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Claims  |
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What is claimed is:
1. In a vine crop harvester,
an ambulatory frame,
a plurality of crop cleaning rolls supported by said frame and having
spaced cylindrical surfaces,
the diameter of the crop cleaning rolls being less than the length of the
crop stalks from which the crop is to be cleaned,
drive means for said rolls adapted to rotate adjacent rolls of a pair in
opposite directions to grip and feed crop stalks downwardly between them
and strip the fruit from the stalks,
there being sufficient space between adjacent rolls of a pair to grip and
feed stalks of the crop to be cleaned but insufficient space to pass
widened joints of the stalks,
and means for cyclically reversing the rotation of adjacent rolls of a pair
sufficiently to move widened stalk joints which have been caught in the
bight of the rolls upwardly away from the rolls for reintroduction to the
rolls upon resumption of the downward progressive rotation of said rolls.
2. The structure in claim 1, and said rolls being so disposed that upwardly
projecting portions of said stalks which have not yet reached said rolls
are free and unconfined.
3. A method of cleaning vine crop fruits having stalks and branches with
enlarged asymmetrical cross-sectional joints which includes:
feeding the stalks with their fruit thereon between pairs of oppositely
rotating rolls having cylindrical surfaces spaced sufficiently to grip and
feed the unjointed length of stalks downwardly therethrough, the spacing
between the rolls being insufficient to pass the larger cross-sections of
said joints,
periodically reversing the rotation of said rolls releasing any stalk
joints caught in the bight of the rolls,
and said stalks and their joints, at the inlet side of the rolls, during
the reversing and the subsequent downward feeding rotation of said rolls,
being supported therebetween the rolls for free chance rotation prior to
reintroduction of successive portions of the stalks to said rolls.
4. A method of cleaning vine crop fruits from vines with stalks and
branches having cross-sectionally asymmetrical shapes at the junctures of
the stems with the stalks which includes:
feeding the stalks with fruit thereon between downwardly feeding,
oppositely rotating rolls capable of gripping and feeding the stalks but
having cylindrical surfaces too closely spaced to accommodate the fruit
and the greater dimensions of the asymmetrical stalk joints,
intermittently reversing said rolls to reverse the movement of said stalks
releasing any stem junctures caught in the bight of the rolls,
supporting the stalks therebetween the rolls in free-standing condition for
free chance rotation thereof prior to their reintroduction of the bight
between the rolls.
5. The method of claim 4, and rotating the rolls forwardly and reversely
through different time intervals, the interval of reverse rotation being
shorter than the interval of downward rotation, and the total movement of
the stalks being intermittently downward.
6. The method of claim 4, and the free chance rotation of said stalks being
induced in part by the reversed extension of the stalks and also by the
natural rotationally imbalanced weight of the stalk, its branches and the
fruit.
7. The method of claim 4, and the free chance rotation of said stalks being
induced, in part, by cross-sectional irregularities in the stalks when
they encounter the rolls. |
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Claims |
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Description |
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FIELD OF THE INVENTION
The invention is particularly adapted for use in connection with vine crops
such as bell peppers and pimento peppers and other vine or stalk crops of
roughly similar size and other physical characteristics. It can be used to
remove outer wrapper leave of head lettuce.
KNOWN PRIOR ART
Prior art presently known comprises the following U.S. patent Nos:
May 20, 1958 R. M. Magnuson 2,835,295
July 17, 1973 Myers et al 3,746,267
Oct. 10, 1972 Lundin et al 3,697,005
June 11, 1968 G. R. Tillotson 3,387,612
Jan. 5, 1971 Olin L. Looker 3,552,398
Feb. 25, 1975 Cunnington et al 3,868,062
Vine or crop stalk harvesters, which have one or more pairs of rollers for
pulling the vine stalks between them to dislodge the fruit when it meets
the rollers, have the disadvantage that readily and frequently they can
become clogged. The rollers or rolls are close enough together to grip and
feed the stalks between them. As they feed through, the rollers pull the
fruit up against them and detach the fruit, which is diverted or conveyed
to a suitable harvesting container. However, some crops, bell peppers and
pimento peppers, for example, comprise stalks or stems with branches. The
juncture of the branches with the main stalk or stem are characterized by
enlarged joints which are asymmetrical in cross-section. Usually the joint
has a greater cross-sectional dimension in a plane passing through the
main stem and the branch than in a plane at right angles thereto. Should
the joint enter the bight of the rolls with its greater dimension lying
transversely to the rolls, it will be unable to pass and the rolls will
become plugged, not only by the particular joint, but by the remainder of
the vine or stalk and successive vines and stalks which would pile up and
completely obstruct the machine.
To maintain the cleaning or fruit picking rolls in a properly cleared
condition it has frequently been necessary for an additional operator to
be present to clear the rolls by hand. In order to reduce the expense of
the additional operator, the following means and method are provided.
