Note: Descriptions are shown in the official language in which they were submitted.
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1 BACKGROUND OF TH~ INVENTION
FIE~D OF THE INVENTION
; The present invention relates generally to a baler and, more
particularly, is concerned with improved means for controlling the shape of
bales successively formed within and discharge~d from the bale chamber of the
baler.
DESCRIPTION OF THE PRIOR ART -
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/ A conventional baler includes an elongated3 fore-and-aft extending
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bale chamber within which bales are successively formed and moved toward a
rear discharge end thereof. In order to form bales within the bale chamber
having a deslr~d level of density, it is common practice to provide spaced
apart top and bottom rails for the bale chamber which are oriented fore-and-aft
and pivotally mounted on the baler at their for~ard ends.
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;` Under some baling condi~ions, such as in light crop materials,
~' in order to be able to achieve the desired level of bale density, the -~
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~ rearward ends of the rails must be held closer to each other than the forward
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~! ends by an adjustable tension control device which is commonly provided on
the bale chamber such that the rails converge toward one another at their
rearward ends. Under such conditions, the bale chamber is provided with ;
its shortest vertical dimension at the rear discharge end thereo~ which
forms a restr~ction within the bale chamber to the passage of a bale through
the discharge end thereof and forcee the rearwàrd ends of the top and bottom
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~ rails into the top and bottom surfaces of the bale. Because of the added
. ~ .effect of gravity, the rearward end of the top rail is forced deeper into
,~ the top surface of a bale discharging fr~m the bale chamber than is the
~;1 rearward end of the bottom rail into the bottom surface of the bale. Bales
formed under such conditions emerge from the bale chamber in a distorted form
or shape which causes problems in subsequent handling and storage of the
. 30 bales.
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1 SUMNARY OF THE INVENTION
The present invention provides for improved control of bale
- shape and thereby obviates the aforementioned problems associated with
distorted bale shape. Specifically, substantially uniform and equal force
is imposed on the bale along the length thereof after it has been banded and
tied and as it emerges from the discharge end of the bale chamber which
reduces any tendency toward bale shape distortion. Also, initial tension
rail penetration into the top surface of the bale is provided forward of -~
and remote from the discharge end of the bale chamber which further reduces
` 10 the tendency toward bale distortion. Furthermore, a greater proportion of
rail surfaçe contact is maintained with thet~p surface of the bale which
? allows the desired level of bale density to be reached through the application
' of a reduced level of rail tension whereby excessive forcing of the top
tension rail into the top surface of the bale is avoided and better bale
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shape is attained. As a consequence, the need for auxiliary restricting
devices, such as hay wedges, in the rear portion of bale cham~er is reduced
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~ or eliminated.
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; Accordingly~ the present invention relates to means for improving
~ control over the shape of bales successively formed within and moved towàrd
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the rear discharge end of the bale chamber of a baler, wi~hout sacrificing
any degree of control over the ability to achieve a predetermined desired
level of crop material density in the bales. The improved bale shape control
maans includes a top~tension rail having front and rear portions, an elongated
generally straight bottom tension rail and means on the bale chamber for
d effectuating disposition of the ~ar portion of the top r~il in a pofiition
in which it i8 spaced above and substantially p&rallel to the bottom rail
and disposition of t~ front portion of the top rail in a position in which
it rearwardLy declines toward the bottom rail. More particularly, the
. front and rear portions of the top tension rall~are articulately interconnected
together at their adjacent ends.
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; 1 As bales are successively moved within the bale chamber toward the
rear discharge end thereof, a forward section is defined in the bale chamber
remote from its discharge end and between the bottom rail and the front
portion of the top rail in which the successive bales are subjected to
increasing compressive forces and a rear ssction is defined in the bale
chamber extending from the front section to the discharge end thereof and
between the bottom rail and the rear portion of the top rail in which the
successive bales are subjected to substantially uniform or equal compressive
` forces.
The bale shape control means further includes means located at
- the respective adjacent, pivotally connected ends of the front and rear
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portions of the top rail which constitutes a stop limiting pivotal movement
of the front and rear portions relative to each other to only toward and
~ away from one side of a generally horizontal plane which faces toward the
-~ bottom raila~d extends through the pivotally connected ends of the portions.
