GB1566605A – Soil cultivating implements
– Google Patents
GB1566605A – Soil cultivating implements
– Google Patents
Soil cultivating implements
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Publication number
GB1566605A
GB1566605A
GB7495/77A
GB749577A
GB1566605A
GB 1566605 A
GB1566605 A
GB 1566605A
GB 7495/77 A
GB7495/77 A
GB 7495/77A
GB 749577 A
GB749577 A
GB 749577A
GB 1566605 A
GB1566605 A
GB 1566605A
Authority
GB
United Kingdom
Prior art keywords
implement
connecting means
members
soil
supporting member
Prior art date
1976-03-01
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
GB7495/77A
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
C Van der Lely NV
Original Assignee
C Van der Lely NV
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
1976-03-01
Filing date
1977-02-22
Publication date
1980-05-08
1977-02-22
Application filed by C Van der Lely NV
filed
Critical
C Van der Lely NV
1980-05-08
Publication of GB1566605A
publication
Critical
patent/GB1566605A/en
Status
Expired
legal-status
Critical
Current
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Classifications
A—HUMAN NECESSITIES
A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
A01B—SOIL WORKING IN AGRICULTURE OR FORESTRY; PARTS, DETAILS, OR ACCESSORIES OF AGRICULTURAL MACHINES OR IMPLEMENTS, IN GENERAL
A01B33/00—Tilling implements with rotary driven tools, e.g. in combination with fertiliser distributors or seeders, with grubbing chains, with sloping axles, with driven discs
A01B33/08—Tools; Details, e.g. adaptations of transmissions or gearings
A01B33/087—Lifting devices; Depth regulation devices; Mountings
A—HUMAN NECESSITIES
A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
A01B—SOIL WORKING IN AGRICULTURE OR FORESTRY; PARTS, DETAILS, OR ACCESSORIES OF AGRICULTURAL MACHINES OR IMPLEMENTS, IN GENERAL
A01B33/00—Tilling implements with rotary driven tools, e.g. in combination with fertiliser distributors or seeders, with grubbing chains, with sloping axles, with driven discs
A01B33/16—Tilling implements with rotary driven tools, e.g. in combination with fertiliser distributors or seeders, with grubbing chains, with sloping axles, with driven discs with special additional arrangements
Description
PATENT SPECIFICATION
( 11) ( 21) Application No 7495/77 ( 22) Filed 22 Feb 1977 ( 31) Convention Application No.
7602084 ( 32) Filed 1 March 1976 in ( 33) Netherlands (NL) ( 44) Complete Specification published 8 May 1980 ( 51) INT CL 3 A Ol B 33/06 ( 52) Index at acceptance A 1 B UFS ( 54) IMPROVEMENTS IN OR RELATING TO SOIL CULTIVATING IMPLEMENTS ( 71) We, C VAN DER LELY N V, of 10, Weverskade, Maasland, The Netherlands, a Dutch Limited Liability Company, do hereby declare the invention for which we pray that a patent may be granted to us, and the method by which it is to be performed, to be particularly described in and by the following statement: This invention relates to soil cultivating implements of the kind which comprise a plurality of rotary soil working members carried by an elongate frame portion that extends substantially horizontally perpendicular, or at least substantially horizontally transverse, to the intended direction of operative travel of the implement.
According to the invention, there is provided a soil cultivating implement of the kind set forth, wherein, in relation to said direction, the implement is provided with pivotably mounted supporting members arranged respectively in front, and to the rear, of said working members, and wherein the supporting members are sustained by carriers each of which is pivotably mounted on the frame portion, said carriers being coupled to one another by at least one connecting means in such a way that when, during operation, one of the two supporting members moves in one direction, the other supporting member will move in a substantially opposite direction.
For a better understanding of the invention, and to show how the same may be carried into effect, reference will now be made, by way of example, to the accompanying drawings, in which:Figure 1 is a plan view of a soil cultivating implement in accordance with the invention connected to the rear of an agricultural tractor, Figure 2 is a section, to an enlarged scale, taken on the line II-II in Figure 1, -Figure 3 is a plan view, to the same scale as Figure 2, showing some parts that can be seen in Figure 1 in greater detail, and Figures 4, 5, 6, 7 and 8 are sections which are all taken on the same line as Figure 2 but that illustrate five alternative 50 embodiments.
Referring to Figures 1 to 3 of the accompanying drawings, the soil cultivating implement that is illustrated therein comprises a hollow box-section frame portion 55 1 that extends substantially horizontally transverse, and usually (as illustrated) substantially horizontally perpendicular, to the intended direction of operative travel of the implement that is indicated in each 60 Figure of the drawings by an arrow A.
A plurality (in this case, twelve) of substantially vertical, or at least nonhorizontal, shafts 2 are rotatably journalled in bearings in the hollow frame portion 1 65 so as to lie in a single row, that is parallel to the transverse length of the frame portion 1, with the axes of rotation of the shafts 2 spaced apart from one another at regular intervals which advantageously, 70 but not essentially, have magnitudes of substantially 25 centimetres The lowermost end of each shaft 2 projects from beneath the bottom of the hollow frame portion 1 and there has a corresponding rotary soil 75 working member 3 firmly but releasably secured to it Each of the twelve rotary soil working members 3 comprises a substantially horizontally extending support or carrier 4 which is provided, at both its 80 opposite ends, with tool holders in which fastening portions of corresponding soil working tools are firmly but releasably secured In this case, the soil working tools are in the form of rigid tines 5 and it 85 will be evident from Figure 2 of the drawings that each tine 5 has a soil working portion that is directed downwardly from the corresponding tool holder so as to penetrate into the soil during the use 90 1 56660; 5 1 566 605 of the implement, said soil working portion being inclined so as to trail rearwardly from top to bottom with respect to the intended direction of operative rotation of the soil working member 3 of which it forms a part (see the arrows that indicate the directions of rotation of two immediately neighbouring members 3 in Figure 1).
