US3570605A - Compensating linkage - Google Patents
Compensating linkage Download PDFInfo
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- US3570605A US3570605A US815989A US3570605DA US3570605A US 3570605 A US3570605 A US 3570605A US 815989 A US815989 A US 815989A US 3570605D A US3570605D A US 3570605DA US 3570605 A US3570605 A US 3570605A
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- linking means
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01C—PLANTING; SOWING; FERTILISING
- A01C7/00—Sowing
- A01C7/20—Parts of seeders for conducting and depositing seed
- A01C7/201—Mounting of the seeding tools
- A01C7/205—Mounting of the seeding tools comprising pressure regulation means
Definitions
- apparatus embodying the invention may comprise elongated linking means which has positioned on each end thereof a universal joint.
- An arm may be rigidly secured to each of the aligned rotary shafts and each of the arms thus secured may be operatively connected to one of the universal joints located at the end of the elongated linking means.
- a power assembly may be provided for moving the linking means in an are about 74/96 the parallel shafts thereby rotating the shafts.
- the power assembly is characterized by means for connecting a portion [56] References cued thereof with a central portion of the linking means in such a UNITED STATES PATENTS manner as to allow pivotal motion of the linking means relal,329,598 2/1920 Hegland 172/579X tive to the power assembly.
- a portion of the power 2,755,720 7/1956 Markel
- l72/462X assembly is designed to allow limited universal motion of the 3,050,882 8/1962 Chattin l72/407X elongated linking means about an axis normal to the longitu- 3,19.4,323 7/1965 Zimmerman 172/500 dinal axis of the linking means.
- One of the more common types of farm implements currently in use is the grain drill which, as generally constructed, includes a pair of aligned disc gangs which may be raised or lowered by a power mechanism, such as a power cylinder.
- a linkage mechanism is commonly provided to interconnect each of the disc gangs with the power mechanism andsvith each other.
- FIG. 1 is a generalized perspective views of a grain drill having mounted thereon a compensating linkage which embodies the present invention
- FIG. 2 is a fragmentary side view taken along line 2-2 of FIG. 1 with portions of the apparatus being omitted for clarity and showing two positions of a portion of the apparatus, one of such positions being shown in dotted outline;
- FIG. 3 is an elevational view of FIG. 2 showing the relationship of a power assembly with other elements of the compensating linkage and of the grain drill;
- FIG. 4 is a fragmentary perspective view of the compensating linkage shown in FIGS. 2 and 3 wherein a portion of the linkage is displaced to demonstrate the manner in which the linkage moves when a limited surface irregularity is encountered by one of the disc gangs on the grain drill.
- FIG. I there is shown a grain drill indicated generally by the numeral 163 which includes a grain box 11 of standard design mounted by means of upright braces 12 on a frame 13 containing a frontal crossbeam 1.4.
- a grain drill indicated generally by the numeral 163 which includes a grain box 11 of standard design mounted by means of upright braces 12 on a frame 13 containing a frontal crossbeam 1.4.
- Near the central portion of grain drill are a pair of axially aligned, rotatable adjusting shafts 16a and 16b which are joumaled for rotation at their proximate ends in a common journal box 17.
- the outer ends of the shafts are likewise rotatably journaled into journal fittings 18a and 181;, respectively, which are carried on upright braces 12.
- a pair of disc gang assemblies indicated generally by the numerals 19a and 19b are in operative engagement with adjusting shafts 16a and 16b, respectively, in a manner to be hereinafter described, whereby the individual discs 21 of the disc gangs may be moved in a substantially vertical direction by incremental rotation of the adjusting shafts.
- a compensating linkage assembly indicated generally by the numeral 22 which includes, among other elements, a pair of arms 23a and 23b rigidly secured to adjusting shafts 16a and 16b, respectively.
- a power assembly indicated generally by the numeral 26 which is secured to a centrally located frame member 27.
- Power assembly 26 is in operative engagement with linking means 24 and serves to rotate the linking means and thus the adjusting shafts 16a and 16b in a limited arc to raise and lower gang assemblies 19a and 19b.
- Other features of compensating linkage assembly 22 which are described hereinafter are designed to allow relative rotation between adjusting shafts 16a and 16b while disc gangs 19a and 1% are in their lowered position whereby limited independent vertical motion of the disc gang assemblies is allowed.
- a hitching yoke 31 projects outwardly from the front of grain drill 10 and is held rigidly thereto by a rigid connection between the inner portions of yoke 31 with braces 28 and 29. Additional rigidity is afforded the hitching yoke by the rigid engagement of the yoke with a portion of frame member 27, at the end of which is located a tractor hitch 32.
