pty Ltd
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Filing date
Publication date
Application filed by VFV Polymers Pty Ltd filed Critical VFV Polymers Pty Ltd
Priority to AU13270/92A priority Critical patent/AU646330B2/en
Publication of AU1327092A publication Critical patent/AU1327092A/en
Application granted granted Critical
Publication of AU646330B2 publication Critical patent/AU646330B2/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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  • Automobile Manufacture Line, Endless Track Vehicle, Trailer (AREA)
  • Sliding-Contact Bearings (AREA)

Description

nPI DATE 15/09/92 APPLN. ID 13270 9?, lI AOJP DATE 29/10/92 PCT NUMBER PCT/A1192/00079 i N TREATY (PCT) INTERN (51) International Patent Classification 5 (11) International Publication Number: WO 92/14665 17/32 Al (43) International Publication Date: 3 September 1992 (03.09.92) (21) International Application Number: PCT/AU92/00079 (74) Agent: WATERMARK; 2nd Floor, The Atrium, 290 Burwood Road, Hawthorn, VIC 3122 (AU).
(22) International Filing Date: 25 February 1992 (25.02.92) (81) Designated States: AT (European patent), AU, BE (Euro- Priority data: pean patent), CA, CH (European patent), DE (Euro- PK4801 26 February 1991 (26.02.91) AU pean patent), DK (European patent), ES (European pa- PK 8691 2 October 1991 (02.10.91) AU tent), FR (European patent), GB (European patent), GR (European patent), IT (European patent), JP, KR, LU (European patent), MC (European patent), NL (Euro- (71) Applicant (for all designated States except US): VFV PO- pean patent), SE (European patent), US.
LYMERS PTY. LTD. [AU/AU]; 20 Albert Street, East Brunswick, VIC 3057 (AU).
Published (72) Inventor; and With international search report.
Inventor/Applicant (for US only) McMULLEN, Russell Before the expiration of the time limit for amending the [AU/AU]; 20 Albert Street, East Brunswick, VIC 3057 clai,as and to be republished in the event of the receipt of amendments.
646330 (54)Title: CONVEYOR TROLLEY WHEEL ASSEMBLY (57) Abstract 18 An improved wheel configuration is disclosed herein for use in a conveying system consisting of a 23 11 solid wheel body (11) produced from a high temperature resistant hard wearing polymer material, the wheel 19 body being carried rotatably on a shaft member (13, 24 28, 39, 46) which in turn is mounted from a support member (16) adapted to carry some desired object over 22 a path defined by the conveying system, the shaft member (13, 28, 39, 46) and a retaining element (14, 45) 27 forming a connection which defines a predetermined length of said shaft member on which the wheel body 26 is carried without axial pressure being applied to said wheel body (11) such that rotation of said wheel body (11) would be impaired, 13 21 23 24 19 16 I I r I WO 92/14665 PCr/A U92/O0079 1 646330 CONVEYOR TROI PY W FI ASSFMBLY The present invention relates to improvements in rollers for use in conveying equipment, particularly of the type adapted to convey manufactured parts through a series of manufacturing stages.
Commonly conveying equipment of this type is often used to convey parts into and out of ovens where paint or the like might be dried or cured. Thus the conveying equipment must also be capable of withstanding the environmental conditions through which such parts are moved. In one configuration, rollers of the aforementioned kind consist of a metal wheel adapted to rotate and roll on a suitable guide track with a hanger 1 0 element depending therefrom which carries the part to be transported. Commonly two such wheels might be located oppositely disposed with their respective hangers commonly joined and carrying the part to be transported. There are numerous other forms of similar conveyors where there is some form of wheel assembly or combination arranged in use to roll in, on, over or around a metal guide track of a desired formation.
1 5 For example there are known arrangements comprising pairs of wheels journalled on a support structure with adjacent support structures interconnected by universal pivoting joints. The pairs of wheels may in some situations be arranged such that adjacent pairs have their axes of rotation generally at right angles to one another. These assemblies are often used when lighter loads are to be carried and perhaps tighter curves in the desired track are required. In such arrangements heavier loads can be accommodated by adding wheel pairs to the assembly. Commonly conveying arrangements as aforesaid, whatever, the combination or configuration, have traditionally used metal wheels with some form of bearing that required lubrication.