Each shaft 2 carries, inside the hollow frame portion 1, a corresponding straighttoothed or spur-toothed pinion 6, said pinions 6 being of such a size, and being so arranged relative to each other, that the teeth of each pinion 6 are in mesh with those of its immediate neighbour, or with those of both of its immediate neighbours, in the single row of twelve pinions 6 With this arrangement, each pinion 6, together with the corresponding shaft 2 and soil working member 3, will revolve in the opposite direction to that of its immediate neighbour, or to those of both of its immediate neighbours, when the implement is in use.
The top of the hollow frame portion 1 is provided at two locations which are spaced inwardly by short distances towards one another from the opposite lateral sides or ends of that frame portion, with corresponding pairs of strips 7 The two strips 7 of each pair are spaced apart from one another by short distance in a direction that is substantially perpendicular to the direction A, said strips being in parallel relationship with one another and, as regards their lengths, parallel or substantially parallel relationship with the direction A.
That strip 7 of each pair which is nearest to the corresponding lateral side or end of the frame portion 1 is spaced therefrom by a distance which is equal, or substantially equal, to the regular spacing between the axes of rotation of the shafts 2 which spacing, as has been mentioned above, advantageously has a magnitude of substantially 25 centimetres Upper front and rear edges of the hollow frame portion 1 have brackets 8 secured to them by substantially vertically disposed bolts 9 at locations which register with the strips 7 and the lower edges of said strips 7 are welded or otherwise fixedly secured to the upper surfaces of said brackets 8 at the points of such registration The strips 7 of both pairs project, with respect to the direction A, both forwardly beyond the corresponding front brackets 8 and rearwardly behind the corresponding rear brackets 8 A horizontal pivot pin 10 that extends parallel to the transverse length of the hollow frame portion 1 perpendicularly interconnects the rear ends of the two strips 7 of each pair and each pivot pin has a pivotable carrier in the form of a corresponding pair of upwardly extending arms 11 turnably mounted thereon, said arms 11 engaging the corresponding pin 10 alongside the relatively remote surfaces of the two strips 7 concerned.
The lowermost ends of the two up 70 wardly extending arms 11 of each pair are welded or otherwise rigidly secured to a beam 12 that extends substantially horizontally parallel to the transverse length of the frame portion 1, and thus usually substan 75 tially perpendicular to the direction A, throughout all, ‘or most, of the combined working width of the twelve rotatary soil working members 3 As can be seen in Figure 2 of the drawings, the beam 12 80 is of hollow formation having a polygonal cross-section which it is preferred should be the square one that is illustrated The beam 12 is arranged so that one diagonal of its substantially square cross-section is 85 substantially horizontally disposed whilst the other diagonal is substantially vertical disposed and that flat outer surface of said beam which faces downwardly and rearwardly with respect to the direction A 90 has one limb of a bar 13 of L-shaped crosssection fastened to it The other limb of said bar 13 has a plurality of elongate elements 16 releasably secured to it by clamping plates 14 and bolts 15 The elong 95 ate elements 16 are formed in integral hairpin-shaped pairs and it is the curved junctions between the two elements 16 of each integral pair that co-operate with a corresponding one of the clamping plates 100 14 and its fastening bolt 15 The elongate elements 16 are formed from resilient material, such as S pring steel, which material is preferably, but not essentially, of circular cross-section The rod-like 105 elongate elements 16 together afford a rear supporting member of the implement that is generally indicated by the reference 17.
It can be seen in Figure 2 of the drawings that each element 16 initially extends 110 downardly and rearwardly with respect to the direction A from its fastened end and, in fact, a rearmost end portion (not shown) of each element 16 is substantially horizontally disposed in contact with the ground 115 surface when the implement is in operation.
The forwardly projecting leading ends of the two strips 7 of each pair are perpendicularly interconnected by a correspond 120 ing pivot pin 18 which is subsantially parallel to the transverse length of the hollow frame portion 1 and thus usually substantially horizontally perpendicular to the direction A Two substantially vertic 125 ally disposed plates 19 whose shapes can be seen in Figure 2 of the drawings are turnably mounted on each pivot pin 18 alongside the relatively remote surfaces of the two strips 7 concerned and afford a 130 1 566 605 pivotably mounted carrier The two plates 19 of each pair are parallel to each other and subsantially parallel to the direction A and their lower leading extremities, with respect to that direction, have a substantially horizontal portion of a corresponding rigid rod-shaped bracket 20 welded or otherwise rigidly secured to them in interconnecting relationship Each bracket 20 has a limb which is parallel to the limb thereof that is fastened to the respective pair of plates 19 and said parallel limb affords the substantially horizontal axle of a corresponding tyred ground wheel 21 that is mounted thereon in a freely rotatable manner The two parallel portions of each rod-shaped bracket 20 are rigidly interconnected by a relatively perpendicular portion which, as can be seen in Figure 2 of the drawings, is inclined downwardly and forwardly with respect to the direction A from the corresponding pair of plates 19 to the corresponding axle portion The inclined portions constitute the webs or bases of said brackets 20 and it will be noted from Figure 1 that they are located at the ends of the corresponding parallel portions of the brackets that are remote from the centre of the implement The two ground wheels 21 together constitute a leading supporting member of the implement.
Each pair of upwardly extending arms 11 and each pair of plates 19 is formed with an upwardly extending row of spaced holes 22 with the holes 22 in the two arms 11 of each pair in horizontal register with one another, the holes 22 in the plates 19 being similarly arranged Any chosen substantially horizontally aligned pair of holes 22 can co-operate with a releasable pivot pin 23 and said pivot pins 23 can thus be used to couple one end of a corresponding connecting means 24 turnably to the arms 11 or plates 19 concerned Each connecting means 24 comprises two rods that are formed along their lengths with screwthreads which are wound in opposite directions One end of each screwthreaded rod 25 carries a sleeve bearing which co-operates with the corresponding pivot pin 23 whilst the other end thereof is entered lengthwise into an interconnecting internally screwthreaded sleeve 26.
