AU2006241315A1 - Improved endless track belt - Google Patents

Description

S&F Ref: 782340

AUSTRALIA

PATENTS ACT 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT Name and Address of Applicant Actual Inventor(s): Address for Service: Invention Title: The Goodyear Tire Rubber Company, of 1144 East Market Street, Akron, Ohio, 44316-0001, United States of America Thomas Brian Feldmann, Paul John Peterson, Katherine Ann Folk, Robert Charles Schisler Spruson Ferguson St Martins Tower Level 31 Market Street Sydney NSW 2000 (CCN 3710000177) Improved endless track belt The following statement is a full description of this invention, including the best method of performing it known to me/us:- 5845c(580503_1) OIMPROVED ENDLESS TRACK BELT Field of the Invention 0 Z This invention relates to endless rubber track belts.

SBackground of the Invention Rubber endless tracks such as for use on agricultural or industrial vehicles typically have an internal center ribbon of individual lugs which engage drive bars on a C€3 drive wheel. The continued use and contact between the drive bar and drive lugs cause C internal lug stresses, and surface wear at the points of contact. Additionally, the internal center ribbon of lugs are typically functioning not only to transmit power from the drive center ribbon of lugs are typically functioning not only to transmit power from the drive i 0 o wheel to the track, but also to retain the track onto the vehicle. Contact between the vehicle undercarriage wheels and the longitudinal or guide surfaces of the inner lugs frequently occurs as the vehicle maneuvers during normal service. This contact can cause wearing of the inner lugs which can be severe depending upon various vehicle design features and usage applications. Driving and/or guiding forces on the inner lugs, henceforth referred to as guide-drive lugs, can lead to eventual chunking of the rubber surface and possibly to complete removal of the drive lugs, making the track unserviceable. Thus a track belt having guide-drive lugs which are stronger and more resistant to wear is desired.

Summary of the Invention The invention provides in a first aspect an endless rubber track belt comprising a rubber carcass having an inner surface having one or more guide-drive lugs and an outer surface having tread lugs, the guide-drive lugs having a reinforcement layer which extends substantially along the width of the drive lug.

Brief Description of the Drawings Figure 1 is a perspective view of an endless rubber track assembly.

Figure 2 is a perspective view of a section of the endless rubber track shown in Figure 1; Figure 3 is a perspective view of a drive lug; Figure 4 is a cross-sectional view of the endless rubber track of Figure 2 in the direction 4-4; Figure 5 is a cross-sectional view of the endless rubber track of Figure 2 in the direction 98057 1

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o Detailed Description of the Invention SFigure 1 illustrates a track assembly 10 which may be used on an industrial or o agricultural vehicle (not shown). The track assembly 10 includes a drive wheel 12 Z comprising a plurality of teeth or drive bars 14 which are positioned for mating engagement with guide-drive lugs 16. The drive lugs 16 are mounted on a rubber track having an endless elongate carcass. The endless track carcass has an outer surface 22 comprising a plurality of ground engaging tread lugs 24 and an inner surface 26 with a 3 plurality of guide-drive lugs 16, typically located on the center portion of the carcass.

SThe guide-drive lugs 16 as shown in Figure 3 comprise an elongate shaped bar

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lo with inclined drive faces 17, 19 and an upper flat face 21. The comers of the joined faces are rounded to reduce stress concentrations. Guide faces 23, 25 are also flat. The guidedrive lugs may also have various other shapes.

As shown in Figure 2, the belt carcass 20 typically comprises one or more layers of gum rubber or elastomeric material 30. Embedded within the gum rubber are one or Is more reinforcement layers 32 which extend transversely along the track width. The reinforcement layers may comprise longitudinal cable reinforcement layers, fabric reinforcement layers or any other reinforcement layer known to those skilled in the art.

The guide-drive lugs as shown in Figures 2-4, are comprised of rubber or elastomeric material, and have one or more layers of reinforcement material 40 therein.

The reinforcement material 40 as shown in Figure 3, may completely cover the drive lug and extend down the sides of the lug onto the carcass. The reinforcement layer may also optionally extend continuously all the way around the track, wherein the width may be slightly greater than the drive lug width or be equal to the carcass width, thus providing a protective effect to the drive lugs and the track inner surface.

