US3893526A

US3893526A - Track assembly for snowmobiles

Info

Publication number: US3893526A
Application number: US383690A
Authority: US
Inventors: Richard E Esch
Original assignee: CL Frost and Son Inc
Current assignee: CL Frost and Son Inc
Priority date: 1973-07-30
Filing date: 1973-07-30
Publication date: 1975-07-08
Anticipated expiration: 1992-07-08

Abstract

Apparatus for adjustably mounting bogie wheels on a frame member or slide rail of an endless track assembly for snowmobiles. The apparatus includes coaxial pairs of bogie wheels on each rail, one wheel mounted on either side of said rail, each of such pairs being independent of all other wheels and rails in the assembly. The bogie wheels are adjustable to convert the assembly from one in which the track slides along the rail to one in which the track is spaced below the rail by said bogie wheels. The length of the track engaging the supporting snow surface is also adjustable.

Description

United States Patent 1191 Esch 1 1 TRACK ASSEMBLY FOR SNOWMOBILES [75] Inventor: Richard E. Esch, Sparta, Mich.

[73] Assignee: C. L. Frost & Son, Inc., Grand Rapids, Mich.

[22] Filed: July 30, 1973 [21] App]. No: 383,690

[ 1 July s, 1975 Russ 1. 305/24 Irvine 180/5 R [57] ABSTRACT Apparatus for adjustably mounting bogie wheels on a frame member or slide rail of an endless track assembly for snowmobiles. The apparatus includes coaxial pairs of bogie wheels on each rail, one wheel mounted on either side of said rail, each of such pairs being independent of all other wheels and rails in the assembly. The bogie wheels are adjustable to convert the assembly from one in which the track slides along the rail to one in which the track is spaced below the rail by said bogie wheels, The length of the track engaging the supporting snow surface is also adjustable.

33 Claims, 14 Drawing Figures TRACK ASSEMBLY FOR SNOWMOBILES This invention relates to endless track assemblies for snowmobiles and, more particularly, to apparatus for mounting bogie wheels for spacing the endless track from the frame members or slide rails of such an assembly.

BACKGROUND OF THE INVENTION Generally, snowmobiles and other similar multiterrain vehicles utilize endless track assemblies for obtaining movement over snow or other supporting surfaces. The flexible endless tracks are supported on frameworks having idler wheels at either end thereof around which the track is driven in a closed path. Two types of supporting systems are typically used to support the track between the sets of idler wheels. In the pure rail system, parallel slide rails slidingly engage the inside surface of the endless track and force it against the supporting surface. In the pure bogie system, a plurality of small wheels or bogie wheels space the track away from the intermediate supporting framework of the assembly. Combinations of these two systems have also been used wherein bogie wheels are supported on continuous axles extending between the two parallel rail members or wherein a series of single bogie wheels extends from the laterally outward sides of the rails along their length. Each of these various supporting systems has its own advantages and disadvantages.

Although the pure rail systems provide greater lateral stability for the snowmobile since such systems are generally utilized with tracks including devices which keep the track in alignment with the slidably engaged rail, the pure bogie systems generally require a smaller amount of horsepower to produce the same speed as in a corresponding sled using the pure rail system since the bogie wheels minimize the frictional contact between the endless track and its supporting framework. Several attempts have been made to use the best of both of these systems in combination bogie-rail systems. However, prior known combination systems have rigidified the track assembly, thereby reducing its allterrain efficiency. More importantly, the bogie wheel arrangements in certain of the prior known combination systems have allowed the sliding surfaces of the slide rails to deteriorate and wear unevenly. Such wear impairs both the handling and performance characteristics of the sled therefore necessitating more frequent maintenance and repair.

Additionally. the previously known track supporting systems have necessitated a constant amount of track in contact with the supporting snow surface. It has been found that a greater amount of track in contact with the supporting surface produces better handling in conditions of ice, high speeds along straight paths and in deep, heavy snow because of the greater frictional contact, greater stability, and greater surface area pro duced thereby. Conversely, a lesser amount of track in contact with the supporting surface enables quicker starts, the handling of more varied terrain, and a greater speed from a given size engine because of the reduced drag or friction on the track. Conversion between these two types of track configurations has heretofore been extremely difficult and time-consuming because of the extensive modification required to modify the prior known track assemblies such as those described above.

SUMMARY OF THE INVENTION Accordingly, it is the purpose of the present invention to provide an endless track assembly for snowmobiles and like vehicles combining the best aspects of both the pure bogie and the pure rail supporting systems. Thus, in accordance with the invention, a track vehicle is provided having a continuous track extending around spaced idler wheels, the idler wheels being spaced by a frame member and one or more bogie wheels rotatably secured to the frame for engaging the track. Adjustment means are provided for securing the bogie wheels in at least two positions, a first position wherein the track is spaced from the frame member and the vehicle operates as a bogie system, and a second position wherein the track contacts the frame and the vehicle operates as a rail system. In other aspects, the apparatus includes bogie wheels arranged on the slide rails or frame members of the track assembly for support of the endless track while preventing wear on the sliding surfaces of the rails by the track. The system enables conversion from a pure bogie system wherein the frictional contact between the bottom of the slide rail and the endless track is eliminated but wherein the lateral support of portions of the endless track against the sides of the slide rail is retained. Further, the systems quick and convenient adjustment provides a pure rail system for situations in which the use of that system is desirable. Moreover, the system is designed to allow adjustment of the amount of track in contact with the supporting snow surface thereby making the track assembly easily adaptable for a wide range of handling situations including both racing and trail use. All of these conversions and adjustments may be made easily without major modification of the structural elements of the assembly.

In the preferred embodiment, the apparatus provides a plurality of pairs of bogie wheels adjustably mounted at intervals along the length of each of the parallel frame members or slide rails included in the endless track assembly. Each pair of bogie wheels is mounted on one frame member or rail independently of the other rail, the wheels being coaxial and positioned on either side of the single rail. Each pair of wheels spaces the endless track below the slide rail to prevent frictional contact therewith but allows lateral engagement of guide means extending from the track with the sides of the rail to maintain lateral alignment of the track with the rail.

Means are included to adjust the pairs of bogie wheels above and below the level of the slide rail bottom to convert the assembly from the bogie system to the pure rail system. The front ends of the parallel rails may also be curved upwardly. A bogie wheel pair positioned along this curved section may be raised and lowered to adjust the amount of track in contact with the supporting snow surface. Further, means are included to allow the slidable adjustment of the pairs of bogie wheels longitudinally along the length of the frame members or slide rails.

These and other objects, advantages, purposes and features of the invention will become more apparent from a study of the following description taken in conjunction with the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a fragmentary side view of a snowmobile including the track assembly of the present invention;

FIG. 2 is a perspective view of the track assembly with portions of the flexible endless track and suspension of the assembly broken away;

FIG. 3 is a plan view of the specific arrangement of the bogie wheels in the present invention for supporting the flexible endless track between the idler wheels;

FIG. 4 is a plan view of the specific arrangement of supporting bogie and idler wheels of a prior known track assembly;

FIG. 5 is a plan view of the specific arrangement of the supporting wheels of another prior known track assembly;

FIG. 6 is a schematic side view of the track assembly of the present invention showing how the assembly may be converted from a pure rail to a pure bogie track supporting system;

FIG. 7 is a fragmentary side elevation with portions broken away showing one embodiment of the specific means for mounting the pairs of bogie wheels on the individual frame members;

FIG. 8 is a cross-sectional view of the mounting means and bogie wheels taken along the plane VIII- VIII of FIG. 7;

FIG. 9 is an enlarged side elevation of the embodiment of the bogie wheel eccentric mounting assembly shown in FIGS. 7 and 8;

FIG. 10 is a side elevation of a second embodiment of an eccentric bogie wheel mounting assembly;

FIG. II is a side elevation of a third embodiment of a bogie wheel eccentric mounting assembly;

FIG. 12 is a cross-sectional end elevation of another embodiment of the invention wherein the flexible track includes grooves beneath each of the bogie wheels for lateral alignement purposes;

FIG. 13 is a cross-sectional, end view of a conventional track assembly modified to include the eccentric bogie mounting assembly of the present invention; and

FIG. 14 is a fragmentary, cross-sectional end view of another conventional track assembly also modified to include the eccentric bogie mounting assembly.

