U.S. patent application number 15/605717 was filed with the patent office on 2018-04-19 for windrow merging apparatus.
The applicant listed for this patent is Oxbo International Corporation. Invention is credited to Paul W. DOW, Steven S. DOW, Mark M. WOODRUFF.
Application Number | 20180103587 15/605717 |
Document ID | / |
Family ID | 33130481 |
Filed Date | 2018-04-19 |
United States Patent
Application |
20180103587 |
Kind Code |
A1 |
DOW; Paul W. ; et
al. |
April 19, 2018 |
WINDROW MERGING APPARATUS
Abstract
A windrow merger has a frame supporting first, second and third
pickup assemblies, with the two outside pickup assemblies foldable
between an extended use position and a retracted travel position.
Each of the pickup assemblies includes a reversible conveyor
providing multiple windrow merging configurations. The pickup
assemblies are interchangeable and aligned to define an
unobstructed pickup face.
Inventors: |
DOW; Paul W.; (Byron,
NY) ; DOW; Steven S.; (Byron, NY) ; WOODRUFF;
Mark M.; (Bergen, NY) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Oxbo International Corporation |
Byron |
NY |
US |
|
|
Family ID: |
33130481 |
Appl. No.: |
15/605717 |
Filed: |
May 25, 2017 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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15351248 |
Nov 14, 2016 |
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15605717 |
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14514014 |
Oct 14, 2014 |
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15351248 |
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13447079 |
Apr 13, 2012 |
8863488 |
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14514014 |
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12925405 |
Oct 19, 2010 |
8166739 |
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13447079 |
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11388692 |
Mar 24, 2006 |
7827774 |
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12925405 |
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10405030 |
Mar 31, 2003 |
7310929 |
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11388692 |
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Current U.S.
Class: |
1/1 |
Current CPC
Class: |
A01D 78/002 20130101;
A01D 84/00 20130101; A01B 73/02 20130101; A01D 57/20 20130101; Y10S
56/21 20130101 |
International
Class: |
A01D 78/00 20060101
A01D078/00; A01D 84/00 20060101 A01D084/00; A01B 73/02 20060101
A01B073/02; A01D 57/20 20060101 A01D057/20 |
Claims
1. A windrow merger apparatus configured for travel in a first
direction, comprising: a frame; a first pickup assembly supported
by the frame, the first pickup assembly including a first belt
conveyor arranged to convey material in a direction transverse to
the first direction of travel and driven by a first motor; a second
pickup assembly supported by the frame, the second pickup assembly
including a second belt conveyor arranged to convey material in a
direction transverse to the first direction of travel and driven by
a second motor; and a third pickup assembly supported by the frame,
the third pickup assembly including a third belt conveyor arranged
to convey material in a direction transverse to the first direction
of travel and driven by a third motor; wherein at least two of the
pickup assemblies are foldable between an extended position and a
retracted position, each of the first, second, and third pickup
assemblies being aligned side by side when each of the pickup
assemblies is positioned in the extended position such that the
first, second, and third pickup assemblies provide an unobstructed
continuous line of material pickup.
2. A windrow merger apparatus according to claim 1, wherein the
merger is operable with at least one of the pickup assemblies in
the retracted position.
3. A windrow merger apparatus according to claim 1, wherein each of
the first second and third belt conveyors is independently
driven.
4. A windrow merger apparatus according to claim 1, the pickup
assemblies being uncoupled from one another in all positions.
5. A windrow merger, comprising: a frame; a merger assembly
including a center pick up head including a first conveyor and a
first conveyor motor, a left pick up head including a second
conveyor and a second conveyor motor, and a right pick up head
including a third conveyor and a third conveyor motor, each of the
center, left and right pick up heads having a length, the left and
right pick up heads each being positionable in an extended position
and a retracted position; wherein the first conveyor, the second
conveyor and the third conveyor are aligned with the lengths of the
left and right pick up heads being generally transverse to a
direction of travel when positioned in the extended position.
6. A windrow merger according to claim 5, wherein: the center pick
up head includes a first motor driving the first belt conveyor; the
left pick up head includes a second motor driving the second belt
conveyor; the right pick up head includes a third motor driving the
third belt conveyor.