- a hitch stand 33 which serves to maintain hitching yoke 31 in a more or less horizontal position when the grain drill is stored is secured to frame member 27 by means of a mounting sleeve 34. Means, not shown, are provided for maintaining stand 33 in an upward position during the period of time in which the grain drill is being operated.
- a pair of pneumatic tires 36 are located at either end of grain drill 10 and are attached to frame 13 by means of stub shafts 37. As the grain drill moves across the surface of the earth on tires 36, seed grain flows from grain box 11 down through a plurality of seed tubes 38 into proximity with the forward portion of discs 21.
- disc gang assemblies 19 include a plurality of discs 21 which are rotatably joumaled on axles 39 carried carried at the end of pivot yokes 41.
- the ends of pivot yokes 41 opposite axles 39 are pivotally secured to the underside of crossbeam 14 by means of pivot pins 42 whereby limited rotational motion of pivot yokes 41 around the crossbeam may be provided when discs 21 are raised or lowered.
- Extending upwardly from and joumaled on axles 39 are pressure rods 43 which function to push discs 21 downwardly and which include an enlarged lower portion 44.
- Pressure springs 46 abut the upper end of portions 44 of each.
- a yoke-shaped member herein indentified as an elevating arm 48, is utilized to raise and lower each of the pressure rods 43 and is loosely secured to each of the pressure rods at a point between the upper end of pressure spring 46 and below nut 47.
- FIG. 2 It may thus be seen when contemplating FIG. 2, that as adjusting shaft 16a is moved in a clockwise direction the elevating arms 48 secured thereon are likewise moved in a clockwise direction to raise each of the pressure rods 43 and with them the discs 21 to which they are secured. As the discs are thus raised, they are caused to pivot in an are about crossbeam 14 due to the presence of pivot yoke 41.
- linking means 24 comprises a cylindrical member 52 in which are slidably disposed a pair of rods 53a and 53b on which are carried flanges 54a and 54b, respectively, for limiting the motion of rods 53 into the interior of cylindrical member 52.
- Ball joints 51a and 51b which are connected to arms 23a and 23b, respectively, are located upon and integral with rods 53a and 5312, respectively.
- a clevis assembly 56 mounted on the central, frontal portion of cylindrical member 52 and includes a pivot pin 57 oriented in a direction normal to the horizontal plane passing through the longitudinal axis of linking means 24.
- Power assembly 26 includes a pushrod 58, the rearward end of which is secured to cylindrical member 52 by mean of clevis assembly 56 whereby relative motion between the pushrod and the cylindrical member in a horizontal plane including the longitudinal axis of the cylindrical member is allowed.
- Power means indicated generally by the numeral 59, also comprise an element of power assembly 26 and include a bellcrank 61 which is pivotally secured on frame member 27 by a pivot pin 62.
- An aperture 63 formed in a rearward portion of bellcrank 61, indexes with a similar aperture 64- located in frame member 27 when bellcrank 61 is moved into its extreme 23b acting from linking means 24 through ball joints 51a and 51b, respectively. As the adjusting shafts are thus moved, they rotate arms 48 counterclockwise and downwardly.
- the compensating features of the described apparatus come into play whenever one, but not the other, of disc gang assemblies l9 encounters a limited anomaly in the surface of the earth.
- disc gang assembly 19a encounters an elevation on the ground.
- discs 21 associated with gang assembly 19a tend to raise, thereby lifting pressure rods 43 and rotating the elevating arms associated with the pressure rods in a clockwise direction.
- adjusting shaft 160 is likewise moved in a clockwise direction due to the rigid interconnection of elevating arms 48 with the shaft. Since arm 23a is integral with shaft 16a it also moves into a clockwise arc, thus elevating ball joint 51a, as shown in FIG. 4.
- bellcrank 61 carries a ball joint 66 to which is secured the forward end of pushrod 58 whereby limited universal motion between the pushrod and the bellcrank is allowed when cylindrical member 52 is displaced due to the relative rotation between adjusting shafts 16a and 16b.
- a clevis 67 carried by a hydraulic piston assembly 68 acting thereon. Reaction support for the motion of piston assembly 68 is obtained from an upright piston mount 69 on which the piston is secured by means of a clevis 71.
- linking means 24 is moved by pushrod 58 to the left and downwardly whereupon adjusting shafts 16a and 16b are moved counterclockwise by the action of arms 23a and horizontal position, as shown in full line in FIG. 3. It will, of course, be understood that similar motions of the compensating linkage assembly take place when disc gang 1% encounters an elevation which is not encountered by disc gang 190. Moreover,
- hydraulic piston assembly 68 When it is desired to move the grain drill from one location to another, hydraulic piston assembly 68 is actuated to move bellcrank 61 in a clockwise direction thereby elevating the disc gangs in a obvious manner.