It is therefore an object of the invention to provide a vine crop harvester
for handling vines or stalks with enlarged asymmetrical branch joints
wherein, when one of the enlarged joints presents its larger dimension to
the bight of the rolls transversely of the rolls, it can be dislodged in a
reversed direction by relatively short interval reverse rotation of the
rolls followed by resumption of forward feeding rotation thereof. During
the reversal and resumption of forward rotation, the stalks are supported
above the rolls so that the remainders of the stalks to be fed to the
rolls are supported for free chance rotation. The natural imbalance of
rotational weight distribution about the main stalk, the weight of the
fruit and at times, cross-sectional irregularities in the shape of the
stalk itself as the latter is gripped by the rolls, will result in a
highly satisfactory rotational shift of a particular stalk joint so that
the joint will pass between the rolls without jamming. The machine is also
capable of removing accumulations of weeds and trash which tend to clog
the rolls.
The above and other objects and advantages of the invention will more fully
appear from the following description in connection with the accompanying
drawings.
FIG. 1 is a plan view of an embodiment of the invention.
FIG. 2 is a side elevational view.
FIG. 3 is an enlarged front elevational view of the gathering mechanism of
the harvester.
FIG. 4 is a side elevational view, on a reduced scale, of the gathering
mechanism of FIG. 3.
FIG. 5 is a plan view, with portions broken away of one of the gathering
conveyor belts.
FIG. 6 is an enlarged sectional view through a pair of crop cleaning rolls
showing a bell pepper prior to its removal from the vine.
FIG. 7 is a view similar to FIG. 6 showing the bell peppers with a short
stem as it is broken from the remainder of the vine.
FIG. 8 is a sectional view of the rolls of FIGS. 6 and 7 showing the manner
in which the enlarged lateral dimension of a stem joint is caught in the
bight of the rolls.
FIG. 9 is a cross-section through the rolls illustrating the branch or stem
with its enlarged joint backed away from the rolls by reversing rotation.
FIG. 10 is a diagramatic view showing sets of fruit cleaning or picking
rolls, a hydraulic drive therefor and intermittent roll reversing
mechanism.
An example of a vine crop harvester is shown in FIGS. 1 and 2 with a frame
12 supported by wheels 14. The details of the various supports for the
several elements of the harvester on the frame are not shown, but as will
be understood by persons skilled in the art, the forward portion of the
frame supports suitable crop cutting means indicated at 16 and upwardly
and rearwardly disposed elevating conveyor 18. Supported adjacent the
forward lower end of the elevating conveyor 18 is gathering mechanism 20
shown with pairs of gathering belts 22 and 24. The belts of each pair
converge downwardly as illustrated in FIG. 3 and each pair of belts also
extend upwardly and rearwardly as shown in FIGS. 2 and 4. The individual
belts of the gatherer preferably are provided with pegs or rods 26 which,
as illustrated in FIG. 5, are arranged in open squares large enough to
accommodate the bell peppers or other fruits in the squares and hold them
against falling.
It is contemplated that the gathering belts 22 and 24 be so arranged with
their above described angular arrangement that the branches of individual
vines would be drawn together and elevated with a nearly vertical upward
movement so they can be properly deposited upon the elevating belt
conveyor 18.
The vines feed from the elevating belt to a draper which includes a belt 28
above which is disposed a draper or spreader plate 30 which rather lightly
presses the vines into a loose relatively wide layer which then feeds onto
the upper ends of a plurality of cleaning rolls 40, the latter being
adapted for removing the vine crops from the vine and separating the crop
and vines so that the crop can be deposited upon laterally outwardly
feeding conveyors 32, each of which feeds to the rear end of a forwardly
moving upper run of a conveyer 34 at each side of the frame 12. The side
conveyors 34, at their forward ends, deposit the fruit upon a laterally
moving conveyor 36 having an upwardly slanting lateral extension 38 for
depositing the fruit in a truck or wagon moving through the field
alongside the harvester.
The fruit picking or cleaning rolls are indicated generally at 40 in FIGS.
1 and 2. They are arranged to operate in complementary pairs 42, each pair
being made up of a roller 44 and a roller 46.
As shown in FIG. 10, the rollers 30 are in two sets, each set being driven
by a respective drive chain 48 and 50. Chain 48 is driven by a hydraulic
motor 52 and chain 50 by a similar hydraulic motor 54. From the motors 52
and 54 the drive chain extend over idlers 56 and 58 and thence
alternatively over and under the cleaning rolls 44, 46, about idler
rollers 60 and 62 and over chain tensioners 64, 66. The left and right
groups of rolls 40 may, if desired, be separated by an inverted V-shaped
divider 68 to prevent vines or fruit from falling between the adjacent
rollers of the two groups.