7. A windrow merger apparatus configured for travel in a first
direction, comprising: a frame; a first pick up assembly supported
on the frame including a first belt conveyor arranged to convey
material in a direction transverse to the first direction of travel
a second pick up assembly supported on the frame including a second
belt conveyor arranged to convey material in a direction transverse
to the first direction of travel; a third pick up assembly
supported on the frame including a third belt conveyor arranged to
convey material in a direction transverse to the first direction of
travel; wherein at least two of the pick up assemblies are foldable
between an extended position and a retracted position, each of the
first, second and third pick up assemblies being aligned side by
side when each of the pick up assemblies is positioned in the
extended use position such that the first, second and third pick up
assemblies provide a continuous line of material pick up and the
belt conveyors are configured to provide transport to either end of
the aligned assemblies.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a Continuation of application Ser. No.
15/351,248, filed Nov. 14, 2016; which is a Continuation of
application Ser. No. 14/514,014, filed Oct. 14, 2014; which is a
Continuation of application Ser. No. 13/447,079, filed Apr. 13,
2012 and issued as U.S. Pat. No. 8,863,488; which is a Continuation
of Ser. No. 12/925,405 filed Oct. 19, 2010 and issued as U.S. Pat.
No. 8,166,739; which is a Continuation of application Ser. No.
11/388,692, filed Mar. 24, 2006, issued as U.S. Pat. No. 7,827,774;
which is a Continuation of application Ser. No. 10/405,030, filed
Mar. 31, 2003, issued as U.S. Pat. No. 7,310,929; which
applications are incorporated herein by reference.
BACKGROUND OF THE INVENTION
Field of the Invention
[0002] The present invention relates to a windrow merger apparatus
and a method of merging windrows. In particular, the present
invention relates to a windrow merging apparatus and method having
more than two heads and conveyor assemblies.
Description of the Prior Art
[0003] Devices for merging windrows are well known and are used to
gather material, such as cut hay that might be windrowed, and merge
it into a single windrow for harvesting or baling. Such windrow
mergers have typically included a single pickup head and are either
self propelled or pulled behind a tractor to move the material to a
single row at one side of the merger. When used on a relatively
small scale, these devices generally function in a satisfactory
manner. However, for large scale operations requiring merging on
large fields, the capacity of such mergers is limited because of
their width and may not be sufficient to merge the material at an
adequate rate for subsequent pickup by other devices. The merging
must often be performed during a small timeframe when conditions
are favorable. A limiting factor for the size of the merger device
has been the towing capacity of tractors and other propulsion
devices. However as larger, more powerful tractors are utilized,
larger equipment may be used. The larger tractors have led to
larger harvesting machinery so that the need exists for a merger
with greater merging rates so as not to slow the harvest
process.
[0004] Although more power may be available to propel merger
devices, other limitations are encountered that have restricted the
size of windrow mergers. The machines must be transported from
field to field and able to accomplish entry and exit in and out of
fields, as well as meeting width limitations for transport on
public highways and other roads without removing the heads.
[0005] In order to achieve a wider merger apparatus, folding
mergers have been developed, such as shown in U.S. Pat. No.
6,205,757 to Dow et al. The Dow et al. '757 patent has a two headed
merger device that folds to a storage position for transport. In
addition, the Dow device utilizes transverse conveyors to move
materially laterally and provide various configurations for moving
material to the desired windrow. The Dow et al. '757 patent teaches
a device that is successful in providing higher capacity, greater
width, and improved methods of merging while folding to a storage
position for transport. However, further improvements to windrow
mergers are possible.
[0006] Utilizing wider folding heads provides design challenges,
especially achieving a linkage for folding wide heads and providing
acceptable support, while limiting the loads and torque in
operating positions, storage positions and during movement between
the use position and the transport position. In order to achieve
higher capacity, the heads may be widened, but the design becomes
more complicated and difficult due to moving wider heads and
staying within height and width limitations when folded. Controls
and mechanisms for a folding more than two heads are not
contemplated in the prior art.
[0007] Moreover, another problem that devices having multiple heads
suffer from is that they typically form a gap between the ends of
adjacent pickup heads so that some material may be missed in the
field as the merger advances. Motors and other drive equipment have
typically been positioned at ends of heads, providing an
obstruction between the ends of the heads, requiring a gap between
the end row of tines adjacent the heads. Operating prior adjustable
conveyors at a sufficient rate so that material is passed from one
conveyor to the other has required spacing that allows for
adjustment, which prohibits an unobstructed pickup face without
gaps. Achieving a conveyor that does not require adjustable end
rollers would improve the liability and eliminate constant
adjustment for different configurations. If such manual adjustment
is not required, control of the merger apparatus and changing
between different operating configurations, or changing between
storage and use positions could be accomplished remotely by an
operator of the towing vehicle without having to manually adjust
conveyor heads and other equipment. The utility of such a merger
apparatus is increased if such changes and configurations may be
made remotely during merging without having to stop.
