CA1304434C - Track roller frame assembly - Google Patents
Track roller frame assemblyInfo
- Publication number
- CA1304434C CA1304434C CA000600382A CA600382A CA1304434C CA 1304434 C CA1304434 C CA 1304434C CA 000600382 A CA000600382 A CA 000600382A CA 600382 A CA600382 A CA 600382A CA 1304434 C CA1304434 C CA 1304434C
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- Canada
- Prior art keywords
- roller frame
- frame assembly
- track roller
- base
- plate
- Prior art date
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Abstract
Abstract of the Invention Track Roller Frame Assembly A track roller frame assembly for a track-type vehicle includes a rugged and yet lightweight main body including a channel-shaped base, a recoil-mechanism receiving tubular casing overlyingly connected to a first end portion of the base, and a plate structure overlyingly connected to the second end portion of the base. A collar defines a bore therethrough for receiving a support member of a drive wheel preferably containing a hydraulic drive motor, and a support bracket is connected to the tubular casing for pivotally connecting the main body to the main frame of the vehicle. The weight of the superstructure and the tension forces on the drive belt that encircles the track roller frame assembly are advantageously transferred through the collar and the main body along a central vertical plane therealong and to a plurality of roller wheels centrally supported under the base. Several embodiments of the plate structure and the base are illustrated which collectively define a tubular beam having a particularly efficacious height "h" to width "b" relationship and a back-up shoulder for strengthened connection with the tubular casing.
Moreover, the base and plate structure utilize formed plates having a rectangular cross section or a U-shaped cross section in order to minimize welding.
Moreover, the base and plate structure utilize formed plates having a rectangular cross section or a U-shaped cross section in order to minimize welding.
Description
~L3~443~
Descript on Track Roller Frame Assembly Technical Field This invention relates generally to a tracked vehicle such as a combine harvester, earthmoving machine or the like, and more particularly to the lightweight, yet rugged construction of a track roller frame assembly therefor.
Backaround Art Most track-type vehicles or crawler tractors have two track roller ~rame assemblies which are pivotally mounted on aligned shafts secured to the rear of the main frame and which are adapted to limitedly swing in vertical, longitudinally oriented planes. Oscillation of the track roller frame assemblies is desirable to accommodate surface irregularities and to reduce shock loads, and the front portions thereof are often interconnected by an equalizer bar or generally equivalent leaf spring assembly which is centrally connected to the main frame. Exemplifying the art in this area are: U.S.
Patent No. 3,899,218 issued to G.D. Blomstrom, et al on August 12, 1975; and U.S. Patent No. 4,650,260 issued March 17, 1987 to R.L. Satzler.
Historically, the track roller frame assemblies have been mounted on the main frame for pivotal movement about the transverse axis of the driven rear sprocket wheels. But, it has been found that when large implement forces are imposed on the bearings of the sprocket wheels, such as are encountered when using a bulldozer blade, there is a marked decrease in the surfa e life of the bearings , ;
,.
.
13~ 4 and associated elements. Accordingly, the track roller frame assemblies have often been pivoted on fixed shafts connected to the main frame and which are located forwardly of the sprocket wheels so that operating forces on the track roller frame assemblies and on the implement can be directed thereto independent of the sprocket wheels. In either case, the equalizer bar is supported on the front portions of the track roller frame assemblies.
U.S. Patent No. 3,872,939 issued to H.L.
Eckert on March 25, 1975; U.S. Patent No. 3,899,218 mentioned above; and U.S. Patent No. 3,963,278 issued to C.M.G. VanWuytswinkel on June 15, 1976 typify the double rail track roller frame construction that has been used successfully for many years. In said construction the superstructure loads are transmitted through the inboard and outboard rails to the opposite ends of plurality of track roller shafts and to the supporting roller wheels. But these heavy frames are difficult to manufacture and too expensive.
One track roller frame assembly produced by the Assignee of the present invention deviated from the usual double rail form by utilizing a longitudinally oriented, vertical steel plate for the primary body portion thereof. This thick and overly heavy plate was notched at the top to receive the tubular casing for the usual recoil mechanism, and was triangularly notched at the bottom to receive a corresponding plurality of laterally thick mounting brackets for the roller wheels. The roller frame was pivotally secured to the main frame by a collar connected to the rear of the plate, and also by an undesirable diagonal brace secured to the main frame laterally inwardly of the collar on the same a~is.
'''' ; , ,, "' "
, One other track roller frame assembly is disclosed in U.S. Patent No. 4,781,257 issued to J.E.
Gee, et al on November 1, 1988, and assigned to the Assignee of the present invention. It is simplified from the usual double-rail beam system in that it includes an elongate lower beam weldably connected to the lower surface of an upper tubular memberO But, the lowex beam is relatively narrow and complex in construction from the standpoint it has two side plates and two cross strips which are welded together by extended length and costly weld joints. Moreover, the relatively abrupt transition between the rear portion of the hollow track roller frame and a solid plate-like extension is also overly complex and undesirable.
Therefore, what is desired is a track roller frame assembly that is rugged and reliable, and yet is of a light weight and economical structure. For example, such assembly should have a relatively limited number of major poxtions which are easy to assemble and connect to each other, and should make maximum use of rollably formed channular or tubular shapes in cross section.
The present invention is directed to overcoming one or more of the above problems.
Disclosure of the Invention In one aspect of the invention there is provided a track roller frame assembly which is connectable to a vehicle main frame and is defined by a main body including an elongate base of formed channular or formed rectangular cross section adapted to be supported by a plurality of roller wheels. A
tubular casing is overlyingly connected to a first end portion of the base, and a formed plate structure is 13~ 34 -overlyingly connected to a second end portion of the base for forming a generally rectangular tubular beam of a depth substantially greater than its width in cross section and a back-up shouldar for a strengthened connection with the tubular casing, and a collar connected to the tubular beam and defining a transverse opening therethrough.
In accordance with another aspect of the invention there is provided a track roller frame assembly of the type which i5 connectable to a vehicle main frame and which is adapted to be supported by a plurality of roller wheels, and that includes a main body having a formed channel-shaped base having first and second end portions, a tubular casing overlyingly connected to the first end portion by a plurality of weld joints, and a formed transition plate structure overlyingly connected to the second end portion by another plurality of weld joints. And, further, a collar is provided which is weldably connected to the main body at the second end portion o~ the base and to the transition plate structure which defines a bore therethrough.
What is provided is a track roller frame assembly that is very strong, and yet it is of a lightweight and economical structure because it makes maximum use of formed c-shaped channels or formed rectangular elements in cross section. The major portions thereof are limited in number and easy to connect to each other by a minimum of simple elongate weld joints. Also, the weight of the vehicle's superstructure is transmitted through the track roller frame assembly in a relatively symmetrical manner with respect to a longitudinal and central vertical plane extending through the track roller frame, and to the supporting roller wheels so as to reduce the overall ~30~434 stresses produced therein. ~oreover, the track roller frame assembly is pivotably secured to the vehicle main frame near one end, is connectable to an equalizer bar near the other end, and is constructed to releasably support a drive wheel while simultaneously transmitting the torque forces associated with powerably rotating the drive wheel in a relatively uniform and/or symmetrical manner directly to the track roller frame.
