• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to an agricultural machine comprising: - a linkage structure (2) intended to be coupled to a tractor, the linkage structure comprising a coupling support (3), a carrying beam (5) and a transmission assembly (11), - the transmission assembly (11) comprising a driving pulley (21), a driven pulley (22), a transmission member (51) drivingly mounted on the driving and driven pulleys, the transmission assembly comprising a tensioning system (30) of the transmission member; - a working group (12) articulated to the carrier beam (5) via at least one folding axis (180), the working group being provided with at least one working tool (15) rotated. In this machine, the tensioning system (30) applies an unfolding force to the workgroup during at least a portion of the deployment from a transport position.
    公开号:FR3052329A1
    申请号:FR1655362
    申请日:2016-06-10
    公开日:2017-12-15
    发明作者:Martin Walch;Philippe Mayeur;Michel Wolff
    申请人:Kuhn SAS;
    IPC主号:
    专利说明:

    Description
    The present invention relates to mounted agricultural machines, such as mowers or verge grinders, the tool group is positioned for transport substantially vertically.
    Document FR2306616 is known. This document describes a cutting machine provided with a connecting structure and a cutting unit mounted at the end of the connecting structure via a folding joint.
    The link structure comprises a carrier beam and a transmission assembly. The articulated chassis is mounted to the coupling of a tractor. The transmission assembly has a driving beam and a driven pulley, and a transmission belt connecting the two pulleys. The invention aims to simplify agricultural machines having a group of tools positioned vertically to transport.
    Thus, the invention relates to an agricultural machine comprising: - a linkage structure intended to be coupled to a tractor, the linkage structure comprising a coupling support, a carrying beam and a transmission assembly, - the set of transmission comprising a driving pulley, a driven pulley, a transmission member drivingly mounted on the driving and driven pulleys, the transmission assembly comprising a tensioning system of the transmission member, - a workgroup articulated to the beam carrier via at least one folding axis, the working group being provided with at least one working tool configured to be rotated from the transmission assembly.
    The machine according to the invention is remarkable in that the tensioning system is configured to apply an unfolding force to the workgroup during at least part of the deployment of the workgroup from a transport position.
    Thanks to this characteristic, it is possible to exploit the trigger of the tensioning member of the transmission member or, in other words, the energy used for the voltage of the transmission member, simultaneously for the deployment of the working group. The tensioning system thus additionally forms an unfolding assistance system and / or unfolding system for unfolding the workgroup, even in an unfavorable tilt position. Unfolding is thus achieved simply and economically.
    Advantageously, the center of gravity of the working group is in the space between the vertical planes passing respectively through the axis of rotation of the driving pulley and the folding axis when the agricultural machine is in a transport position, the tensioning system being configured to cross the vertical plane passing through the axis of folding by the center of gravity of the working group when unfolding the machine from the transport position. Once the center of gravity has been crossed, the working group is able to lower itself under the effect of its own weight.
    Thus, it is possible to bring to low energy expenditure the working group in a position where its own weight will take over to deploy it.
    Advantageously, the tensioning system is disposed in the space between the driving and driven pulleys and / or in the space defined by the transmission member.
    This makes it possible to advantageously use the space inside the transmission member. The tension system is thus concealed under the hood of the transmission assembly. The volume of the link structure therefore decreases compared to the existing one. In addition, this configuration limits the overhang that undergoes the pivot rods driving and led pulleys. In addition, the integration of the tension system between the pulleys makes it possible to use it to damp the lifting of the mowing group. It is then not necessary to provide additional device for damping the lifting of the mowing group.
    Advantageously, the transmission member is expanded in the transport position of the agricultural machine.
    This allows to spare the transmission member, especially when it is a belt, the transport and storage of the machine in the offseason when the workgroup is left in a durable way in a storage position noted analogous to the transport position. In addition, intervention and replacement on the transmission member are facilitated. In addition, this feature has safety advantages, the machine being prevented from working outside the desired operating angles.
    Advantageously, the transmission member is a belt or a chain.
    Advantageously, the tensioning system comprises a tension member that can be a compression spring, a block of elastomeric and / or elastic material or a jack.