- the present invention provides means for conveniently and easily raising and lowering a pair of disc gang assemblies simultaneously and also provides an automatic compensating motion for allowing independent vertical movement of one of the disc gangs relative to the other when such disc gang encounters a vertical irregularity on the surface of the earth.
- a. supported frame means having a front and back;
- first pivot yokes each pivotally secured at one end thereof to said crossbeam
- a first disc gang means secured to the other ends of said first pivot yokes and located at a point to the side of and behind said crossbeam;
- a first elevating arm rigidly secured on said adjusting shaft and in operating engagement with the top of said first pressure rod
- second pivot yokes each pivotally secured at one end thereof to said crossbeam
- a power assembly mounted on said frame for moving the elongated linking means in an are about a portion of said adjusting shafts, said power assembly in operative engagement with the linking means at a point thereon intermediate the ends thereof.
- a clevis connecting one end of the pushrod to the linking means, said clevis having associated therewith a pivot pin which extends normal to the plane which includes the longitudinal axis of the pushrod and of the linking means;
- linking means comprises:
- means comprises:
- one of the universal joints carried by the linking means being secured at the end of said first rod opposite said cylinder and the other ,of said universal joints being secured at the end of the second rod opposite said cylinder.
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Abstract
The present invention envisions apparatus for rotating a pair of aligned shafts in equal arcs while allowing relative rotary motion of the shafts. In one embodiment, apparatus embodying the invention may comprise elongated linking means which has positioned on each end thereof a universal joint. An arm may be rigidly secured to each of the aligned rotary shafts and each of the arms thus secured may be operatively connected to one of the universal joints located at the end of the elongated linking means. A power assembly may be provided for moving the linking means in an arc about the parallel shafts thereby rotating the shafts. The power assembly is characterized by means for connecting a portion thereof with a central portion of the linking means in such a manner as to allow pivotal motion of the linking means relative to the power assembly. In addition, a portion of the power assembly is designed to allow limited universal motion of the elongated linking means about an axis normal to the longitudinal axis of the linking means.
Description
United States Patent [72] Inventor Eldon L. Rikli R.R., Drummond, Okla. 73735 [21] Appl. No. 815,989 [22] Filed Apr. 14, 1969 [45] Patented Mar. 16, 1971 [54] COMPENSATING LINKAGE 4 Claims, 4 Drawing Figs.
[52] US. Cl 172/580, 172/619,172/668,172/675 [51] Int. Cl A0lb 21/08, AOlb 65/06 [50] Field of Search 172/619,
FOREIGN PATENTS 1,365,467 5/1964 France Primary ExaminerRobert E; Pulfrey Assistant Examiner-Stephen C. Pellegrino Atrorney- Dunlap, Laney, Hessin & Dougherty ABSTRACT: The present invention envisions apparatus for rotating a pair of aligned shafts in equal arcs while allowing relative rotary motion of the shafts. In one embodiment, apparatus embodying the invention may comprise elongated linking means which has positioned on each end thereof a universal joint. An arm may be rigidly secured to each of the aligned rotary shafts and each of the arms thus secured may be operatively connected to one of the universal joints located at the end of the elongated linking means. A power assembly may be provided for moving the linking means in an are about 74/96 the parallel shafts thereby rotating the shafts. The power assembly is characterized by means for connecting a portion [56] References cued thereof with a central portion of the linking means in such a UNITED STATES PATENTS manner as to allow pivotal motion of the linking means relal,329,598 2/1920 Hegland 172/579X tive to the power assembly. In addition, a portion of the power 2,755,720 7/1956 Markel..... l72/462X assembly is designed to allow limited universal motion of the 3,050,882 8/1962 Chattin l72/407X elongated linking means about an axis normal to the longitu- 3,19.4,323 7/1965 Zimmerman 172/500 dinal axis of the linking means.
58 5; 25/: 23a, 2 k I? 36 we ma I fi/a 35 38 [8a 4a 4a g9 49/.) 49a o o as COMPENSATING LINKAGE BACKGROUND OF THE INVENTION One of the more common types of farm implements currently in use is the grain drill which, as generally constructed, includes a pair of aligned disc gangs which may be raised or lowered by a power mechanism, such as a power cylinder. For this purpose a linkage mechanism is commonly provided to interconnect each of the disc gangs with the power mechanism andsvith each other.
when such grain drills are used on relatively flat land surfaces no problems are encountered insofar as the linked motion of the two disc gangs is concerned. When, however, relatively high or low portions of the land are encountered by one of the disc gangs but not the other there is a tendency of the gangs to move as a unit upwardly or downwardly to accommodate to the change in elevation of the ground beneath one of the gangs. When this occurs the depth of the furrows being made by the disc gang which does not encounter the surface irregularity is either decreased or increased due to the response of the disc gang to the motion of the other gang, which response occurs due to the interconnecting linkage. As this occurs the depth of planting becomes nonuniform with a resultant decrease in production of the land being planted.