Opposite end regions of the internally screwthreaded sleeve 26 have internal screwthreads that are wound in opposite directions to match, and co-operate with, the screwthreads of the corresponding pair of rods 25 and the external surface of each sleeve 26 is preferably, as illustrated, provided with a projecting lever to enable said sleeve to be rotated easily about its own longitudinal axis It will be evident that, with this construction, rotation of the sleeve 26 of each connecting means 24 in one direction will cause an increase in the effective length of that connecting means whilst rotation of the sleeve 26 in the opposite direction will cause a reduction 70 in the effective length of said connecting means Figure 2 of the drawings shows one of the two connecting means 24 in its uppermost possible position between the corresponding pair of arms 11 and corres 75 ponding pair of plates 19 but it will be realised that said means 24 could occupy any chosen one of a number of other different positions relative to the arms 11 and plates 19 Such positions need not 80 necessarily be ones in which the pivot pins 23 are substantially equally spaced from the corresponding pivot pins 10 and 18 but could be ones in which said spacings are significantly different For example, 85 the connecting means 24 that can be seen in Figure 2 of the drawings could extend between the lowermost holes 22 in the plates 19 and the uppermost holes 22 in the arms 11 90 One of the centre pair of the twelve shafts 2 that are rotatably mounted in the hollow frame portion 1 has an upward extension through the stop of said frame portion into a gear box 27 that is fastened 95 in position on top of the frame portion.
A bevel pinion and shaft transmission (not visible) within the gear box 27 places said shaft extension in driven connection with a substantially horizontal shaft 29 of said 100 gear box whose leading end with respect to the direction A projects forwardly from the front of the gear box where it is splined or otherwise keyed to enable it to be placed in driven connection with the 105 power take-off shaft of an agricultural tractor or other operating vehicle through the intermediary of a telescopic transmission shaft 30, which is of a construction that is known per se, having universal 110 joints at its opposite ends The back of the gear box 27 with respect to the direction A has a change-speed gear 28 fastened to it It is not necessary to describe the change-speed gear 28 in detail for the pur 115 poses of the present invention but, briefly, the rearmost end of the shaft 29, and the rearmost end of a further shaft which is not visible in the drawings both project through the back of the gear box 27 into 120 the change-speed gear 28 where their splined or otherwise keyed ends can be furnished with co-operating exchangeable pairs of interchangeable straight-toothed or spur-toothed pinions so that the particular 125 pair that is chosen, and its arrangement on the shaft ends, dictates the transmission ratio between the shaft 29 and the underlying and relatively parallel shaft that is not visible in the drawings and thus the 130 1 566 605 speed at which the soil working member 3 will be driven in response to a more or less constant input speed of rotation that is applied to the leading end of the shaft 29.
The front of the hollow frame portion 1 with respect to the direction A is provided with a coupling member or trestle 31 which is of substantially triangular configuration as seen in front or rear elevation, said coupling member or trestle 31 being located midway between the general planes of substantially vertical side plates of the frame portion that extend parallel to one another and substantially parallel to the direction A Strengthening tie beams 32 interconnect an upper region of the coupling member or trestle 31 and well spaced apart locations at the top and rear of the hollow frame portion 1, said tie beams 32 being in downwardly and rearwardly, with respect to the direction A, divergent relationship from said coupling member or trestle 31 to the ends thereof that are secured to the frame portion 1.
The coupling member or trestle 31 is constructed and arranged for connection to the three-point lifting device or hitch that is carried at the rear of an agricultural tractor or other operating vehicle, such connection being known per se and being visible, in outline, in Figure 1 of the drawings.
Stop plates 34 (Figure 2) are mounted at the front of the hollow frame portion 1 with respect to the direction A by the same bolts 9 as fasten the two brackets 8 to that frame portion Forwardly directed surfaces of the two stop plates 34 lie in the paths of downward pivotal movement of lower edges of the two plates 19 of each pair about the corresponding pivot pins 18 and thus ensure that said plates 19 cannot turn too far in an anticlockwise direction (as seen in Figure 2) about the pivot pins 18.
Figure 4 of the drawings illustrates an embodiment in which the lower ends of the arms 11 are extended to form downwardly and rearwardly, with respect to the direction A, pairs of inclined supports 35.
The lowermost and rearmost ends of the supports 35 carry substantially horizontally aligned bearings between which a freely rotatable rear supporting member of the implement, in the form of an open-work ground roller 36 can revolve The axis of rotation of the roller 36 extends substantially horizontally transverse, and usually substantially perpendicular, to the direction A and said roller comprises a central tubular carrier 37 to which a plurality of circular support plates 38 are fastened at substantially regular intervals along the axial length of the roller, the substantially vertically disposed support plates 38 being in parallel relationship with one another and substantially parallel relationship with the direction A A plurality, such as sixteen, of holes are formed around the periphery of each support plate 38 at regularly spaced apart intervals and elongate 70 elements 39 of tubular formation, as illustrated, or of rod-like formation, are entered lengthwise through the holes in the successive support plates 38 The elongate elements 39 may be arranged so as to ex 75 tend parallel or substantially parallel to the axis of rotation of the roller or may be wound helically therearound to some extent so as to extend merely lengthwise of the roller but not strictly parallel to 80 its axis of rotation It can be seen from Figure 4 of the drawings that only eight of the elongate elements 39 are provided for entry through the sixteen holes in each plate 38 This is merely one of a number 85 of different possible arrangements which enable alternative holes to be used to reduce the rate of wear upon their rims and that enable greater or lesser numbers of the elements 39 to be employed having 90 regard to the nature and condition of the soil that is to be cultivated For example, generally speaking, blocking of the roller 36 with mud under wet soil conditions can be reduced, if not entirely avoided, by re 95 ducing the number of elements 39 to a lesser total than is appropriate when work on relatively dry soil is to be undertaken.
Figure 5 of the drawings illustrates an embodiment in which both the pairs of 100 arms 11 and pairs of plates 19 are replaced by pairs of front planes 41 and rear plates 42 The front and rear plates 41 and 42 are turnably connected to the leading and rear ends of the pairs of strips 7 by sub 105 stantially horizontal pivot pins 40 that are equivalent to the previously described pins and 18 It can be seen from Figure of the drawings that the plates 41 and 42 are substantially identical and that each 110 of them is of basically triangular configuration The pairs of front plates 41 rotatably carry a leading supporting member in the form of an open-work ground roller 43 and the pairs of plates 42 rotat 115 ably carry a rear supporting member in the form of an open-work ground roller 44.