    Advantageously, the folding axis and the axis of rotation of the driven pulley are distinct from each other.
    Thanks to this particular characteristic, the constraints related to the transmission and the constraints related to the folding are dissociated and distributed on two distinct elements. It is thus possible to lighten certain parts, to limit the stacking thickness of the components at one or the other of the axis of folding or the axis of rotation of the driven pulley. A lighter machine is easier to maneuver.
    Advantageously, the axis of folding and the axis of rotation of the driven pulley are merged and the agricultural machine has a system of return by lever.
    Advantageously, the return system comprises a lever, integral or body with a bearing bearing the driving pulley.
    Advantageously, the working group is a mowing group or a verge mower. Other features and advantages of the invention will emerge from the description below with reference to the accompanying drawings which show, by way of non-limiting example, several embodiments of the coupling device according to the invention.
    In these drawings: - Figure 1 is a front view of an agricultural machine in working position having a working group, here a mowing group, and a connecting structure; - Figure 2 is an enlargement of the connecting structure as shown in Figure 1; - Figure 3 is a top view of the agricultural machine of Figure 1; - Figure 4 is an enlargement of the connecting structure as shown in Figure 3; - Figure 5 is a partial view from the rear of the elements of Figure 1, in the working position; - Figure 6 is a view of the elements of Figure 5 in the windrow position; - Figure 7 is a view of the elements of Figure 5 in the transport position; - Figure 8 is an enlargement of a rod end adjustment in position; FIG. 9 is a diagrammatic example, seen from below of the folding articulation between the connecting structure and the working group; - Figure 10 shows schematically and in rear view an alternative embodiment of the invention.
    In the description that follows, the notions "above", "below", "below" and "above" are defined with respect to the ground, and the notions "before", "backward", "downstream", "Left" and "right" are defined with respect to the direction of advance (A) illustrated in FIG.
    The agricultural machine 1 shown in FIG. 1 comprises a connecting structure 2, a transmission assembly 11 and a working group 12.
    The agricultural machine 1 has at least three positions: - a working position in which the working group 12 is close to the ground and / or parallel to it, - a transport position in which the working group 12 is raised vertically or at a few degrees thereof for road transport, preferably between 80 and 120 degrees from a horizontal working position, and, - an intermediate position between the two preceding ones in which the working group 12 is taken off the ground without being fully raised as in the transport position.
    When the machine 1 is a cutting machine, the intermediate position of the working group 12 is for example a swath passage position.
    The connecting structure 2 comprises in particular a coupling support 3 and a strut 5. The connecting structure 2 further comprises a lightening mechanism 8 (Figure 3) and a folding mechanism 10 (Figure 1).
    The hitch support 3 can be mounted by means of trunnions 4a and a top hitching member 4b (Figure 4) on a three-point hitch of a tractor (tractor and three hitch tractor points not shown here). The hitch support 3 is, for example, in the form of a welded structure. Stem 5, also called carrier beam, is connected to the hitch support 3, preferably in an articulated manner or possibly rigidly. In the embodiment shown, the prop 5 is articulated relative to the coupling support 3 by means of a hinge 16 of substantially vertical axis, but which could also be inclined forward or rearward. At work, the prop 5 extends transversely, for example but not limited perpendicular to the direction of advance (A). In addition, the prop 5 is articulated relative to the coupling support 3 by a first folding joint 17 here of substantially horizontal axis 170, or first axis of folding. The axis 170 may alternatively be inclined a few degrees from the horizontal. A non-detailed limiter here limits the travel of the prop 5 around the axis 170 upwards and downwards. For example, without limitation, the prop 5 is in high abutment in the position shown in Figure 7. The prop 5 has a first stop 49 and a second stop 50 called cradle 50. The abutments 49 and 50 are of a piece with the rest of the stanchion 5, for example welded or formed of body with it.
    The lightening mechanism 8 has in particular an elastic element, or tension element, here a traction spring 9 (FIGS. 3-4), the characteristics of which make it possible to limit the pressures on the ground of the working group 12, for example on grass in the case of a cutting machine. The spring 9 can be replaced or supplemented by a jack which can be autonomous or hydraulically controlled from the tractor.
