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Claims  |
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What is claimed is:
1. A foldable agricultural implement comprising a main section for moving
generally horizontal across a field, a wing section for moving generally
horizontal across the field, and a folding mechanism for foldably
connecting adjacent ends of said sections, said folding mechanism
including a first pivot connection whereat the wing and main sections are
articulately joined and which allows horizontal pivotal movement of the
wing section between a working position whereat the wing section is
positioned in essentially the same horizontal plane as and laterally
adjacent to the main section and a folded position whereat the wing
section remains in essentially the same plane as the main section but is
pivoted forwardly into a generally parallel relationship with main
section, said folding mechanism further including a second pivot
connection whereat the wing and main sections are articulately joined and
which allows for vertical oscillatory movements of the wing section
relative to the main section thereby permitting the wing section to move
vertically independently of the main section in response to changing
contours of the underlying terrain when arranged in a working position.
2. The foldable agricultural implement according to claim 1 wherein said
folding mechanism includes stops for limiting the vertical oscillatory
movements of the wing section relative to the main section.
3. The foldable agricultural implement according to claim 1 wherein said
folding mechanism further includes a hydraulically powered mechanism
connected to a linkage assembly for effecting powered movement of the wing
section through an arc of approximately 180.degree. when moved between its
working and folded positions
4. The foldable agricultural implement according to claim 3 wherein said
linkage mechanism is configured as a toggle linkage mechanism including
first linkage extending from the main section, second linkage extending
from the wing section, and a connector for commonly connecting said first
and second linkages to said hydraulically powered mechanism.
5. The foldable agricultural implement according to claim 1 wherein said
main section is provided with a stop which abuts against a portion of said
folding mechanism when the wing section moves into a working position.
6. A foldable agricultural implement comprising first and second sections,
with each section including an elongated horizontal member, a folding
mechanism for connecting the sections together about a generally vertical
axis while allowing for movement of the first section between a field
working position and a transport position, said first section when in the
field working position being arranged in laterally extended relationship
relative to said second section, said first section when in the transport
position being arranged forwardly of said second section with the
elongated horizontal members of the respective sections extending
generally parallel to each other, said folding mechanism further including
a pivot for connecting the sections to each other along a fore-and-aft
generally horizontal axis to permit vertical flexing movement between said
sections such that each section follows and is responsive to the contours
of the underlying terrain when arranged in the field working position.
7. The foldable agricultural implement according to claim 6 wherein said
folding mechanism includes pivot mounts provided at adjacent ends of said
sections and a pivot pin defining the generally vertical axis about which
the sections move between working and transport positions.
8. The foldable agricultural implement according to claim 7 wherein said
folding mechanism further includes a powered mechanism connected between
said sections for moving and positioning one section relative to the other
section.
9. The foldable agricultural implement according to claim 8 wherein said
powered mechanism includes a hydraulically powered motor for effecting
powered movement of the sections relative to each other and a linkage
assembly connected to said motor and each of said sections.
10. The foldable agricultural implement according to claim 9 wherein said
linkage includes first linkage connected to and extending from the first
section of the agricultural implement, second linkage connected to and
extending from the second section of the agricultural implement, with said
first and second linkages and said hydraulically powered motor all being
connected by a common connector.
11. The foldable agricultural implement according to claim 6 wherein said
folding mechanism further includes at least one stop for limiting pivotal
movement of said sections relative to each other when moved from the
transport position to the field working position.
12. The foldable agricultural implement according to claim 6 further
including a latch for releasably holding said sections in the transport
position relative to each other.