The lubrication normally being supplied periodically by application of a grease gun to a grease nipple provided for the purpose. When such roller wheels pass into and out of ovens operating at temperatures often in excess of 400 0 F, there is considerable strain placed on the lubricating performance of the grease. In addition, in some conveying systems, the supporting wheel combinations may be required to travel through refrigeration areas or the like where very cold temperatures can be experienced which provide a further factor affecting wheel and lubricant performance. As a result very expensive greases must be used. Despite this, even the best greases available for use in hot temperature zones have temperature capabilities just above the usual oven operating temperatures and can fall in unusual conditions, i.e, being stalled in the oven zone for a longer than usual time, Of course there are also situations where conveyor systems operate in ambient or near ambient temperature conditions, Often one or more people 2 can be continuously employed to supply grease to the rollers or wheels as they pass a certain point in the conveying system so that grease is used in such cases at a reasonably high rate. The operators can, however, occasionally overfill the roller wheels with grease and this can lead to ceasure of the wheels. Finally, metal wheels rolling on metal guide tracks have the disadvantage of creating substantial and unwanted noise. There are, therefore, a substantial number of problems with these existing wheels.
The objective of the present invention is, therefore, to provide a wheel assembly for conveyor systems of the aforementioned kind which will avoid the need of lubrication such as grease and thereby overcome or substantially minimize some if not all of the foregoing difficulties with presently used metal wheel systems.
According to one aspect of the present invention there is provided a wheel configuration for use in a conveying system comprising a guide track in or on which the wheel configuration for use in a conveying system comprising a guide track in or on which the wheel configuration is adapted to roll, said wheel configuration being adapted to be mounted from support means which in turn is intended to carry a load along said guide track, said wheel configuration including shaft member means adapted to be connected to said support means, a wheel body formed of polymer materials having an outer peripheral surface adapted to roll along said guide track, dry bearing means axially extending between said shaft member means and said wheel body, said bearing means having an inherent dry coefficient of friction adapted to permit rotation of said dry bearing means on said shaft member means whereby said wheel body rotates during rolling along said guide track, first retainer means being provided at an outboard end (relative to said support means) of said shaft member means radially extending therefrom to retain said wheel body on said shaft member means, and connection means cooperating with said shaft member means positively preventing axial pressure being applied to radial faces of said wheel body beyond a predetermined limit permitting operational rotation of said wheel body when assembled.
'"In one preferred arrangement, a second retainer means is provided at an Inboard end of said shaft member whereby the wheel body is retained between the two retainer members. Alternatively, the support means itself may form a retainer on the inboard side of the wheel body.
In a further preferred arrangement, the shaft member may include a plain bearing in tubular form located between an inner shaft part and the inner peripheral surface of said wheel body. Preferably the plain bearing is produced from a material having an inherent low dry coefficient of friction adapted to permit relative movement 7
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"0 2a between appropriate surfaces to allow rotation of the wheel body without the use of any liquid or semi liquid lubricant materials. A suitable solid material of this type might be a PTFE (Polytetrafluoroethylene) based plastics material, the constituents being ~1 WO 92/14665 PCT/AU92/00079 3 selected dependant upon the end use of the wheel configuration. In a particularly preferred arrangement, for either high or low temperature operation, the aforesaid plain bearing may further include radial flanges adapted to be positioned between substantially stationary radial surfaces on either side of the wheel body and the wheel body itself. These stationary radial surfaces may be formed by inner surfaces of the retainer means or perhaps on the support means. Conveniently a plain bearing of the aforesaid configuration will be split along its length, preferably at its mid point such that each half is identical.
In a still further preferred embodiment, solid particulate lubricant materials (such as graphite) may be included in the formulation of the plastics material forming the wheel body whereby the wheel body itself will readily rotate on the shaft member without the need to use liquid or semi liquid lubricants.