The rotary mountings for said rollers 43 and 44 are located very close to the leading lowermost corners of the plates 41 120 and to the trailing lowermost corners of the plates 42, respectively The ground roller 44 that affords the rear supporting member of the implement is similar, if not identical, in construction to the previously 125 described ground roller 36 but the front ground roller 43, whilst being of substantially the same diameter as the roller 44, has a lesser number (such as eight) of peripheral holes per support plate 38 and 130 1 566 605 a lesser number of the elongate elements 39 As illustrated, only four of the eight peripheral holes per support plates 39 cooperate with four of the elements 39 in the front roller 43.
Figure 6 of the drawings illustrates an embodiment that is similar or identical in most respects to the embodiment of Figures 1 to 3 However, in the embodiment of Figure 6, a leading supporting member 46 in the form of a levelling element is rigidly connected to the pairs of plates 19 by rigid carriers 45 The leading supporting member 46 extends throughout 1 S the working width of the implement at the front thereof and is in the form of a plate of circular cylindrical curvature whose convex surface faces downwardly to contact the ground The leading upper and trailing lower, as shown in Figure 6 of the drawings, edges of the plate which affords the leading supporting member 46 are bent over towards the concave side of said plate to form upwardly extending and flat or substantially flat rims Struts 47 A interconnect the rigid carriers 45 and the concave rear surface of the supporting member 46 to strengthen the assembly and enthe rigidity of the connections between the carriers 45 and said supporting member 46.
Figure 7 of the drawings illustrate an embodiment which is again similar, in many respects, to the embodiment of Figures 1 to 3 of the drawings and particularly in repsect to the disposition of a rear supporting member 47 of the implement that is equivalent in function to the rear supporting member 17 However, in this case, the elongate elements 16 are replaced by integrally interconnected pairs of elongate elements 48, said elements 48 being formed from resilient rod-shaped material, such as spring steel, that is preferably, but not essentially, of circular cross-section Portions of the elements 48 that are not visible in Figure 7 extend substantially horizontally in contact with the ground surface when the implement is in use and further portions of those elements that lie between the ground-engaging portions and the parts thereof that are clamped to the bar 13 integrally incorporate helically wound coils 49 This construction considerably increases the resiliency of the connection between the portions of the elements 48 which contact the ground surface and said bar 13.
In the embodiment of Figure 7 of the drawings, the leading ends of the two strips 7 of each pair are extended upwardly in an integral manner to form upright supports 50 and forwardly directed strip-shaped links 52 have their rearmost ends pivotally connected to the upright supports 50 by corresponding upper and lower parallel and substantially horizontally disposed pivot pins 51 The leading ends of the links 52 with respect to the direction A are turnably connected by further parallel and substantially horizontally disposed upper and lower 70 pivot pins 54 to upright brackets 55 and it will be clear from Figure 7 of the drawings that parallelogram linkages 53 are thus formed whose constructions and arrangements are such that the supports 50 and 75 brackets 55 are capable of upward and downward movements relative to each other, such movements not involving any significant tilting The lowermost ends of the upright brackets 55 project down 80 wardly beneath the lower pivot pins by which said brackets are turnably connected to the lower links 52 and the downwardly projecting portions are welded or otherwise rigidly secured to upper limbs of 85 corresponding rod-shaped brackets 56 whose constructions are very similar to those of the previously described rod-shaped brackets 20 Thus, the lower limbs of said brackets 56 that are parallel to the limbs 90 thereof which are secured to the upright brackets 55 serve as axles and have a leading supporting member in the form of corresponding tyred ground wheels 56 A mounted on them in a freely rotatable 95 manner The rod-shaped brackets 56 are arranged in a similar way to the brackets inasmuch as the webs or bases thereof that rigidly and integrally interconnect the parallel limbs are located at those sides 100 of the corresponding ground wheels 56 A which are remote from the centre of the implement.
The upper links 52 of each parallelogram linkage 53 carry, on their upper edges and 105 at the rearmost ends thereof with respect to the direction A, corresponding pairs of arms 57 which extend upwardly from said links 52 in rearwardly inclined relationshipwith the direction A at least when the 110 various parts of the implement occupy the positions thereof that are shown in Figure 7 The arms 57 are formed with a number (such as four) of the holes 22 which holes are arranged in vertically spaced apart 115 relationship as described above, each hole 22 in one arm 57 being in substantially horizontal alignment with a corresponding hole 22 in the other arm 57 of the same pair Figure 7 of the drawings shows one 120 of the two connecting means 24 extending between the corresponding rear pivot pin 23 which is engaged in the uppermost holes 22 of the corresponding pair of arms 11 and the respective leading pivot pin 23 125 which is engaged in those holes 22 in the corresponding pair of arms 57 which are next below the uppermost holes 22 Stops 58 interconnect the leading edges of the upright supports 50 and are so disposed 130 1 566 605 that they limit the downward displacement of the upright brackets 55 which are possible relative to the supports 50, upon downward pivotal movements of the upper links 52 into abutment with the stops 58.
Figure 8 of the drawings illustrates an embodiment in which pairs of strips 59 that are equivalent to the previously described strips 7 are arranged in place of said strips 7, the strips 59 differing from the strips 7 inasmuch as the rearmost end of each strip 59 with respect to the direction A integrally incorporates an upright support 60 whereas the leading end thereof with respect to the same direction integrally incorporate an upright plate-shaped support 74 Parallel and substantially horizontally disposed upper and lower pivot pins 61 turnably connect the leading ends of upper and lower links 62 to the upright supports 60, the rearmost ends of said links 62 being turnably connected by further parallel and substantially horizontally disposed upper and lower pivot pins 64 to corresponding locations on respective upright brackets 65 Parallelogram linkages 63 are thus formed which allow the supports 60 and brackets 65 to move upwardly and downwardly relative to one another without significant tilting The upright brackets 65 project downwardly beneath the lower pivot pins 64 by which they are connected to the lower links 62 in a freely turnable manner and the lowermost ends of said brackets 65 are welded or otherwise rigidly secured to the uper surface of a transverse beam 66 which is of inverted channel-shaped cross-section and that extends substantially horizontally parallel to the transverse length of the hollow frame portion 1 The beam 66 is provided, at or near its opposite ends, with supports 67 that extend downwardly therefrom and a rear supporting member of the implement in the form of an open-work ground roller 68 is mounted in a freely rotatable manner between the lowermost ends of the downwardly extending supports 67 The roller 68 comprises a central axially extending tubular support 69 to which a plurality of substantially circular support plates 70 are secured at regular intervals along the length thereof with said support plates 70 in substantially vertically disposed parallel relationship with one another and substantially parallel relationship with the direction A Each support plate 70 is formed, very close to its periphery, with a plurality (such as eight) of circular holes through which holes elongate elements 71 are entered, said elements 71 being of tubular formation, as illustrated, or, if preferred, of solid rod-like formation The elements 71 may extend strictly parallel to the axis of rotation of the roller 68 or, if preferred, may be wound helically therearound to some extent so as to extend merely lengthwise of said roller but not strictly parallel to its axis of rotation.