[0008] It can be seen that a new and improved windrow merging
apparatus is needed. Such a merger should provide for a wider
effective pickup face that can accommodate various spacing of
windrows and material and an unobstructed pickup face so that
material is not missed in the field. Such a merger apparatus should
provide for a merger having more than two heads and allow for
folding of the heads between a use position and a storage position,
providing for transport on public roads. A merger having conveyors
with fixed heads that do not require adjustment increases the
reliability and efficiency of such a merger. The present invention
addresses these as well as other problems associated with windrow
merging devices and merging operations.
SUMMARY OF THE INVENTION
[0009] The present invention is directed to a windrow merger
apparatus, such as is commonly used to merge cut hay and/or
windrows into larger windrows for harvesting or baling. The windrow
merger apparatus is configured for being towed by a tractor or
other vehicle, or may be self-propelled. The merger includes a
frame and three pickup and transfer assemblies in a preferred
embodiment. Each of the pickup and transfer assemblies includes a
pickup head and an associated conveyor. The pickup heads have sets
of tines that extend radially outward from the head spaced along
the length of the head, transverse to the direction of travel. The
tines rotate and pick the hay or other material up and send it
rearward to an associated conveyor for moving to a single windrow.
The heads include removable guards intermediate the sets of tines.
Motors and related equipment are recessed so that the heads are
closely aligned with the tines having an unobstructed face to the
hay or other material as the merger travels. Star wheels having a
ratcheted outer periphery configured for engaging material on the
ground and rotating to aid in picking up the material may be
disposed intermediate ends of adjacent pickup heads so that an
unobstructed and continuous pickup face is achieved. In one
embodiment, the pickup heads also include skid assemblies that
support the heads and ride over the ground. The skid assemblies are
positioned to the rear of the heads so as not to interrupt the
continuity of the face of the tines as the merger apparatus
travels.
[0010] In one embodiment, the pickup heads are placed under a
preloaded torque to position the heads slightly lower than without
the torque and are spring loaded as the pickup heads travel and
engage the uneven terrain. In this manner, the heads more easily
"float" over the uneven ground.
[0011] The merger has a linkage that is hydraulically driven in a
preferred embodiment that folds the outer pickup and transfer
assemblies rearward and inward. The center pickup and transfer
assembly can be moved upward and downward in a pivoting type
motion. When the pickup and transfer assemblies are raised, each
outer assembly rests on supports in its raised and folded position.
The folding systems are driven by hydraulic cylinders and provide
for folding and unfolding even while the merger apparatus is moving
and operating.
[0012] Each of the pickup and transfer assemblies includes a
conveyor assembly associated with each pickup head. Shrouds extend
in an arcing configuration at the rear of the conveyors over the
top to direct material flung from the heads onto the conveyors. The
conveyors are driven by hydraulic motors in a preferred embodiment
and are operable in either direction so that multiple merging
configurations and operations are possible. The merging arrangement
selected is varied by adjusting both the configuration of the
pickup and transfer assemblies and the direction of the
conveyors.
[0013] In a preferred embodiment, the conveyors include pulleys or
rollers that are formed with blades radially disposed around a
periphery of the pulley and engaging the conveyor belt. The pulleys
do not have a through axle and the blades chop up material that
falls off of the conveyor. Such a configuration also helps to avoid
clogging, which may occur with material engaging through axles and
other moving parts. Such pulleys also reduce the weight of the
machine when compared to conventional pulleys.
[0014] Controls for the merger can be remotely actuated from the
cab if the merger is self propelled, or from the cab of the tractor
or other propulsion device. Since hydraulic motors drive the
various systems on the merger, central hydraulic controls provide
for simple, reliable remote actuation that can be accomplished from
the cab of a towing vehicle while the merger operates and continues
to travel. The tractor and the merger may simultaneously be
operated from a single location by one person with such a control
arrangement.
[0015] These features of novelty and various other advantages that
characterize the invention are pointed out with particularity in
the claims annexed hereto and forming a part hereof. However, for a
better understanding of the invention, its advantages, and the
objects obtained by its use, reference should be made to the
drawings which form a further part hereof, and to the accompanying
descriptive matter, in which there is illustrated and described a
preferred embodiment of the present invention.