This problem has been recognized and to some extent alleviated by prior art mechanisms. Thus, it is not uncommon to find incorporated into disc drills a pair of manually operated levers which independently raise or lower one or the other of the disc gangs. This type of apparatus has been'found useful when there is a uniform difference in elevation of the land surface which is encountered by the grain drill, such as on hillsides and the like. However, because it is necessary to manually move the compensating apparatus, such apparatus does not provide a practical means for overcoming the effect of relatively limited surface irregularities which might be encountered by one but not the other of the disc gangs while the drill operator is seated on the tractor.
Until the present invention a compensating linkage which is useful for raising the lowering a pair of aligned disc gangs while at the same time allowing relative vertical motion of the disc gangs in response to limited irregularities on the land surface has remained an elusive desideratum.
DESCRIPTION OF THE DRAWINGS Apparatus embodying one form of the present invention is disclosed in the following written description which is to be read in conjunction with the accompanying drawings wherein like reference characters designate like parts in all views and wherein:
FIG. 1 is a generalized perspective views of a grain drill having mounted thereon a compensating linkage which embodies the present invention;
FIG. 2 is a fragmentary side view taken along line 2-2 of FIG. 1 with portions of the apparatus being omitted for clarity and showing two positions of a portion of the apparatus, one of such positions being shown in dotted outline;
FIG. 3 is an elevational view of FIG. 2 showing the relationship of a power assembly with other elements of the compensating linkage and of the grain drill; and
FIG. 4 is a fragmentary perspective view of the compensating linkage shown in FIGS. 2 and 3 wherein a portion of the linkage is displaced to demonstrate the manner in which the linkage moves when a limited surface irregularity is encountered by one of the disc gangs on the grain drill.
GENERAL DESCRIPTION OF THE APPARATUS Turning now to the drawings and in particular to FIG. I, there is shown a grain drill indicated generally by the numeral 163 which includes a grain box 11 of standard design mounted by means of upright braces 12 on a frame 13 containing a frontal crossbeam 1.4. Near the central portion of grain drill are a pair of axially aligned, rotatable adjusting shafts 16a and 16b which are joumaled for rotation at their proximate ends in a common journal box 17. The outer ends of the shafts are likewise rotatably journaled into journal fittings 18a and 181;, respectively, which are carried on upright braces 12.
A pair of disc gang assemblies indicated generally by the numerals 19a and 19b are in operative engagement with adjusting shafts 16a and 16b, respectively, in a manner to be hereinafter described, whereby the individual discs 21 of the disc gangs may be moved in a substantially vertical direction by incremental rotation of the adjusting shafts.
Rotation to the adjusting shafts, with resulting vertical displacement of the disc gang assemblies, is impartedby a compensating linkage assembly indicated generally by the numeral 22 which includes, among other elements, a pair of arms 23a and 23b rigidly secured to adjusting shafts 16a and 16b, respectively. Also included within the compensating linkage assembly is an elongated linking means 24 and a power assembly, indicated generally by the numeral 26, which is secured to a centrally located frame member 27. Power assembly 26 is in operative engagement with linking means 24 and serves to rotate the linking means and thus the adjusting shafts 16a and 16b in a limited arc to raise and lower gang assemblies 19a and 19b. Other features of compensating linkage assembly 22 which are described hereinafter are designed to allow relative rotation between adjusting shafts 16a and 16b while disc gangs 19a and 1% are in their lowered position whereby limited independent vertical motion of the disc gang assemblies is allowed.
DETAILED DESCRIPTION OF THE GRAIN DRILL In addition to the elements already described as comprising a portion of the grain drill are a pair of parallel horizontal braces 28 and 29 which form a portion of frame 13. A hitching yoke 31 projects outwardly from the front of grain drill 10 and is held rigidly thereto by a rigid connection between the inner portions of yoke 31 with braces 28 and 29. Additional rigidity is afforded the hitching yoke by the rigid engagement of the yoke with a portion of frame member 27, at the end of which is located a tractor hitch 32. As best shown in FIG; 2, a hitch stand 33 which serves to maintain hitching yoke 31 in a more or less horizontal position when the grain drill is stored is secured to frame member 27 by means of a mounting sleeve 34. Means, not shown, are provided for maintaining stand 33 in an upward position during the period of time in which the grain drill is being operated.