DESCRIPTION OF THE PREFERRED EMBODIMENT Referring now to FIGS. 1 and 2, the track assembly 10 of the present invention is shown mounted under the rear portion 14 of a snowmobile 12. The track assembly 10 includes shock-absorbing and suspension means 16 for supporting the body of the snowmobile 12. An endless, flexible track or belt 22 is supported for movement longitudinally around a pair of spaced, elongated frame members or slide rails 24 in the direction illustrated, the frame members 24 including a pair of track supporting idler wheels 26 mounted on suitable mounting supports at either end thereof. The front portions of rails 24 may be curved or bent upwardly as shown in order to enhance movement over the snow and other terrain. Typically. idler wheels 26 are mounted coaxially on the same continuous axle outboard of the outer side surface of frame members or rails 24. The positions of idler wheels 26 may be adjusted slightly to maintain the proper tension on the flexible track 22. The track is typically driven in its closed loop path to provide movement of the sled over the supporting snow surface by an engine 18 connected to toothed drive or cog wheels 20. The teeth of the cog wheels 20 in turn engage spaced holes 23 which are in alignment with slide rails or frame members 24. Holes 23 include lugs (FIGS. 3, 7, and 8) which maintain longitudinal alignment of the track and rails in one embodiment of the invention as will be more fully explained below.

As mentioned above, there are two conventional types of systems supporting the track 22 between the sets of idler wheels 26. In the pure rail system, the slide rails 24 contact the inside surface of the flexible track 22 and maintain it in contact with the supporting snow surface. In the pure bogie system, a plurality of bogie wheels 28 are mounted on slide rails or frame members to support the inside surface or another portion of the flexible track away from the rails or frame thereby rotatably supporting the track against the supporting snow surface. As will be more fully described below, the present invention provides a track assembly which may be converted between the pure rail and pure bogie systems as well as providing a means for adjusting several other performance characteristics of the snowmobile via a quick and convenient adjustment to the bogie wheel mounting assemblies.

Referring now to FIG. 3, the specific bogie wheel arrangement of the present invention is shown including a plurality of individual bogie wheel units or assemblies 30 mounted intermediate the sets of idler wheels 26 along the lengths of elongated frame members or rails 24. Each unit or assembly 30 includes a pair of bogie wheels 28 mounted coaxially with one another adjacent both the laterally outside and laterally inside surfaces 32 and 34 respectively of rails 24. Each unit is adjustably mounted on only one of the frame members 24 such that its position may be adjusted longitudinally of the rail while the vertical position of the pairs of wheels 28 included therein may be adjusted vertically with respect to the bottom of the rails.

In the preferred embodiment, rails 24 include a low friction sliding material 37 adhered, riveted or otherwise secured to the bottom thereof to provide a relatively friction-free sliding surface 38 along the bottom of the rail. In the preferred embodiment, sliding material 37 is a high density polyethylene known generally in the trade as Hi-fax". The Hi-fax material extends downwardly in vertical alignment with the driving holes 23 on each lateral side of the track 22 as shown in FIG. 8. As will be more fully explained below, the Hi-fax surface 38 allows the track to freely slide along the rails when the assembly is adjusted to allow contact between the track and rails.

Each of the pairs of the bogie wheels 28 in the preferred embodiment is independent of the other parallel rail or frame member 24 on separate axles although the idler wheels 26 may be mounted on continuous axles 27 as illustrated. The individual mounting of the independent pairs of bogie wheels 28 provides greater flexilibity for the track assembly 10 such that it may more easily encounter and more effectively accommodate varying terrains over which the snowmobile is guided. More importantly, however, the coaxial pairing of the bogie wheels 28 on either side of the frame member 24 prevents uneven wear of the sliding surface of slide rails 24 with the inside surface of flexible track 22. The pairing arrangement also provides better and more efficient support of the track in the area where it contacts the snow or other supporting surface.

The problem of uneven wear on the sliding surface of rails 24 is more readily appreciated with reference to one prior known system utilized in connection with snowmobile track assemblies. As shown in FIG. 5, a plurality of bogie wheels 28 are supported on stub axles 35 welded to the laterally outside surfaces 32 of the parallel rails 24 between the sets of idle wheels 26. This arrangement leaves the corner between the inside edge or surface 34 and the bottom of the slide rail 24 in contact with the flexible track 22 along the entire ground-engaging run of the track. This results in uneven wear of the sliding surface of the rail. Such uneven wear greatly diminishes the stability and handling characteristics of a snowmobile especially if the wear is allowed to continue and become severe. It also necessitates frequent repair or replacement of the sliding surfaces.

Referring now to FIGS. 7, 8, and 9, a first embodiment of the specific supporting units 30 for the individual pairs of bogie wheels 28 in the present invention is shown. Each unit 30 comprises a mounting block 40 which is slidably supported on a single frame member or rail 24. In the preferred embodiment, each rail 24 has a generally rectangular cross-sectional shape while the block 40 includes two downwardly extending flanges 42 (FIG. 8) extending along the entire lateral edges of the block. Flanges 42 define a rail-receiving elongated channel 44 therebetween. The top portion of rail 24 is slidably received in channel 44 such that the entire block including the axle and bogie wheels is slidable longitudinally along the entire length of rail 24. A plurality of spaced apertures 52 along the upper portion of rail 24 (FIG. 7) are spaced to correspond to the spacing of apertures 53 extending through flanges 42 in block 40. Two securing pins 50 are fitted through

apertures

52 and 53 when they are properly aligned to secure the block 40 in various positions along the length of the rail 24. Pins 50 are preferably tightly press fitted through the apertures but may include securing means such as threaded nuts on the ends thereof to retain them in place.

In order to allow conversion between the pure rail and pure bogie systems, each unit 30 includes apparatus for adjusting the position of the bogie wheels with respect to the bottoms of rails 24. Bogie wheels 28 including rims 29 and rubber tires 31 are rotatably mounted on an axle 56 which extends eccentrically through an axle retaining cylinder 58. Cylinder 58 is rotatably received within an aperture 60 extending transversely of the block 40 such that the cylinder 58 has an axis of rotation perpendicular to the direction of longitudinal channel 44. Axle 56 may comprise a single axle extending eccentrically through the cylinder 58 (FIG. 8) or may comprise cylindrical extensions extending eccentrically from either end of cylinder 58 on either side of the mounting block 40. A cylinder securing bolt 62 is threadedly received in one of a plurality of threaded holes 64 extending radially inwardly from various circumferential positions on cylinder 58 for alignment with bolt 62. Bolt 62 secures the cylinder 58 and axle 56 in one of several rotational positions as shown in FIG. 9. For example, threading bolt 62 into hole 64a retains axle 56 in position 56a. The rotational position may be changed by unscrewing bolt 62, rotating cylinder 58 such that another of the threaded holes 64 is in alignment with bolt 62, the bolt then being rethreaded intothe newly aligned hole.