BRIEF DESCRIPTION OF THE DRAWINGS
[0016] Referring to the drawings wherein like reference numerals
and letters indicate corresponding elements throughout the several
views:
[0017] FIG. 1 is a perspective view of a merger apparatus according
to the principles of the present invention in a use position with
conveyor shrouds removed for clarity;
[0018] FIG. 2 is a top plan view of the merger shown in FIG. 1 in
the use position;
[0019] FIG. 3 is a side elevational view of the merger shown in
FIG. 1 in the use position;
[0020] FIG. 4 is a front perspective view of the merger shown in
FIG. 1 in the use position;
[0021] FIG. 5 is a perspective view of the merger shown in FIG. 1
with two heads at a folded position;
[0022] FIG. 6 is a top plan view of the merger shown in FIG. 5 with
the two outer heads at the folded position;
[0023] FIG. 7 is a side elevational view of the merger shown in
FIG. 5 with the two outer heads at the folded position and the
center head raised;
[0024] FIG. 8 is a front perspective view of the merger shown in
FIG. 1 with one head at a folded position;
[0025] FIG. 9 is a rear perspective view of the merger shown in
FIG. 8 with one head at a folded position;
[0026] FIG. 10 is a side elevational view of a star wheel device
for the merger apparatus shown in FIG. 1;
[0027] FIG. 11 shows an end sectional view of a hexagonal shaft
construction utilized in the conveyor of the merger apparatus;
[0028] FIG. 12 shows a schematic view of the control system for the
merger apparatus shown in FIG. 1;
[0029] FIG. 13 is an elevational of a pretorque device showing a
head angled from the pretorque and at a non-torqued position in
phantom;
[0030] FIG. 14 is a bottom perspective view of the merger shown in
FIG. 1;
[0031] FIG. 15 is a perspective view of a head assembly according
to the principles of the present invention;
[0032] FIG. 16 is a bottom perspective view of a conveyor;
[0033] FIG. 17 is an end sectional view of a pickup and transport
assembly;
[0034] FIG. 18 is an end elevational view of the pre-torque device
for the head of the merger;
[0035] FIG. 19 is a partially exploded perspective view of a pickup
and transport assembly for the merger apparatus;
[0036] FIG. 20 is a perspective partially exploded view of a
conveyor for the merger apparatus;
[0037] FIG. 21 is a perspective view of a conveyor roller; and
[0038] FIGS. 22-24 are diagrammatic views of patterns of merger
methods according to the principles of the present invention.
DETAILED DESCRIPTION
[0039] Referring now to the drawings, and in particular to FIG. 1,
there is shown a merger apparatus, generally designated 100. A
towing device, generally a tractor 1000 tows the merger apparatus
100. In other configurations, the merger apparatus 100 may be self
propelled, such as is well known to those skilled in the art and
the principles of the present invention apply to towed and
self-propelled devices.
[0040] As shown generally in FIGS. 1-4, the merger includes three
pickup and transfer assemblies, designated 104, 106 and 108. The
assemblies 104, 106 and 108 are supported on a framework 101
including folding arms 102 that provides for movement of the outer
assemblies 104 and 108 between a use position and a folded
position, as explained hereinafter. The merger apparatus 100
includes steerable rear wheels 114 and a hitch 110 for mounting to
the tractor 1000. A steering linkage 116, such as is well known in
the art, connects the towing vehicle 1000 to the rear wheels 114 to
improve tracking so that the merger apparatus 100 substantially
follows directly behind the towing vehicle 1000. A power take off
typically provides the power to the merger apparatus 100 from the
towing vehicle 1000. In addition, the controls are mounted in the
cab of the towing vehicle 1000, as explained hereinafter, so that
an operator may control all merger functions without having to stop
the merging operation and make manual adjustments to the merger
100.
[0041] The folding arm 102 is actuated by a linkage 118 to
facilitate movement of the pivoting assemblies 104, 106 and 108
between a use position to a storage position. Each pickup and
transfer assembly 104, 106 and 108 includes a head unit, designated
124, 126 and 128 respectively. The heads 124, 126 and 128 pick up
and deliver the crop rearward to corresponding conveyors 134, 136
and 138. As shown in FIGS. 4, 15 and 16, each pickup and transfer
assembly 104, 106 and 108 includes an arcing shroud 160. The
shrouds 160 intercept material that has been thrown rearward and
directs it downward onto the corresponding conveyor. The shrouds
160 are shown removed for clarity in several of the views, but is
foreseen that the shrouds 160 will be utilized in most merging
operations.