A pair of pneumatic tires 36 are located at either end of grain drill 10 and are attached to frame 13 by means of stub shafts 37. As the grain drill moves across the surface of the earth on tires 36, seed grain flows from grain box 11 down through a plurality of seed tubes 38 into proximity with the forward portion of discs 21.
As may be seen most clearly in FIG. 2, disc gang assemblies 19 include a plurality of discs 21 which are rotatably joumaled on axles 39 carried carried at the end of pivot yokes 41. The ends of pivot yokes 41 opposite axles 39 are pivotally secured to the underside of crossbeam 14 by means of pivot pins 42 whereby limited rotational motion of pivot yokes 41 around the crossbeam may be provided when discs 21 are raised or lowered. Extending upwardly from and joumaled on axles 39 are pressure rods 43 which function to push discs 21 downwardly and which include an enlarged lower portion 44.
of the pressure rods 43 and are held in compression thereon by means of a nut 47. A yoke-shaped member, herein indentified as an elevating arm 48, is utilized to raise and lower each of the pressure rods 43 and is loosely secured to each of the pressure rods at a point between the upper end of pressure spring 46 and below nut 47. By this arrangement limited independent motion of adjacent discs is provided due to the compression of springs 46.
Arcuate motion which raises or lowers the disc gangs is pro-- vided to elevating arms 48 by the rotation of adjusting shafts- 16a or 16b to which elevating arms 48 are rigidly secured, as
best shown in FIG. 2. It may thus be seen when contemplating FIG. 2, that as adjusting shaft 16a is moved in a clockwise direction the elevating arms 48 secured thereon are likewise moved in a clockwise direction to raise each of the pressure rods 43 and with them the discs 21 to which they are secured. As the discs are thus raised, they are caused to pivot in an are about crossbeam 14 due to the presence of pivot yoke 41.
DETAILED DESCRIPTION OF THE COMPENSATING LINKAGE ASSEMBLY Compensating linkage assembly 22 functions to rotate adjusting shafts 16a and 16b, and to this end anns 23a and 23b are rigidly secured to shafts 16a and 16b, respectively, by box couplings indicated generally by the numerals 49a and 4%, respectively. The upper ends of arms 23a and 23b are in turn secured to the outer ends of linking means 24 by ball joints 51a and 51b, respectively, whereby limited universal motion between the arms 23 and linking means 24 is provided whenever one of the adjusting shafts 16 is rotated relative to the other of the shafts.
As best seen in FIG. 3, linking means 24 comprises a cylindrical member 52 in which are slidably disposed a pair of rods 53a and 53b on which are carried flanges 54a and 54b, respectively, for limiting the motion of rods 53 into the interior of cylindrical member 52. Ball joints 51a and 51b which are connected to arms 23a and 23b, respectively, are located upon and integral with rods 53a and 5312, respectively. A clevis assembly 56 mounted on the central, frontal portion of cylindrical member 52 and includes a pivot pin 57 oriented in a direction normal to the horizontal plane passing through the longitudinal axis of linking means 24.
The compensating features of the described apparatus come into play whenever one, but not the other, of disc gang assemblies l9 encounters a limited anomaly in the surface of the earth. For purposes of example, let it'be assumed that disc gang assembly 19a encounters an elevation on the ground. When this occurs, discs 21 associated with gang assembly 19a tend to raise, thereby lifting pressure rods 43 and rotating the elevating arms associated with the pressure rods in a clockwise direction. Upon such clockwise rotation of the elevating arms 48, adjusting shaft 160 is likewise moved in a clockwise direction due to the rigid interconnection of elevating arms 48 with the shaft. Since arm 23a is integral with shaft 16a it also moves into a clockwise arc, thus elevating ball joint 51a, as shown in FIG. 4. As ball joint 51a is moved upwardly, rod 530 is withdrawn a slight distance from the interior of cylindrical member 52, as shown in FIG. 4. Simultaneously, cylindrical member 52 is canted around pushrod 58 in the direction shown. Such canting is made possible by the universal connection between pushrod 58 and power means 59 at ball joint 66.
As the described motion takes place in the a" (i.e. righthand) portion of the assembly, there will, of course, be a tendency for disc gang assembly 10b. to be moved downwardly by the linkage thereby forming a deeper furrow. Such a tendency will, of course, be reduced in relatively hard soil; and, if the soil is sufficiently firm, may be overcome together since the action of ball joint 51b in combination with ball joint 66 allows limited elevation of the a" end of linking means 24 without a corresponding movement of rod 23b.