As will now be appreciated, the eccentric position of axle 56 with respect to the axis of rotation 61 of cylinder 58 allows bogie wheels 28 to be adjusted to space the exterior surface 25 of flexible track 22 away from the bottom sliding surfaces 38 of rails 24 a predetermined distance X as shown in FIGS. 7 and 8. The position of the bottom of bogie wheels 28 may be changed in the manner described above thereby adjusting the spacing X as well as the space Z between the sliding surface 48 and surface 25. When the bolt 62 is unscrewed and the cylinder 58 is rotated such that axle 56 is at its upwardmost position, i.e., closest to the top of aperture 60, the bottoms of bogie wheels 28 are moved out of contact with surface 25 of track 22 such that axle 56 is at position 66 and the bottom of wheels 28 are in a plane labeled 68 in FIGS. 7 and 8. Accordingly. in this position, sliding surface 48 will contact surface 25 of track 22 between the drive holes 23 thereby providing a pure rail system on the track assembly. Of course, the spacings X and Z may be adjusted between these two limits of the pure rail and pure bogie systems by threading bolts 62 into one of the threaded holes 64 in cylinder 58 between the holes providing the full-up and full-down positions. Further, the present apparatus may be used with other types of tracks. As will be more fully explained below, variation in the spacing of the track from the frame or rail allows adjustment of the amount of track contacting the snow surface as well as enabling variation of the weight transfer characteristics of the particular track assembly.

Another problem overcome with the present invention is that of keeping the track in lateral alignment with the frame members or rails and bogie wheels. With prior art systems such as that shown in FIG. 4, bogie wheels 28 are supported on continuous axles 36 extending between parallel rails 24. Although wheels 28 are mounted both between and laterally outside rails 24, they continually space the track away from the frame. When turning a sled including such a track assembly through a corner, the friction of these wheels, even with the help of the idler and drive wheels, is often not sufficient to keep the track properly aligned. Accordingly, especially in high speed turns, the wheels move laterally across the inside of the track causing the track to be thrown from the assembly.

With the present invention, although the bogie wheels 28 space the track 22 away from the bottom sliding surface 48 of rail 24, lateral alignment of the track 22 with rails 24 is maintained via the lateral contact of guide means comprising portions of the protruding drive lugs 70 with the side surfaces 32 and 34 of rail 24. As shown in FIGS. 3, 7, and 8, each drive hole 23 is outlined by a drive lug 70 including two lateral upstanding side walls 72 which protrude above the surface 25 of track 22 a distance greater than the maximum distance Z between surface 25 and sliding surface 48. Each of these lateral walls 72 has an interior surface 74 which is normally immediately adjacent one of the side surfaces 32 or 34 of the rail 24. During cornering with the snowmobile. when lateral forces are exerted on the track with respect to the position of rail 24, the protruding walls 72 including surfaces 74 slidingly contact the

sides

32 and 34 of each rail thereby maintaining longitudinal alignment of the track with the rails. Typically, lugs 70 are riveted to track 22 from the outside surface of the track although other conventional means such as bonding with adhesives and the like may be utilized. Further, flexible tracks having molded protrusions extending above the level of the inside surface 25 and outlining the drive holes 23 may also be used. Other available tracks use separate lugs or protrusions secured to the inside track surface adjacent the rail sides or include continuous slots formed in the thickness of the track below the level of the inside track surface as was mentioned above.

An alternative design for holding the track 22 in longitudinal alignment with frame members 24 is shown in H0. 12. As depicted therein, a mounting block 40 including the eccentrically mounted axle 56 retained in rotational cylinder 58 straddles a generally rectangular frame member 24a. Frame member 24a is of the type which is designed to be spaced from track 22a at all times thereby providing a permanent pure bogie system. This is in contrast to the slide rail 24 described above in FlGS. l, 2, and 7-9 which may be allowed to slidingly engage the inside surface 25 of track 22 at various times. Block 40 is longitudinally adjustable along the length of frame member 24a while bogie wheels 28 are adjustable with respect to the bottom of frame member 24a in a direction normal to the surface 25 of track 22a at the position where block 40 is secured. The pair of bogie wheels 28 spaces surface 25 or another track portion which the rails would otherwise contact from the bottom of 24b of frame member 24a a distance Y. Distance Y is variable via the adjustment of the eccentrically mounted axle 56 in the manner described above for the apparatus in FIG. 9. Thus, the spacing between the track 22a and bottom 24!; may be individually adjusted beneath each of the bogie wheel units 30 to facilitate weight transfer to the rear of the snowmobile for quick starts such as in racing.

Lateral alignment of the track with the frame member 24a is maintained by the reception of bogie wheels 28 in grooves or notches 33 recessed into surface 25 of track 22a. Grooves 33 extend substantially parallel to frame member 240 on either side thereof around the entirety of the inside surface 25. Each of the grooves 33 has a substantially rectangular cross-sectional shape such that the sides walls and corners of the grooves engage the sides of the tires 31 of bogie wheels 28 thereby counteracting any tendency of the track to move laterally of the rail 24a when the snowmobile is turned through a corner. Square corners 35 where surface 25 meets the grooves 33, prevent the wheels from riding up out of the grooves as the track passes therebeneath. Therefore, as with the contact of the protrusions of drive lugs 70 with the side surfaces of slide rail 24, grooves 33 prevent the lateral misalignment with the track with frame member 24a.

Referring to FIGS. and 11, alternative bogie

wheel mounting units

75 and 90 are illustrated including alternative means for adjusting the rotational position of cylinder 58, and therefore eccentrically mounted axle 56. Other than the means for adjusting the vertical position of axle 56 with respect to the bottom surface of rail 24, the mounting blocks 40 in

embodiments

75 and 90 in FIGS. 10 and 11 are exactly similar to that described above in connection with FlGS. 7-9. In FIG. 10, an adjusting bolt 76 is provided extending downwardly through a hole 78 in block 40 generally tangentially one edge of aperture 60 therein. Hole 78 intersects the edge of aperture 60 such that threaded bolt 76 makes contact with the threaded exterior surface of cylinder 58'. As bolt 76 is rotated, the contact between threads on bolt 76 and the threaded exterior of cylinder 58' imparts a rotation to cylinder 58' around axis 61. Accordingly, the position of eccentrically mounted axle 56 may be adjusted very accurately by the turning of bolt 76 through a small arc. Bolt 76 is retained in the smooth-walled hole 78 via a pin or clip 80 extending through a passageway 82 into contact with an annular groove or notch 84 provided in the end of bolt 76. Clip 80 allows rotation of bolt 76 without axial movement thereof in the smooth-sided hole 78. A locking nut 86 is provided to lock or secure the bolt 76 in the desired position.