[0042] The merger 100 has flexibility with respect to conveyor
travel direction as well as with respect to the number of heads
operating, so that multiple configurations for different merging
needs and operation are possible. As shown in FIGS. 1-4, the merger
100 may be operated with all three pickup and transfer assemblies,
104, 106 and 108 in a lowered operating position. When operated in
this mode, the merger 100 can cover a much wider swath, merging
more material and a greater number of windrows than is possible
with prior merger devices.
[0043] As shown in FIGS. 8 and 9, either of the outer pickup
assemblies, namely pickup assembly 104 or pickup assembly 108, may
be raised independently of each of the other assemblies. With such
a configuration, the merger 100 is able to operate with two of the
pickup and transfer assemblies, therefore merging a swath two
thirds of the full width of the merger 100, such as when configured
as shown in FIGS. 1-4. Such a two head merging configuration may be
needed for irregularities in the terrain, to access smaller fields
or irregular shaped fields, or for improved merging at edges of
fields.
[0044] As also shown in FIGS. 8 and 9, either the assembly 104 or
the assembly 108 may be raised independently of the other
assemblies. This provides for merging while having either of the
pickup and transfer assemblies 104 or 108 extending to one side or
the other of the towing vehicle 1000. In addition, the conveyors
134, 136 and 138 are reversible, to be operable in both directions
so that material may be selectively transported either to the left
or the right. The conveyors 134, 136 and 138 may also operate in
either direction when one of the pickup and transport assemblies is
raised. With such flexibility, it is possible to direct material to
the outer ends of the pickup and transport assemblies 104 or 108 or
to either of the ends of transport assembly 106, depending on the
configuration of the merger 100 and the needs of the merging
apparatus.
[0045] Referring now to FIGS. 5-7, the merger 100 may have both
pickup assemblies 104 and 108 raised simultaneously while the
center pickup and transfer assembly 106 remains lowered in an
operating position. The pickup assemblies 104 and 108 generally
rest on supports 122 while raised and folded. The pickup assembly
106 may be operated as a single conveyor merger with its head 126
collecting material and throwing it backward to the associated
conveyor 136 for transport to either end of the pickup assembly
106. With this configuration, even smaller areas may be accessed
with a merger capable of collecting material from much greater area
per pass than is possible with prior art merger devices. In
addition, as shown in FIG. 7, all of the pickup and transfer
assemblies 104, 106 and 108 may be raised for transporting the
merger when not operating to collect material. In this
configuration, with all three pickup and transfer assemblies 104,
106, and 108 are raised, the merger 100 is capable of transport on
public roads. The pickup and transfer assemblies 104 and 108 fold
rearward and inward to minimize the overall width and height of the
merger 100. The merger 100 has the additional advantage of being
centered behind the transport vehicle in its transport
configuration. As the conveyors and folding linkages are
independently operable, the merger 100 may be operated
continuously, even while the pickup and transfer assemblies 104,
106 and 108 are being raised or lowered. This control provides for
continuous operation and improved efficiency that is not possible
with prior merger devices that require that the merger be stopped
to raise, lower or otherwise adjust any of the merger's
equipment.
[0046] The pickup and transport assemblies 104 and 108 mount to the
folding arm 102 on mounts 192 attached to a pickup and transport
assembly support frame 190 associated with each assembly 104 or
108. Each of the pickup and transfer assemblies 104, 106 and 108 is
interchangeable with the other pickup and transfer assemblies and
vary only in their mounting to the merger 100. This
interchangeability reduces the parts inventory necessary for
servicing the merger device 100 and decreases down time when repair
of one of the pickup assemblies is required.
Merger Heads
[0047] Referring now to FIGS. 14, 15 and 17, the merger heads 124,
126 and 128 include a multiplicity of tines 200 spaced along the
length of each head. In addition, as shown most clearly in FIG. 17,
the tines 200 are also spaced radially around the circumference of
an arbor 168 along the length of the head. The tines 200 are
somewhat flexible and are pivotally mounted to provide flexure
should a tine engage the ground or other obstacle. Intermediate the
sets of tines 200 are guards 202 that extend around the top front
and bottom of the arbor 168 and provide protection to the inner
equipment of the heads. The guards 202 are straight members in a
preferred embodiment that are bent and mounted under tension, as
explained in co-pending U.S. patent application Ser. No.