13. A foldable agricultural implement including a folding mechanism for
accommodating generally horizontal folding movement of pivotally connected
first and second wheeled frame sections connected by said folding
mechanism, said folding mechanism comprising first linkage pivotally
connected at a first end to said first frame section and movable relative
to said first frame section, a second linkage pivotally connected at a
first end thereof to said second frame section and extending between the
second frame section and a second end of said first linkage, a connector
for commonly connecting said first and second linkages and one end of an
extendable/retractable actuator, an opposite end of said actuator being
pivotally connected to said first frame section, with said folding
mechanism being structured to respond to extension and retraction of said
actuator while permitting movements of said second frame section in
essentially the same horizontal plane as said first frame section between
a folded position whereat the second frame section is directly in front of
and extends generally parallel to the first frame section and an
operational position whereat the second frame section extends laterally
outward from the first frame section, and wherein the folding mechanism
further includes a first pivot for connecting said first and second
sections to each other about a generally vertical axis fixed relative to
said first frame section and a second pivot for connecting said first and
second sections to each other about a generally horizontal axis to
accommodate relative vertical movements between the frame sections
resulting from changing ground contours over which the sections pass.
14. The foldable agricultural implement according to claim 13 wherein said
linkages are of substantially similar length and are connected to the
respective frame sections on opposite lateral sides of the vertical axis
about which the first and second sections are connected.
15. The foldable agricultural implement according to claim 13 further
including a latch assembly for releasably holding said second frame
section in the folded position relative to said first frame section, said
latch assembly including a support extending from and positionable beneath
at least a portion of said second frame section to vertically support said
second frame section out of ground engagement and in the folded position
relative said first frame section thereby facilitating transport of said
implement.
16. A foldable agricultural implement comprising first and second wheeled
sections, with each section having ground engaging tools carried thereby,
and a folding mechanism for connecting the sections together to allow
pivoting movement between the sections in any of at least four different
directions, said folding mechanism including a generally vertical pivot
for allowing pivoting movements of said first section between a first
position whereat said first section is forwardly of and extends generally
parallel to said second section and a second position whereat the first
section is generally laterally aligned with the second section, and a
generally horizontal pivot for allowing vertical pivoting movements
between the sections in third and fourth directions independent of the
pivoting movements in the first and second directions. |
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Claims |
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Description |
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FIELD OF THE INVENTION
The present invention relates to agricultural implements of the draft type
including a main section and at least one wing section and, more
particularly, to a hinge connection therebetween allowing the wing section
to move relative to the center section between a laterally extended
position and a folded position and furthermore allows the wing section to
independently move vertically relative to the center section to compensate
for uneven terrain conditions over which the implement moves.
BACKGROUND OF THE INVENTION
The development of larger and more powerful farm tractors has allowed
agricultural implements such as cultivators and the like, to also increase
in size. As will be appreciated, the larger size agricultural implements
permit working of increasingly larger swatches of a field during each pass
thereover. Thus, multi-sectional agricultural implements have been
developed including a wheeled center or main section and one or more
wheeled lateral wing sections connected on opposite lateral sides of the
main section.
The central or main section of the implement is of an appropriate narrow
width to pass through gate openings or along roads and highways. When the
wing section is arranged laterally adjacent to the main section, however,
it is often difficult to move such an implement through fence gates or
along roads or highways. To reduce its extended lateral sides, most farm
implements are provided with a hinge connection between the main and wing
sections.
In addition to ground working tools carried thereon, many agricultural
implements are provided with relatively large material receiving hoppers.
These hoppers are provided on both the main section and the wing section
of the agricultural implement. Such hoppers contain particulate or liquid
materials such as fertilizers and the like and are of considerable weight
when full. Moreover, the configuration of the hoppers is such that they
cannot be moved to an inverted position without loss of materials
contained therewithin. Thus, a hinge connection which allows a wing
section to be elevated to an overhead folded transport position is not
suitable for use on all types of agricultural implements.
Agricultural implements having one or more rearwardly folding wing sections
are also known in the art. In this form of implement, the wing section
extends laterally with respect to the center section during operation, and
folds rearwardly with respect to the path travelled by the tractor to
provide a transporting configuration whereby the width of the implement
becomes narrow enough for passage through gates and fences and for
negotiation of roadways over which it is pulled by the tractor.