    The folding mechanism 10 comprises a lever 35, a lifting cylinder 37, a boomerang connecting rod 38, an adjustment rod in position 39 (FIG. 2).
    The lever 35 is provided with an oblong orifice 36 having a bottom surface 36a forming a stop opposite the point of attachment 36b of the lever on the intermediate beam 13 (FIG. 2).
    The boomerang connecting rod 38 is a curved piece rotatably mounted on the stanchion 5 by a lower articulation 42. The connecting rod 38 also comprises an upper articulation 43 comprising a rod capable of sliding in the oblong orifice 36.
    The rod 38 can be raised by pivoting around its lower articulation 42 until it comes into contact with the stop 49.
    The lifting cylinder 37 is here a single acting cylinder. The cylinder 37 is mounted on the hitch support side on an upper axis 19 by which it can pivot in a vertical plane (Figure 2). The cylinder 37 is still connected to the boomerang rod 38 by the hinge 43. The actuation of the cylinder 37 by oil injection allows its shortening.
    A position adjusting device which is here the rod 39 is further rotatably mounted on the boomerang rod 38 in a hinge 44, between the lower and upper hinges 42 and 43.
    The connecting rod 39 has an elongate hole 40 in the form of P (FIGS. 2 and 8). The orifice 40 has an elongated corridor 41a, a vestibule 41b wider than the corridor 41a, a transverse surface 41c and an upper surface 41d.
    The surface 41c belongs to the periphery of the vestibule 41b and is transverse to the corridor 41a. As will be described later, the surface 41c form stop passage swath, while the upper surface 41d plays a role of cam profile.
    An actuation control 48 is connected to the connecting rod 39. In the example shown, it is a rope accessible from the cabin. It may still be a cable or an automated system. The actuation control 48 makes it possible, when necessary, to raise the connecting rod 39 before a change of position of the machine 1.
    The adjustment device in position may take other forms than the connecting rod 39, for example comprise a rod having an end surface forming a stop, a support secured to the scaffold 5, the rod resting on this support when the actuation command is at rest and sliding on the support when the working group moves in a vertical plane.
    Working Group 12 has working tools 15 (Figure 1). In the example shown in the figures, the working group 12 is a mowing group and the tools are provided in particular cutting blades for forage harvesting.
    The working group 12 here has an intermediate beam 13 (Figure 5) which can rotate vertically relative to the stanchion 5 around a second folding joint 18, here of substantially horizontal axis 180. The intermediate beam 13 serves for example as a point of attachment to the cutting bar carrying the blades 15, and to a supporting structure 14. The transmission assembly 11 is a system responsible for driving the tools of the working group 12 from a tractor drive shaft. The transmission assembly 11 comprises a driving pulley 21 and a driven pulley 22, as well as a transmission member. The transmission member is here a transmission belt 51 connecting the two pulleys (Figure 5). Alternatively, the transmission member is a chain. The transmission assembly 11 is also provided with a tensioning system 30 of the transmission member comprising a tension member 52, a rod 31 and a sleeve 32 accommodating the rod 31 (Figure 5). The rod 31 and the sheath 32 can slide in translation relative to each other. The rod 31 and the sleeve 32 also have a retaining system, here respectively a pin 33 and a groove 34, preventing the catapulting of the rod 31 and the sleeve 32 under the effect of the tension member 52 during disassembly of the transmission assembly 11.
    In the example shown in Figures 1 to 7, the tension member 52 is a compression spring. Alternatively, the tension member may be different, for example comprise a block of elastomeric material and / or elastic such as polyurethane, a cylinder which may be non-limiting single or double effect, spring or gas, etc.
    The driving pulley 21 is driven by a drive shaft 20 (Figure 3), itself connected to a tractor power take-off by an intermediate shaft and a cardan joint system (not shown).
    The driven pulley 22 transmits the drive towards the workgroup.