More particularly, the stop means includes a member fixed on one
of the front andr~air~top rail portions and projecting therefrom at the end
thereof adjacent the end of the other one of~the portions. A part of the -
other one of the top rail portions overlies the projecting member and will
~ abut the same when the top rail portions are pivoted relative to each other
to form the generally horizontal plane extending through their pivotally
~`~ connected ends. ~ -
The advantages and attainments of the improvement provided by the
present invention will become apparent to those s~illed in the art upon a
reading of the following detailed description when taken in conjunction with ~ -
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~,~ the drawings in which there is shown and described an ilLustrative embodiment
of the invention. c
`,~ BRIEF DESCRIPTION OF THE DRAWINGS
In the cour~e of the fol~owing detailed description reference
will~be requently made to the attached drawings in which:
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~739LI)
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1 Fig. 1 is a perspective view of a baler embodying the principles
of the present invention;
Fig. 2 is an enlarged, fragmentary left side elevational view
of the rear portion of the bale chamber of the baler of Fig. l;
Fig. 3 is a top plan view of the bale chamber of Fig. 2;
Fig. 4 is a fragmentary rear elevational view taken along line 4~4
j of Fig. 2;
Fig. 5 is a fragmentary rear elevational view taken along line
5~5 of Fig. 2; ;~
Fig. 6 is an enlarged, fragmentary top plan view of the
articulated top tension rail of the bale chamber of Fig. 3, showing the
pivotal connection between the front and rear members of the top rail;
Fig. 7 is an enlarged, fragmentary left side elevational view of -
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Fig. 8 is a front end elevational view of the rear member of the
top rail; and
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Fig. 9 is a rear end elevational view of the front member of the
top rail.
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t.~ 20~ DETAILED DESCRIPTION OF THE INVENTION -
In the following description, right hand and let hand references ~`
~"J~ are determined by standing at the rear of the baler and facing in the
direction of forward travel. Also, in the following description, it is
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~ to be understood that such terms as "forward", "rearward", "left", "upwardly",
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~li- etc., are words of conveni~nce and are not to be construed as limiting terms.
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~i~ IN OENERAL
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~j Referring now to the drawings, and particularly to Fig. 1, there
is shown a hay baler, being indicated generally by numeral 10 and incorporating
~, 30 the preferred embodiment of the improvement provided by the present invention.
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1 The baler 10 includes a frame 12 supported and mada mobile by right and left
rotatably mounted ground-engaging wheels 14,1~. The baler has a tongue 18,
being pivotally connected to the frame 12 and extending forwardly of the
baler. When articulately connected at a hitch end 20 of its tongue 18 to
the drawbar of a tractor (not shown), the baler 10 may be towed across a field. -~
The baler 10 further includes a fore-and-aft extending bale case or
chamber 22 located along the left side of the frame 12 having a forward end
on which a flywheel 24 is rotatably mounted. ~lso, included on the baler 10
is a feeder housing 26 transversely mounted on the frame 12 adjacent the
; 10 right side of the bale chamber 22 within which is mounted a conventional
feeding mechanism(not shown) adapted to convey crop material into the bale
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chamber 22 through an inlet opening (not shown) defined in`the bale chamber's --
right side contiguous with the left end of the feeder housing 26. A pickup
assembly (not shown) is mounted on the Erame 12 and positioned forwardly of
,`.! and below the feeder housing 26 and adapted to lift crop material from the
field and deliver it to the feeding mechanism.
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.~ A plunger ~not shown) is mounted for reciprocable movement in the
:.. ' .forward portiojn of the bale chamber 22 for forming the crop material conveyed
therein through the inlet opening into rectangular bales. As the bale~
~;~ 20 are successively formed within the bale chamber 22, they are moved
progressively toward the rear end of the bale chamber 22. As each bale is
completed, it is banded with a suitable medium and tied by tying mechanism,
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generally designated 28~ being mounted on the bale chamber 22. Once
completed, each bale soon~merges from the rear or discharge end, generally
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designated 30, oft~e bale chamber 22.