The upper links 62 of each parallelogram 70 linkage 63 are provided above the corresponding upper pivot pins 61 with upwardly extending arms 72 in each of which arms a row of the vertically spaced apart holes22 is provided, said holes 22 in the two 75 arms 72 of each pair being arranged in the same manner as has already been described above with respect to the arms 11, the plates 19 and the arms 57 The perpendicular connections between the links 80 62 and the upwardly extending arms 72 are strengthened by the provision of obliquely interconnecting struts 73 that are spaced from the upper pivot pins 61.
The previously mentioned upright plate 85 shaped supports 74 that are provided at the leading ends of the strips 59, with respect to the direction A, have upper ends that are located at substantially the same horizontal level as are the upper ends of the 90 rear upright supports 60 However, the upright supports 74 are of elongate formation in a vertical direction and their lowermost ends project downwardly in front of the hollow frame portion 1 to terminate at a 95 level which is beneath that of the bottom of said frame portion 1 Parallel and substantially horizontally disposed upper and lower pivot pins 75 turnably connect the uppermost and lowermost ends of the up 100 right supports 74 to the rear ends of corresponding forwardly extending upper and lower links 76, the leading ends of said links 76 with respect to the direction A being connected in a freely turnable man 105 ner to corresponding upright carrier bracket 79 by upper and lower pivot pins 78 that are substantially horizontally disposed in parallel relationship with each other and with the pivot pins 75 Front parallelogram 110 linkages 77 are thus formed that allow the supports 74 and carrier brackets 79 to move upwardly and downwardly relative to one another without significant tilting.
The carrier brackets 79 project down 115 wardly beneath the lower pivot pins 78 by which they are connected to the corresponding lower links 76 and, near their lowermost ends, said carrier brackets 79 have a leading supporting member 81 in 120 the form of a levelling element turnably connected to them by substantially horizontally aligned pivots 80 that define an axis which is parallel or substantially parallel to the transverse length of the 125 hollow frame portion 1 The pivots 80 are actually carried by upright lugs 82 mounted on the upper surface of the supporting member 81 which is remote from the surface thereof that contacts the ground 130 1 566 605 during the use of the implement The supporting member 81 extends throughout substantially the whole of the working width of the implement and comprises two flat and rigid plate-shaped parts 83 and 84 that are integrally or rigidly interconnected so as to enclose an obtuse angle between their general planes (see Figure 8) The part 84 is usually substantially horizontally disposed with its lower surface in contact with the ground whilst the part 83, which lies in front of said part 84 with respect to the direction A, extends upwardly and forwardly from the leading edge of the part 84 at an angle of substantially 450 to the ground surface The lowermost end of each carrier bracket 79 is provided, beneath the corresponding pivot 80, with a stop 85, said stops 85 being so disposed that, as will be evident from Figure 8 of the drawings, they severely restrict the free angular displacement of the leading supporting member 81 about the axis defined by the pivots 80 which is possible.
The upper links 76 of each parallelogram linkage 77 are provided, above the corresponding upper pivot pins 75, with upwardly extending arms 86 which arms are formed with rows of the holes 22 The perpendicular connections between the links 76 and the arms 86 are strengthened by the provision of oblique struts that are similar to the previously described struts 73 which strengthen the connections between the links 62 and the arms 72 The arms 86 have the same upright lengths as do the arms 72 and Figure 8 of the drawings shows one of the two connecting means 24 pivotally coupling the uppermost ends of one pair of the arms 72 to the uppermost ends of the corresponding pair of arms 86, the pivot pins 23 thus cooperating with the uppermost pairs of holes 22 in said arms As illustrated, each of the arms 72 and 86 is formed with three of the holes 22 that are vertically spaced apart from one another.