    The pulley 21 is mounted on a pivot 23 which is not only rotated about its own axis 25 but can also follow a path 46 in an arc around a separate articulation 27 of axis 271 parallel to the axis 25 (see Figure 2). The pivot 23 is mounted in a U-shaped or arched bearing 45, the ends of which are arranged on either side of the strut 5. The pivot 23 can then follow a circular arc trajectory 46 centered on the 271. The bearing 45 can thus be called pivot bearing. The hinge 27 comprises a rod 270 mounted on the stanchion 5. One end of the rod 270 is housed in the elongate orifice 40. The inner surface of the orifice 40 then forms a cam profile while the rod 270 plays the role of follower. In practice, it is the rod 39 which is mobüe with respect to the rod 270. In variant not shown, the rod 270 is substituted by a separate support mounted on the stanchion 5.
    The pulley 22 is mounted on a rod 24 or pivot rotatably mounted in the intermediate beam 13. The rod 24 is rotated about its own axis 26 and can follow a path 47 in an arc around the second folding joint 18 (see Figure 5). The transmission assembly 11 preferably incorporates a protective cover 210 (Figure 3).
    FIG. 9 illustrates a detail in bottom view of a possible arrangement between the intermediate beam 13 and a housing 60 of the working group 12, and the stanchion 5. The stanchion 5 may comprise a main portion 5a at the end of which two flanges 5b and 5c are fixed.
    The casing 60 is a casing in which a series of drive pinions 61 is housed, these transmitting the drive towards the tools 15. In the illustrated embodiment, the casing 60 is housed centered between the flanges 5b and 5c. . A single gear 61 is shown in FIG. 9, the others being arranged in the housing 60, opposite to the articulation 18.
    The intermediate beam 13 may in turn have an end fork provided with branches 13a and 13b.
    Here, preferably but not exclusively, the housing 60 may be of light material such as aluminum, while the stanchion 5 and the intermediate beam 13 are made of steel. The assembly of the beam 13, the housing 60 and the strut 5 can be done in the following manner: - one of the flanges 5b and 5c is fixed to the main portion 5a, for example by screwing or welding; - The housing 60 is disposed against the flange 5b or 5c which has just been attached to the portion 5a; the other flange 5b or 5c is fixed against the portion 5a, for example by screwing, the casing 60 then being sandwiched between the flanges 5b and 5c; - The intermediate beam 13 is disposed around the end of the stanchion 5 with the branches 13a and 13b on either side of the flanges 5b and 5c; - The rod of the joint 18 is inserted into the aligned openings of the parts 5, 13 and 60 to articulate the beam 13 and the housing 60 relative to the stanchion 5.
    The rod 24 may have been mounted in the housing 60 beforehand at the same time as the series of gears 61. The remainder of the transmission assembly 11 can then be put in place against the stanchion 5.
    The machine 1 described above has several advantages over the prior art. The dissociation of the folding functions (articulation 18) and drive (rod 24) makes it possible to distribute on two distinct rods (the axis of the articulation 18 and the rod 24) the stresses that were previously exerted on a single articulation. With lesser constraints, it is possible to lighten some parts, for example by manufacturing the housing 60 aluminum. This results in a gain of several tens of kilograms. By mounting the driven pulley 22 on a rod 24 distinct from the hinge 18, it is possible to bring the pulley 22 of the center of gravity of the machine 1, through which for example a longitudinal plane Pm (Figure 9). The bending stresses (that is to say the cantilever or the lever arm) undergone by the pivot of the pulley 22, and the torsional stresses experienced by the stanchion 5 are thus reduced. In addition, it is possible to reduce the number of pieces stacked in width and the width thereof and thus lighten the machine 1.
    Three vertical planes VI, V2 and V3 are defined to describe the agricultural machine 1 (see Figure 5).
    The vertical plane VI passes through rotating axis of the driving pulley 25.
    The vertical plane V2 passes through the second folding axis 180.
    The vertical plane V3 passes the center of gravity G of the working group 12 (FIGS. 5 and 7).
    The qualification of "vertical" planes VI, V2 and V3 refers to a horizontal plane ground.
    In the embodiment shown in FIGS. 5 to 7: in the working position and in the intermediate position, the vertical plane V 3 lies outside the space between the planes VI and V 2; in the transport position, the vertical plane V3 is in the space between the planes VI and V2.