Brief Description of the Drawinas Fig. 1 is a fragmentary and diagrammatic right side elevational view of a combine harvester employing a track roller frame assembly constructed in accordance with the present invention with the rear outer wheel portion removed and a portion of the front outer wheel portion removed to better illustrate details thereof, and illustrating only a portion of a harvesting implement on the front thereof;
Fig. 2 is a diagrammatic and enlarged fragmentary top plan view of the right rear wheel and associated suspension structure with portions thereof illustrated in cross section, and as taken generally along line II-II of Fig. l;
Fig. 3 is a diagrammatic, enlarged, and fragmentary vertical cross section of the track roller frame assembly as taken along line III-III of Fig. 1;
Fig. 4 is a side elevational view of the track roller frame shown in Figs. 1-3;
Fig. 5 is a top plan view of the track roller frame shown in Fig. 4;
Fig. 6 is a cross sectional view of the track roller frame as taken along line VI-VI of Fig.
4;
~3al4~L34 Fig. 7 is another cross sectional view of the track roller frame as taken along line VII-VII of Fig. 4;
Fig. 8 is a cross sectional view of a second embodiment track roller frame that can be compared with Fig. 6;
Fig. 9 is a diagrammatic, fragmentary, side elevational view of a third embodiment track roller frame;
Fig. 10 is a cross sectional view of the third embodiment track roller frame as taken along line X-X of Fig. 9; and Fig. 11 is another cross sectional view as taken along line XI-XI of Fig. 9.
Best Mode For Carrying Out The Invention Referring to of Fig. 1, there is shown a combine harvester vehicle 10 having a longitudinally extending main frame 12 with a first end or front end 14 and a second end or rear end 16 located respectively to the right and left when viewing the drawing. Similar right and left hand track-type undercarriages 18 which are essentiall~ mirror images of each other, one of which is illustrated, are located generally elevationally below the main frame and provide the sole support for the vehicle. Each undercarriage includes a track roller frame assembly 21 having a rear drive wheel 22 and a front idler wheel 24, and a ground-engaging track or drive belt 26 that encircles these wheels in the form of an endless loop in a well-known manner. A suspension structure 28 used in conjunction with the undercarriages provides the support for the superstructure 29 of the combine harvester 10 and permits the harvesting of crops such as sugar cane, vegetables, rice and grains ~L304~34 in predominantly soft and wet ground conditions. A
conventional front-mounted harvesting implement 30, only a fragment of which is illustrated, is effective to gather the crop with forward movement of the vehicle and to urge it upwardly and rearwardly through the centrally located throat of a suitable threshing mechanism 32. It is to be understood that the harvesting mechanism itself could be of any suitable form, and that the depiction of the present invention within the context of a combine harvester is for purposes of example only, the invention also being adaptable to other forms of track-type or crawler vehicles.
Basically, the suspension structure 28 includes pivot means or a pair of laterally separated pivot joints 34 for pivotally connecting the undercarriages 18 supportably to the front end 1~ of the main frame 12 and permitting pivotal movement of the track roller frame assemblies 21 about a common horizontal and transversely oriented pivot axis 36.
As is only partially illustrated in Fig. 2, the suspension structure further includes coupling means or a coupling assembly 38 including a centrally pivoted equalizer bar 39 for centrally supporting the rear end 16 of the main Erame on the track roller frame assemblies 21, preventing uncontrolled lateral spreading of the undercarriages, and transferring side forces laterally between the undercarriages.
As is shown in Figs. 3, 4 and 5, the right hand track roller frams assembly 21 includes a trac~
roller frame 61 having an elongate main body 62 defined primarily by an elongate rollably formed channel~shaped base or beam 63, a tubular casing 64 overlyingly connected to a front end portion 65 of the base, and a rollably formed reinforcing or transition ~3~434 plate structure 66 overlyingly connected to a rear end portion 67 of the base and defining therewith an enlarged and generally rectangular tubular beam 83 having a structurally strong section modulus for its weight. The track roller frame also includes collar 68 connected to the rear end of the main body 62 for supporting the rear drive wheel 22 for rotation about a horizontal and transversely oriented second axis 69.
These major portions of the track roller frame are preferably weldably secured together and are generally arranged along a longitudinally oriented, ver~ical central plane 70 passing through a central axis 71 of the tubular casing 64 as shown in ~ig. 3.
As is shown best in Figs. 4 and 5, a support bracket 72 is rigidly secured to the inboard side of the tubular casing 64 by welding or the like, and preferably defines a flat, vertically oriented, insids mounting surface 73 parallel to the central plane 70.
A stubshaft~ not illustrated, can be releasably secured to the mounting surface 73 to allow oscillating of the track roller frame 21 in a conventional manner.
The lightweight, yet strong construction of the track roller frame 61 can be appreciated by reference to 4 through 7. Particularly, the channel-shaped base 63 has a fully rollably formed rectangular cross section as defined by laterally inner and outer sidewalls 76 and 77, and upper and lower cross members or plates 78 and 79 from the rear end portion 67 forwardly to a cylindrical end plate 84 closing the rear portion of the tubular casing 64.
The transition plate structure 66 includes a rollably formed plate 86 having an inverted U-shaped cross section which is connected to the channel-shaped base 63 by inner and outer longitudinally oriented weld ~: .
~304L~3~
g joints 88 and 90 strategically located elevationally generally centrally of the overall depth of the main body 62 adjacent to the neutral bending plane thereof.
The transition plate structure 66 further includes a pair of tapered and convexly shaped bracing members 92 which are weldably secured to the sides of the U-shaped plate 86 and to the end plate 84 for additional stiffness. Thus it can be appreciated from viewing Fig. 6 that the plate structure 66 and the base 63 collectively form the enlarged tubular beam 83 of substantial elevational depth or height "h"
adjacent the end plate 84. Moreover, as shown in Figs. 4 and 5 the plate structure 66 and base 63 collectively form a forwardly facing back-up shoulder 94 for the end plate 84 and the tubular casing 64 that strengthens the main body 62 and better resists the longitudinal forces associated with any conventional recoil mechanism 96 located within the tubular casing, although not illustrated. Forwardly of the end plate 84, an upper longitudinal slot 98 is formed through the top plate member 78 of the base 63 as can be noted by reference to Figs. 6 and 7 in order to nestably receive the tubular casing 64. Inner and outer weld joints 100 and 102, which are substantially colinear with the weld joints 88 and 90 respectively, connect the casing to the base. An access opening 104 is formed radially through the casing, an annular mounting flange 106 is connected to the casing thereat, and a cover plate 108 is releasably secured to the mounting flange to permit service access to any recoil mechanism 96 disposed within the casing.
In order to apply proper tension to the track belt 26 and to allow obstacles in the path of the vehicle to be traversed with minimum shock to the undercarriage 18, the ~ront idler wheel 24, including - ~31[)4434 inner and outer wheel portions 109 and 110, is cantilererably supported for rotation about a transverse horizontal axis 111 by a carrier 112 telescopically received in the tubular casing 64. The carrier 112 is centrally disposed between the wheel portions and is resiliently urged to the right when viewing Fig. 1 or in a direction away from the rear drive wheel 22 by the conventional resilient recoil mechanism 96. As is illustrated only partially in Figs. 1, 4 and 5, a pair of diametrically opposite twist prevention devices 116 and 118 of conventional construction are provided which extend radially into the tubular casing 64 to maintain a preselected angular orientation of the idler wheel carrier 112 about the central axis 71 of the tubular casing 64 and to maintain wheel axis 111 substantially horizontal.