Accordingly to a second aspect, the present invention provides a wheel assembly comprising a wheel body, a metal shaft and a solid bearing located between said shaft and said wheel body. Conveniently the wheel body is a high temperature resistant, hard wearnn plastics material. The wheel body may for example be made from a composite material based on a high temperature resin bound and reinforced with fibre or fibre laminates. The resin may be high temperature epoxy or phenolic resin and the fibres may be aramid fibres e, fibre laminates.
Preferably the solid bearing is produced from a blend of PTFE (polytetrafluorethylene) and minerals which are selected for high temperature bearing use. The solid bearing may conveniently comprise an annular section having radially extending end regions located at either end, the end regions being engaged by radially extending flanges of the metal shaft. The solid bearing thereby is provided with axially extending and radially extending bearing surfaces between the metal shaft and its end flanges and the bearing material.
In a particularly preferred embodiment the bearing is formed by a pair of bearing half parts of substantially the same shape each having one of the radially extending regions. In this manner the bearing half parts might in use be swapped about to accommodate possible uneven wear and thereby extend the operational life of the assembly, Moreover, if one part becomes damaged, the part might be readily replaced without having to replace the whole bearing.
Several preferred embodiment will hereinafter be described with reference to the accompanying drawings, in which: Figure 1 is a side view of a wheel assembly and hanger in combination; i l WO 92/14665 PCT/AU92/00079 4 Figure 2 is a longitudinal cross-sectional view through the wheel region of the assembly shown in Figure 1; Figure 3 is a view similar to Figure 1 showing an alterntive embodiment; Figure 4 is a longitudinal cross-sectional view through the wheel region of the assembly shown in figure 3; Figures 5 to 11 are cross-sectional views through wheel assemblies of alternative preferred embodiments.
With regard to Figures 1 and 2, the wheel assembly and hanger combination comprises a wheel assembly 10 including a wheel body 11, a solid bearing 12, metal 1 0 shaft 13, a fastening screw or bolt element 14, and a hanger 15. The hanger 15 includes a depending section 16 which operates with another similarly constructed assembly to carry a part through a series of manufacturing steps. In use the pair of wheel bodies roll on an appropriate guide track (not shown) to achieve this desired transport of the part.
The wheel assembly comprises a solid wheel body made of a high temperature hard wearing plastics material which will have the effect of achieving the required wear characteristics while limiting the amount of noise generated during use of the assembly.
The plastics material may be a high temperature resistant epoxy or phenolic based resin bound and reinforced with aramid fibre laminates. The wheel body 11 has a central bore 17 to accommodate the bearing 12 and the mounting shaft 13. The bearing 12 is conveniently formed in two parts of substantially the same shape and dimensions each having an axial section 18 and a radially extending flange 19 which is accommodated in an annular recess 20 in the wheel body 11. The mounting shaft 13 is also preferably constructed in two parts 21,22 each having a radially extending flange 23 of similar dimensions to the flanges 19 of the bearing. The shaft part 21 includes an axial section 24 of a length equivalent to twice the axial length of one bearing part so that the two bearing parts are effectively retained between the flanges 23 of the mounting shaft 13.
In this manner axial and radial bearing surfaces are provided. The shaft mounting part 22 includes an axial extending trunnion 25 which is received within a bore 26 within the shaft part 21. Finally a single screw or bolt 14 may be used to pass through the hanger 15 and the shaft parts 21, 22 to be screwed into a bore 27 in the shaft part 22 to hold the complete assembly together. If desired, a spring washer may also be used to prevent loosening of the bolt during use.
Figures 3 and 4 illustrate an embodiment similar to figures 1 and 2 except that c i 3 5 in this case, the trunnion of shaft part 22 includes a coaxially extending shaft portion WO 92/14665 PCT/AU92/00079 47 with an outward thread formation 48 that is adapted to pass through the the shaft part 21 and the hanger 16 to be engaged by a castellated nut 46. The end of the shaft portion 47 may include a slot 49 enabling engagement with a screw driver to allow the element 22 to be held stationary while tightening the nut thereon.