    To move from the working position (Figure 5) to the windrow position (Figure 6) or to the transport position (Figure 7), the cylinder 37 is actuated.
    At work, the working group 12 is lowered, and rests for example on the ground in the case of a mower blade. Workgroup 12 and link structure 2 are likely to experience travel to follow the terrain profile along the length of the mowing group. The working group 12 then rotates around the folding axes 170 and 180. During this movement, the hinge 43 slides in the oblong hole 36 of the lever 35 (Figure 2).
    The transition from the working position to the intermediate position is described below. The actuation of the cylinder 37 allows in a first step to make up the clearance due to the displacement and which remains between the connecting structure 2 and the working group 12. The retraction of the cylinder 37 causes the pivoting of the boomerang rod 38 around the articulation 42, and the pivoting of the lever 35 around its point of attachment 36b. The hinge 43 comes into contact with the stop 36a.
    By its own weight, the adjustment rod in position 39 normally rests on the rod 270 in the working position and in the intermediate position. The pivoting of the connecting rod 38 thus slides the connecting rod 39 relative to the rod 270.
    During a second step, while the articulation 43 is against the abutment 36a, the rod 38 continues to pivot about the articulation 42 while the working group 12 pivots about the folding axis 180, driven by the lever 35. At the end of the second step, the rod 270 comes into contact against the stop 41c. The pivoting of the working group 12 around the hinge 18 is then interrupted.
    The retraction of the jack 37 continues during a third step during which the working group 12 and the stanchion 5 pivot around the first folding axis 170. This movement is interrupted by a mechanical stop that deactivates the power supply. oil cylinder 37 by maintaining the hydraulic pressure. The machine 1 is then in the position of passage of windrow (Figure 6).
    The transition from the working position to the transport position is now described.
    The transition to the transport position is for example by actuating the control 48 which raises the connecting rod 39. The actuation of the control 48 can generally occur at any time at the beginning of the cylinder stroke 37, before the surface 41c comes into operation. contact against the rod 270. The possible step of catching play is identical in principle to that described above.
    During a second step, the retraction of the jack 37 allows the rod 38 to continue to pivot around the hinge 42. The lifting of the rod 39 allows the rod 270 to engage in the corridor 41a avoiding the surface 41c. The rod 39 can then continue to slide relative to the rod 270, beyond the abutment surface 41c. Fault for the surface 41c to be stopped by the rod 270, the working group 12 continues to pivot about the folding axis 180 to a substantially vertical position, preferably beyond the vertical plane V2 passing through the folding axis 180.
    During the lifting, the pivots 23 and 24 are caused to move around the respective articulation 27 and 18. The pivot 23 then follows the path in an arc 46 and the pivot 24 the path 47 (Figure 5). The pivot 23 abuts against the cradle 50 (Figure 2). The cylinder 37 continues to retract while the rod of the pivot 23 is held in abutment. The stroke of the pivot 24 continues while the belt 51 relaxes. The tensioning system 30 and its compression spring 52 then compress. The stroke of the pivot 24 is interrupted when the boomerang rod 38 comes into contact against the stop 49 and the intermediate beam 13 can no longer pivot about the folding axis 180. The stanchion 5 then pivots around the axis 170 The working group 12 has then reached the transport position and the transmission member 51 is relaxed (FIG. To lock the machine in the transport position, it is appropriate here to block the cylinder 37 to prevent it from being deployed. A lock is then implemented. The lock takes for example the form of a hook mounted on the body of the cylinder 37 and that is engaged against a pin integral with the cylinder rod, for example on the end cap of the cylinder.
    To lower the workgroup 12 from the transport position, simply disengage the lock and open the oil circuit of the cylinder 37. The oil can then escape the cylinder 37 and the cylinder can s' lengthen.
    In the embodiment shown, the stanchion 5 is lowered by pivoting about the folding axis 170. The limiter stops the movement of the stanchion 5 downwards. The energy of the compressed spring 52 pushes the center of gravity G of the working group 12 (or the plane V3) beyond the vertical plane V2. The spring 52 thus assists the work group 12 in its movement from the transport position to its working position. The tensioning member 52 therefore advantageously forms an unfolding aid member in addition to its role of tension member itself. Once the working group 12 beyond the vertical plane V2, its own weight makes it go down to the working position.