And at the forward end of the tubular casing the pivot pin support bracket 72 and a bearing and seal supporting ring 120 are weldably secured to the casing. Preferably, a closure plate 122 is weldably secured to the ring and the front face of the base.
Referring now to Fig. 3, a plurality of longitudinally spaced apart mounting pads 124 are weldably secured to the bottom surface of the channel-shaped base 63, and a formed tubular casing 126 is releasably secured to each pad by a plurality of upwardly extending threaded fasteners or bolts 12~.
A roller wheel 130 includes an inboard wheel portion 132 and an outboard wheel portion 134 interconnected by a live cross shaft 136, and a pair of laterally spaced bearings 13~ and 140 are seated within the tubular casing for rotatably supporting the cross shaft. This view also illustrates the relationship of the relatively narrow width "b" of the channel-shaped 13~4434 base 63 to the clearance "w" between the wheel portions 132 and 134.
Referring to Fig. 2, the rear wheel 22 of the track roller frame assembly 21 includes a generally tubular housing or support member 142, and a shaft assembly 144 rotatably supported therewithin.
And, the supporting collar 68 is annular and rigidly secured to the main body 62 of the track roller frame 61 by a weld joint 146 at the front face of the collar -10 as can be appreciated by reference to Figs. 1, 4 and 5. The supporting collar has an internal mounting flange 148 which defines a cylindrical pilot bore or opening 150 therethrough generally concentrically arranged with the second axis 69, and a plurality of cylindrical passages 152 therethrough spaced about the bore. In a cooperating manner the housing 142 has an external mounting flange 154 defining a plurality of cylindrical passages 156 therethrough, and an external cylindrical pilot portion 158 which is insertable in the pilot bore 150. A plurality of fluted studs 160 are rigidly secured in the passages 156 of the mounting flange 154 which extend laterally outwardly through the passages 152, and a plurality of retaining nuts 162 are screwthreadably installed thereon in order to releasably couple the housing 142 to the collar 68.
The shaft assembly 144 is rotatably supported within the housing 142 by an inboard tapered roller bearing 164 and an outboard tapered roller bearing 166 laterally spaced sy~metrically on each side of the central plate 70. The shaft assembly includes an output shaft 163 defining a cylindrical inner end portion 170 and an inboard flange member 172, and an outboard flange member 174 is releasably and nonrotatably secured to the shaft by a ~3~43~
conventional retention device 176. Fig. 2 also shows that the drive wheel 22 has inner and outer wheel portions 178 and 180 which are releasably secured to the flange members 172 and 17~ respectively.
Each one of the track roller frame assemblies 21 includes a two speed or dual displacement hydraulic drive motor 182 for independently powerably rotating each of the rear wheels 22 along its respective transverse and horizontal axis 69. Although not illustrated in Fig.
Descript on Track Roller Frame Assembly Technical Field This invention relates generally to a tracked vehicle such as a combine harvester, earthmoving machine or the like, and more particularly to the lightweight, yet rugged construction of a track roller frame assembly therefor.
Backaround Art Most track-type vehicles or crawler tractors have two track roller ~rame assemblies which are pivotally mounted on aligned shafts secured to the rear of the main frame and which are adapted to limitedly swing in vertical, longitudinally oriented planes. Oscillation of the track roller frame assemblies is desirable to accommodate surface irregularities and to reduce shock loads, and the front portions thereof are often interconnected by an equalizer bar or generally equivalent leaf spring assembly which is centrally connected to the main frame. Exemplifying the art in this area are: U.S.
Patent No. 3,899,218 issued to G.D. Blomstrom, et al on August 12, 1975; and U.S. Patent No. 4,650,260 issued March 17, 1987 to R.L. Satzler.
Historically, the track roller frame assemblies have been mounted on the main frame for pivotal movement about the transverse axis of the driven rear sprocket wheels. But, it has been found that when large implement forces are imposed on the bearings of the sprocket wheels, such as are encountered when using a bulldozer blade, there is a marked decrease in the surfa e life of the bearings , ;
,.
.
13~ 4 and associated elements. Accordingly, the track roller frame assemblies have often been pivoted on fixed shafts connected to the main frame and which are located forwardly of the sprocket wheels so that operating forces on the track roller frame assemblies and on the implement can be directed thereto independent of the sprocket wheels. In either case, the equalizer bar is supported on the front portions of the track roller frame assemblies.
U.S. Patent No. 3,872,939 issued to H.L.
Eckert on March 25, 1975; U.S. Patent No. 3,899,218 mentioned above; and U.S. Patent No. 3,963,278 issued to C.M.G. VanWuytswinkel on June 15, 1976 typify the double rail track roller frame construction that has been used successfully for many years. In said construction the superstructure loads are transmitted through the inboard and outboard rails to the opposite ends of plurality of track roller shafts and to the supporting roller wheels. But these heavy frames are difficult to manufacture and too expensive.
One track roller frame assembly produced by the Assignee of the present invention deviated from the usual double rail form by utilizing a longitudinally oriented, vertical steel plate for the primary body portion thereof. This thick and overly heavy plate was notched at the top to receive the tubular casing for the usual recoil mechanism, and was triangularly notched at the bottom to receive a corresponding plurality of laterally thick mounting brackets for the roller wheels. The roller frame was pivotally secured to the main frame by a collar connected to the rear of the plate, and also by an undesirable diagonal brace secured to the main frame laterally inwardly of the collar on the same a~is.
'''' ; , ,, "' "
, One other track roller frame assembly is disclosed in U.S. Patent No. 4,781,257 issued to J.E.
Gee, et al on November 1, 1988, and assigned to the Assignee of the present invention. It is simplified from the usual double-rail beam system in that it includes an elongate lower beam weldably connected to the lower surface of an upper tubular memberO But, the lowex beam is relatively narrow and complex in construction from the standpoint it has two side plates and two cross strips which are welded together by extended length and costly weld joints. Moreover, the relatively abrupt transition between the rear portion of the hollow track roller frame and a solid plate-like extension is also overly complex and undesirable.
Therefore, what is desired is a track roller frame assembly that is rugged and reliable, and yet is of a light weight and economical structure. For example, such assembly should have a relatively limited number of major poxtions which are easy to assemble and connect to each other, and should make maximum use of rollably formed channular or tubular shapes in cross section.
The present invention is directed to overcoming one or more of the above problems.
Disclosure of the Invention In one aspect of the invention there is provided a track roller frame assembly which is connectable to a vehicle main frame and is defined by a main body including an elongate base of formed channular or formed rectangular cross section adapted to be supported by a plurality of roller wheels. A
tubular casing is overlyingly connected to a first end portion of the base, and a formed plate structure is 13~ 34 -overlyingly connected to a second end portion of the base for forming a generally rectangular tubular beam of a depth substantially greater than its width in cross section and a back-up shouldar for a strengthened connection with the tubular casing, and a collar connected to the tubular beam and defining a transverse opening therethrough.