At such time as the surface irregularity encountered by disc gang assembly 19a is passed, the sequence outlined immediately above is reversed by the lowering of disc gang assembly 19a which results in a counterclockwise motion of adclockwise position as shown in dotted line in FIG. 2.Apin, not 5 justing shaft 16a thereby returning linking means 24 to a shown, may be inserted into the thus aligned apertures to maintain disc gang assemblies 19a and 19b in a raised, road position when the disc gangs are not in use. The upper end of bellcrank 61 carries a ball joint 66 to which is secured the forward end of pushrod 58 whereby limited universal motion between the pushrod and the bellcrank is allowed when cylindrical member 52 is displaced due to the relative rotation between adjusting shafts 16a and 16b. At a point on bellcrank 61 subjacent ball joint 66 is secured a clevis 67 carried by a hydraulic piston assembly 68 acting thereon. Reaction support for the motion of piston assembly 68 is obtained from an upright piston mount 69 on which the piston is secured by means of a clevis 71.
OPERATION The operation of the present device may best be understood by assuming that disc gang assemblies 190 and 1% are initially in their upward, road position as shown in dotted lines in FIG. 2. Under these conditions hydraulic piston assembly 68 is in its extended position and bellcrank 61 has been moved thereby into its extreme clockwise position to thrust linking means 24 to the right thereby rotating adjusting shafts 16a and 16b in a clockwise position. When operations are begun on level ground, hydraulic piston assembly 68 is actuated to rotate bellcrank 61 counterclockwise into its full line position, as shown in FIG. 2, thereby moving pushrod 58 to the left. As this occurs, linking means 24 is moved by pushrod 58 to the left and downwardly whereupon adjusting shafts 16a and 16b are moved counterclockwise by the action of arms 23a and horizontal position, as shown in full line in FIG. 3. It will, of course, be understood that similar motions of the compensating linkage assembly take place when disc gang 1% encounters an elevation which is not encountered by disc gang 190. Moreover,
When it is desired to move the grain drill from one location to another, hydraulic piston assembly 68 is actuated to move bellcrank 61 in a clockwise direction thereby elevating the disc gangs in a obvious manner.
From the above description it may be seen that the present invention provides means for conveniently and easily raising and lowering a pair of disc gang assemblies simultaneously and also provides an automatic compensating motion for allowing independent vertical movement of one of the disc gangs relative to the other when such disc gang encounters a vertical irregularity on the surface of the earth.
It should be understood that the embodiment described herein is presented by way of example only and that many changes thereto can be made without departing from the spirit of the invention or the scope of the annexed claims.
I claim:
1. In combination with a disc gang-type agricultural implement which comprises:
a. supported frame means having a front and back;
b. a crossbeam secured to said frame;
c. first pivot yokes each pivotally secured at one end thereof to said crossbeam;
d. a first disc gang means secured to the other ends of said first pivot yokes and located at a point to the side of and behind said crossbeam;
e. an upwardly extending first pressure rod having one end thereof secured to said first disc gang means;
f. a first adjusting shaft rotatably joumaled on said frame;
g. a first elevating arm rigidly secured on said adjusting shaft and in operating engagement with the top of said first pressure rod;
h. second pivot yokes each pivotally secured at one end thereof to said crossbeam;
i. a second disc gang means secured to the other end of said second pivot yokes and in axial alignment with said first disc gang means;
j. an upwardly extending second pressure rod having one end thereof secured to said second disc gang;
k. a second adjusting shaft rotatably journaled on said frame and in axialalignment with said first adjusting shaft;
1. a second elevating arm secured on said first adjusting shaft and in operative engagement with the top of said second pressure rod;
The improvement for automatically adjusting the relative ertical position of said first and said second disc gangs which omprises;
l. elongated linking means extending along and spaced from said first and said second adjusting shafts;
2. a universal joint carried at each end of said linking means;
3. a first arm rigidly secured to said first adjusting shaft and to one of said universal joints;
4. a second arm rigidly secured to said second adjusting shaft and to the other of said universal joints;
5. a power assembly mounted on said frame for moving the elongated linking means in an are about a portion of said adjusting shafts, said power assembly in operative engagement with the linking means at a point thereon intermediate the ends thereof.
2. The apparatus defined in claim 1 wherein the power as- :mbly comprises:
a. a pushrod;
b. a clevis connecting one end of the pushrod to the linking means, said clevis having associated therewith a pivot pin which extends normal to the plane which includes the longitudinal axis of the pushrod and of the linking means;
c. a hydraulic piston carried on the frame;
d. a bellcrank pivotally mounted on the frame, said bellcrank being pivotally secured to an end of the hydraulic piston; and
e. a ball joint carried by said bellcrank at the outer end thereof opposite the pivotal connection between the bellcrank and the frame, said ball joint being operatively connected to the end of the pushrod opposite the linking means.