In the use of one of the soil cultivating implement that has been described, its coupling member or trestle 31 is connected to the three-point lifting device or hitch of an agricultural tractor or other operating vehicle in the manner that can be seen in Figure 1 of the drawings and that is generally known per se and the forwardly projecting rotary input shaft 29 of the gear box 27 is placed in driven connection with the rear power take-off shaft of the same tractor or other operating vehicle by way of the known telescopic transmission shaft that has universal joints at its opposite ends If required, the change-speed gear 28 is adjusted before work commences, to ensure that the speed of rotation of the soil working members 3 will be appropriate to the nature and condition of the soil that is to be dealt with and the particular purpose for which that soil is required after cultivation The depth to which the tines 5 of the members 3 will 70 penetrate into the soil during operation can be increased or decreased, before work commences, by decreasing or increasing the effective lengths of the connecting means 24 Alteration of the length of the means 75 24 allows the leading and rear supporting members of the implement to turn either upwardly or downwardly relative to its hollow frame portion 1 as shown by arrows in Figure 2, thus altering the levels of those 80 portions of said supporting members that contact the soil relative to its frame portion 1 with a consequent raising or lowering of that frame portion, which carries the members 3, relative to the ground sur 85 face The tines 5 of each member 3 are spaced apart from one another by a distance which is a little greater than is the distance between the axes of rotation of immediately neighbouring members 3 so 90 that, during operative progress in the direction A, the strips of land that are worked by the individual members 3 overlap one another to produce, in effect, a single broad strip of worked soil which, when the illu 95 strated implement has the preferred dimensions that have been mentioned above, will have a width of substantially 3 metres Asthe implement of Figures 1 to 3 of the drawings make operative progress over the 100 ground in the direction A, the pivotably mounted arms 11 and plates 19 which indirectly carry the rear and leading supporting members of the implement are turnable relative to the strips 7, and thus to 105 the frame portion 1, about the axes defined by the corresponding pivot pins 10 and 18 Since said arms 11 and plates 19 are pivotally coupled together by the connecting means 24, an upward displacement of 110 the leading supporting member produces a downward displacement of the rear supporting member and vice versa and it has been found that this arrangement is highly conducive to the stability of the frame 115 portion 1 so that the implement will proceed in the direction A without undue vibration, this being, in turn, conducive to an optimum cultivating effect of the soil working members 3 120 As previously mentioned, a number of different arrangements of the connecting means 24 between the arms 11 and 19 are possible employing different pairs of the holes 22 Depending upon the particular 125 pairs of holes 22 that are chosen, upward and downward displacements of the leading supporting member can be arranged to produce greater or smaller downward and upward displacements of the rear support 130 1 566 605 ing member 17 and vice versa A maximum displacement is achieved with the dot and dash position of the connecting means 24 as indicated in Figure 2 In the embodiment of Figures 1 to 3 of the drawings, the ground wheels 21 function only as the leading supporting member of the imple-.
ment whereas the elongate elements 16 of the rear supporting member 17 additionally serve to crumble any residual lumps of soil that may have been left on the ground surface after the action of the tines 5 and to leave the broad strip of soil that has been worked by the tines 5 of the rotary soil working members 3 in a uniformly broken up and substantially level condition.
In the use of the embodiment that has been described with reference to Figure 4 of the drawings, the rear supporting member of the implement that is afforded by the open-work ground roller 36 additionally has a crumbling effect upon any lumps of soil that are left on the ground surface by the foregoing tines and tends to distribute the worked soil substantially uniformly throughout the working width of the implement As previously mentioned, the form of the roller 36 can be adapted to the prevailing working conditions Under very wet and muddy conditions, the number of the elements 39 is preferably reduced to avoid the roller becoming filled with mud.
However, when relatively dry land is being cultivated it is generally preferable that the number of the elements 39 should be increased since there is then only a small danger of the interior of the roller 36 be coming blocked with mud or other loose soil.
In the use of an embodiment constructed in accordance with Figure 5 of the drawings, the open-work ground roller 43 which affords the leading supporting member of the implement subjects the broad strip of ground that is to be worked by the rotary soil working members 3 to a crushing and levelling pre-treatment which is frequently advantageous, particularly when the land that is being dealt with is in a rough condition Similarly when using an embodiment constructed in accordance with Figures 6 of the drawings, the leading supporting member 46 that extends throughout substantially the whole of the working width of the implement subjects the land that is to be tilled by the rotary soil working member 3 to a crushing and levelling pre-treatment, the convex surface of the member 46 which engages the soil being effective in crushing and flattening any soil lumps or ridges that may be met with.
In the embodiment of Figure 7 of the drawings, the leading supporting member of the implement is afforded by the ground wheels 56 A, the axles of said ground wheels being indirectly connected to the frame portion 1 -of the implement through the intermediary of the parallelogram linkages 53 One of the advantages of this arrange 70 ment is that, during operation, the ground wheels 56 A move more nearly vertically upwards and downwards relative to the frame portion 1 so that less free space is required for the movements of the ground 75 wheels 56 A than is necessary for the leading supporting members of the preceding embodiments The inclusion of the coils 49 in the elongate elements 48 that principally afford the rear supporting member 80 47 of the implement of Figure 7 ensures that connections of adequate flexibility exist between the portions of said elements 48 that contact the soil and the portions thereof which are clamped to the bar 13 85 This enhanced flexibility augments the ability of the portion of the elements 48 that contact the ground surface to break up any remaining lumps of soil on that surface and to bring the soil to a uniformly go.
broken and subtantially unridged condition throughout the width of the cultivated strip of land.
In the embodiment of Figure 8 of the drawings, both the leading supporting mem 95 ber 81 and the ground roller 68 that affords the rear supporting member of the implement are indirectly connected to the hollow frame portion 1 thereof through the intermediary of the corresponding parallelogram 100 linkages 77 and 63 so that said frame portion, and thus the rotary soil working members 3, are carried by the leading and rear supporting members in a manner which ensures that the frame portion 1 105 will pass over the soil in the direction A in a very stable condition that allows the members 3 to perform their soil tilling function in an optimum manner even when the surface of the land that is being 110 dealt with is undulating and/or very uneven The roller 68 that affords the rear supporting member of the implement performs a lump-crushing, smoothing and levelling action in the same manner as do 115 the ground rollers of some of the preceding embodiments whilst the leading supporting member 81 pre-treats the soil that is to be worked by the immediately following members 3, ensuring, in particular, 120 that any ridges and like discontinuities in the surface are flattened out The limited pivotability of the member 81 about the axis defined by the pivots 80 that is possible relative to the carrier brackets 79 125 enables the member 81 to turn through a few degrees and thus follow the direction of any general inclination of the ground surface to the horizontal.
Although not illustrated in the accom 130 1 566 605 panying drawings it is noted that the rear supporting member of the implement could be afforded by a transverse levelling beam instead of by an open-work ground roller or a plurality of elongate elements of resilient formation A soil cultivating implement in accordance with the invention ensures that the rotary soil working members 3 thereof move over the ground in bodily stable positions, it being possible for the pivotally interconnected leading and rear supporting members of the implement that bring about this improved stability to be constructed in such a way that they can subject the soil to pre-treatment and/or to post-treatment.
Claims (1)
WHAT WE CLAIM IS: –
1 A soil cultivating implement of the kind set forth, wherein, in relation to said direction, the implement is provided with pivotably mounted supporting members arranged respectively in front, and to the rear, of the soil working members, and wherein the supporting members are sustained by carriers each of which is pivotably mounted on the frame portion, said carriers being coupled to one another by at least one connecting means in such a way that when, during operation, one of the two supporting members moves in one direction, the other supporting member will move in a substantially opposite direction.