In accordance with another aspect of the invention there is provided a track roller frame assembly of the type which i5 connectable to a vehicle main frame and which is adapted to be supported by a plurality of roller wheels, and that includes a main body having a formed channel-shaped base having first and second end portions, a tubular casing overlyingly connected to the first end portion by a plurality of weld joints, and a formed transition plate structure overlyingly connected to the second end portion by another plurality of weld joints. And, further, a collar is provided which is weldably connected to the main body at the second end portion o~ the base and to the transition plate structure which defines a bore therethrough.
What is provided is a track roller frame assembly that is very strong, and yet it is of a lightweight and economical structure because it makes maximum use of formed c-shaped channels or formed rectangular elements in cross section. The major portions thereof are limited in number and easy to connect to each other by a minimum of simple elongate weld joints. Also, the weight of the vehicle's superstructure is transmitted through the track roller frame assembly in a relatively symmetrical manner with respect to a longitudinal and central vertical plane extending through the track roller frame, and to the supporting roller wheels so as to reduce the overall ~30~434 stresses produced therein. ~oreover, the track roller frame assembly is pivotably secured to the vehicle main frame near one end, is connectable to an equalizer bar near the other end, and is constructed to releasably support a drive wheel while simultaneously transmitting the torque forces associated with powerably rotating the drive wheel in a relatively uniform and/or symmetrical manner directly to the track roller frame.
Brief Description of the Drawinas Fig. 1 is a fragmentary and diagrammatic right side elevational view of a combine harvester employing a track roller frame assembly constructed in accordance with the present invention with the rear outer wheel portion removed and a portion of the front outer wheel portion removed to better illustrate details thereof, and illustrating only a portion of a harvesting implement on the front thereof;
Fig. 2 is a diagrammatic and enlarged fragmentary top plan view of the right rear wheel and associated suspension structure with portions thereof illustrated in cross section, and as taken generally along line II-II of Fig. l;
Fig. 3 is a diagrammatic, enlarged, and fragmentary vertical cross section of the track roller frame assembly as taken along line III-III of Fig. 1;
Fig. 4 is a side elevational view of the track roller frame shown in Figs. 1-3;
Fig. 5 is a top plan view of the track roller frame shown in Fig. 4;
Fig. 6 is a cross sectional view of the track roller frame as taken along line VI-VI of Fig.
4;
~3al4~L34 Fig. 7 is another cross sectional view of the track roller frame as taken along line VII-VII of Fig. 4;
Fig. 8 is a cross sectional view of a second embodiment track roller frame that can be compared with Fig. 6;
Fig. 9 is a diagrammatic, fragmentary, side elevational view of a third embodiment track roller frame;
Fig. 10 is a cross sectional view of the third embodiment track roller frame as taken along line X-X of Fig. 9; and Fig. 11 is another cross sectional view as taken along line XI-XI of Fig. 9.
Best Mode For Carrying Out The Invention Referring to of Fig. 1, there is shown a combine harvester vehicle 10 having a longitudinally extending main frame 12 with a first end or front end 14 and a second end or rear end 16 located respectively to the right and left when viewing the drawing. Similar right and left hand track-type undercarriages 18 which are essentiall~ mirror images of each other, one of which is illustrated, are located generally elevationally below the main frame and provide the sole support for the vehicle. Each undercarriage includes a track roller frame assembly 21 having a rear drive wheel 22 and a front idler wheel 24, and a ground-engaging track or drive belt 26 that encircles these wheels in the form of an endless loop in a well-known manner. A suspension structure 28 used in conjunction with the undercarriages provides the support for the superstructure 29 of the combine harvester 10 and permits the harvesting of crops such as sugar cane, vegetables, rice and grains ~L304~34 in predominantly soft and wet ground conditions. A
conventional front-mounted harvesting implement 30, only a fragment of which is illustrated, is effective to gather the crop with forward movement of the vehicle and to urge it upwardly and rearwardly through the centrally located throat of a suitable threshing mechanism 32. It is to be understood that the harvesting mechanism itself could be of any suitable form, and that the depiction of the present invention within the context of a combine harvester is for purposes of example only, the invention also being adaptable to other forms of track-type or crawler vehicles.
Basically, the suspension structure 28 includes pivot means or a pair of laterally separated pivot joints 34 for pivotally connecting the undercarriages 18 supportably to the front end 1~ of the main frame 12 and permitting pivotal movement of the track roller frame assemblies 21 about a common horizontal and transversely oriented pivot axis 36.
As is only partially illustrated in Fig. 2, the suspension structure further includes coupling means or a coupling assembly 38 including a centrally pivoted equalizer bar 39 for centrally supporting the rear end 16 of the main Erame on the track roller frame assemblies 21, preventing uncontrolled lateral spreading of the undercarriages, and transferring side forces laterally between the undercarriages.
As is shown in Figs. 3, 4 and 5, the right hand track roller frams assembly 21 includes a trac~
roller frame 61 having an elongate main body 62 defined primarily by an elongate rollably formed channel~shaped base or beam 63, a tubular casing 64 overlyingly connected to a front end portion 65 of the base, and a rollably formed reinforcing or transition ~3~434 plate structure 66 overlyingly connected to a rear end portion 67 of the base and defining therewith an enlarged and generally rectangular tubular beam 83 having a structurally strong section modulus for its weight. The track roller frame also includes collar 68 connected to the rear end of the main body 62 for supporting the rear drive wheel 22 for rotation about a horizontal and transversely oriented second axis 69.
These major portions of the track roller frame are preferably weldably secured together and are generally arranged along a longitudinally oriented, ver~ical central plane 70 passing through a central axis 71 of the tubular casing 64 as shown in ~ig. 3.
As is shown best in Figs. 4 and 5, a support bracket 72 is rigidly secured to the inboard side of the tubular casing 64 by welding or the like, and preferably defines a flat, vertically oriented, insids mounting surface 73 parallel to the central plane 70.
A stubshaft~ not illustrated, can be releasably secured to the mounting surface 73 to allow oscillating of the track roller frame 21 in a conventional manner.
The lightweight, yet strong construction of the track roller frame 61 can be appreciated by reference to 4 through 7. Particularly, the channel-shaped base 63 has a fully rollably formed rectangular cross section as defined by laterally inner and outer sidewalls 76 and 77, and upper and lower cross members or plates 78 and 79 from the rear end portion 67 forwardly to a cylindrical end plate 84 closing the rear portion of the tubular casing 64.
The transition plate structure 66 includes a rollably formed plate 86 having an inverted U-shaped cross section which is connected to the channel-shaped base 63 by inner and outer longitudinally oriented weld ~: .
~304L~3~
g joints 88 and 90 strategically located elevationally generally centrally of the overall depth of the main body 62 adjacent to the neutral bending plane thereof.