3. The apparatus defined in claim 1 wherein the linking means comprises:
means comprises:
a. an elongated cylinder;
b. a first rod slidably received within the interior of said cylinder and projecting therefrom from the first end thereof;
c. a second rod slidably received within the interior of said cylinder and projecting therefrom from the second end thereof; and
d. one of the universal joints carried by the linking means being secured at the end of said first rod opposite said cylinder and the other ,of said universal joints being secured at the end of the second rod opposite said cylinder.
Claims (8)
1. In combination with a disc gang-type agricultural implement which comprises: a. supported frame means having a front and back; b. a crossbeam secured to said frame; c. first pivot yokes each pivotally secured at one end thereof to said crossbeam; d. a first disc gang means secured to the other ends of said first pivot yokes and located at a point to the side of and behind said crossbeam; e. an upwardly extending first pressure rod having one end thereof secured to said first disc gang means; f. a first adjusting shaft rotatably journaled on said frame; g. a first elevating arm rigidly secured on said adjusting shaft and in operating engagement with the top of said first pressure rod; h. second pivot yokes each pivotally secured at one end thereof to said crossbeam; i. a second disc gang means secured to the other end of said second pivot yokes and in axial alignment with said first disc gang means; j. an upwardly extending second pressure rod having one end thereof secured to said second disc gang; k. a second adjusting shaft rotatably journaled on said frame and in axial alignment with said first adjusting shaft; l. a second elevating arm secured on said first adjusting shaft and in operative engagement with the top of said second pressure rod; The improvement for automatically adjusting the relative vertical position of said first and said second disc gangs which comprises; 1. elongated linking means extending along and spaced from said first and said second adjusting shafts; 2. a universal joint carried at each end of said linking means; 3. a first arm rigidly secured to said first adjusting shaft and to one of said universal joints; 4. a second arm rigidly secured to said second adjusting shaft and to the other of said universal joints; 5. a power assembly mounted on said frame for moving the elongated linking means in an arc about a portion of said adjusting shafts, said power assembly in operative engagement with the linking means at a point thereon intErmediate the ends thereof.
2. a universal joint carried at each end of said linking means;
2. The apparatus defined in claim 1 wherein the power assembly comprises: a. a pushrod; b. a clevis connecting one end of the pushrod to the linking means, said clevis having associated therewith a pivot pin which extends normal to the plane which includes the longitudinal axis of the pushrod and of the linking means; c. a hydraulic piston carried on the frame; d. a bellcrank pivotally mounted on the frame, said bellcrank being pivotally secured to an end of the hydraulic piston; and e. a ball joint carried by said bellcrank at the outer end thereof opposite the pivotal connection between the bellcrank and the frame, said ball joint being operatively connected to the end of the pushrod opposite the linking means.
3. The apparatus defined in claim 1 wherein the linking means comprises: a. an elongated cylinder; b. a first rod slidably received within the interior of said cylinder and projecting therefrom from the first end thereof; c. a second rod slidably received within the interior of said cylinder and projecting therefrom from the second end thereof; and d. one of the universal joints carried by the linking means being secured at the end of said first rod opposite said cylinder and the other of said universal joints being secured at the end of the second rod opposite said cylinder.
3. a first arm rigidly secured to said first adjusting shaft and to one of said universal joints;
4. a second arm rigidly secured to said second adjusting shaft and to the other of said universal joints;
4. The apparatus defined in claim 2 wherein the linking means comprises: a. an elongated cylinder; b. a first rod slidably received within the interior of said cylinder and projecting therefrom from the first end thereof; c. a second rod slidably received within the interior of said cylinder and projecting therefrom from the second end thereof; and d. one of the universal joints carried by the linking means being secured at the end of said first rod opposite said cylinder and the other of said universal joints being secured at the end of the second rod opposite said cylinder.