    The exhaust diameter of the oil of the jack 37 is chosen to automatically regulate the descent of the working group 12 under the action of the own weight of the working group 12.
    In an alternative embodiment illustrated schematically in FIG. 10, the agricultural machine 1 has a lever return system 70. The driven pulley 22 is here rotatably mounted about the folding axis 180. The axes of rotation of the pulley conducted 22 and the working group 12 with respect to the connecting structure 2 are therefore merged.
    The return system 70 here comprises a connecting rod 71, a lever 450 and a follower 73.
    The rod 71 is mounted at a first end by a hinge 74 on the intermediate beam 13 of the working group 12. The rod 71 is provided with an oblong orifice 72, here longitudinally disposed at a second end, opposite the first end. The oblong orifice 72 has an end surface 72a forming a stop, on the nearest side of the hinge 74.
    The lever 450 comprises at least one branch rotatably mounted on the hinge 27. The lever 450 thus pivots on the same joint as the bearing 45. The leg of the lever 450 is integral with one of the branches of the U-shaped bearing 45. Alternatively , the leg of lever 450 is of body with one of the branches of the bearing 45. Alternatively again, the lever may comprise a second branch which can be integral or integral with the second leg of the bearing 45.
    The follower 73 may take the form of a pivot rod and / or a roller. The follower 73 is mounted in the orifice 72. The section of the follower 73 is adapted to maintain the follower 73 in the orifice 72, mobile in translation. The lever 450 is further rotatably mounted on the follower 73.
    When moving to the transport position, the retraction of the jack 37 causes the link 71 to move relative to the follower 73. The surface 72a then comes into contact with the follower 73, after which the link 71 pushes the lever 450. The lever 450 and the bearing 45 pivot around the hinge 27, which causes the retraction of the tension member 52 which then accumulates elastic energy, while the transmission member 51 relaxes. Meanwhile, the workgroup 12 was raised so that its center of gravity crossed the plane V2 to end up in the space between the plans VI and V2 in transport position.
    When unfolding the workgroup 12 from the transport position, the cylinder 37 is unlocked and its oil circuit open. The tension member 52 then restores its energy by pushing the bearing 45, which retains the transmission member 51. The bearing 45 and the lever 450 pivot about the hinge 27. The follower 73 pushes the surface 72a, which which has the effect of favoring the passage of the center of gravity G beyond the plane V2, outside the space between the planes VI and V2. Working Group 12 finishes down under its own weight.
    In non-illustrated variants, the tensioning member 52 is disposed outside the space delimited by the transmission member 51, for example in the plane H1 containing the axes of rotation 25 and 26 of the pulleys 21 and 22 or on the connecting rod 71 so as to push the follower 73 towards the articulation 74 in the working position.
    It is obvious that the invention is not limited to the embodiments described above and shown in the accompanying figures. Modifications are possible, in particular as regards the constitution or the number of the various elements or by substitution of technical equivalents, without leaving the field of protection.
    The tensioning system 30 may comprise an additional roller to tension the transmission member.
    The connecting structure as described above can also be implemented in other types of agricultural machinery such as for example drum mowers or verge mowers, in which case the working group comprises different tools. cutting blades of the mowing group described above. The grinding tools may for example be teeth mounted on a drum axis transverse to the feed direction A of the machine and individually mounted on axes parallel to the general axis of the drum.
    In addition, the machine may have different members and joints for terrain monitoring and obstacle avoidance (not shown here).
    权利要求:
    Claims (10)
    [1" id="c-fr-0001]
    claims
    Agricultural machine comprising: - a linkage structure (2) intended to be coupled to a tractor, the linkage structure (2) comprising a coupling support (3), a carrying beam (5) and a transmission assembly (11), - the transmission assembly (11) comprising a driving pulley (21), a driven pulley (22), a transmission member (51) drivingly mounted on the driving and driven pulleys, the transmission assembly (11) comprising a tension system (30) of the transmission member (51), - a working group (12) articulated to the carrier beam (5) via at least one folding axis (180), the group machine (12) being provided with at least one working tool (15) configured to be rotated from the transmission assembly (11), characterized in that the tensioning system (30) applies an unfolding force to the working group (12) for at least part of the WG deployment (12) from a position transport.