If desired, a spring washer 50 or some other washer designed to inhibit loosening of the nut 46 might be used. Finally a split pin 51, can be employed engaging within a transverse hole 52 in the shaft portion 47 and the nut 46 to positevely prevent loosening of the nut 46.
In the foregoing manner, the provision of a wheel and hanger assembly is 1 0 achieved without the need to use any separate lubrication system and which can be safely used in high, low or ambient temperature situations.
Figures 5 to 11 illustrate further differing preferred wheel constructions within the scope of the present invention. Figure 5 illustrates a wheel body 11 mounted on a shaft member 28. The shaft member 28 may be produced from a metal such as steel 1 5 and is formed of two sections 29,30. The section 29 includes an outboard retaining flange 31 and an inner shaft part 32 received within a bore 33 of a shaft part 34 of the second section 30. The second section 30 may also include a radially exiehding retainer flange 35. The length of the shaft part 34 is selected to be no less than the width of the wheel body 11 so that when a connecting means 14 such as a bolt is tightened, substantially no axial pressure is applied against the radial faces 36,37 of the wheel body 11. Figure 6 illustrates a configuration where the shaft membertG Is formed in one part with a face 40 of the support member 16 acting as the inboard retaining element for the wheel body 11. In this case, the length of the shaft section 41 of the memberaG 2 5 is no less than the width of the wheel body 11 so that no axial pressure is applied against the faces 36,37 of the wheel body when the bolt 14 is tightened.
Figure 7 illustrates a still further configuration similar to Figure 6 but in this case including a plain tubular bearing 42 of a low coefficient of friction material such as PTFE based materials, It will of course be appreciated that, depending on the application, such a plain tubular bearing might be included in the embodiments of Figures 5 and 6. Moreover a bearing arrangement as disclosed in Figures 2 and 4 might also be used, Figure 8 illustrates a still further possible embodiment, In this case the shaft section 41 has an outboard flange 31 and a section of reduced diameter 43 which passes 5 through a bore 44 in the support member 16. The reduced diameter section 43 may be :t r i
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P
V
r.
r' WO 92/14665 PCT/AU92/00079 6 threaded along its length or plain through the member 16 but at least its end is threaded to allow a nut 45 and washer or lock washer to secure the assembly together as illustrated. Naturally any of the previously described bearing arrangements could also be used in this embodiment.
A still further preferred embodiment is illustrated in Figure 9 where the shaft section 46 is integrally formed with the support member 16. A tubular bearing 42 may be used if desired and the wheel body 11 is retained on the shaft section 40 and bearing 42 by swaging or mechanically deforming the end of the shaft section radially outwardly as illustrated to create a retaining flange 47.
1 0 Yet other embodiments are illustrated in figures 10 and 11 which are similar to the embodiment of figure 8, In figure 10, a washer 53 is provided between the radial face 37 of the wheel body 11 and the adjacent face of the support member 16. If desired the washer may be formed from a low friction material such as a plastics material based on PTFE but it could also be formed from standard metal materials or the like. In figure 1 5 11, a bearing sleeve 54 is combined with radial flange 55 located between the face 37 and the support member 16. In this embodiement, both an axial bearing and a rotational bearing is provided.
In situations where a specific solid bearing element is not used, It is preferred to include solid particulate lubricating materials such as graphite in the formulation of the 2 0 plastics material used for the wheel body 11. In this way rotation of the wheel body Is maintained without the need to use liquid or semi liquid lubricants such as the greases now used.