Another alternative assembly 90 for varying the position of axle 56 with respect to the bottom of rail 24 is shown in FIG. 11. An elongated aperture 91 is provided extending transversely through block 40 between the upper surface of the block and the channel 44 therein. Axle retaining cylinder 58" is fitted within aperture 91 and retained in a desired vertical position via a securing bolt 92. Bolt 92 is received in a threaded aperture 94 extending through the top surface of block 40 and communicating with the aperture 91. Bolt 92 extends into a smooth-sided aperture 96 in the top of cylinder 58" and is retained therein and allowed to rotate freely via a pin or clip 98 engaging an annular notch or groove 100 formed about the end of bolt 92. Pin or clip 98 is received through a passageway 102 extending perpendicularly to and communicating with the bolt-receiving aperture 96 in cylinder 58". Rotation of bolt 92 causes an axial displacement of the bolt through aperture 94 thereby raising and lowering cylinder 58" and axle 56 simultaneously to any position along the vertical height of aperture 91. A locking nut 104 is provided to secure bolt 92 in the desired position. As with the embodiment shown in FIG. 10, the vertical position of the axle 56 with respect to the bottom of frame member or rail 24 may be adjusted very accurately by a small rotation of adjusting bolt 92.

As will now be appreciated, the various embodiments of the longitudinally and vertically adjustable mounting assemblies 30 for the independently mounted pairs of bogie wheels 28 allow both the conversion of the entire track assembly from a pure bogie system to a pure rail system as well as allowing adjustment or variation of the length of track which actually contacts the supporting snow surface and supports the vehicle. With reference to FIG. 6, a preferred arrangement of the track assembly includes four bogie wheel units of the type described above mounted on each of the parallel slide rails 24. Each of the slide rails includes an end portion 24' which is curved in an arcuate fashion upwardly away from the plane including the remainder of the bottom surface of rail 24. The curved portion facilitates the movement of the snowmobile over deep, heavy snow since the angle of inclination of portion 24' enables the track assembly to ride up and over snow banks and other obstacles in the terrain. One of the bogie wheel units, denoted C in FIG. 6, is positioned along this curved portion 24 such that the pair of bogie wheels 28 thereon raised and lowered in a direction normal to the exterior surface of track 22 at the position where it is located. The raising and lowering of the wheel changes the overall configuration of the track 22 on the assembly from flat to oval and vice versa. Thus, lowering the wheels in the curved portion 24 places more track in contact with the snow. This facilitates control of the snowmobile on ice and at top speeds along straight paths since the frictional contact of the greater track area on the snow provides greater stability and control of the vehicle. Further, the greater area of track in contact with the snow in the flat configuration enables the vehicle to travel over deeper, more heavy snow by spreading the weight thereof over the larger area preventing the vehicle from sinking as deeply into the snow. Of course, depending on the weight and size of the overall machine, a greater or lesser amount of track surface in contact with the snow may be used according to any specific snow conditions.

When the bogie unit C is raised, as shown in the solid lines in FIG. 6, the track 22 is allowed to ride or slide along the bottom surface of the curved portion 24' of frame 24. In this position, the track does not contact the snow until it is approximately under the position of the second bogie unit D. This provides a more oval configuration with less track surface on the snow. The oval configuration facilitates fast starts and the climbing of hills since the lesser frictional contact of the lesser track area contacting the snow means that the track may be moved faster with a given horsepower. Further, the oval configuration is useful for trail riding wherein the angle of inclination of the track sliding against curved portion 24' enables the assembly to more easily pass over objects in the varying terrain encountered in trail use.

The latter three bogie units D, E, and F may be raised and lowered in unison as indicated in FIG. 6 by the solid and phantom lines with the first bogie unit C in either the up or down position. This enables the entire assembly 10 to be converted from either a pure rail or pure bogie system to one using a combination of both the rail and bogie systems. For example, with unit C in the raised position and units D, E, and F in their lowered positions, the track will contact the rail in the curved portion 24' but will be spaced from the remainder rail under units D, E, and F. Conversely, unit C may be lowered and units D, E, and F raised or all of the units C. D, E, and F may be adjusted to the same position. The use of the longitudinal adjustment of the mounting assemblies facilitates all these adjustments since the various bogie units may be variously spaced or clustered depending on whether the sled is to be raced or used for trail riding. Additionally, the closer spacing of the units allows the use of greater numbers of individual bogie units on the rails thereby facilitating a more stable support of the flexible track beneath the bogie wheels.

As mentioned above, the adjustment of the spacing between the rail 24 and the track 22 via the

adjustable bogie units

30, 75, or 90 enables the weight transfer characteristics of an individual sled to be modified also. Thus, when bogie unit C in FIG. 6 is lowered, the suspension apparatus, such as that shown at 16 in FIGS. 1 and 2, is forced upwardly into the body of the snowmobile. Upon starting the sled from a stopped position, the greater spacing of the track from the supporting framework in the front of the track assembly causes the weight of the sled to be more efficiently transferred to the rear. Such transfer facilitates fast acceleration. Of course, this effect may be helped by successively lessening the space between the track and the rail as one progresses toward the rear of the assembly through units D, E. and F in FIG. 6. Accordingly, the weight transfer concept depends on the varied spacing of the rail from the track, and therefore may be used in connection with the adjustable bogie units when mounted either on a rail 24 of the type shown in FIGS. 1, 2, and 6-11, which is designed to selectively, slidingly engage the track 22, as well as a frame member 24a of the type shown in FIG. 12 which is designed to remain spaced from the track 22 at all times.

The apparatus of the present invention may also be used with conventional track assemblies such as those shown in FIGS. 4 and 5 to both provide adjustment of the spacing between the endless track and the frame or rails supporting the bogie wheels and to convert between pure rail and pure bogie systems. With these assemblies, the mounting blocks 40 are used in a manner similar to that shown in FIGS. 7l2 except that different axles are substituted for axles 56. With the track assembly of FIG. 4, each continuous axle 36, extending between the two rails or frame members 24 and having several bogie wheels mounted thereon both outboard and inboard or between the frame members, is inserted through

cylinders

58, 58' or 58" in two blocks 40 mounted oppositely each other on the frame members.

Cylinders 58 are then rotated or moved in unison to move the entire axle 36 relative to the frame members whereby adjustment of the above spacing is effected.

Similarly, with the track assembly of FIG. 5, stub axles 35 including single bogie wheels are each inserted through

cylinders

58, 58' or 58" of a single mounting block 40 mounted on a single rail or frame member such that the bogie wheels extend outboard of the rails as is illustrated. Each stub axle 35 and single outboard bogie wheel is then adjusted individually of all the others to adjust the above-mentioned spacing. Any of the adjustment mechanisms in FIGS. 941 may be used to adjust and

secure cylinders

58, 58', or 58" in these arrangements.

The present inventive track assembly for snowmobiles provides a convenient means for converting a single assembly from a pure bogie to a pure rail support system as well as into combinations of the two systems. The assembly may be conveniently adjusted to facilitate either racing or recreational trail use, and is designed to prevent excessive and uneven wear of the sliding surfaces of the supporting rails or framework when adjusted to the bogie system.

While several forms of the invention have been shown and described, other forms will now be apparent to those skilled in the art. Therefore, it will be understood that the embodiments shown in the drawings and described above are merely for illustrative purposes, and are not intended to limit the scope of the invention which is defined by the claims which follow.

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows.

1. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, parallel frame members, a pair of idler wheels generally adjacent either end of said frame members, and a flexible, endless track extending longitudinally around said frame members and supported for movement therearound on said idler wheels; each of said frame members including at least one pair of bogie wheels and means for mounting each of said pairs of bogie wheels relative to one of said frame members; said bogie wheels in each pair mounted coaxially with each other adjacent opposite sides of and intermediate the ends of said respective frame members longitudinally between said pairs of idler wheels; each of said pairs of bogie wheels spacing a portion of said track adjacent said bogie wheels a predetermined distance beneath the respective one of said frame members for support of said vehicle above a supporting surface portions of said track being engageable intermittently with said rails during use thereof; said pairs of bogie wheels being secured at spaced intervals along each of said frame members whereby uneven wearing of the frame members by uneven contact with said track is prevented.