2 An implement as claimed in claim 1, wherein the or each connecting means is located above said frame portion.
3 An implement as claimed in claim 1 or 2, wherein two connecting means are provided in spaced apart relationship, each connecting means coupling together the pivotably mounted carriers of the leading and rear supporting members, and wherein the two connecting means are arranged near the opposite ends of the elongate frame portion when the implement is viewed in plan.
4 An implement as claimed in any preceding claim, wherein the or each connecting means is constructed and arranged so as to be capable of being coupled to at least one of said pivotably mounted carriers at any chosen one of a number of different locations thereon, said locations being positioned one above the other at different horizontal levels.
5 An implement as claimed in any preceding claim, wherein each supporting member is coupled to spaced carriers.
6 An implement as claimed in claim 5, wherein at least some of said carriers are in the form of upwardly extending arms.
7 An implement as claimed in claim 5 or 6, wherein at least some of the carriers are in the form of parallelogram linkages which include upwardly and downwardly displaceable brackets.
8 An implement as claimed in claim 7, wherein an uper link of each parallelogram linkage has one end of the connecting means, or one end of the corresponding connecting means, coupled to it 70 9 An implement as claimed in any preceding claim, wherein the or each connecting means is of adjustable length.
An implement as claimed in claim 5 or in any one of claims 6 to 9 when read 75 as appendant to claim 5, wherein the carriers are pivotable about axes which are located close to said frame portion.
11 An implement as claimed in any preceding claim, wherein the leading and rear 80 supporting members of the implement are of different constructions.
12 An implement as claimed in any preceding claim, wherein one or both of the leading and rear supporting members of 85 the implement is constructed in such a way that, during operation of the implement, it will perform a soil cultivating function.
13 An implement as claimed in claim 12, wherein the rear supporting member of 90 the implement is constructed and arranged so as also to perform a soil cultivating function during the operation of the implement, said rear supporting member being arranged behind the rotary soil working 95 members with respect to the intended direction of operative travel of the implement.
14 An implement as claimed in claim 12 or 13, wherein the leading supporting 100 member of the implement is consructed and arranged to perfom a soil cultivating function during the operation of the implement, said leading supporting member being disposed in front of the rotary soil 105 working members with respect to the intended direction of operative travel of the implement.
An implement as claimed in any one of claims 1 to 13, wherein at least one 110 of the supporting members comprises two ground wheels whose axes of rotation are coincident or substantially coincident.
16 An implement as claimed in claim 15, wherein the or each ground wheel is 115 located in advance of the rotary soil working members of the implement with respect to the intended direction of operative travel of the latter.
17 An implement as claimed in claim 12 120 or in any one of claims 13 to 16 when read as appendant to claim 12, wherein one of the supporting members that is constructed and arranged also to perform a soil cultivating function during the operation of the im 125 plement comprises a plurality of elongate elements.
18 An implement as claimed in claim 17, wherein at least portions of said elongate elements extend parallel or substantially 130 1 566 605 parallel to the intended direction of operative travel of the implement.
19 An implement as claimed in claim 17 or 18, wherein, as seen in side elevation, each elongate element is of at least partially curved configuration, the convex side of said curve being directed downwardly towards the ground surface.
An implement as claimed in any one of claims 17 to 19, wherein the elongate elements are in the form of rods and are of resilient formation.
21 An implement as claimed in claim 20, wherein each rod is shaped to define at least one resilient coil which is located near to that end of the corresponding rod which is fastened in position relative to the corresponding pivotably mounted carrier.
22 An implement as claimed in any one of claims 17 to 21, wherein the elongate elements are fastened to a common support which support is secured, at or near its opposite ends, to the corresponding carrier.
23 An implement as claimed in any one of claims 17 to 22, wherein said supporting member that comprises a plurality of elongate elements is located to the rear of the rotary soil working members with respect to the intended direction of operative travel of the implement.
24 An implement as claimed in any one of claims 1 to 16, wherein at least one of said supporting members is in the form of a ground roller, said ground roller comprising elongate elements at its groundengaging periphery.
An implement as claimed in any one of claims 1 to 16, wherein at least one of said supporting members is in the form of a levelling element which has a portion that is arranged to contact the ground surface during the use of the implement and which portion is of substantially cylindrically curved configuration.
26 An implement as claimed in claim 25, wherein the levelling element is freely pivotable, within limits, relative to carrier brackets about an axis that is located in close proximity to said elements and that is parallel or substantially parallel to the axis or axes about which said carrier brackets are themselves pivotable relative to said frame portion.
27 An implement as claimed in claim 7 or in any one of claims 8 to 26 when read as appendant to claim 7, wherein at least one supporting member that is carried by said parallelogram linkages is located in advance of the rotary soil working members with repect to the intended direction of operative travel of the implement.
28 An implement as claimed in claim 7 or in any one of claims 8 to 27 when read as appendant to claim 7, wherein at least one supporting member that is carried by said parallelogram linkages is located to the rear of the rotary soil working members with respect to the intended direction of operative travel of the implement 70 29 An implement as claimed in any preceding claim, wherein each pivotably mounted carrier comprises, a pair of upwardly extending supports between which is arranged one end of the connecting 75 means or one end of a corresponding one of the connecting means.
An implement as claimed in claim 29 when read as appendant to claim 4.
wherein each of said supports is formed 80 with a plurality of holes that are spaced apart from one another at different horizontal levels, said holes being arranged to have one end of the connecting means, or one end of one of the connecting means, 85 optically connected to them.
31 An implement as claimed in claim 9 or in any one of claims 10 to 30 when read as appendant to claim 9, wherein the or each connecting means comprises two 90 substantially axially aligned rods formed with oppositely wound screwthreads, said rods being entered into the opposite ends of an interconnecting sleeve having corresponding oppositely wound internal 95 screwthreads at said opposite ends whereby the length of said connecting means can be adjusted by rotating said sleeve relative to said rods.