The transition plate structure 66 further includes a pair of tapered and convexly shaped bracing members 92 which are weldably secured to the sides of the U-shaped plate 86 and to the end plate 84 for additional stiffness. Thus it can be appreciated from viewing Fig. 6 that the plate structure 66 and the base 63 collectively form the enlarged tubular beam 83 of substantial elevational depth or height "h"
adjacent the end plate 84. Moreover, as shown in Figs. 4 and 5 the plate structure 66 and base 63 collectively form a forwardly facing back-up shoulder 94 for the end plate 84 and the tubular casing 64 that strengthens the main body 62 and better resists the longitudinal forces associated with any conventional recoil mechanism 96 located within the tubular casing, although not illustrated. Forwardly of the end plate 84, an upper longitudinal slot 98 is formed through the top plate member 78 of the base 63 as can be noted by reference to Figs. 6 and 7 in order to nestably receive the tubular casing 64. Inner and outer weld joints 100 and 102, which are substantially colinear with the weld joints 88 and 90 respectively, connect the casing to the base. An access opening 104 is formed radially through the casing, an annular mounting flange 106 is connected to the casing thereat, and a cover plate 108 is releasably secured to the mounting flange to permit service access to any recoil mechanism 96 disposed within the casing.
In order to apply proper tension to the track belt 26 and to allow obstacles in the path of the vehicle to be traversed with minimum shock to the undercarriage 18, the ~ront idler wheel 24, including - ~31[)4434 inner and outer wheel portions 109 and 110, is cantilererably supported for rotation about a transverse horizontal axis 111 by a carrier 112 telescopically received in the tubular casing 64. The carrier 112 is centrally disposed between the wheel portions and is resiliently urged to the right when viewing Fig. 1 or in a direction away from the rear drive wheel 22 by the conventional resilient recoil mechanism 96. As is illustrated only partially in Figs. 1, 4 and 5, a pair of diametrically opposite twist prevention devices 116 and 118 of conventional construction are provided which extend radially into the tubular casing 64 to maintain a preselected angular orientation of the idler wheel carrier 112 about the central axis 71 of the tubular casing 64 and to maintain wheel axis 111 substantially horizontal.
And at the forward end of the tubular casing the pivot pin support bracket 72 and a bearing and seal supporting ring 120 are weldably secured to the casing. Preferably, a closure plate 122 is weldably secured to the ring and the front face of the base.
Referring now to Fig. 3, a plurality of longitudinally spaced apart mounting pads 124 are weldably secured to the bottom surface of the channel-shaped base 63, and a formed tubular casing 126 is releasably secured to each pad by a plurality of upwardly extending threaded fasteners or bolts 12~.
A roller wheel 130 includes an inboard wheel portion 132 and an outboard wheel portion 134 interconnected by a live cross shaft 136, and a pair of laterally spaced bearings 13~ and 140 are seated within the tubular casing for rotatably supporting the cross shaft. This view also illustrates the relationship of the relatively narrow width "b" of the channel-shaped 13~4434 base 63 to the clearance "w" between the wheel portions 132 and 134.
Referring to Fig. 2, the rear wheel 22 of the track roller frame assembly 21 includes a generally tubular housing or support member 142, and a shaft assembly 144 rotatably supported therewithin.
And, the supporting collar 68 is annular and rigidly secured to the main body 62 of the track roller frame 61 by a weld joint 146 at the front face of the collar -10 as can be appreciated by reference to Figs. 1, 4 and 5. The supporting collar has an internal mounting flange 148 which defines a cylindrical pilot bore or opening 150 therethrough generally concentrically arranged with the second axis 69, and a plurality of cylindrical passages 152 therethrough spaced about the bore. In a cooperating manner the housing 142 has an external mounting flange 154 defining a plurality of cylindrical passages 156 therethrough, and an external cylindrical pilot portion 158 which is insertable in the pilot bore 150. A plurality of fluted studs 160 are rigidly secured in the passages 156 of the mounting flange 154 which extend laterally outwardly through the passages 152, and a plurality of retaining nuts 162 are screwthreadably installed thereon in order to releasably couple the housing 142 to the collar 68.
The shaft assembly 144 is rotatably supported within the housing 142 by an inboard tapered roller bearing 164 and an outboard tapered roller bearing 166 laterally spaced sy~metrically on each side of the central plate 70. The shaft assembly includes an output shaft 163 defining a cylindrical inner end portion 170 and an inboard flange member 172, and an outboard flange member 174 is releasably and nonrotatably secured to the shaft by a ~3~43~
conventional retention device 176. Fig. 2 also shows that the drive wheel 22 has inner and outer wheel portions 178 and 180 which are releasably secured to the flange members 172 and 17~ respectively.
Each one of the track roller frame assemblies 21 includes a two speed or dual displacement hydraulic drive motor 182 for independently powerably rotating each of the rear wheels 22 along its respective transverse and horizontal axis 69. Although not illustrated in Fig.
2, the hydraulic drive motor is preferably located radially within the tubular housing 142 for powerably rotating the shaft assembly 144. Moreover, the hydraulic drive motor 182 is also preferably located axially between the flange members 172 and 174 and/or the wheel portions 178 and 180. An auxiliary disc-type par~ing brake 184 is also advantageously included within the housing. Each hydraulic drive motor is of the reversible radial piston type having a plurality of internal rollers that roll on a plurality of exterior cams as is known in the art, although not illustrated. Such motors are, for example, commercially produced by Poclain Hydraulics of France and are highly efficient in producing high torque either in a low speed range or a high speed range. In order to obtain the high range and to increase the output speed, the pressure supply to half the pistons is bypassed through a suitable control assembly, not illustrated.
An outer coupling device 186 is shown in Fig. 2 that couples with an unusual type of action a bifurcated outer end 188 of the equalizer bar 39 with the rotatable shaft 168 of the rear drive wheel 22 along the transverse axis 69. The coupling device includes a pair of tapered roller bearings 190 which , , .
~30~434 are internally seated in an opposing relation on the cylindrical inner end portion 170 of the shaft 168, and which are secured in placa by a releasable thrust-transmitting retaining plate 192. These roller bearings are seated within a cylindrical bore 194 of an annular trunnion member 196, and individually engage a thrust ring 198 located between them. The trunnion member 196 supports a pair of oppositely extending pivot pins 200 arranged along a generally horizontal common axis 202 disposed in a longitudinally oriented vertical plane. Aligned cylindrical bores 204 formed in the outer end 188 of the equalizer bar are adapted to receive sleeve or needle bearings 206, and these bearing rotatably receive these pins. The axis 202 of the pivot pins intersects the transverse axis 69.
Fig. 2 also illustrates a cross sectional view of the preferred endless track belt 26 which is defined by a relatively flat elastomeric body 208 having a plurality of inclined external ground-engaging bars 210 and a plurality of internal guide members 212 integrally formed therewith. The belt is preferably reinforced by internal cables or the like, not illustrated, so that it is substantially inextensible.
Second Embodiment As is illustrated in Fig. 8, a second embodiment of the tubular beam 83' is shown as including a channel-shaped base 63' consisting essentially of a rollably formed plate 214 of U shaped cross section, and an upper box plate s$ructure 66' including a formed plate 216 of U-shaped cross section and a top plate 218. In this regard, those elements similar to those described in connection with the ~30a~3~
first embodiment are identified by the same reference numerals with a prime indicator appended thereto.