The hydraulic motors 52 and 54 are operated by a pump 68 which pumps fluid
from a reservoir 70 through a flow divider 72 and thence through a
pressure line 74 to the hydraulic motor 52 and through the pressure line
76 to the motor 54. Each motor 52 and 45 has a return flow line 78, 80,
respectively merging in a single return line 82 which leads to the
reservoir 70. The pressure lines 74 and 76 to the two hydraulic motors and
their complementary return lines 78 and 80 extend through directional
control valves 84 and 86, respectively. These valves are shown
diagramatically with operating plungers 88 and 90 provided with cam
following rollers 92 and 94 which are suitably biased towards an
intermediate cam 96. This cam may be driven by a suitable constant speed
motor 98.
The cam 96 is shown in FIG. 10 in a neutral position. When in operation, it
may rotate in a clockwise direction as viewed in that figure and indicated
by the arrow. It will be seen that, as the cam rotates, it will
alternately actuate the directional control valves 86 and 84, and in so
doing, alternately reverse the rotation of the hydraulic motors 54 and 52,
respectively. This will cause the cleaning rolls 44, 46 of each pair to
reverse direction.
It will be noted that the cam following rollers 92 and 94 of the
directional flow control valve operators 88 and 90 dwell on the low
portion of the cam 96 through a considerably greater interval than upon
the projecting cam lobe 96a. This will cause the directional control
valves to provide normal pressure flow through lines 74 and 80 to rotate
the motors 52 and 54 so that the rolls 44 and 46 of each pair will rotate
in the direction of their irrespective arrows 100. As viewed in FIG. 10,
when vines are deposited upon the rolls 40, they will be caught and fed
between a roll 44 moving clockwise and a roll 46 moving counterclockwise.
Then when one of the cam follower rollers 92 or 94 rides the lobe 96a of
the cam 96, the rolls 44 and 46 of each pair will be reserved for an
interval which is considerably shorter than the interval provided for
feeding and progressing the vines between said rolls.
FIGS. 6 through 9 shown in enlarged cross-section a typical pair of
cleaning rolls 44 and 46, illustrating the manner in which they operate to
strip the fruit from the vines and also the manner in which they free
themselves from becoming clogged by enlarged vine joints when the rolls
are momentarily reversed.
Each roll 46 is provided with a plurality of radially projecting
elastomeric fingers 102, the outer ends of which are approximately in
light contact with the surface of the companion roll 44, the latter
preferably being made of a readily flexible elastomeric material,
preferably rubber.
Vines fed on top of the cleaning rolls 44 and 46 from the draper conveyor
29 fall into the bight defined by a pair of rolls 44 and 46, are engaged
by the rubber fingers 102 and soft rubber back-up roll 44 and pulled
between the rolls. In FIG. 6 there is shown a section of vine 104 with a
fruit 106 still attached thereto and approaching the rolls, the rotation
of which is indicated by the arrows 100. As the rolls continue to rotate,
a few more degrees, the fruit 106 will contact the rolls, and by reason of
its relative size, is prevented from passing between the rolls, whereupon
the vine 104 will break off as indicated, the fruit then rolling down the
rolls slanted as shown in FIG. 2, and the fruit then carried off by the
above described conveyors.
In FIG. 8, there is shown a pair of rolls 44 and 46 with a section of vine
108 and illustrating a considerable enlargement at the joint 110 at the
point where two stems 112 meet. The enlargement of the joint 110 is
asymmetrical, being greater in a plane through the tube stems 112 than at
right angles thereto.
When a joint 110 is in the position of FIG. 8 it is too large to pass
between the rolls 44 and 46, the vine 108 will cease to feed between the
rolls and will catch vines which follow and will clog the machine.
However, the rolls are periodically reversed as described in connection
with FIG. 10 with the directional control valves 84 and 86 and the control
cam 96. It has been found that when the pairs of rolls 44 and 46 are
reversed, the vines will rotate more or less about their lengths for
various reasons, such as the rotational weight imbalance of the plant
stalk, its branches and fruit, circumferential irregularities in the stalk
and its branches, and the feeding motion and contact with other plant
stalks being fed.
FIG. 9 illustrates a change of position which can occur from the position
of FIG. 8 due to one or more of the above-recited causes. It will be noted
in FIG. 9 that the transverse diameter of the joint 110, as it is viewed,
is considerably less than as it is view in FIG. 8. It will therefore feed
freely between the rolls 44 and 46 as desired.
It is not to be expected that an enlarged plant joint 110 will shift
rotationally from a position such as shown in FIG. 8 to one such as
illustrated in FIG. 9 upon each and every reversal of the rolls 44 and 46.
Sometimes this will occur during a single reverse cycle and return to the
forward feed but at other times it may take two or more roll reversals
before the enlarged joint will feed between them properly. However, it has
been found that the feeding of the vines between the rolls with the
accompanying cleaning or detachment of the fruit is accomplished in a
highly efficient manner without damage to the fruit and without clogging
of the machine to the point where it will not operate dependably.
It will, of course, be understood that various changes can be made in the
form, details and arrangement of the various parts and the precise
operation of the method without departing from the spirit of the invention
.
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Description |
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