Information
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Patent Application
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20010052684
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Publication Number
20010052684
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Date Filed
April 30, 200123 years ago
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Date Published
December 20, 200123 years ago
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CPC
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US Classifications
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International Classifications
Abstract
A self-propelled harvesting machine, especially a pick-up chopper, for picking up and chopping harvested material, such as corn, green crops, etc., with a rear axle (6), which is constructed as a steerable, rigid axle, which is supported at the machine frame (10), so that it can be swiveled about a horizontal full floating axle (9), which is parallel to the direction of travel, wherein the axle body (7) of the rear axle (6) is supported with shock absorption at the machine frame (10) so that it can move up and down relative to the machine frame (10).
Description
BACKGROUND OF THE INVENTION
[0001] The invention relates to a self-propelled harvesting machine, especially to a self-propelled pick-up chopper for picking up and chopping harvested material, such as corn, green crops, etc.
[0002] The invention is concerned with the problem of improving the driving behavior of self-propelled harvesting machines, making higher driving speeds possible for these, even on uneven ground conditions.
SUMMARY OF THE INVENTION
[0003] Due to the suspension of the rear axle, in conjunction with its self-aligning support, a significantly improved driving behavior results since, under all conditions, the steering wheels remain in contact with the ground, reactions, resulting from ground unevennesses and interfering with the running of the machine, are largely avoided and higher driving speeds are thus possible, without having a disadvantageous effect on the ground-contacting processes of working implements disposed at the front, such as adapters at the pick-up choppers.
[0004] Due to the special support at a transverse swinging fork, overlapping the axle body, the axle support requires only little space. The bracing of the transverse swinging fork by a trailing arm, stressed in tension eccentrically, leaves the center region free for other units. At the same time, advantageous force conditions are achieved.
[0005] Further details and effects arise out of the following description and the drawing, in which an example of the object of the invention is illustrated in greater detail.
IN THE DRAWINGS
[0006]
FIG. 1 shows a side view of an inventive harvesting machine, constructed as a pick-up chopper,
[0007]
FIG. 2 shows a perspective, regionally truncated view of a portion of the harvesting machine to illustrate the construction and support of the rear axle,
[0008]
FIG. 3 shows a regionally truncated exploded representation of the machine frame and the rear axle, and
[0009]
FIG. 4 shows diagrammatic representations of the rear axle for different ground conditions.
BACKGROUND OF THE INVENTION
[0010]
FIG. 1 illustrates a self-propelled pick-up chopper 1 as a self-propelled harvesting machine, which is supported on the ground over running and driving wheels 2 at the front axle and over running steering wheels 3 at the rear axle. A corn dentition 5, for example, is connected to an adapter device 4. Like the adapter device 4, it is supported on the ground during a harvesting operation and can make contact with it. Instead of the self-propelled pick-up chopper 1, a self-propelled combine harvester, a self-propelled potato harvesting machine or a similar machine can also come into consideration for realizing the invention.
[0011] The rear axle 6, which is constructed as a steerable rigid axle guiding the rear wheels 3, comprises, as can be seen best in FIGS. 2 and 3, a rigid axle body 7, to which wheel heads 8 for connection to the rear wheels 3 are hinged. The axle body 7 is supported at the machine frame 10 so that it can swivel about a horizontal full floating axle 9, which is parallel to the direction of travel and, accordingly in a plane transversely to the direction of travel of the machine. At the same time, the axle body 7 is supported elastically, so that it can move up and down relative to the machine frame, so that the rear wheels remain in contact with the ground even in the case of larger ground unevennesses.
[0012] In particular, the axle body 7 is mounted self-aligning at one of these transverse swinging forks 11, which overlaps the axle body 7 in the operating position and is hinged to the machine frame so that it can swivel about a swiveling axle 12 parallel to the full floating axle 9 of the axle body 7. The transverse swinging fork 11 is supported at the machine frame 10 at its free end by a spring element and a damping element. In the case of the examples shown, the spring element preferably consists of a plurality of, for example, four spiral compression springs 13, which are combined into a spring assembly and engage the transverse swinging fork 11 from the upper side. The point of engagement of the spiral compression spring 13, closest to the viewer in FIG. 3, is labeled 14. At their upper side, the spiral compression springs 13 engage a bracket 15, the point of connection of the spiral compression spring 13, closest to the viewer in FIG. 4, being labeled 16. The bracket 15 is fixed to the machine frame 10, for example, by bolting or welding.
[0013] As damping element, a number of hydraulic shock absorbers 17, such as two, is provided, which engage the upper side of the transverse swinging fork 11 in parallel at 18 and are also supported at the bracket 15 at 19.
[0014] The trailing arm 20 forms a tension strut, which is disposed, moreover, at a distance from the vertical, longitudinal median plane of the machine frame 10, which plane coincides with the swiveling axle 9.
[0015] The construction of the rear axle saves much space and the rear axle works precisely and, at the same time, is robust. The bracing of the transverse swinging fork 11, which forms a torsion-resistant component, leaves the middle region below the machine frame 10 free for other units and, moreover, is extremely strong.
[0016]
FIG. 4 diagrammatically illustrates the mode of action of the rear axle 6 and the position of the parts for three different land conditions. The Figures illustrate that contact with the ground is maintained even when there are large height differences between the rear wheels 3, and the work of the springs 13, which absorb an increased pressure in the representation in the middle and a reduced pressure in the representation at the bottom.
Claims
- 1. A self-propelled harvesting machine, especially a pick-up chopper, for picking up and chopping harvested material, such as corn, green crops, etc., with a rear axle (6), which is constructed as a steerable, rigid axle, which is supported at the machine frame (10), so that it can be swiveled about a horizontal full floating axle (9), which is parallel to the direction of travel, wherein the axle body (7) of the rear axle (6) is supported with shock absorption at the machine frame (10) so that it can move up and down relative to the machine frame (10).
- 2. The machine of claim 1, wherein the axle body (7) is mounted self-aligning at a transverse swinging fork (11), which overlaps the axle body (7), is hinged at the machine frame (10) about a swiveling axle (12), which is parallel to the swiveling axle (9) of the axle body (7) and is supported at its free end over a spring element and a damping element at the machine frame.
- 3. The machine of claim 2, wherein a plurality of spiral compression springs (13), which form a spring assembly, are disposed in parallel and engage the upper side of the transverse swinging fork (11), is provided as a spring element.
- 4. The machine of claim 2, wherein a plurality of hydraulic shock absorbers (17), which are disposed parallel to one another and to the spiral compression spring (13), is provided as damping element.
- 5. The machine of claim 2, wherein a trailing arm (20), which is disposed, in the traveling direction, in front of the transverse swinging fork (11), engages the free end of the transverse swinging fork (11) and, at the end which is the front end in the traveling direction, is hinged to the machine frame (10).
- 6. The machine of claim 5, wherein the trailing arm (20) is located at a distance from the vertical, longitudinal, median plane of the machine frame (10).
Priority Claims (1)
Number |
Date |
Country |
Kind |
200 07 795.3 |
May 2000 |
DE |
|