-~ An input driveline, generally designated 32, being connected at
its rear end to the baler 1ywheel 24, is adapted for connection at its forward
end to the power takeoff~pto) shaft of the tractor for rotation in unison
therewith to supply rotary driving power to the operating components of the
ba-ler 10 through additional power transmitting components ~t shown).
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~6734~ :
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: 1 THE BALE CHAMBER OF THE BALER
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Referring still to Fig. 1, ar,d more particularly to ~igs. 2 and 3,
there is illustrated in detail the rear portion of the bale chamber 22 through
which the completed bales successively move toward the discharge end 30. Such
portion of the bale chamber 22 i.s generally rectangular in cross-section
and defined in part by laterally spaced, generally parallel side members 34,36.
As illustrated, the side members 34,36 respectively define vertically :
disposed sidewalls 38,40 and are channel shaped, respectively having
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. inturned horizontal flanges 42,44 adjacent the respective upper edges of the :: -
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~: 10 sidewalls 38340 and similar inturned horizontaI flanges 46,48 adjacent the ::~:
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~: respective lower edges of the sidewalls 38,40, which corresponding flanges - .
-. respectively define portions of the top and bottom walls of the rear portion
. of the bale chamber 22. The side members 34,36 are disposed in substantially
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~ parallel relationship by upper and lower pairs of spaced apart rigid arched
; braces 50,52 which respectively extend transversely across the bale chamber ..
22 and are fixedly attached to and extend between upper and lower flanges : .
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: 42 a 44 and 46,48. : .
In the forward portion of the bale chamber 22 in which charges of
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~: crop material are formed into bales, the bottom of the bale chamber 22 is
~`. 20 substantially closed by sheet metal structure 54 except for fore-and-aft
extending slots ~not shown) formed therein which allow entry into the
-. bottom of the bale chamber 22 of needles 56 oi' the bale tying mechanism 28.
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~ The top of the bale chamber 22 forwardly of a collar~ or box-like mounting
;~ frame 58, which is attached about the bale chamber 22 to its side members ~ ~ :
~ 34,36 is also substantially closed by sheet metal structure 60 except for
`~ fore-and-aft slots ~not shown) which allow the top portions of the respective
` needles 56 to emerge from the top of the bale chamber 22 and deliver portions
~ : of the banding medium to other components of the tying mechanism 28 being
-i, supported above this portion of the bale chamber 22.
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1 As mentioned previously, crop material to be baled is fed intothe forward portion of the bale chamber 22 through an inlet opening (not
shown) defined in the bale chamber's right side contiguous with the left end
of the feeder housing 26. Successive chargeæ of material so fed into the
bale chamber 22 are compacted into a bale by the plungerl(not shown) which
reciprocates fore-and-aft within the forward portion of t~ bale chamber 22
and past the inlet opening therein. As seen in Figs. 2 and 3, the rear
portion of the bale chamber 22 is sufficient in length tjo accommodate two
previously formed and tied bales 1, 2 while another bale is being formed in
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the forward position of the bale chamber 22. The forward end of bale
2 thus, in effect, serves as the end wall of the bale chamber 22 against
~,',!,~, which the crop material being formed into the new bale ~not shown) is
- ~ compressed. As the new bale is formed, both completed bales 1, 2 are
gradually pushed rearwardly in increments upon each working stroke of the
plunger toward the di~charge end 30 of the bale chamber and eventually
emerge thererom.
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LMPROVED BALE SHAPE CONTROL MEANS
Movement of the bales 1,B2 through the bale chamber 22 toward
the discharge end 30 thereo is resisted by thé improved means of the present
inv~X~ia~ bein& associated with the bale chamber 22 and generally designated
by numeral 62 in Figs. 1 through 3. Means 62 allows the achievement of a -
dssired level of den5ity of crop material in the bale being formed iD the
forward portion of the bale chamber 22 while, at the same time~ providing
; improved control over the shape o the completed bales Bl,B2 as they
successively move through the rear portion of the bale chamber 22 and emerge
- from the discharge end 30 thereo.
. The improved bale shape control means 62 basically includes an
improved top tension rail 64 having front~and rear portions 66,68, a
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conventional elongated bottom tension rail 70 and conventional tension control
means 72 on the bale chamber 22 for effectuating a novel disposition of the
improved top rail 64 relative to the conventional bottom rail 70.