A problem sometimes exists with implements having rearwardly folding wing
sections. Each wing section of such an implement is pivotally connected to
the main or center section through a pivot mechanism including a pivot pin
defining a generally vertical axis about which the wing section moves.
While allowing for horizontal pivoting movement, the pivot mechanism
restricts or inhibits vertical movement of the wing section relative to
the center section. The rigid pivot connection between the wing and center
sections fails to allow independent vertical movement of the wing section
relative to the center section. Thus, when the implement is operated on
hillsides or other slanted or otherwise uneven ground contours, the
elevation of the wing section can adversely affect the performance of the
ground engaging tools on the center section and vice versa. Of course,
when the ground engaging tools on either section are removed from ground
contact, the efficiency added to the implement by the laterally extended
wing section is lost or substantially reduced.
Thus, there is a need and a desire for an agricultural implement having a
wing section which is pivotally connected for folding movement in
essentially the same horizontal plane as the center section between a
folded position and a working position and wherein the pivotal connection
furthermore allows independent vertical movement of the wing section
relative to the center section when in a working position thereby allowing
for changing ground contours.
SUMMARY OF THE INVENTION
In view of the above, and in accordance with the present invention, there
is provided an agricultural implement having a main section and a wing
section which are joined by a folding mechanism. The folding mechanism
includes a first pivot connection for allowing horizontal pivoting
movement of the wing section between a working position and a folded
position. In a working position, the wing section is positioned in
essentially the same horizontal plane and laterally adjacent to the main
section. In a folded position, the wing section remains in essentially the
same plane as the main section but is pivoted into a fore-and-aft
relationship with the main section. The folding mechanism further includes
a second pivot connection whereat the wing and main sections are joined
and which allows for independent vertical movement of the wing section
relative to the main section thereby permitting the wing section to move
in response to contours of the underlying terrain when arranged in a
working position.
The folding mechanism of the present invention preferably includes a pivot
mounting assembly provided at adjacent ends of the sections. The pivot
mounting assembly includes a pivot pin defining a generally vertical axis
about which the wing section moves relative to the main section. In a most
preferred form of the invention, the generally vertical axis about which
the wing section horizontally pivots is fixed relative to the main section
of the agricultural implement.
To facilitate positioning and movement of the wing section relative to the
center section, the agricultural implement further includes a
hydraulically powered assembly for effecting powered movement of the wing
section through an arc of approximately 180.degree. when moved between
working and folded positions. The hydraulically powered assembly
preferably includes an extendable and retractable hydraulic cylinder
connected to a linkage assembly. In a most preferred form of the
invention, the linkage assembly includes first and second linkages. The
first linkage is pivotally connected at a first end to the wing section
and is movable relative to the wing section. The second linkage is
pivotally connected at a first end thereof to the main section and extends
between the main section and a second end of the first linkage whereat the
first and second linkages are joined by a common connector. The extendable
and retractable hydraulic cylinder is likewise pivotally connected to the
common connector for moving the wing section in response to extension and
retraction of the hydraulic cylinder. The linkages are substantially
identical and are connected to the respective sections on opposite lateral
sides of the vertical axis about which the main and wing sections are
connected.
The folding mechanism of the agricultural implement further includes limit
stops During horizontal movement of the wing section, a portion of the
folding mechanism abuts a stop on the main section when the wing section
is moved from a folded transport position to a field working position. A
stop is also provided to limit free vertical oscillatory movement of the
wing section relative to the main section when the wing section is
positioned in a field working position.
The wing section is maintained in a folded position by a latch assembly
carried by the main section of the agricultural implement. As the wing
section moves toward a folded position, a support on the latch assembly is
positioned beneath a portion of the wing section which ultimately rests on
the support to facilitate transportation of the agricultural implement.