Third Embodiment A third embodiment roller frame main body 62 " is partially illustrated in Figs. 9-11, and includes a channel-shaped base 63'' primarily formed by a first or inboard side plate 220 and a second or outboard side plate 222 interconnected by a longitudinally oriented, central weld joint 224 at the bottom thereof. In this instance, the plate structure 66'' overlyingly connected to the rear portion of the base 63'' includes the integrally formed upper portions of both side plates which are generally of a C-shaped cross section. A longitudinally oriented, central weld joint 226 secures the side plates together at the upper part thereof, and the plate structure 66 " further includes a cross bracing device 228 between the side plates for structurally strengthening the main body 62''. Specifically, the cross bracing device includes an elongate channel member 230 of U-shaped section which spans laterally between the side plates and is connected thereto by a plurality of annular or plug-type weld joints 232 as shown in Fig. 9. Each of the side plates 220 and 222 is formed to define a forwardly facing bacX-up shoulder 94 ", an upwardly facing casing support edge 234 and a profiled slot 236 that receives a 1/4 round cross piece 238 having a cross section equivalent to one-fourth of a cylindrical rod. The channel member 230 is seated on the cross piece 238, and the rounded profile of the shaped cross piece tends to minimize internal stresses at the intersection of the shoulder 94 " and the supporting edges 234 caused by bending o~
-.
~L3(~4~39~
the main body of the track roller frame assembly 21'' in use.
Industrial Applicability In operation, the vehicle 10 is driven by the operator in such a way that the output shafts 168 of the hydraulic drive motors 182 shown in Fig. 2 can be independently and selectively driven at any ground speed within a low working speed range or at an expanded traveling speed range with a relatively higher maximum rate o~ speed. A suitable control apparatus, not illustrated, can selectively and proportionately cause more flow to one of the hydraulic drive motors and less flow to the opp~site hydraulic drive motor so that the vehicle can be controllably steered in the desired direction. Since one hydraulic drive motor can be locked or even controllably reversed in rotational direction while the opposite one is rotating in the forward direction, a compact pivot turn of the combine harvester can be easily achieved. Also, at any time the disc type brakes 184 may be simultaneously applied by the vehicle operator to slow down or to brake the vehicle.
Of course, the hydraulic drive motors can be individually hydrostatically braked as is known in the art for providing the usual service braking function.
When the vehicle 10 travels over uneven terrain, for example, the rearward end of the right track roller frame assembly 21 may swing downwardly about the front pivot axis 36 while the rearward end of the left track roller frame assembly swings upwardly about the same front pivot axis due tc their common connection to the centrally pivoted equalizPr bar 39 as can be appreciated by reference to Figs. 1 and 2. As the track roller frame assemblies move in ~L30~34 opposite directions, the equalizer bar will swing about its center in the usual way and cause the left and right pivot pins 200 to also travel in slightly arcuate paths as viewed from the rear of the vehicle 10. And yet the transverse axis 69 will remain parallel to the front pivot axis 36.
The wheel or motor housing 142 shown in Fig.
2 is laterally centrally mounted on the track roller frame 61, and the hydraulic drive motor 182 is disposed radially therewithin in a protected location laterally within the inner and outer wheel portions 178 and 180, and generally within the width envelope of the drive belt 26. Thus the hydraulic drive motor is less susceptible to possible damage and there is less debris build-up than would be the case if it extended laterally beyond the belt. The tension loads on the drive belt due to the carrier 112 being urged forwardly or to the right when reviewing Fig. 1 in a continuously resilient manner by the recoil mechanism 96 are directed relatively evenly or symmetrically through the inner and outer wheel portions and to the shaft as embly 144. Thereafter such forces are directed through the laterally separated inner and outer roller bearings 164 and 166 to the housing 142, and to the central mounting flange 154 in two relatively equivalent force transmitting paths to the supporting collar 68. Note specifically that the housing mounting flange 154 is on the central plane 70 of the track roller frame assembly 21 so that the torque loads due to the hydraulic drive motor are also substantially directly directed thereto along this plane. The recoil mechanism 96 also acts along the central axis 71 of the tubular casing ~4 to urge the carrier 112 forwardly to provide the desired tension to the drive belt 26 on the wheels 22 and 24 for 1;~04~3~
solely frictional engagement with the wheel portions 109, 110, 178 and 180. These belt tension loads are transferred to the tubular casing 64, the transition structure 66, the channel-shaped base 63, and to this supporting collar 68 symmetrically along the central plane 70 as can be visualized by reference to Figs.
1-7.
By the term "channel-shaped base" 63 it is meant that at least one bottom plate and two side plates are provided to define a U-shaped portion in cross section, and the upper part thereof can, in effect, optionally be provided with a separate top plate as shown in Figs. 8 and 10 or be integrally formed with the side plates as shown in Fig. 6 to de~ine a rectangular beam in cross section with no lower weld joints. Alternately, the cross bracing device 228 of Fig. 10 can be a plurality of cross pieces spaced longitudinally between the sideplates, although not illustrated, so that the channel shaped base is internally in open communication with the upper plate structure 66'' that completes the cross section into the tubular beam 83''.
The track roller frame 61, front and rear wheel assemblies 24 and 22, the track belt 26, and the hydraulic drive motors 182 at one side of the vehicle 10 can be very simply removed as a unit from the main frame 12. It is only necessary to place a support such as an adjustable jack, not illustrated, under the front end 14 of the main frame to enable the pivot joint 34 to be uncoupled. Another support, not illustrated, can be placed under the rear end 16 of the main frame 12 to permit the coupling assembly 38 to be uncoupled. With the disassembly of any hydraulic and/or electric lines, this frees the entire undercarriage 18 from the main frame.
;
~ ~4~3~
In view of the foregoing, it is apparent tnat the track roller frame assemblies 21 of the present invention are rugged in construction and very economical to manufacture due to the relatively limited number of major portions thereof, the relatively limited length of connecting weld joints, and the location and simplicity of the weld joints.
Moreover, the forces transmitted longitudinally along the full length of the track roller frame assemblies 1~ are directed generally along the central plane 70, and the weight loads of the superstructure 29 are transmitted through the channel-shaped base 63 and to the supporting wheels 22, 24 and 130 along the central plane so that the construction is symmetrically loaded and capable of being made of rollably formed steel materials which are very economical to manufacture.
Preferably, the tubular beams 83 are of substantially rectangular cross section and have a height "h" equal to approximately two to three times the width "b" to provide the desired section modulus.
And while the lower channel-shaped base 63 and the upper reinforcing or transition plate structure 66 are shown as including at least two major rollably formed steel plates which are welded together in the embodiments of Figs. 6, 8 and 10, it is further contemplated that the main body 62 exclusive of the tubular casing 64 can also be of an integrally cast steel construction without departing from the spirit of the present invention.
Other aspects, objects and advantages of this invention can be obtained from a study of the drawings, the disclosures and the appended claims.
,. . . .
.
; . ' ` ` :
An outer coupling device 186 is shown in Fig. 2 that couples with an unusual type of action a bifurcated outer end 188 of the equalizer bar 39 with the rotatable shaft 168 of the rear drive wheel 22 along the transverse axis 69. The coupling device includes a pair of tapered roller bearings 190 which , , .