The whccl body 11 ,may ltoelf pr duled from e nui--n"ber eof differing polymerbased materials, thermoset and/or thermoplastic in nature. The wheel body 11 mbe 2 5 based on thermoplastic and/or thermoset reinforced resins with reinfor inmaterials being synthetic or natural minerals in nature. The wheel bo may be formed of synthetic fibre reinforced resin, either filament wound or nated depending upon the Sapplication of the product. Wheel construction n also be in the form of molded, reinforced resins with the reinforcement ng mineral based products, I.e. glass fibre, 3 0 glass bead, carbon, coke, graph e or other natural occurring minerals, Reinforcing materials can also be lmeric in nature, I.e. other thermoplastic and/or thermoset resins blended the base resin to reinforce construction of the wheel body. All resin, ponents used in the wheel body construction should have required strength, ar resistance, corrosion resistance and environmental compatibility for the Intended 4 i'el Z:c' raT The wheel body 11 may itself be produced from a number of differing thermosetting plastics materials. The wheel body 11 may be based on theremosetting reinforced resins with reinforcing materials being synthetic or natural minerals in nature. The wheel body may be formed of synthetic fibre reinforced resin, either filament wound or laminated depending upon the application of the product. Wheel construction can also be in the form of molded, reinforced resins with the reinforcement being mineral based products, i.e. glass fibre, glass bead, carbon, coke, graphite or other natural occurring minerals. Reinforcing materials can also be polymeric in nature, i.e. other thermoplastic and/or thermoset resins blended with the base resin to reinforce construction of the wheel body. All resin, components used in the wheel body construction should have required strength, wear resistance, corrosion resistance and environmental compatibility for the intended purpose of the unit.
Bearings used in the wheel assembly should have a low dry coefficient of frivction and therefore require no lubrication. Desirably any bearing materials used should have long life and low maintenance characteristics.
'r o i i WO 92/14665 PCT/AU92/00079 7 i^ used in the wheel assembly may be thermoplasic and/or nature with the primary purpose being as a self-lubricating, long life, low enance component. Basic construction of the bearings can be in the fo molded and machined bearings utilizing Polytetrafluoroethylene (PT _EYwith natural mineral or synthetic reinforcements to give stren proved wear characteristics, environmental compatibility and lo1 ional coefficients. Construction of the bearings can also be in the fo-extruded and machined, injection molded or automatically molded resin The axle or shaft assemblies may be in the form of plated steel, stainless steel or 1 0 other material compatible with the wheel body and bearing components and the environmental conditions of the end application. The design of the split axle allows the user to safely assemble the various components without over torquing the wheel/bearing j! assembly, thus causing excessive loading on the assembly. Straight axles can also be utilized in applications where wheel assembly is to retrofit existing hardware and a S1 5 split axle design is inappropriate.
Components are designed to be used in conjunction with the operating conditions of the end user. Combinations of materials and production processing are predicated on actual applications. All materials are designed to function in the broadest possible environmental and operating conditions including but not limited to cryogenic temperatures, high temperatures up to 350 0 C, corrosive environments, water, steam, under loads in excess of 1000 kg, and at speeds up to 120 metres per minute, all without the use of liquid or semi liquid lubrication.
In one preferred construction for high or low temperature operation, the wheel body may be formed by winding fibre laminates or filaments onto a mandrel. The 2 5 laminates may be in the form of sheets or a continuous web and preferably are aramlds.
The filament or laminate may be passed through a bath of resin prior to winding on the mandrel, Alternatively the reinforcing filament or laminate could be impregnated with resin after winding on the mandrel, Conveniently the resin is adapted to resist the Intended temperatures and temperature gradients of end use but may be a high temperature epoxy or phenolic resin. After curing of the resin, the construction is removed from the mandrel and this construction can then be divided into wheel components and machined to the desired sizes and final shape. The advantage of this form of construction Is that the reinforcing distributes the loads around the wheel rather than being located at a point as would be the case with a cast plastics material wheel.

Claims (13)

1. A wheel configuration for use in a conveying system comprising c guide track in or on which the wheel configuration is adapted to roll, said wheel configuration being adapted to be mounted from support means which in turn is intended to carry a load along said guide track, said wheel configuration including shaft member means adapted to be connected to said support means, a wheel body formed of polymer materials having an outer peripheral surface adapted to roll along said guide track, dry bearing means axially extending between said shaft member means and said wheel body, said bearing means having an inherent dry coefficient of friction adapted to permit rotation of said dry bearing means on said shaft member means whereby said wheel body rotates during rolling along said guide track, first retainer means being provided at an outboard end (relative to said support means) of said shaft member means radially extending therefrom to retain said wheel body on said shaft member means, and connection means cooperating with said shaft member means positively preventing axial pressure being applied to radial faces of said wheel body beyond a predetermined limit permitting operational rotation of said wheel body when assembled.