A salient feature of the present invention concerns the provision of a
folding mechanism which allows the wing section to be folded into a
transport position about a generally vertical axis and furthermore allows
independent movement of the wing section about a generally horizontal axis
to allow the wing section to compensate for changes in ground contours
over which the wing section moves as the implement is drawn across a
field. The horizontal pivot about which the wing section moves is simple
in construction, economical in manufacture and otherwise well suited to
the purpose for which it is designed. Additional structure is provided to
allow the wing section to be moved and positioned relative to the main
section without requiring the operator to leave the seat of the tractor.
Numerous other features and advantages of the present invention will become
readily apparent from the following detailed description, the accompanying
drawings, and the appended claims.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a front elevational view of a foldable agricultural implement
incorporating principals of the present invention;
FIG. 2 is a top plan view of the foldable agricultural implement
illustrated in FIG. 1;
FIG. 3 is a perspective view of a folding mechanism for pivotally joining a
main section and a wing section of the foldable agricultural implement
illustrated in FIGS. 1 and 2;
FIG. 4 is a view taken along line 4--4 of FIG. 2;
FIG. 5 is a sectional view taken along line 5--5 of FIG. 4;
FIG. 6 is a fragmentary top plan view of the folding mechanism and
illustrating a fragment of the wing section in a field working position
relative to the main section;
FIG. 7 is a view similar to FIG. 6 but showing the wing section being moved
intermediate a field working position and a folded transport position; and
FIG. 8 is a progressive view similar to FIG. 7 but illustrating the wing
section in a folded position relative to the main section.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
While the present invention is susceptible of embodiment in various forms,
there is shown in the drawings a presently preferred embodiment
hereinafter described, with the understanding that the present disclosure
is to be considered as an exemplification of the invention and is not
intended to limit the invention to the specific embodiment illustrated.
Referring now to the drawings, wherein like reference numerals refer to
like parts throughout the several views, a foldable agricultural implement
shown fragmentarily in FIGS. 1 and 2 is represented in its entirety by
reference numeral 10. The foldable farm implement 10 includes a main or
center section 12 and at least one wing section 14, each section 12, 14
having a number of tools (not shown) depending therefrom for ground
engagement.
Each section 12, 14 includes a series of rigidly interconnected frame
members, generally designated by reference numeral 15, which are arranged
generally parallel to the ground surface over which the implement 10
moves. One or more conventional extensible/retractable ground engaging
wheel assemblies 16 vertically position and support main section 12 and
the tools carried thereon relative to the ground surface. Similarly, each
wing section 14 is equipped with a conventional extensible/retractable
wheel assembly 18 for vertically positioning and supporting a respective
wing section and the tools carried thereon relative to the ground surface.
Moreover, each section 12, 14 is equipped with a conventional material
receiving hopper 19 which transports and dispenses particulate or liquid
matter, such as fertilizer and the like, as the implement 10 moves across
the field.
In operation, the agricultural implement 10 is adapted to be connected to
and towed behind a tractor or the like (not shown) such that both the main
section 12 and wing section 14 move horizontally across the field. To
accommodate road and/or highway transportation of the implement, the wing
section 14 is horizontally pivoted to a folded or inactive position. To
this end, the wing section 14 may be moved through an arc of about
180.degree. in essentially the same plane as and into a fore-and-aft
relation with the main section 12 by means hereinafter described in detail
to substantially reduce the lateral width of the implement.
As shown in FIG. 3, the main section 12 and wing section 14 are pivotally
connected toward adjacent ends by a folding mechanism 20. As will be
described in detail hereinafter, folding mechanism 20 connects the main
and wing sections 12 and 14, respectively, for movement about two axes 22
and 24 extending generally normal to each other.
In the illustrated embodiment, and as shown in FIGS. 3 and 4, folding
mechanism 20 includes a generally vertical pivot pin 26 defining the
vertical axis 22 about which sections 12 and 14 are connected to each
other. In the illustrated embodiment, a pair of vertically spaced
cantilevered supports 28 and 30 attach to and extend from upper and lower
surfaces of the main frame 12 and fix the position of pivot pin 26
relative to frame 12.