10/027,930, incorporated herein by reference. The tines 200 and
guards 202 are easily removable and replaced should damage occur.
The guards 202 may be loosened at one end while remaining attached
at a second end to provide easy access to damaged tines 200 and
perform other maintenance. The heads include a housing 204 that is
mounted to the corresponding pickup and transfer assembly on the
preloaded torque assemblies 210 as shown in FIG. 19. The preloaded
torque assemblies 210 provide a lifting force against the weight of
the heads 124, 126 and 128 to improve the ride as the merger 100
travels over irregularities in the terrain. As shown most clearly
in FIG. 17, the heads 124, 126 and 128 are mounted with
approximately 15 degrees of bias from the preloaded torque assembly
in variance to a non-torqued position, shown in phantom in FIG. 13.
The heads are therefore spring loaded and rise up and over rocks
and other irregularities with greater ease. In addition to
improving the ability to "ride" over irregularities, the preloading
force improves performance by increasing contact time with material
to be picked up. The flexure also decreases the damage and
therefore, maintenance and down time for the merger.
[0048] Referring now to FIG. 18, the preloaded torque assembly 210
includes a center rectangular floating element 212 that is
supported by four resilient members 214 spaced on the four sides of
the center floating element 212. A housing 216 retains the center
member 212 and the resilient support members 214 and allows for
mounting of the heads to the preloaded torque assembly 210.
[0049] As shown most clearly in FIG. 15, a hydraulic motor 206
drives each arbor 168 for the heads 124, 126 and 128. The hydraulic
motor 206 is recessed into the housing 204 of the heads 124, 126
and 128. With the hydraulic motor 206 recessed, the ends of the
heads 124, 126 and 128 are positioned substantially to abut one
another. No obstruction due to drive mechanisms, support wheels or
other mechanisms inserted intermediate the adjacent heads is
required, as was typical with previous merger devices. Therefore,
the end tines 202 of one head are close to the tines 202 of another
head so that there are no large gaps between the heads as occur
with previous merger devices, which had motors and other equipment
between heads. In addition, the merger includes star wheels 162
mounted intermediate ends of the heads 124 and 126 and intermediate
ends of the heads 126 and 128. The star wheels 162 are rotatably
mounted to the housing 204 at the ends of the heads, as shown most
clearly in FIG. 19. As shown in FIG. 10, the star wheels 162
include a number of teeth spaced around the periphery of the star
wheel 162 in a notched configuration. As the star wheels 162
rotate, the notches and teeth intercept material that is not picked
by the end tines 202 of the adjacent heads and aids in directing
the material rearward. The star wheels 162 eliminate gaps and
minimize the material that is not picked up and left on the ground
after the merger 100 passes.
[0050] The heads 124, 126 and 128 of the present invention provide
an unobstructed pickup face to engage the material to be windrowed
as the merger 100 moves. Recessed hydraulic motors 206 allow for
placing the ends of the heads 124, 126 and 128 in close proximity
to one another and eliminate the large gaps where prior art drive
support mergers and other mechanisms and machinery were located.
Moreover, the star wheels 162 inserted intermediate the ends of
heads 124, 126 and intermediate the ends of the heads 126 and 128,
as shown most clearly in FIG. 4, ensure that the face of the merger
is unobstructed and continuous. The merger 100 provides improved
pickup while achieving a greater width per pass than has been seen
heretofore.
Folding
[0051] A folding linkage 118 that is hydraulically driven
accomplishes the folding of the pickup and transfer assemblies 104,
106 and 108. The outer pickup and transfer assemblies 104 and 108
are folded rearward and inward from the use position shown in FIG.
1, to the storage position shown in FIG. 5. The pickup and
transport assemblies 104 and 108 are directed up, in and to the
rear at the folded position shown in FIG. 5. The arms 102 of the
folding frame 101 engage and rest on supports 122 at their folded
position. Folding of each of the assemblies 104, 106 and 108 can
occur independently from folding of the other assemblies and can
occur while the merger 100 is in operation and moving. The pickup
and transfer assemblies 104, 106 and 108 are substantially compact
and are interchangeable so that a spare head may be utilized and
mounted to either of the folding linkages 118 or mounted as the
center head 106.
