It is known that several types of ground work vehicle, and we are referring for example to machines that work in the field of agriculture or of earth-moving machines or machines for geophysical research, are provided, instead of the wheels of at least one axle, with track units that comprise a structure for supporting a driving wheel that moves a track in contact with guiding wheels and resting rollers associated with said structure.
In certain types of track units, such supporting structure is monolithic, but there are also track systems in which the structure proper is divided into two portions connected by means of elastic coupling means in order to provide users with a certain comfort.
However, the background art provides embodiments of such track units that are not entirely satisfactory, and therefore the aim of the present invention is to provide a track unit that has great simplicity and maximum functional efficiency.
This aim is achieved by a track unit for moving a ground work vehicle, according to the invention, characterized in that it comprises the features given in the appended claims.
Further characteristics and advantages of the track unit according to the invention will become better apparent from the description of two preferred but not exclusive embodiments thereof, illustrated by way of non-limiting example in the accompanying drawings, wherein:
With reference to the
The first upper portion of the structure comprises two strong profiles 2 and 3, which are monolithically connected, with the corresponding plates 2a, 3a, such upper portion supporting the driving wheel 4 that moves the track 5.
The second lower portion of the structure comprises the longitudinal member 6 with the monolithically connected plates 6a, 6b, and such monolithic portion supports with parallel axles the front and rear guiding wheels of the track 5, and more precisely the front pair of coaxial wheels 7a, 7b and the rear pair of coaxial wheels 8a, 8b.
Such second portion 6 further supports the resting rollers that are mounted in pairs on four axles: the reference numerals 9a, 9b designate the rollers mounted on the first axle, the numerals 10a, 10b designate the rollers mounted on the second axle, and the numerals 11 and 12 designate two rollers mounted respectively on the third axle and on the fourth axle.
The portion of the track 5 that runs between the guiding wheels 7a, 7b and 8a, 8b, and at the resting rollers mounted on the four intermediate axles, is the one that makes contact with the ground.
Two elastic elements are interposed between the two monolithic structure portions described, are arranged respectively proximate to the front and rear ends and are formed by the monolithic blocks 13 and 14, which are made of elastic material and are coupled to the longitudinal member 6 and to the plates 2a, 3a, which are shown in
Moreover, there are means adapted to ensure a coplanar arrangement of the upper and lower portions of the structure, such means comprising two linkages arranged respectively proximate to the front and rear ends and pivoted on said portions.
The front linkage, generally designated by the reference numeral 16, is articulated in an intermediate position by means of the pivot 16a, and is pivoted to the upper and lower portions of the structure respectively by means of the pivots 16b, 16c; the rear linkage 17 is hinged to the upper and lower portions of the structure respectively by means of the pivots 17a, 17b, and also has the function of contrasting any longitudinal thrusts that are parallel to the ground and are generated on the lower portion and to which the elastic elements 13 and 14 are unable to provide any contrast.
The two front axles, i.e., those that support the resting rollers 9a, 9b and 10a, 10b, respectively, are connected by the spherical joint provided with a rocker, generally designated by the reference numeral 18 and shown in particular in
Advantageously, such spherical joints are of the elastic type.
The elastic element 20 comprises two components 20a, 20b, which are coupled respectively to the plate 2a of the upper portion of the structure and to the longitudinal member 6 of the lower portion, and likewise the elastic element 21 comprises two components 21a, 21b, which are coupled respectively to the plate 3a and to the longitudinal member 6, and the surface in mutual contact of said components, designated respectively by the reference numerals 20c, 21c, is V-shaped; in this manner, it is possible to generate a reaction for contrasting the longitudinal thrusts that are parallel to the ground as mentioned above, and it is barely worth noting that the surface in mutual contact of the two components can be contoured according to several shapes that are different from the one shown.
Of course, the means adapted to ensure the coplanar arrangement of the two portions of the structure are no longer involved in contrasting said thrusts, and therefore are shaped according to the two linkages 22, 23, which are articulated in an intermediate position by means of the pivots 22a, 23a and are hinged on the upper portion of the structure by means of the pivots 22b, 23b, respectively, and on the lower portion by means of the pivots 22c, 23c, respectively.
The described invention is susceptible of numerous modifications and variations, all of which are within the scope of the appended claims; all the details may further be replaced with other technically equivalent elements.
The disclosures in Italian Patent Application No. MN2008A000012 from which this application claims priority are incorporated herein by reference.
Number | Date | Country | Kind |
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MN2008A000012 | May 2008 | IT | national |