Heretofore, the bale chamber of a baler has been provided with a
generally straight bottom tension rail which forms the central portion of ~ -
the bottom wall o~ the bale chamber. Similaarly, bottom tension rail 70
extends between the lower inturned horizontal flanges 46,48 on the side
members 34,36 of the bale chamber 22 to form a central portion of the bottom
thereof. The bottom rail 70 is pivotally connected for vertical movement
about a horizontal axis at its forward end by pins 74 (only the left one being
seen in ~ig. 3) to a pair of spaced apart brackets 76 ~only the left one being
`~ shown in Fig. 3) attached on and projecting rearwardly from a lower transverse
portion 78 of the collar-like mounting frame 58.
Also, heretofore, a tension control mechanism substantially identical
to means 72 has been provided on the bale chamber of a baler. Tension control
~i means 72 includes upper and lower channel members 80,82 being respectively
disposed above and below, and extending transversely across~ the bale chamber
c ~ 22. The corresponding opposite end portions of the upper and lower transverse
channel members 80,82 are respectively interconnected by identical
adjustment ~evices 84,
Each of the devices 84 includes a vertically extending rod 86 being
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received through an opening formed in the respective end portion of the upper
transverse channel member 80 and having an integral crank 88 at an upper end
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Y~ oi' the rod 86 by which the rod may be rotated manually. The lower end portion
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of the rod 86 remote rom its crank end is threaded and screwed through a
nut element 90 being fixed on the upper end of a vertically-disposed sleeve
92 which isreceived through an opening formed in the respective end portion
of the lower transverse channel member 82. The lowerend of the sleeve 92 -
~ below the lower channel member 82 has a head 94 formed thereon which retains
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~i~ 30 the sleeve 92 through the opening ln the respective lower channel member end. -~
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1 Also, a bolt 96 fastened through the lower channel member end below the sleeve
head 94 limits downward movement of the sleeve 92 relative to the lower
channel member 82.
~ach of the devices 84 further includes a coiled spring 98 received
about the rod 86 and confined between the top surface of the respective end
of t~ upper channel member 80 and a collar 100 being fixed on the rod 86
~ adjacent to and below the crank 8~ on the rod 86, whereby clockwise rotation
~ of the crank 88, as viewed in Fig. 3, screws the rod 86, into the
'`!^.`' sleeve nut element 90 and increasingly compresses the spring 98 which
thereby forces the upper and lower channel members 80,82 toward each other.
On~ the other hand, counterclockwise rotation of the crank 88 screws the rod
86 out of the nut eleme~ 90 and increasingly relaxes the spring 98 which
thereby allows the members 80,82 to separate or move away from each other.
Heretofore, it has been common practice to provide a generally
straight elongated top tension rail on the bale chamber of a baler which is
`"~ pivotally mounted at its forward end about a horizontal axis for vertical
`~` - movement. The tension control mechanism has been commonly provided on the
bale chamber adjacent the rear discharge end thereof so as to resist the
movement of completed bales therethrough by holding the rear ends of the top
and bottom straight tension rails closer together than the orward ends
thereof. In so doing, the tension contro~ mechanism causes the rails to
~' converge toward one another at rearward ends. As mentioned earlier,~ bales
formed under such conditions emerge from the bale chamber in a distorted form
- or shape which causes problems in subsequent handling and storage of the
.~ . ... .
bales.
The improved compound top tension rail 64 of the present invention
`~ replaces the above-referred to conventional straight top tension rail and
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`` the tension control means 72 is relocated forwardly of the discharge end 30 ;~
of the bale chamber 22. The upper transverse channel member 80 of the tension
control means 72 is located at an intermediate position between the opposite ~ -
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1 ends of the rear portion 68 of the improved top tension rail 62 and~above
the rear portion 68. The top rail rear portion 68 is formed by a bale-engaging
base 102 which merges at its opposite longitudinal edges into respective
spaced apart upstanding sides 104,106 respectively having upper inturned
hori~ontal flanges 108,110. The upper channel member 80 is U-shaped having -
i~ a base 112 with upstanding spaced apart sides 114,116 respectively merging from
the opposite longitudinal edges of the base 112. As seen in Figs. 3 and 5,
the top rail rear portion 68 is attached to a mid-section of the upper channel
member by a pair of bolts 118 which respectively clamp the inturned flanges
108,110 of top rail rear portion 68 to the base 112 of upper channel member 80.