The folding mechanism 20 further includes a pair of vertically spaced and
parallel lugs or plates 32 and 34 disposed toward adjacent ends of upper
and lower sides of the main and wing sections 12 and 14, respectively.
Plates 32 and 34 are connected to freely and horizontally move about pivot
pin 26. Plates 32 and 34 are fixedly joined to each other by vertical
supports 36 and 38 to define a cavity 40 into which a portion of wing
section 14 horizontally extends. As shown in FIGS. 4 and 5, a generally
horizontal pivot pin 42 supported at opposite ends by plates 36 and 38
defines a fore-and-aft generally horizontal axis 24 about which sections
12 and 14 are connected to each other to permit vertical flexing movements
between sections 12 and 14.
As will be appreciated, excessive vertical movement of the wing section 14
is limited by the confines of the cavity 40 defined by the folding
mechanism 20. As more particularly shown in FIG. 4, the lower and upper
surfaces of plates 32 and 34, respectively, act to limit the free vertical
movement of the wing section 14 relative to the center section 12.
As shown in FIG. 5, the folding mechanism 20 is further configured to limit
pivotal movement of the sections relative to each other when the wing
section 14 is horizontally moved from a transport position to a field
working position. In the preferred embodiment, a side edge 44 of one or
both vertical supports 36, 38 abuts with one or both of the cantilevered
supports 28, 30 on the main section 12 when the wing section 14 is moved
into a field working position from a transport position.
To facilitate movement of the wing section 14 relative to the center
section 12, while allowing the operator to remain in the cab region of the
tractor, the agricultural implement 10 further includes an extendable and
retractable driver 46 for effecting powered horizontal movement and
positioning of the wing section 14 relative to the main section 12. In the
preferred embodiment, driver 46 is a dual acting hydraulic cylinder-piston
actuator. At one end, the actuator 46 is articulately connected to a
portion of the main frame 12. At the other end, the actuator 46 is
connected to a linkage assembly 48.
Linkage assembly 48 preferably includes first and second linkages 50 and
60, respectively, arranged in a toggle-like configuration. The first
linkage 50 includes a pair of substantially identical vertically spaced
and parallel push/pull links 52 and 54. The first end of linkage 50 and,
more specifically, links 52 and 54, is connected as by pin 56 to the main
section 12. The second linkage 60 includes a pair of substantially
identical vertically spaced and parallel push/pull links 62 and 64. The
first end of linkage 60 and, more specifically, links 62 and 64, is
connected as by pin 66 to plates 32 and 34 of the folding mechanism and
thereby to the wing section 14. The second linkage 60 extends from its
pivotal connection at 66 with wing section 14 and is connected at a second
end of the first linkage 50 whereat the first and second linkages 50 and
60 are joined by a common connector 70. Common connector 70 likewise
connects the opposite end of driver 46 to the linkage assembly 48.
When the actuator 46 is in the extended position as illustrated in FIG. 6,
wing section 14 is positioned laterally adjacent to the main section 12 in
a field working position. Notably, in a field working position, the wing
section 14 is essentially the same plane as the main section 12. As will
be understood, the wing section 14 is held in position under the influence
of the driver 46 holding the abutting side surfaces 44 on the folding
mechanism in contact with the support plates 28 and 30 on the main section
12.
When it is desired to reduce the lateral width of the implement 10, the
wheel assembly 18 on the respective wing section 14 is downwardly extended
to raise the respective tools out of ground engagement and allow the wing
section to pivotally move horizontally in essentially the same plane as
the center section 12 into a folded or inactive position through
retraction of driver 46. Retraction of driver 46 causes the folding
mechanism 20 to pivot about pin 26 (counterclockwise as viewed in FIG. 7).