Material Transport System
[0052] Each of the pickup and transport assemblies 104, 106 and 108
includes an associated conveyor assembly, 134, 136 and 138
respectively, such as shown in FIGS. 1, 4, 5 and 14. Although not
shown in several of the views, the conveyor assemblies include
shrouds 160 as shown in FIG. 15. The shrouds 160 are generally
positioned behind the rear edge of the conveyor and extend upward
and forward in an arcing configuration over the conveyors to direct
material thrown rearward by the heads down onto the moving
conveyor. This configuration ensures that a greater percentage of
the material is actually transferred and merged.
[0053] Referring to FIGS. 16, 19 and 20, each of the conveyors 134,
136 and 138 includes a belt 170 mounted above end pulleys (also
commonly called rollers) 172. The upper length of the belt 170
travels on horizontal supports 240 extending along the length of
the belt. A tensioner pulley 174 is positioned below and
intermediate the end pulleys and mounts in a slot 178 in a
tensioner plate 176. The slot 178 extends vertically so that the
weight of the tensioner pulley 174 aids in providing proper tension
to the conveyor belt 170.
[0054] Each of the pulleys 172 and 174 is uniquely configured to
eliminate a center axle and its associated problems. The pulleys
172 and 174 are similar with the only differences occurring in the
manner they are mounted and driven. The rollers 172 and 174 include
a plurality of blades 180 spaced about a periphery of bulkheads 182
and center V-rings 184. In the embodiment shown, twelve of such
blades 180 are utilized, but other configurations with fewer or
more blades could also be utilized. The bulkheads 182 include
radially extending slots, as shown in FIG. 21 to position and hold
the blades 180. The V-rings also provide for engaging a tracking
member from the belt 170 in some configurations to ensure that the
belt does not drift laterally and remains properly aligned. The
blades 180 preferably include a shallow arcing profile so that a
slight crown is provided to the belt 170. With the multiple blades
180 and with elimination of a center axle, material that otherwise
may fall into the roller area may be chopped up by the blades 180.
In addition, material is less likely to stick, jam or bind axles,
as is a common problem with conveyor pulleys. The pulleys 172 and
174 include a bearing housing 188 at one or both ends. In addition,
at least one of the rollers includes a drive socket for receiving a
drive shaft from a hydraulic conveyor motor 230 as shown in FIG.
20. The bearing housings 188 receive bearings 232 that connect over
mounts 234. As shown in FIG. 11, the merger 100 utilizes hex pins
236 throughout its construction that engage an inner hex shaped
surface of the bearings 232 and provides for simpler assembly and
maintenance, due to improved tool access and engagement. Tension on
the belt 170 is applied by connecting the ends at a seam 220 and
tightening. The seam 220 defines a flange, as the belt 170
typically includes a plurality of flanges extending transverse to
the length of the belt to aid in moving material. The seam 220
includes a hinge 222 that receives a pin and is folded over for
tightening. The ends of the belt 170 are then bolted together or
otherwise connected to provide proper tension on the belt.
[0055] With the present configuration of the conveyors, the ends
are fixed rather than sliding. This keeps the pulleys 172 at a
fixed mounting location and provides advantages in alignment and
reconfiguration. With fixed ends, no adjustment is made as the
pickup and transport assemblies 104, 106 and 108 are folded or
unfolded. Since there is no spacing needed for adjustment, overall
width is decreased and ends of the conveyors are maintained in a
closer proximity. Moreover, it has been found that with the motors
for the heads recessed, the ends of the conveyors 134, 136 and 138
are sufficiently close so that at operating speed, material does
not fall between the ends of the belts and is propelled forward
with sufficient momentum to reach the belt 170 of the next adjacent
conveyor.
[0056] The tension is also critical as the hydraulic conveyor
motors 230 are reversible so that the conveyors 134, 136 and 138
may be operated to direct material for merging to either end of the
merger 100. In addition, the conveyors 134, 136 and 138 are
operable independent of one another to provide greater flexibility
with merging material than is possible with the prior art.
Tensioning becomes more critical as the belt 170 is pulled when the
belt travels in a first direction, but is pushed when the belt 170
travels in a second direction. If the belt 170 is not in a proper
tension and does not have proper tracking devices, the conveyors
may jam or otherwise malfunction. The present invention provides
sufficient tracking, drive and alignment that such problems are
overcome.