~30~434 are internally seated in an opposing relation on the cylindrical inner end portion 170 of the shaft 168, and which are secured in placa by a releasable thrust-transmitting retaining plate 192. These roller bearings are seated within a cylindrical bore 194 of an annular trunnion member 196, and individually engage a thrust ring 198 located between them. The trunnion member 196 supports a pair of oppositely extending pivot pins 200 arranged along a generally horizontal common axis 202 disposed in a longitudinally oriented vertical plane. Aligned cylindrical bores 204 formed in the outer end 188 of the equalizer bar are adapted to receive sleeve or needle bearings 206, and these bearing rotatably receive these pins. The axis 202 of the pivot pins intersects the transverse axis 69.
Fig. 2 also illustrates a cross sectional view of the preferred endless track belt 26 which is defined by a relatively flat elastomeric body 208 having a plurality of inclined external ground-engaging bars 210 and a plurality of internal guide members 212 integrally formed therewith. The belt is preferably reinforced by internal cables or the like, not illustrated, so that it is substantially inextensible.
Second Embodiment As is illustrated in Fig. 8, a second embodiment of the tubular beam 83' is shown as including a channel-shaped base 63' consisting essentially of a rollably formed plate 214 of U shaped cross section, and an upper box plate s$ructure 66' including a formed plate 216 of U-shaped cross section and a top plate 218. In this regard, those elements similar to those described in connection with the ~30a~3~
first embodiment are identified by the same reference numerals with a prime indicator appended thereto.
Third Embodiment A third embodiment roller frame main body 62 " is partially illustrated in Figs. 9-11, and includes a channel-shaped base 63'' primarily formed by a first or inboard side plate 220 and a second or outboard side plate 222 interconnected by a longitudinally oriented, central weld joint 224 at the bottom thereof. In this instance, the plate structure 66'' overlyingly connected to the rear portion of the base 63'' includes the integrally formed upper portions of both side plates which are generally of a C-shaped cross section. A longitudinally oriented, central weld joint 226 secures the side plates together at the upper part thereof, and the plate structure 66 " further includes a cross bracing device 228 between the side plates for structurally strengthening the main body 62''. Specifically, the cross bracing device includes an elongate channel member 230 of U-shaped section which spans laterally between the side plates and is connected thereto by a plurality of annular or plug-type weld joints 232 as shown in Fig. 9. Each of the side plates 220 and 222 is formed to define a forwardly facing bacX-up shoulder 94 ", an upwardly facing casing support edge 234 and a profiled slot 236 that receives a 1/4 round cross piece 238 having a cross section equivalent to one-fourth of a cylindrical rod. The channel member 230 is seated on the cross piece 238, and the rounded profile of the shaped cross piece tends to minimize internal stresses at the intersection of the shoulder 94 " and the supporting edges 234 caused by bending o~
-.
~L3(~4~39~
the main body of the track roller frame assembly 21'' in use.
Industrial Applicability In operation, the vehicle 10 is driven by the operator in such a way that the output shafts 168 of the hydraulic drive motors 182 shown in Fig. 2 can be independently and selectively driven at any ground speed within a low working speed range or at an expanded traveling speed range with a relatively higher maximum rate o~ speed. A suitable control apparatus, not illustrated, can selectively and proportionately cause more flow to one of the hydraulic drive motors and less flow to the opp~site hydraulic drive motor so that the vehicle can be controllably steered in the desired direction. Since one hydraulic drive motor can be locked or even controllably reversed in rotational direction while the opposite one is rotating in the forward direction, a compact pivot turn of the combine harvester can be easily achieved. Also, at any time the disc type brakes 184 may be simultaneously applied by the vehicle operator to slow down or to brake the vehicle.
Of course, the hydraulic drive motors can be individually hydrostatically braked as is known in the art for providing the usual service braking function.
When the vehicle 10 travels over uneven terrain, for example, the rearward end of the right track roller frame assembly 21 may swing downwardly about the front pivot axis 36 while the rearward end of the left track roller frame assembly swings upwardly about the same front pivot axis due tc their common connection to the centrally pivoted equalizPr bar 39 as can be appreciated by reference to Figs. 1 and 2. As the track roller frame assemblies move in ~L30~34 opposite directions, the equalizer bar will swing about its center in the usual way and cause the left and right pivot pins 200 to also travel in slightly arcuate paths as viewed from the rear of the vehicle 10. And yet the transverse axis 69 will remain parallel to the front pivot axis 36.
The wheel or motor housing 142 shown in Fig.
2 is laterally centrally mounted on the track roller frame 61, and the hydraulic drive motor 182 is disposed radially therewithin in a protected location laterally within the inner and outer wheel portions 178 and 180, and generally within the width envelope of the drive belt 26. Thus the hydraulic drive motor is less susceptible to possible damage and there is less debris build-up than would be the case if it extended laterally beyond the belt. The tension loads on the drive belt due to the carrier 112 being urged forwardly or to the right when reviewing Fig. 1 in a continuously resilient manner by the recoil mechanism 96 are directed relatively evenly or symmetrically through the inner and outer wheel portions and to the shaft as embly 144. Thereafter such forces are directed through the laterally separated inner and outer roller bearings 164 and 166 to the housing 142, and to the central mounting flange 154 in two relatively equivalent force transmitting paths to the supporting collar 68. Note specifically that the housing mounting flange 154 is on the central plane 70 of the track roller frame assembly 21 so that the torque loads due to the hydraulic drive motor are also substantially directly directed thereto along this plane. The recoil mechanism 96 also acts along the central axis 71 of the tubular casing ~4 to urge the carrier 112 forwardly to provide the desired tension to the drive belt 26 on the wheels 22 and 24 for 1;~04~3~
solely frictional engagement with the wheel portions 109, 110, 178 and 180. These belt tension loads are transferred to the tubular casing 64, the transition structure 66, the channel-shaped base 63, and to this supporting collar 68 symmetrically along the central plane 70 as can be visualized by reference to Figs.
1-7.
By the term "channel-shaped base" 63 it is meant that at least one bottom plate and two side plates are provided to define a U-shaped portion in cross section, and the upper part thereof can, in effect, optionally be provided with a separate top plate as shown in Figs. 8 and 10 or be integrally formed with the side plates as shown in Fig. 6 to de~ine a rectangular beam in cross section with no lower weld joints. Alternately, the cross bracing device 228 of Fig. 10 can be a plurality of cross pieces spaced longitudinally between the sideplates, although not illustrated, so that the channel shaped base is internally in open communication with the upper plate structure 66'' that completes the cross section into the tubular beam 83''.
The track roller frame 61, front and rear wheel assemblies 24 and 22, the track belt 26, and the hydraulic drive motors 182 at one side of the vehicle 10 can be very simply removed as a unit from the main frame 12. It is only necessary to place a support such as an adjustable jack, not illustrated, under the front end 14 of the main frame to enable the pivot joint 34 to be uncoupled. Another support, not illustrated, can be placed under the rear end 16 of the main frame 12 to permit the coupling assembly 38 to be uncoupled. With the disassembly of any hydraulic and/or electric lines, this frees the entire undercarriage 18 from the main frame.