`~ The lower transverse channel member 82 of the tension control means 72 is
'~ located in a position aligned below that of the upper channel member 80 and
~; across and below the bottom tension rail 70. The bottom rail 70 is formed ~-
by a bale-angaging base 120 which merges at its opposite longitudinal edges
into respective spaced apart sides 122,124 wbich depend from the base 120
~,} and respectively have lower inturned horizontal flanges~126,128. The lower
channel member 82 ls U-shaped having a base 130 with depending spaced apart
side: 132,134 respectively merging from the oppos~ite longitudinal edges of
the base 130. As seen in Fig. 4, the bottom tension rail 70 is attached to
`,s~ 20 a mid-section o the lower channel member 82 by a pair of bolts 136 which
~ respectively clamp the inturned flanges 126,128 of the bottom tension rail
- 70 to the base 130 of the lower channel member 82.
As seen in Fig. 2, normally the devices 84 of the tension control
;~~ means 72 are similarly adjusted so as to effectuate disposition of the rear
?~; portion 68 of the improved top tension rail 64 in a position in which it is
spaced above and sub8t~antially parallel to the bottom tension rail 70~ and
in so doing, the tension control means 72 causes the front portion 66 of the
mproved top tension rail 64 to be disposed in a position in which it rearwardly
declines toward the bottom tension rail 70. In such manner, as bales 1, 2
are successively moved within the rearward portion of the bale chamber 22
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toward the discharge end 30 thereof, a forward section is defined in the bale
' chamber rearward portion remote from discharge end 30 and between the bottom
rail 70 and the front portion 66 of the top rail 64 in which the successive
bales are subjected to increasing compressive forces by the rails and a rear
section is defined in the bale chamber rearward portion extending from the
front section to the discharge end 30 thereof and between the bottom rail 70
,- and the rear portion 68 of the top rail 64 in which the successive bales
are subjected to substantially uniform or equal compressive forces by the rails.
~ Through the above-described positional relationship between the
;,', 10 top and bottom raiLs 64,70, referring to ~ig. 2 it will be readily understood
~' that initial tension rail penetration into the top surface of each of the
'' successive bales occurs near the rear end of the forward portion 66 of the
top rail 64 and thus forward of and remote from the discharge end 30 of the
'~, bale chamber 22 which reduces the-tendency toward bale distortion which
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;~ occurred heretoiore due to raiL penetration at the discharge end of the bale ' ' "
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; chamber. Furthermore, through the ab,ove-described positional relationship
~;`; between the rails 64,70, it will be realized that a greater proportion of rail ~ `
surface contact is maintained with the top surace of each of the successive , ' '
, . : .
'''~ bales by the bale-engaging base 102 of the rear portion 68 of the top tension
, 20 rail 64 which allows the desired level of bale den~ity to be reached in the
,,',.~. bale being ormed in the forward portion of the bale chamber 22 through the ''
i~ application of a level of rail tension which is less than that necessary
`~ heretofore whereby excessive forcing of the top tension rail into the top
`,~ s~rface oi the bale is avoided and better bale shape is attained.
The front and rear portions 66,68 of the improved compound top
Sj tenslon rail 64 are preerably articulately interconnected together. The
front portion of the~top rail 64 is also pivotally connected for vertical
movement about a horizontal axis at its forward end by pins~135 to a pair of ~ , ''
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;~ spaced apart brackets 137 attached on and pro~ecting rearwardly from an ,'
~'~ 30 upper transverse portion 139 of the collar-like mounting frame 58.
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1 Referring to Figs. 6, 7 and 9, it will be seen that the front top
rail portion 66 is formed by a bale-engaging base 138 which merges at its
- opposite longitudinal edges into respective spaced apart up~standing sides
140,142 respectively having upper inturned horizontal flanges 144,146. The
base 138 has an elongated slot 148 formed therein through which extends a
metering wheel 150 of the tying mechanism 28.