Controls
[0057] Referring now to FIG. 12 there is shown the controls 300 for
the merger 100. The controls 300 are remotely actuated from the cab
of the tractor 1000 in a preferred embodiment, but may also be
utilized in the cab of self propelled embodiments. The control
panel 300 includes switches to control the function of the merger
100. Three position toggles switches 304, 306 and 308 control the
conveyor belt direction for the pickup and transfer assemblies 104,
106 and 108, respectively. The switch 304 controls the left
conveyor and pickup and transfer assembly 104. The switch 304
controls the center conveyor 134 and the head 124. The switch 306
controls the center conveyor 136 and the head 126. The switch 308
controls the center conveyor 138 and the head 128. In one position,
the conveyors travel to the left and in another position, the
conveyors travel to the right. With the switches 304, 306 or 308 in
the middle position, the associated conveyor and pick up head are
turned off.
[0058] The control panel also includes switches 314, 316 and 318 to
control raising and lowering of the pickup and transfer assemblies
104, 106 and 108, respectively. In a preferred embodiment, the
switches 314, 316 and 318 are rocker type switches. The switches
314, 316 and 318 allow for clearing obstructions and positioning
the pickup and transfer assemblies 104, 106 and 108 for road
travel. A switch 320 allows for height adjustment of the heads 124,
126 and 128. The controls 300 are easily accessible by an operator
and provide for adjustment while moving. The controls 300 include
wiring leading to electro-hydraulic valves on the merger 100 in a
preferred embodiment. Hydraulic pressure is provided by the
hydraulic system of the tractor 1000 for lifting functions. The
heads 124, 126 and 128 and the conveyors 134, 136 and 138 are
powered by a tractor power take off driven hydraulic pump. The
hydraulic system also provides for a floating operation for the
heads 124, 126 and 128 when the associated conveyor is running in
the normal operating condition.
Supports
[0059] Referring now to FIGS. 16 and 19, skid assemblies 140
provide support and height adjustment for the pickup and transport
assemblies 104, 106 and 108. The skid assemblies 140 include a rear
wheel 142 and one or more front rollers 148 mounted on a skid body
144. A ski type member 146 may extend forward with a lower ramped
lead surface to provide for more easily traveling over uneven
terrain. The skid assemblies 140 include adjustment holes 154 and
152 for adjusting the position of the rollers 148 as well as their
mounting position on the pickup and transfer assemblies 104, 106
and 108. A linkage 218 is utilized for adjusting the position of
the skid assembly 140 and therefore the height of the associated
support head. The skid assemblies 140 are positioned below the
conveyors 134, 136 and 138 to the rear of the heads 124, 126 and
128, as also shown in FIG. 17. The positioning of the skid
assemblies 140 eliminates impinging on the operation of the heads
and provides for achieving an unobstructed face for the pickup
heads 124, 126 and 128.
Merging Operations
[0060] Referring to FIGS. 22-24, the merger apparatus 100 may be
configured for varying the merging patterns. As shown in FIG. 23,
the conveyors can be operated with two conveyors driven in a first
direction and a third conveyor driven in the opposite direction.
FIG. 23 shows the merger 100 configured for a typical merging
operation with all conveyors operating in the same direction. It
can be appreciated that the merger 100 may also be operated with
only two heads or one head. Such merging patterns are shown in U.S.
Pat. No. 6,205,757 to Dow.
[0061] As shown in FIG. 24, the merger may create a double windrow
B by transferring a single windrow onto another single windrow A.
This is accomplished with a single pickup and transfer assembly
operating in a first direction. Triple windrows C are created with
two pickup and transfer assemblies operating in the same direction
to merge two windrows onto a single windrow A. As shown in FIG. 22,
quadruple windrows D are created when three windrows are
transferred onto a single windrow A.
[0062] As shown in FIG. 23, the merger 100 may be operated with all
three pickup and transfer assemblies operating in the same
direction. With such a configuration, three windrows may be merged
from each side of a single windrow A. Six windrows may be merged to
create a septuple windrow G as the merger 100 is advanced up and
down the windrows.
[0063] It can be appreciated that the merger 100 of the present
invention provides for changing the number of pickup and transfer
assemblies operating and the direction of the conveyors to combine
windrows into larger merged windrows. Any combination of from one
to seven windrows may be achieved by the merger 100 to meet the
capabilities of the harvesting equipment and account for the field
and weather conditions.
[0064] These features of novelty and various other advantages that
characterize the invention are pointed out with particularity in
the claims annexed hereto and forming a part hereof. However, for a
better understanding of the invention, its advantages, and the
objects obtained by its use, reference should be made to the
drawings which form a further part hereof, and to the accompanying
descriptive matter, in which there is illustrated and described a
preferred embodiment of the invention.
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