;
~ ~4~3~
In view of the foregoing, it is apparent tnat the track roller frame assemblies 21 of the present invention are rugged in construction and very economical to manufacture due to the relatively limited number of major portions thereof, the relatively limited length of connecting weld joints, and the location and simplicity of the weld joints.
Moreover, the forces transmitted longitudinally along the full length of the track roller frame assemblies 1~ are directed generally along the central plane 70, and the weight loads of the superstructure 29 are transmitted through the channel-shaped base 63 and to the supporting wheels 22, 24 and 130 along the central plane so that the construction is symmetrically loaded and capable of being made of rollably formed steel materials which are very economical to manufacture.
Preferably, the tubular beams 83 are of substantially rectangular cross section and have a height "h" equal to approximately two to three times the width "b" to provide the desired section modulus.
And while the lower channel-shaped base 63 and the upper reinforcing or transition plate structure 66 are shown as including at least two major rollably formed steel plates which are welded together in the embodiments of Figs. 6, 8 and 10, it is further contemplated that the main body 62 exclusive of the tubular casing 64 can also be of an integrally cast steel construction without departing from the spirit of the present invention.
Other aspects, objects and advantages of this invention can be obtained from a study of the drawings, the disclosures and the appended claims.
,. . . .
.
; . ' ` ` :
Claims (22)
1. A track roller frame assembly of the type adapted to be connected to a vehicle main frame and adapted to be supported by a plurality of roller wheels comprising:
a main body including an elongate base of formed channular or formed tubular rectangular cross section supported by the roller wheels when in use and having first and second end portions, a tubular casing overlyingly connected to the first end portion, and a plate structure overlyingly connected to the second end portion of the base for forming therewith a tubular beam of generally rectangular cross section of a depth substantially greater than the width and a back-up shoulder for strengthening connection with the tubular casing; and a collar connected to the tubular beam of the main body and defining a transverse opening therethrough.
a main body including an elongate base of formed channular or formed tubular rectangular cross section supported by the roller wheels when in use and having first and second end portions, a tubular casing overlyingly connected to the first end portion, and a plate structure overlyingly connected to the second end portion of the base for forming therewith a tubular beam of generally rectangular cross section of a depth substantially greater than the width and a back-up shoulder for strengthening connection with the tubular casing; and a collar connected to the tubular beam of the main body and defining a transverse opening therethrough.
2. The track roller frame assembly of claim 1 wherein the second end portion of the base is of formed tubular rectangular cross section.
3. The track roller frame assembly of claim 2 wherein the first end portion of the base defines an upper longitudinal slot for nestably receiving the tubular casing therein.
4. The track roller frame assembly of claim 2 wherein the plate structure includes a formed plate having a generally inverted U-shaped cross section.
5. The track roller frame assembly of claim 4 wherein the main body includes a cylindrical end plate connected between the tubular casing and the back-up shoulder of the plate means.
6. The track roller frame assembly of claim 5 wherein the plate structure includes a pair of convexly shaped bracing members connected to the formed plate and the end plate.
7. The track roller frame assembly of claim 1 wherein the main body includes a plurality of roller wheel mounting pads secured to the bottom surface of the base.
8. The track roller frame assembly of claim 1 wherein the tubular casing has a central axis and a longitudinally oriented, vertical central plane passing through the central axis, and the collar defines an internal mounting flange located substantially on the central plane.
9. The track roller frame assembly of claim 1 wherein the first end portion of the base is of a generally U-shaped, integrally formed cross section and weldably connected to the tubular casing.
10. The track roller frame assembly of claim 9 wherein the second end portion of the base is of a generally rectangular, integrally formed cross section weldably connected to the plate structure.
11. The track roller frame assembly of claim 1 wherein the tubular beam is generally rectangular and has a height "h" equal to approximately two to three times the width "b".
12. The track roller frame assembly of claim 1 wherein the base includes a first formed plate of U-shaped cross section, and the plate structure includes a second formed plate of U-shaped cross section and a top plate.
13. The track roller frame assembly of claim 1 wherein one of the base and the plate structure includes a rollably formed plate having a rectangular cross section and the other one includes a rollably formed plate having a U-shaped cross section.
14. The track roller frame assembly of claim 1 wherein the tubular beam includes inboard and outboard side plates of generally C-shaped cross section.
15. The track roller frame assembly of claim 14 wherein the tubular beam includes cross bracing means structurally interconnecting the side plates for strengthening the main body.
16. A track roller frame assembly of the type adapted to be connected to a vehicle main frame and adapted to be supported by a plurality of roller wheels, comprising:
a main body including an elongate base supported by the roller wheels when in use and having first and second end portions, a tubular casing overlyingly connected to the first end portion, and a plate structure overlyingly connected to the second end portion and wherein one of the base and the plate structure includes a first plate rollably formed into a tube of rectangular cross section and the other one includes a second plate rollably formed into a channel of U-shaped cross section; and a collar connected to the second end portion of the base and to the plate structure and defining a bore therethrough.
a main body including an elongate base supported by the roller wheels when in use and having first and second end portions, a tubular casing overlyingly connected to the first end portion, and a plate structure overlyingly connected to the second end portion and wherein one of the base and the plate structure includes a first plate rollably formed into a tube of rectangular cross section and the other one includes a second plate rollably formed into a channel of U-shaped cross section; and a collar connected to the second end portion of the base and to the plate structure and defining a bore therethrough.
17. The track roller frame assembly of claim 16 wherein the base and the plate structure collectively define a tubular beam of generally rectangular cross section having a depth substantially greater than the width.
18. The track roller frame assembly of claim 17 wherein the tubular beam has a height "h"
equal to approximately two to three times the width "b".
equal to approximately two to three times the width "b".
19. The track roller frame assembly of claim 16 wherein the plate structure includes a cylindrical end plate and defines a back-up shoulder, the cylindrical end plate being engaged between the shoulder and the tubular casing.
20. The track roller frame assembly of claim 16 wherein the main body includes support means for pivotal connection of the main body to the main frame longitudinally away from the collar.
21. The track roller frame assembly of claim 20 wherein the collar is adapted to support a tubular housing within the bore thereof, and a hydraulic drive motor within the tubular housing.
22. The track roller frame assembly of claim 16 including a plurality of pads connected to the bottom of the base, a tubular casing connected to each pad, and each of the roller wheels has a cross shaft rotatably mounted in the respective tubular casing.
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US07/213,744 US4836318A (en) | 1987-08-28 | 1988-06-30 | Track roller frame assembly |
US213,744 | 1988-06-30 | ||
PCT/US1989/001430 WO1990000133A1 (en) | 1988-06-30 | 1989-04-07 | Track roller frame assembly |
USPCT/US89/01430 | 1989-04-07 |
Publications (1)
Publication Number | Publication Date |
---|---|
CA1304434C true CA1304434C (en) | 1992-06-30 |
Family
ID=26779558
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA000600382A Expired - Fee Related CA1304434C (en) | 1988-06-30 | 1989-05-23 | Track roller frame assembly |
Country Status (1)
Country | Link |
---|---|
CA (1) | CA1304434C (en) |
-
1989
- 1989-05-23 CA CA000600382A patent/CA1304434C/en not_active Expired - Fee Related
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