32 An implement as claimed in any 100 preceding claim, wherein the rotary soil working members are arranged in a row that extends parallel or substantially parallel to the elongate frame portion, said soil working members being rotatable about 105 corresponding substantially vertical or at least non-horizontal axes, and wherein at least one of said leading and rear supporting members extends throughout substantially the whole of the combined working 110 width of the rotary soil working members.
33 A soil cultivating implement of the kind set forth, subsantially as hereinbefore described with reference to Figures 1 to 3 of the accompanying drawings or with 115 reference to Figures 1 to 3 of those drawings as modified by any one of the embodiments that are described with reference to Figures 4 to 8 of the accompanying drawings 120 HASELTINE, LAKE & CO, Chartered Patent Agents, Hazlitt House, 28 Southampton Buildings, Chancery Lane, London WC 2 A 1 AT, also Temple Gate House, Temple Gate, Bristol B 51 6 PT, and 8 Park Square, Leeds L 51 2 LH, Yorks.
Agents for the Applicants.
Printed for Her Majesty’s Stationery Office by The Tweeddale Press Ltd, Berwick-upon-Tweed, 1980 Published at the Patent Office, 25 Southampton Buildings, London, WC 2 A l AY, from which copies may be obtained
GB7495/77A
1976-03-01
1977-02-22
Soil cultivating implements
Expired
GB1566605A
(en)
Applications Claiming Priority (1)
Application Number
Priority Date
Filing Date
Title
NL7602084A
NL7602084A
(en)
1976-03-01
1976-03-01
SOIL WORKING MACHINE.
Publications (1)
Publication Number
Publication Date
GB1566605A
true
GB1566605A
(en)
1980-05-08
Family
ID=19825712
Family Applications (1)
Application Number
Title
Priority Date
Filing Date
GB7495/77A
Expired
GB1566605A
(en)
1976-03-01
1977-02-22
Soil cultivating implements
Country Status (7)
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Link
US
(1)
US4113024A
(en)
DE
(1)
DE2708373A1
(en)
DK
(1)
DK82477A
(en)
FR
(1)
FR2342628A1
(en)
GB
(1)
GB1566605A
(en)
IT
(1)
IT1104554B
(en)
NL
(1)
NL7602084A
(en)
Cited By (1)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
GB2164231A
(en)
*
1984-09-11
1986-03-19
Sisis Equip
Turf-care apparatus
Families Citing this family (12)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
US4317489A
(en)
*
1978-11-27
1982-03-02
Deere & Company
Ground-working implement and lift linkage therefor
DE3164248D1
(en)
*
1980-02-08
1984-07-26
Rau Gmbh Maschf
Power take-off soil treatment implement
NL8102623A
(en)
*
1981-05-29
1982-12-16
Lely Nv C Van Der
SOIL TILLER.
NL8103195A
(en)
*
1981-07-03
1983-02-01
Lely Nv C Van Der
SOIL TILLER.
NL8202530A
(en)
*
1982-06-23
1984-01-16
Lely Nv C Van Der
SOIL TILLER.
NL192287C
(en)
*
1982-12-01
1997-05-07
Lely Nv C Van Der
Rotary harrow.
NL192019C
(en)
*
1983-06-30
1997-01-07
Lely Nv C Van Der
Soil cultivation machine, in particular for working a seed bed.
NL8303042A
(en)
*
1983-09-01
1985-04-01
Lely Nv C Van Der
SOIL TILLER.
US4685524A
(en)
*
1985-11-19
1987-08-11
Airmaster Sales Ltd.
Reciprocating harrow with parker
DE8714440U1
(en)
*
1987-10-30
1988-01-07
Rabewerk Heinrich Clausing, 4515 Bad Essen, De
DE8910251U1
(en)
*
1989-08-26
1989-11-16
H. Niemeyer Soehne Gmbh & Co Kg, 4446 Hoerstel, De
NL1027246C2
(en)
*
2004-10-14
2006-04-19
Kraaijeveld B V Geb
Device for processing a bottom layer.
Family Cites Families (7)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
US2888996A
(en)
*
1956-02-29
1959-06-02
Don A Ralston
Tractor-drawn land float with ditching shoes
US3090449A
(en)
*
1961-12-26
1963-05-21
Int Harvester Co
Lift for agricultural implement
NL137376C
(en)
*
1967-11-01
US3633679A
(en)
*
1969-10-13
1972-01-11
Fmc Corp
Mobile self-supporting tiller
US3627059A
(en)
*
1969-12-22
1971-12-14
Deere & Co
Gauge wheel assembly for agricultural implements
US3951213A
(en)
*
1972-04-19
1976-04-20
Lely Cornelis V D
Rotary harrows
US3892278A
(en)
*
1972-12-27
1975-07-01
Smitty S Inc
Rotary tiller-mulcher
1976
1976-03-01
NL
NL7602084A
patent/NL7602084A/en
active
Search and Examination
1977
1977-02-22
GB
GB7495/77A
patent/GB1566605A/en
not_active
Expired
1977-02-25
DK
DK82477A
patent/DK82477A/en
not_active
Application Discontinuation
1977-02-26
DE
DE19772708373
patent/DE2708373A1/en
not_active
Withdrawn
1977-02-28
US
US05/772,858
patent/US4113024A/en
not_active
Expired – Lifetime
1977-03-01
IT
IT20797/77A
patent/IT1104554B/en
active
1977-03-01
FR
FR7705890A
patent/FR2342628A1/en
active
Granted
Cited By (1)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
GB2164231A
(en)
*
1984-09-11
1986-03-19
Sisis Equip
Turf-care apparatus
Also Published As
Publication number
Publication date
DE2708373A1
(en)
1977-09-08
DK82477A
(en)
1977-09-02
FR2342628A1
(en)
1977-09-30
NL7602084A
(en)
1977-09-05
FR2342628B1
(en)
1985-03-29
US4113024A
(en)
1978-09-12
IT1104554B
(en)
1985-10-21
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Legal Events
Date
Code
Title
Description
1980-07-23
PS
Patent sealed [section 19, patents act 1949]
1986-10-15
PCNP
Patent ceased through non-payment of renewal fee