2. A wheel configuration according to claim 1 wherein the wheel body is formed from a thermosetting plastics material.
3, A wheel configuration according to claim 2 wherein said thermosetting plastics material includes layered reinforcing materials.
4. A wheel configuration according to claim 1 wherein the bearing means is formed from a polytetrafluoroethylene (PTFE) based material. i
5. A wheel configuration according to claim 1 or claim 4 wherein the bearing means includes as least one radially extending flange.
6, A wheel configuration according to claim 5 wherein the bearing means includes a said "i radially extending flange at opposed axial ends of the bearing means. -aa~-CI I
7. A wheel configuration according to claim I wherein the said shaft member means includes a first shaft part, said first shaft part having a first abutment means abutting said support means and said first retainer means extending radially from a second end of said first shaft part, said first shaft part having an axial length between said first abutment means and said first retainer means no less than the width of said wheel body between said radial faces of the wheel body.
8. A wheel configuration according to claim 7 wherein the connection means comprises a nut threadingly engaged on a threaded portion of said first shaft part extending from the first abutment means through said support means.
9. A wheel configuration according to claim 7 wherein the connection means comprises a threaded bolt passing through the support means and engaged in a threaded bore of said first shaft part.
A wheel configuration according to claim 1 wherein said shaft member means includes a first shaft part and a second shaft part, said first shaft part having said first retainer means formed at an outboard end and said second shaft part having a central bore into which at least a portion of said first shaft part is received, said second shaft part having a first end engagable with said first retainer means and a second end engagable with the support means, said second shaft part having an axial length no less than the width of said wheel body between said radial faces of the wheel body.
11. A wheel configuration according to claim 10 wherein said second shaft part includes a second radially extending retainer means at the second end of said second shaft part, the Sdistance between the first end of said second shaft part and the second retainer means being no less than the wid',h of said wheel body between said radial faces of the wheel body.
12. A wheel configuration according to claim 1 wherein said shaft member means includes a first shaft part and a second shaft part with said first retainer means being formed at a first outboard end of said first shaft part, said second shaft part having a first end engagable with said support means and a central bore to receive said first shaft part, said first and second shaft parts being interengagable so as to limit the distance between said first retainer means and said support means to a distance no less than the width of said wheel body between the radial faces of the wheel body. -I r
13. A wheel configuration according to claim 12 wherein said second shaft part includes a second radially extending retainer means at or adjacent said first end whereby the axial distance between said first and second retainer means is no less than the width of said wheel body between the radial faces of the wheel body. DATED this 17 day of November, 1993 VFV POLYMERS PTY LTD WATERMARK PATENT TRADEMARK ATTORNEYS THE ATRIUM 290 BURWOOD ROAD HAWTHORN VICTORIA 3122 AUSTRALIA SKP:EK[AU1327092.WPC DOC. 18]
AU13270/92A 1991-02-26 1992-02-25 Conveyor trolley wheel assembly Ceased AU646330B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AU13270/92A AU646330B2 (en) 1991-02-26 1992-02-25 Conveyor trolley wheel assembly

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
AUPK4801 1991-02-26
AUPK480191 1991-02-26
AUPK869191 1991-10-02
AUPK8691 1991-10-02
AU13270/92A AU646330B2 (en) 1991-02-26 1992-02-25 Conveyor trolley wheel assembly

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AU1327092A AU1327092A (en) 1992-09-15
AU646330B2 true AU646330B2 (en) 1994-02-17

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AU13270/92A Ceased AU646330B2 (en) 1991-02-26 1992-02-25 Conveyor trolley wheel assembly

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