The reinforcement layer, or layers, may comprise the following materials: nylon, polyester, polyethylene, polyurethane, rayon, Kevlar, aramid, metal, natural fibers such as cotton, glass fibers, carbon fibers, ceramic fibers or plastic fibers. The reinforcement material may also be a fiber loaded rubber layer, with fibers oriented in a transverse direction or in a random direction. For example, the reinforcement material may comprise tire ply (rubber coated cords), with the fibers oriented in any desired orientation.

The fibers may be natural fibers such as cotton, nylon, polyester, polyethylene, polyurethane, rayon, glass fibers, steel, or plastic. The invention is not limited to the reinforcement materials stated above, and may also comprise any low friction material considered suitably effective for the specific type of track belt usage. It is preferable that 98057 I the reinforcement material having a low coefficient of friction in the range of about .10 to C1 about o If the reinforcement material is tire ply, then two or more layers may be used. If Z two or more layers are used, the layers may have cords oriented at opposite angular s orientation, layer one has parallel cords oriented at 45 degrees, while layer two has parallel cords oriented at -45 degrees (although any desired angular orientation may be used). Preferably, light nylon tire cord is used, which is used in airsprings.

The reinforcement material may comprise the track inner surface or be Sembedded under the track inner surface at a distance d, d typically being in the range of O o0 about .020" to about Preferably, the reinforcement layer is covered on both sides with a skim coat layer of rubber.

The reinforcement layer is preferably incorporated into the track belt during the track belt manufacturing process. In this case, the reinforcement material is prepared independently, and prior to, the track manufacturing process. The track belt can be formed and vulcanized in a pressurized molding process. Molds used in said process have shaped lug cavities which form guide-drive lugs into their intended final shape. The guide-drive lugs can be presented to the final molding process as non premolded extruded pieces, which are cut to length, approximately the shape of the lug cross sectional contour. At the ends they may be cut on a bias to more approximate the ends of the mold cavities. Otherwise, the lugs may be pre-molded similar to what is illustrated in U. S.

Patent No. 5,536,464. Said slugs can be covered individually with separate pieces of reinforcing materials prior to lugs being presented to the track belt build and vulcanization process. Alternatively, the guide-drive lug reinforcing material can be applied to the particular surfaces as a continuous piece. In this method, the prepared inner lug slugs are positioned onto the inside surface of the uncured carcass at their intended final molded relative locations. Then, prior to molding, the single piece of reinforcement is placed over the green inner lug slugs. Additional fitting of the reinforcement to the green inner slugs may be done at this time; however, the process of compressing the mold may also be relied on to form fit the reinforcement over the intended surfaces. After the reinforcement has been fitted to the inner lug slugs final vulcanization occurs via imparting appropriate pressure and temperature onto the uncured track belt. This is the final step in incorporating the guide-drive reinforcement to the track belt.

While certain representative embodiments and details have been shown for the purpose of illustrating the invention, it will be apparent to those skilled in this art that 98057 1

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0 various changes and modifications may be made therein without departing from the spirit or scope of the invention.

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Claims (6)

1. An endless rubber track belt comprising a rubber carcass having an o inner surface having one or more guide-drive lugs and an outer surface having tread lugs, Z the guide-drive lugs having a reinforcement layer which extends substantially along the C 5 width of the drive lug. S2. The endless rubber track belt of claim 1 wherein the reinforcement layer Cc extends substantially along the width of the track belt. S3. The endless rubber track belt of claim 1 wherein the reinforcement layer is a low friction material.

4. The endless rubber track belt of claim 1 wherein the width of the reinforcement layer is equal to or greater than the width of the guide-drive lug. The endless rubber track belt of claim 1 wherein the reinforcement layer substantially covers the guide-drive lug outer surface.

6. The endless rubber track belt of claim 1 wherein the reinforcement layer is extends substantially along the width of the track belt.

7. The endless rubber track belt of claim 1 wherein the reinforcement layer is embedded within the guide drive lugs.

8. The endless rubber track belt of claim 1 wherein the reinforcement layer is selected from the group consisting essentially of: nylon, polyester, polyethylene, polyurethane, Kevlar, glass fibers, carbon fibers, ceramic fibers, cotton, metal, plastics, and mixtures thereof.

9. The endless rubber track belt of claim 1 wherein the reinforcement layer substantially covers the outer carcass edges of the track belt. An endless rubber track belt substantially as hereinbefore described with reference to the drawings. Dated 21 November, 2006 The Goodyear Tire Rubber Company Patent Attorneys for the Applicant/Nominated Person SPRUSON FERGUSON 98057 1