5. a power assembly mounted on said frame for moving the elongated linking means in an arc about a portion of said adjusting shafts, said power assembly in operative engagement with the linking means at a point thereon intErmediate the ends thereof.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US81598969A | 1969-04-14 | 1969-04-14 |
Publications (1)
Publication Number | Publication Date |
---|---|
US3570605A true US3570605A (en) | 1971-03-16 |
Family
ID=25219379
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US815989A Expired - Lifetime US3570605A (en) | 1969-04-14 | 1969-04-14 | Compensating linkage |
Country Status (1)
Country | Link |
---|---|
US (1) | US3570605A (en) |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4083412A (en) * | 1975-03-20 | 1978-04-11 | P.B. Bettinson & Company Limited | Agricultural soil-working apparatus |
FR2385312A1 (en) * | 1977-03-29 | 1978-10-27 | Massey Ferguson Services Nv | IMPROVEMENTS TO SEEDERS |
US4135457A (en) * | 1977-01-12 | 1979-01-23 | Hestair Stanhay Limited | Seed drilling units |
WO1982002471A1 (en) * | 1981-01-21 | 1982-08-05 | Bailey Alfred John | Seed drills |
US4448259A (en) * | 1982-04-19 | 1984-05-15 | Lilliston Corporation | Rubber spring for furrow opener |
EP0121586A1 (en) * | 1983-06-23 | 1984-10-17 | Franz Kirchberger | Seed drill |
US4594951A (en) * | 1978-01-25 | 1986-06-17 | J. I. Case Company | Regularizing device for the depth of a furrow |
US4611545A (en) * | 1984-01-19 | 1986-09-16 | Concord, Inc. | Conservation no till farming apparatus |
US5829536A (en) * | 1997-08-27 | 1998-11-03 | Weekend Warrior, Inc. | Manually pivotable plow using a ratchet wheel and lever connected to a tiebar assembly to vertically adjust a soil cultivating tool |
US20090090521A1 (en) * | 2001-07-30 | 2009-04-09 | Caterpillar Inc. | Hydraulic disc/harrow apparatus, system and method for using the same |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1329598A (en) * | 1919-10-18 | 1920-02-03 | Hegland William | Cultivator |
US2755720A (en) * | 1950-12-06 | 1956-07-24 | Case Co J I | Locking mechanism for an agricultural implement |
US3050882A (en) * | 1959-10-20 | 1962-08-28 | Robert C Chattin | Wheel supported ditcher |
FR1365467A (en) * | 1963-05-22 | 1964-07-03 | Const De Machines Agricoles Et | Improvements to the lifting device for agricultural machinery |
US3194323A (en) * | 1963-09-16 | 1965-07-13 | Zimmerman Clarence Robert | Adjustable spring regulator for furrow openers |
-
1969
- 1969-04-14 US US815989A patent/US3570605A/en not_active Expired - Lifetime
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1329598A (en) * | 1919-10-18 | 1920-02-03 | Hegland William | Cultivator |
US2755720A (en) * | 1950-12-06 | 1956-07-24 | Case Co J I | Locking mechanism for an agricultural implement |
US3050882A (en) * | 1959-10-20 | 1962-08-28 | Robert C Chattin | Wheel supported ditcher |
FR1365467A (en) * | 1963-05-22 | 1964-07-03 | Const De Machines Agricoles Et | Improvements to the lifting device for agricultural machinery |
US3194323A (en) * | 1963-09-16 | 1965-07-13 | Zimmerman Clarence Robert | Adjustable spring regulator for furrow openers |
Cited By (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4083412A (en) * | 1975-03-20 | 1978-04-11 | P.B. Bettinson & Company Limited | Agricultural soil-working apparatus |
US4135457A (en) * | 1977-01-12 | 1979-01-23 | Hestair Stanhay Limited | Seed drilling units |
FR2385312A1 (en) * | 1977-03-29 | 1978-10-27 | Massey Ferguson Services Nv | IMPROVEMENTS TO SEEDERS |
FR2385313A1 (en) * | 1977-03-29 | 1978-10-27 | Massey Ferguson Services Nv | FERTILIZER SEEDERS AND DISTRIBUTORS |
US4594951A (en) * | 1978-01-25 | 1986-06-17 | J. I. Case Company | Regularizing device for the depth of a furrow |
US4450779A (en) * | 1981-01-21 | 1984-05-29 | Massey-Ferguson Services N.V. | Seed drills |
WO1982002471A1 (en) * | 1981-01-21 | 1982-08-05 | Bailey Alfred John | Seed drills |
US4448259A (en) * | 1982-04-19 | 1984-05-15 | Lilliston Corporation | Rubber spring for furrow opener |
EP0121586A1 (en) * | 1983-06-23 | 1984-10-17 | Franz Kirchberger | Seed drill |
EP0129614A1 (en) * | 1983-06-23 | 1985-01-02 | Franz Kirchberger | Seed drill |
US4611545A (en) * | 1984-01-19 | 1986-09-16 | Concord, Inc. | Conservation no till farming apparatus |
US5829536A (en) * | 1997-08-27 | 1998-11-03 | Weekend Warrior, Inc. | Manually pivotable plow using a ratchet wheel and lever connected to a tiebar assembly to vertically adjust a soil cultivating tool |
US20090090521A1 (en) * | 2001-07-30 | 2009-04-09 | Caterpillar Inc. | Hydraulic disc/harrow apparatus, system and method for using the same |
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