2. The apparatus of claim I wherein said track includes an exterior surface for engaging a supporting surface and an opposing inside surface having railreceiving guide means adapted to receive rails; said frame members comprising rails including bottom and side surfaces, said rails slidingly received within said guide means; said pairs of bogie wheels contacting and spacing the inside surface of said track a predetermined distance from the bottom of said respective rails to thereby control the amount of said rail received within said guide means whereby only the contact of said rail side surfaces with the walls of said guides is permitted for maintaining lateral alignment of said track with said rails.

3. The apparatus of claim 2 wherein said guide means includes protrusions extending above said inside surface thereof immediately adjacent said side surfaces of said rails; said protrusions receiving at least a portion of said rails for maintaining said track in alignment with said rails; said pairs of bogie wheels extending below the plane of said rail bottoms and contacting said inside surface of said track laterally adjacent said protrusions; said pairs of bogie wheels continuously spacing said track a distance below the plane of said rail bottoms beneath said bogie wheels but allowing contact of said rail side surfaces with said protrusions to retain said track in alignment with said rails.

4. The apparatus of claim 2 including means for securing each of said pairs of bogie wheels in various positions along the length of said respective rails.

5. The apparatus of claim 2 wherein each of said rails includes an arcuate portion extending upwardly away from the plane including the bottom surface of the remainder of said rail from a location between the ends of said rail toward the end of said rail which is forwardmost when said apparatus is installed in said vehicle.

6. The apparatus of claim 1 including means for maintaining lateral alignment of said track with said frame members.

7. The apparatus of claim 6 wherein said track has an exterior surface for engaging a supporting surface and an opposing inside surface; said track including continuous, parallel grooves on said inside surface on either side of each of said frame member; said grooves being in alignment with and receiving said bogie wheels on either side of said frame members for maintaining lateral alignment of said track with said frame members.

8. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, parallel frame members, a pair of idler wheels generally adjacent either end of said frame members, and a flexible, endless track extending longitudinally around said frame members and supported for movement therearound on said idler wheels; each of said frame members including a plurality of pairs of bogie wheels and means for mounting each of said pairs of bogie wheels relative to one of said frame members; said bogie wheels in each pair mounted coaxially with each other adjacent opposite sides of and intermediate the ends of said respective frame members longitudinally between said pairs of idler wheels; each of said pairs of bogie wheels spacing a portion of said track adjacent said bogie wheels a predetermined distance beneath the respective one of said frame members for support of said vehicle above a supporting surface; said track including an exterior surface for engaging a supporting surface and an opposing inside surface having rail-receiving guide means adapted to receive rails; said frame members comprising rails including bottom and side surfaces, said rails slidingly received within said guide means; said pairs of bogie wheels contacting and spacing the inside surface of said track a predetermined distance from the bottom of said respective rails to thereby control the amount of said rail received within said guide means whereby only the Contact of said rail side surfaces with the walls of said guides is permitted for maintaining lateral alignment of said track with said rails; said means for mounting said pairs of bogie wheels including means for adjusting the position of each of said pairs of bogie wheels with respect to said bottoms of said rails in a direction normal to said inside surface of said track.

9. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, parallel frame members, a pair of idler wheels generally adjacent either end of said frame members, and a flexible. endless track extending longitudinally around said frame members and suppported for movement therearound on said idler wheels; each of said frame members including a plurality of pairs of bogie wheels and means for mounting each of said pairs of bogie wheels relative to one of said frame members; said bogie wheels in each pair mounted coaxially with each other adjacent opposite sides of and intermediate the ends of said respective frame members longitudinally between said pairs of idler wheels; each of said pairs of bogie wheels spacing a portion of said track adjacent said bogie wheels a predetermined distance beneath the respective one of said frame members for support of said vehicle above a supporting surface; said track including an exterior surface for engaging a supporting surface and an opposing inside surface having rail-receiving guide means adapted to receive rails; said frame members comprising rails including bottom and side surfaces, said rails slidingly received within said guide means; said pairs of bogie wheels contacting and spacing the inside surface of said track a predetermined distance from the bottom of said respective rails to thereby control the amount of said rail received within said guide means whereby only the contact of said rail side surfaces with the walls of said guides is permitted for maintaining lateral alignment of said track with said rails; each of said rails including an arcuate portion extending upwardly away from the plane including the bottom surface of the remainder of said rail from a location between the ends of said rail toward the end of said rail which is forwardmost when said apparatus is installed in said vehicle; said means for mounting said pairs of bogie wheels including means for adjusting the position of each of said pairs of bogie wheels with respect to said bottoms of said rails in a direction normal to said inside surface of said track.

10. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, parallel frame members, a pair of idler wheels generally adjacent either end of said frame members, and a flexible, endless track extending longitudinally around said frame members and supported for movement therearound on said idler wheels; each of said frame members including a plurality of pairs of bogie wheels and means for mounting each of said pairs of bogie wheels relative to one of said frame members; said bogie wheels in each pair mounted coaxially with each other adjacent opposite sides of and intermediate the ends of said respective frame members longitudinally between said pairs of idler wheels; each of said pairs of bogie wheels spacing a portion of said track adjacent said bogie wheels a predetermined distance beneath the respective one of said frame members for support of said vehicle above a supporting surface; said track including an exterior surface for engaging a supporting surface and an opposing inside surface having rail-receiving guide means adapted to receive rails; said frame members comprising rails including bottom and side surfaces, said rails slidingly received within said guide means; said pairs of bogie wheels contacting and spacing the inside surface of said track a predetermined distance from the bottom of said respective rails to thereby control the amount of said rail received within said guide means whereby only the contact of said rail side surfaces with the walls of said guide is permitted for maintaining lateral alignment of said track with said rails; each of said rails including an arcuate portion extending upwardly away from the plane including the bottom surface of the remainder of said rail from a location between the ends of said rail toward the end of said rail which is forwardmost when said apparatus is installed in said vehicle; said means for mounting said pairs of bogie wheels including means for adjusting the position of each of said pairs of bogie wheels with respect to said bottoms of said rails in a direction normal to said inside surface of said track.

11. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, parallel frame members, a pair of idler wheels generally adjacent either end of said frame members, and a flexible, endless track extending longitudinally around said frame members and supported for movement therearound on said idler wheels; each of said frame members including a plurality of pairs of bogie wheels and means for mounting each of said pairs of bogie wheels relative to one of said frame members; said bogie wheels in each pair mounted coaxially with each other adjacent opposite sides of and intermediate the ends of said respective frame members longitudinally between said pairs of idler wheels; each of said pairs of bogie wheels spacing a portion of said track adjacent said bogie wheels at predetermined distance beneath the respective one of said frame members for support of said vehicle above a supporting surface; said means for mounting each of said pairs including means for slidably positioning each of said pairs in various positions along the length of said respective rails and means for adjusting the position of each of said pairs of bogie wheels with respect to said respective frame members in a direction normal to said inside surface of said track; each of said rails including an arcuate portion extending upwardly away from the plane including said bottom surface of the remainder of said rail from a location between the ends of said rail toward the end of said rail which is forwardmost when said apparatus is installed in said vehicle; at least one of said pairs of bogie wheels being positionable along said arcuate portion whereby said pair of wheels is adjustable to selectively maintain a greater and lesser amount of said track into contact with said supporting surface.

12. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, parallel frame members, a pair of idler wheels generally adjacent either end of said frame members, and a flexible, endless track extending longitudinally around said frame members and supported for movement therearound on said idler wheels; each of said frame members including a plurality of pairs of bogie wheels and means for mounting each of said pairs of bogie wheels relative to one of said frame members; said bogie wheels in each pair mounted coaxially with each other adjacent opposite sides of and intermediate the ends of said respective frame members longitudinally between said pairs of idler wheels; each of said pairs of bogie wheels spacing a portion of said track adjacent said bogie wheels a predetermined distance beneath the respective one of said frame members for support of said vehicle above a supporting surface; means for securing each of said pairs of bogie wheels in various positions along the length of each of said respective frame members.

13. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, parallel frame members, a pair of idler wheels generally adjacent either end of said frame members, and a flexible, endless track extending longitudinally around said frame members and supported for movement therearound on said idler wheels; each of said frame members including a plurality of pairs of bogie wheels and means for mounting each of said pairs of bogie wheels relative to one of said frame members; said bogie wheels in each pair mounted coaxially with each other adjacent opposite sides of and intermediate the ends of said respective frame members longitudinally between said pairs of idler wheels; each of said pairs of bogie wheels spacing a portion of said track adjacent said bogie wheels a predetermined distance beneath the respective one of said frame members for support of said vehicle above a supporting surface; said track including an exterior surface for engaging a supporting surface and an opposing inside surface; said 1 means for mounting said pairs of bogie wheels including means for adjusting the position of each of said pairs of bogie wheels with respect to said respective frame members in a direction normal to said inside surface of said track.

14. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, parallel frame members, a pair of idler wheels generally adjacent either end of said frame members, and a flexible, endless track extending longitudinally around said frame members and supported for movement therearound on said idler wheels; each of said frame members including a plurality of pairs of bogie wheels and means for mounting each of said pairs of bogie wheels relative to one of said frame members; said bogie wheels in each pair mounted coaxially with each other adjacent opposite sides of and intermediate the ends of said respective frame members longitudinally between said pairs of idler wheels; each of said pairs of bogie wheels spacing a portion of said track adjacent said bogie wheels a predetermined distance beneath the respective one of said frame members for support of said vehicle above a supporting surface; said track including an exterior surface for engaging a supporting surface and an opposing inside surface; said means for mounting said pairs of bogie wheels including means for securing each of said pairs of bogie wheels in various positions along the length of said respective frame members and means for adjusting the position of each of said pairs of bogie wheels with respect to said respective frame members in a direction normal to said inside surface of said track.

15. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, parallel frame members, a pair of idler wheels generally adjacent either end of said frame members, and a flexible, endless track extending longitudinally around said frame members and supported for movement therearound on said idler wheels; each of said frame members including a plurality of pairs of bogie wheels and means for mounting each of said pairs of bogie wheels relative to one of said frame members; said bogie wheels in each pair mounted coaxially with each other adjacent opposite sides of and intermediate the ends of said respective frame members longitudinally between said pairs of idler wheels; each of said pairs of bogie wheels spacing a portion of said track adjacent said bogie wheels a predetermined distance beneath the respective one of said frame members for support of said vehicle above a supporting surface; said means for mounting said pairs of bogie wheels including a mounting member having flanges extending from the bottom thereof and defining en elongated channel therebetween along the entire length of said mounting member and having a longitudinal axis, a first aperture extending transversely of said mounting member entirely through said flanges and channel, and a cylindrical aperture extending transversely of said mounting member perpendicular to said axis of said channel and spaced from said channel; said frame member received in said channel such that said mounting member is slidable along the length thereof; a pin means received through both said first aperture and an aligning, correspondingly sized aperture in said frame member for securing said mounting member with respect to said frame member; a cylinder rotatably received in said cylindrical aperture and including axles extending from eccentric positions on the ends of said cylinder for mounting said wheels on either side of said mounting mem ber; and means for positioning said cylinder within said cylindrical aperture to vary the position of said eccentric axles relative to said frame member and for locking said cylinder in a preselected rotational position.

16. In an apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, substantially parallel frame members having bottom and side surfaces, idler wheels rotatably mounted generally adjacent either end of said frame members, and a flexible, endless track having exterior and interior surfaces for continuous engagement with a supporting surface for said vehicle, said track extending longitudinally around said frame members in a closed path and supported for movement therearound on said idler wheels; at least one bogie wheel and means for mounting said bogie wheel along the length of at least one of said frame members, said track having opposing upper and lower inside surfaces spaced apart a predetermined distance when in said closed path; the improvement comprising said bogie wheel being of a diameter less than the distance between the opposing inside surfaces of said track in said closed path; and adjustment means for securing said bogie wheel in different positions with respect to said frame member whereby said track is selectively adjustable between a first position in which said bogie wheel spaces said track a predetermined distance from said frame memher bottom at the position where said bogie wheel is located and a second position in which said track contacts said frame member bottom at said position of said bogie wheel and said frame member bottom acts as a track guide whereby said vehicle is convertible from a bogie wheel vehicle system when said track is adjusted in said first position and a rail vehicle system when said track is adjusted in said second position.

17. The apparatus of claim 16 wherein said frame members are slide rails adapted to slidingly engage at least a portion of said track to support said track against said supporting surface; said adjustment means for securing said bogie wheel including means for securing said bogie wheel in a position out of contact with said track whereby said track is allowed to slidingly engage said rail bottom and said predetermined distance is zero.

18. The apparatus of claim 17 wherein the ends of said rails which are forwardmost when said apparatus is installed in said vehicle are curved upwardly out of the plane including the bottoms of the remainder of said rails; said bogie wheel being positioned along said curved end portion of said rail; said securing means providing a means for selectively forcing greater or lesser amounts of said track against said supporting surface.

19. The apparatus of claim 17 wherein the bottom surface of said rails which is adapted to selectively slidingly engage at least a portion of said track comprises high density polyethylene providing a minimal friction producing, wear-resistant, sliding surface.

20. The apparatus of claim 16 wherein said securing means includes means for mounting a continuous axle between said pair of frame members, said axle having at least one bogie wheel mounted thereon, said mounting means for said continuous axle including means mounted on both frame members and generally opposing one another for securing said continuous axle in different positions with respect to said frame members whereby the distance between said axle and the bot toms of said frame members is selectively adjustable.

21. The apparatus of claim I6 wherein said means for securing said bogie wheel includes a mounting member having a movable, axle-receiving element, an axle received in said element, and means for securing said element in different positions with respect to said mounting member; said bogie wheel being rotatably mounted on said axle; said apparatus further including means for fastening said mounting member at various positions along the length of said frame member.

22. in an apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, substantially parallel frame members having bottom and side surfaces, idler wheels rotatably mounted generally adjacent either end of said frame members, and a flexible, endless track having exterior and interior surfaces for continuous engagement with a supporting surface for said vehicle, said track extending longitudinally around said frame members and supported for movement therearound on said idler wheels; at least one bogie wheel and means for mounting said bogie wheel along the length of at least one of said frame members; said bogie wheel rotatably engaging and spacing a portion of said track adjacent thereto a predetermined distance away from said bottom of said frame member for support of said vehicle above said supporting surface; the improvement comprising means for securing said bogie wheel in different positions with respect to said frame member whereby the space between said track and said frame member bottom at the position where said bogie wheel is located is selectively adjustable; said means for securing said bogie wheel including a mounting member having flanges extending from the bottom thereof and defining an elongated channel therebetween along the entire length of said mounting member and having a longitudinal axis, a first aperture extending transversely of said mounting member entirely through said flanges and channel, and a cylindrical aperture extending transversely of said mounting member perpendicular to said axis of said channel and spaced from said channel; said frame member received in said channel such that said mounting member is slidable along the length thereof; a pin means received through both said first aperture and an aligning, correspondingly sized aperture in said frame member for securing said mounting member with respect to said frame member; a cylinder rotatably received in said cylindrical aperture and including axles extending from eccentric positions on the ends of said cylinder for mounting said wheels on either side of said mounting member; and means for positioning said cylinder within said cylindrical aperture to vary the position of said eccentric axles relative to said frame member and for locking said cylinder in a preselected rotational position.

23. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, substantially parallel frame members having bottom and side surfaces, a pair of idler wheels generally adjacent either end of said frame members, and a flexible, endless track having exterior and interior surfaces for continuous engagement with a supporting surface, said track extending longitudinally around said frame members and supported for movement therearound on said idler wheels; each of said frame members including at least one pair of bogie wheels and means for mounting said bogie wheels in said pair coaxially with each other adjacent either side of and intermediate the ends of said respective frame members; each of said pairs of bogie wheels spacing a portion of said track adjacent thereto a predetermined distance away from said bottoms of said respective frame members for support of said vehicle above said supporting surface; said bogie wheel mounting means including means for slidably positioning each of said pairs of bogie wheels in various positions along the length of said respective frame members.

24. The apparatus of claim 23 wherein said frame members are slide rails adapted to slidingly engage at least a portion of said track to support said track against said supporting surface; the ends of said rails which are forwardmost when said apparatus is installed in said vehicle being curved upwardly out of the plane including the bottoms of the remainder of said rails.

25. The apparatus of claim 23 wherein the bottom surface of said rails which is adapted to slidingly engage at least a portion of said track comprises high density polyethylene providing a minimal friction-producing, wear-resistant sliding surface.

26. The apparatus of claim 23 wherein said means for mounting said pairs of bogie wheels comprises a mounting member having flanges extending from the bottom thereof and defining an elongated channel therebetween along the entire length of said mounting member and having a longitudinal axis, a first aperture extending transversely of said mounting member entirely through said flanges and channel, and a cylindrical aperture extending transversely of said mounting member perpendicular to said axis of said channel and spaced from said channel; said frame member received in said channel such that said mounting member is slidable along the length thereof; a pin means received through both said first aperture and an aligning, correspondingly sized aperture in said frame member for securing said mounting member with respect to said frame member; a cylinder rotatably received in said cylindrical aperture and including axles extending from eccentric positions on the ends of said cylinder for mounting said wheels on either side of said mounting member; and means for positioning said cylinder within said cylindrical aperture to vary the position of said eccentric axles relative to said frame member and for locking said cylinder in a preselected rotational position.

27. Apparatus for mounting bogie wheels on an elongated frame member of a snowmobile track assembly, said frame member having side and bottom surfaces and adapted to support idler means at either end thereof for movably supporting a flexible, endless track in a closed loop longitudinally around the ends of said frame member; said apparatus comprising means for rotatably mounting at least one bogie wheel on such a frame member intermediate the ends thereof, said bogie wheel contacting said track at one portion of its periphery only; said mounting means including adjustment means for securing said bogie wheel in different positions with respect to such a frame member when mounted thereon whereby the position of said bogie wheel including said one portion thereof relative to said bottom surface of said frame member is selectively adjustable to control the amount of engagement between said track and frame member.

28. The apparatus of claim 27 wherein said mounting means includes a rotatable member having an axis of rotation substantially perpendicular to the planes of rotation of said bogie wheels; said rotatable member receiving an axle on which is rotatably mounted said bogie wheel; said axle extending on either side of said mounting means from positions located eccentrically of said axis of rotation; said mounting means including means for positioning said rotatable member and securing said rotatable member in various rotational positions.

29. The apparatus of claim 27 wherein said mounting means also includes means for slidably adjusting the position of said mounting means along the length of such a frame member.

30. The apparatus of claim 27 wherein said adjustment means for securing said bogie wheel includes a mounting member having a movable, axle-receiving element, an axle received in said element, and means for securing said element in different positions with respect to said mounting member; said bogie wheel being rotatably mounted on said axle.

31. Apparatus for mounting bogie wheels on an elongated frame member of a snowmobile track assembly, said frame member having side and bottom surfaces and adapted to support means for movably supporting a flexible endless track in a closed loop longitudinally around the ends of said frame member; said apparatus comprising means for rotatably mounting at least one bogie wheel on such a frame member; said mounting means including means for securing said bogie wheel in different positions with respect to such a frame member when mounted thereon whereby the position of said bogie wheel relative to said bottom surface of said frame member is selectively adjustable; said mounting means also including means for slidably adjusting the position of said mounting means along the length of such a frame member; said mounting means including a mounting member having flanges extending from the bottom thereof and defining an elongated channel therebetween extending along the entire length of said mounting member, and first and second apertures extending transversely of said mounting member entirely through said flanges and channel; said frame member received in said channel whereby said mounting means is slidable along the length thereof; pin means received through said first and second apertures as well as apertures corresponding in size to and in alignment with said first and second apertures extending through said frame member for securing said mounting means in a position along said frame member.

32. Apparatus for mounting bogie wheels on an elongated frame member of a snowmobile track assembly, said frame member having side and bottom surfaces and adapted to support means for movably supporting a flexible, endless track in a closed loop longitudinally around the ends of said frame member; said apparatus comprising means for rotatably mounting at least one bogie wheel on such a frame member; said mounting means including means for securing said bogie wheel in different positions with respect to such a frame member when mounted thereon whereby the position of said bogie wheel relative to said bottom surface of said frame member is selectively adjustable; said means for mounting said axle and bogie wheel including a mounting member having flanges extending from the bottom thereof and defining an elongated channel therebetween along the entire length of said mounting member and having a longitudinal axis, a first aperture extending transversely of said mounting member entirely through said flanges and channel, and a cylindrical aperture extending transversely of said mounting member perpendicular to said axis of said channel and spaced from said channel; said frame member received in said channel such that said mounting member is slidable along the length thereof; a pin means received through both said first aperture and an aligning, correspondingly sized aperture in said frame member for securing said mounting member with respect to said frame member; a cylinder rotatably received in said cylindrical aperture and including axles extending from eccentric positions on the ends of said cylinder for mounting said wheels on either side of said mounting member; and means for positioning said cylinder within said cylindrical aperture to vary the position of said eccentric axles relative to said frame member and for locking said cylinder in a preselected rotational position.

33. In a tracked vehicle having a continuous track extending around spaced idler wheels, said idler wheels being spaced longitudinally by a frame member and at least one bogie wheel rotatably secured to said frame for engaging said track, the improvement comprising: adjustment means for securing said bogie wheel in at least two positions, a first position wherein said track is spaced from said frame member and said vehicle operates as a bogie system, and a second position wherein said track contacts said frame and said vehicle operates as a rail system.

l l i UNITED STATES PATENT AND TRADEMARK OFFICE CERTIFICATE OF CORRECTION PATENT NO. 3,893, 526

DATED July 8, 1975 INVENTORtS) Richard E. Esch It is certified that error appears in the ab0ve-identified patent and that said Letters Patent are hereby corrected as shown below:

Column ll, line 5, Claim 1;

After "surface" insert Signed and Sealed this A ttesr:

RUTH C. MASON C. MARSHALL DANN Arresting Officer ('rmrmr'sxr'rmvr of Parents and Trademarks

Claims

2. The apparatus of claim 1 wherein said track includes an exterior surface for engaging a supporting surface and an opposing inside surface having rail-receiving guide means adapted to receive rails; said frame members comprising rails including bottom and side surfaces, said rails slidingly received within said guide means; said pairs of bogie wheels contacting and spacing the inside surface of said track a predetermined distance from the bottom of said respective rails to thereby control the amount of said rail received within said guide means whereby only the contact of said rail side surfaces with the walls of said guides is permitted for maintaining lateral alignment of said track with said rails.

9. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, parallel frame members, a pair of idler wheels generally adjacent either end of said frame members, and a flexible, endless track extending longitudinally around said frame members and suppported for movement therearound on said idler wheels; each of said frame members including a plurality of pairs of bogie wheels and means for mounting each of said pairs of bogie wheels relative to one of said frame members; said bogie wheels in each pair mounted coaxially with each other adjacent opposite sides of and intermediate the ends of said respective frame members longitudinally between said pairs of idler wheels; each of said pairs of bogie wheels spacing a portion of said track adjacent said bogie wheels a predetermined distance beneath the respective one of said frame members for support of said vehicle above a supporting surface; said track including an exterior surface for engaging a supporting surface and an opposing inside surface having rail-receiving guide means adapted to receive rails; said frame members comprising rails including bottom and side surfaces, said rails slidingly received within said guide means; said pairs of bogie wheels contacting and spacing the inside surface of said track a predetermined distance from the bottom of said respective rails to thereby control the amount of said rail received within said guide means whereby only the contact of said rail side surfaces with the walls of said guides is permitted for maintaining lateral alignment of said track with said rails; each of said rails including an arcuate portion extending upwardly away from the plane including the bottom surface of the remainder of said rail from a location between the ends of said rail toward the end of said rail which is forwardmost when said apparatus is installed in said vehicle; said means for mounting said pairs of bogie wheels including means for adjusting the position of each of said pairs of bogie wheels with respect to said bottoms of said rails in a direction normal to said inside surface of said track.

11. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, parallel frame members, a pair of idler wheels generally adjacent either end of said frame members, and a flexible, endless track extending longitudinally around said frame members and supported for movement therearound on said idler wheels; each of said frame members including a plurality of pairs of bogie wheels and means for mounting each of said pairs of bogie wheels relative to one of said frame members; said bogie wheels in each pair mounted coaxially with each other adjacent opposite sides of and intermediate the ends of said respective frame members longitudinally between said pairs of idler wheels; each of said pairs of bogie wheels spacing a portion of said track adjacent said bogie wheels a predetermined distance beneath the respective one of said frame members for support of said vehicle above a supporting surface; said means for mounting each of said pairs including means for slidably positioning each of said pairs in various positions along the length of said respective rails and means for adjusting the position of each of said pairs of bogie wheels with respect to said respective frame members in a direction normal to said inside surface of said track; each of said rails including an arcuate portion extending upwardly away from the plane including said bottom surface of the remainder of said rail from a location between the ends of said rail toward the end of said rail which is forwardmost when said apparatus is installed in said vehicle; at least one of said pairs of bogie wheels being positionable along said arcuate portion whereby said pair of wheels is adjustable to selectively maintain a greater and lesser amount of said track into contact with said supporting surface.

13. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, parallel frame members, a pair of idler wheels generally adjacent either end of said frame members, and a flexible, endless track extending longitudinally around said frame members and supported for movement therearound on said idler wheels; each of said frame members including a plurality of pairs of bogie wheels and means for mounting each of said pairs of bogie wheels relative to one of said frame members; said bogie wheels in each pair mounted coaxially with each other adjacent opposite sides of and intermediate the ends of said respective frame members longitudinally between said pairs of idler wheels; each of said pairs of bogie wheels spacing a portion of said track adjacent said bogie wheels a predetermined distance beneath the respective one of said frame members for support of said vehicle above a supporting surface; said track including an exterior surface for engaging a supporting surface and an opposing inside surface; said means for mounting said pairs of bogie wheels including means for adjusting the position of each of said pairs of bogie wheels with respect to said respective frame members in a direction normal to said inside surface of said track.

15. Apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, parallel frame members, a pair of idler wheels generally adjacent either end of said frame members, and a flexible, endless track extending longitudinally around said frame members and supported for movement therearound on said idler wheels; each of said frame members including a plurality of pairs of bogie wheels and means for mounting each of said pairs of bogie wheels relative to one of said frame members; said bogie wheels in each pair mounted coaxially with each other adjacent opposite sides of and intermediate the ends of said respective frame members longitudinally between said pairs of idler wheels; each of said pairs of bogie wheels spacing a portion of said track adjacent said bogie wheels a predetermined distance beneath the respective one of said frame members for support of said vehicle above a supporting surface; said means for mounting said pairs of bogie wheels including a mounting member having flanges extending from the bottom thereof and defining en elongated channel therebetween along the entire length of said mounTing member and having a longitudinal axis, a first aperture extending transversely of said mounting member entirely through said flanges and channel, and a cylindrical aperture extending transversely of said mounting member perpendicular to said axis of said channel and spaced from said channel; said frame member received in said channel such that said mounting member is slidable along the length thereof; a pin means received through both said first aperture and an aligning, correspondingly sized aperture in said frame member for securing said mounting member with respect to said frame member; a cylinder rotatably received in said cylindrical aperture and including axles extending from eccentric positions on the ends of said cylinder for mounting said wheels on either side of said mounting member; and means for positioning said cylinder within said cylindrical aperture to vary the position of said eccentric axles relative to said frame member and for locking said cylinder in a preselected rotational position.

16. In an apparatus for movably supporting tracked vehicles including snowmobiles and the like including a pair of elongated, substantially parallel frame members having bottom and side surfaces, idler wheels rotatably mounted generally adjacent either end of said frame members, and a flexible, endless track having exterior and interior surfaces for continuous engagement with a supporting surface for said vehicle, said track extending longitudinally around said frame members in a closed path and supported for movement therearound on said idler wheels; at least one bogie wheel and means for mounting said bogie wheel along the length of at least one of said frame members, said track having opposing upper and lower inside surfaces spaced apart a predetermined distance when in said closed path; the improvement comprising said bogie wheel being of a diameter less than the distance between the opposing inside surfaces of said track in said closed path; and adjustment means for securing said bogie wheel in different positions with respect to said frame member whereby said track is selectively adjustable between a first position in which said bogie wheel spaces said track a predetermined distance from said frame member bottom at the position where said bogie wheel is located and a second position in which said track contacts said frame member bottom at said position of said bogie wheel and said frame member bottom acts as a track guide whereby said vehicle is convertible from a bogie wheel vehicle system when said track is adjusted in said first position and a rail vehicle system when said track is adjusted in said second position.

20. The apparatus of claim 16 wherein said securing means includes means for mounting a continuous axle between said pair of frame members, said axle having at least one bogie wheel mounted thereon, said mounting means for said continuous axle including means mounted on both frame members and generally opposing one another for securing said continuous axle in different positions with respect to said frame members whereby the distance between said axle and the bottoms of said frame members is selectively adjustable.

21. The apparatus of claim 16 wherein said means for securing said bogie wheel includes a mounting member having a movable, axle-receiving element, an axle received in said element, and means for securing said element in different positions with respect to said mounting member; said bogie wheel being rotatably mounted on said axle; said apparatus further including means for fastening said mounting member at various positions along the length of said frame member.