As the driver 46 retracts, linkage 50 pivots about pin 56 and linkage 60
pulls the wing section 14 in a counterclockwise direction eventually
causing the wing section 14 to be arranged generally parallel to and in a
fore-and-aft relationship with the main section 12 and in essentially the
same horizontal plane as main section 12.
As shown in FIGS. 1 and 2, main section 12 has a latch or support assembly
72 for releasably holding a wing section 14 in a folded or transport
position relative to the main or center section 12. In a preferred form,
the latch assembly includes a support 74 that rigidly extends horizontally
forward from section 12. As the folding wing section 14 approaches its
folded position, either and/or both wheel assemblies 16, 18 on sections
12, 14, respectively, are operated such that an upper support surface 76
on support 74 underlies an underside of a foremost frame member 15 of wing
section 14. As will be appreciated, the substantially universal movement
allowed for by the folding mechanism 20 facilitates vertical movement of
the wing section 14 relative to the support surface 76 of support 74.
As shown in FIGS. 3 and 8, a limit stop 80 ultimately determines the folded
position of wing section 14 relative to main section 12. In the
illustrated embodiment, stop 80 includes a fore-and-aft plate 82 laterally
spaced from pivot 26 and extending from section 12. A stopping surface 84
of plate 82 abuts against a portion of wing section 14 in a manner
limiting pivotal movement of the folding mechanism 20 about pivot pin 26.
With the wing section 14 in a folded position relative to the main or
center section 12, a foremost frame member on the wing section 14 is
spaced slightly above the upper surface 76 of support 74. Thereafter, the
wheel assembly 18 on the respective wing section 14 is retracted thereby
vertically lowering the wing section to rest on support 74. The wheel
assembly 18 continues to retract out of engagement with the ground
surface. As will be appreciated, the vertical elevation of support 74 is
sufficient to maintain the tools on the wing section 14 out of engagement
with the ground surface when the wing section is in a folded position and
rests on the support 74.
To move wing section 14 from a folded position to a field working position,
wheel assembly 18 is extended vertically downward until the wheels there
again come into contact with the ground thereby slightly lifting and
releasing the wing section from the latch assembly 72. Actuator 46 is
thereafter extended to cause the folding mechanism 20 to pivot about pin
26 (clockwise as viewed in FIG. 7). As driver 46 is forcibly extended,
linkage 50 pivots about pin 56 and linkage 60 pushes the wing section 14
in a clockwise direction and into a field working position.
As will be appreciated, the elevation of the field over which the wing
section 14 moves may be different than the elevation of the field over
which the main section moves when the wing section is in an extended or
field working position. A salient feature of the present invention is the
provision of a second generally horizontal axis 24 which allows the wing
section 14 to move vertically independent of the center section 12 and
follow the contours of the underlying terrain which pass beneath the wing
section 14 as compared to the contours of the terrain passing under the
main section 12. Accordingly, the ground engaging tools on the wing
section 14 will be allowed to operate independently of the ground working
tools on the main section 12 thereby ensuring proper operation of the
implement. Moreover, the folding mechanism 20 limits the free vertical
movement of the wing section relative to the main section 12.
Thus, the folding mechanism 20 provided on the implement allows the wing
section 14 to move about either of two axes 22 and 24 and, thus, in four
different directions during operation of the implement. The folding axis
22 of the folding mechanism allowing the wing section 14 to move into a
folded position relative to the main section 12 thereby reducing the
overall width of the implement and without moving the hoppers 19 into a
position whereat the material contained therein may spill. Moreover, the
axis 24 of the folding mechanism 20 allows the wing section to vertically
"float" during operation of the implement thereby assuring efficiency of
the implement throughout its extended width.
From the foregoing, it will be observed that numerous modifications and
variations can be effected without departing from the true spirit and
scope of the novel concept of the present invention. It will be
appreciated that the present disclosure is intended as an exemplification
of the invention, and is not intended to limit the invention to the
specific embodiment illustrated. The disclosure is intended to cover by
the appended claims all such modifications as fall within the scope of the
claims.
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