The rear end portions of the sides 140,142 of the top rail front
`~ portion 66 each have-~a square opening 152 formed therein for receiving
- therethrough and seating therein a carriage bolt 154. Plates lS6j158 are
respectively welded to the interior surfaces of the rear end portions of the
sides 144,146 and each have a circular opening 160 defined therethrough being
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;` aligned with the square opening 152 and receiving the threaded stem 162 of
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the bolt 154. Stop members 164,166, each in the form of a flat plate, are
;~ vertically disposed between, and welded to, the upper surface of the base 138
of the tap rail ront portion 66 and respective lower surfaces of the inturned
flanges 144,146 at locations similarly spaced inwardly from the respective
` plates 156,15~. Each of the stop members 164,166 have a circular opening
167 formed therein aligned with the oper~ings 152,160 of the plates 156,158 -`
' .3 ` and sides 140,142.
-~ 20 Referring to Figs. 6, 7 and 8, the front end portions of the æides
104l106 of the t~p rail rear portion 68 respectively have tabæ 168,170 with
~; reæpective forward parts 172,174 thereof being welded to the inte~ior surfaces
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, of the æides 104,10j6. Tabs 168,170 project inwardly toward each other rearwardly ~ ~
from the top rail front portlon 68 to reæpective rear partæ 176,178 which are ~ ;
thereby inwardly offæet from the correspondlng forward parts 172,174 such
that the rear parts 176,178 will be disposed between the respective ætop
members 164,166 and plates 156,158 and in close side-by-side relationship
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with the plates 156,158. Each of the rear parts 176,178 have a circular
;~ opening 180 formed therein which may be aligned with thè aforementioned openings
~-~ 30 152,160,167 of the plates 156,158, sides 140,142 and stop members 164,166.
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1 When the~carriage bolts 154 are received through the various
openings, as shown in Figs. 6 and 7, and respective nuts 182 are threadably
fastened thereon, the front and rear portions 66,68 of the top rail 64 are
pivotally coupled together.
The stop members 164~166 project rearwardly from the top rail front
portion 66 and are received by the front end portion of the top rail rear
portion 68 respectively between upper inturned flanges 108,110 and the base
102 of the top rail rear portion 68. A flat plate 184 bridges the flanges
108,110 and is welded thereto for purposes of strengthening or reinforcing
the top rail rear portion 68 in this area. The rearwardly projecting portions
of the stop members 164,166 respectively have upper horizontal edges 186~188
and lower.rearwardly and upwardlytapered edges 190,192 which to~gether with
the interior surfaces of the inturned flanges 108~110 and the base 102 of -~the top rail rear portion 68 define the upper and lower limits for pivotal
movement of the top raiL front and rear portions 66,68 relative to each other.
The portions 66,68 may only piv~ot upwardly until upper edges 186,188 of stop
members 164,166 abut inturned flanges 108,110 and may only pivot downwardly
until lower tapered edges 190~192 of stop members 164~166 abut base 102. When ~-
` upper edges 186,188 of stop members 164S166 engage intur~ed flanges 108,110,
the portions 66,68 are disposed in a generally horizontal plane extending
'~ ~ along the top of the side members 38,40 of the base chamber 22. Thus, the
top rail is prevented from possibly raising out of the area of the bale
cham~er 22. Consequently, the portions 66,68 of the top rail may only pivot
`~ toward and away from the lower side of the aforementi~ned hori~-oDtal plane
which faces toward the bottom rail 70 and generally extends through the
pivotally connected ends of the portions 66~68. The only significance
attached to the lower limit established by the tapered edges on stop members
~j 164,~166 is that the taper thereof be sufficient to accommodate a desired
amount of downward articulation of the portions 66,68 relative to each other.
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1 It is thought ,that the invention and many of its attendant advantages
will be understood from the foregoing description and it will be apparent
that various changes may be made in the form, construction and arrangement of the
'~ parts of the improved bale shape control means described without departing
Erom the spirit and scope of the invention or sacrificing all of its material
advantages, the form hereinbefore described being merely an exemplary
embodiment thereof.
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