    [2" id="c-fr-0002]
    2. Agricultural machine according to the preceding claim, the center of gravity (G) of the working group (12) being in the space between the vertical planes (VI, V2) passing respectively through the axis of rotation (25). the driving pulley (21) and the folding axis (180) when the agricultural machine is in a transport position, the tensioning system (30) being configured to cross the vertical plane (V2) by the center of gravity (G) of the workgroup (12) when unfolding the machine from the transport position.
    [3" id="c-fr-0003]
    3. Agricultural machine according to one of the preceding claims, the tensioning system (30) being disposed in the space between the drive pulleys (21) and led (22) and / or in the space defined by the organ transmission (51).
    [4" id="c-fr-0004]
    4. Agricultural machine according to one of the preceding claims, the transmission member (51) being expanded in the transport position of the agricultural machine.
    [5" id="c-fr-0005]
    5. Agricultural machine according to one of the preceding claims, the transmission member (51) being a belt or a chain.
    [6" id="c-fr-0006]
    6. Agricultural machine according to one of the preceding claims, the tension system (30) comprising a tension member (52) may be a compression spring, a block of elastomeric and / or elastic material or a jack.
    [7" id="c-fr-0007]
    7. Agricultural machine according to one of the preceding claims, the folding axis (180) and the axis of rotation (26) of the driven pulley being separate from one another.
    [8" id="c-fr-0008]
    8. Agricultural machine according to one of claims 1 to 7, the folding axis (180) and the axis of rotation (26) of the driven pulley being merged and the agricultural machine has a lever return system (70). ).
    [9" id="c-fr-0009]
    9. agricultural machine according to the preceding claim, the return system (70) comprises a lever (450), integral or body with a bearing (45) carrying the driving pulley (21).
    [10" id="c-fr-0010]
    10. Agricultural machine according to one of the preceding claims, the working group being a mowing group or a shoulder grinder.
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    EP3254551A1|2017-12-13|
    PL3254551T3|2019-11-29|
    US20170354082A1|2017-12-14|
    CN107484448A|2017-12-19|
    引用文献:
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    FR3052329B1|2016-06-10|2018-05-25|Kuhn S.A.|AGRICULTURAL MACHINE WITH IMPROVED MILLING MECHANISM|FR3052329B1|2016-06-10|2018-05-25|Kuhn S.A.|AGRICULTURAL MACHINE WITH IMPROVED MILLING MECHANISM|
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    CN111034451A|2019-05-09|2020-04-21|宁波大叶园林设备股份有限公司|Mower with side grass discharging plate capable of being upturned and easily placed|
    法律状态:
    2017-05-22| PLFP| Fee payment|Year of fee payment: 2 |
    2017-12-15| PLSC| Search report ready|Effective date: 20171215 |
    2018-06-26| PLFP| Fee payment|Year of fee payment: 3 |
    2019-06-25| PLFP| Fee payment|Year of fee payment: 4 |
    2021-03-12| ST| Notification of lapse|Effective date: 20210206 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1655362A|FR3052329B1|2016-06-10|2016-06-10|AGRICULTURAL MACHINE WITH IMPROVED MILLING MECHANISM|
    FR1655362|2016-06-10|FR1655362A| FR3052329B1|2016-06-10|2016-06-10|AGRICULTURAL MACHINE WITH IMPROVED MILLING MECHANISM|
    PL17174941T| PL3254551T3|2016-06-10|2017-06-08|Agricultural machine having an improved unfolding mechanism|
    SI201730075T| SI3254551T1|2016-06-10|2017-06-08|Agricultural machine having an improved unfolding mechanism|
    DK17174941.9T| DK3254551T3|2016-06-10|2017-06-08|Agricultural machine with an improved unfolding mechanism|
    RU2017120223A| RU2017120223A|2016-06-10|2017-06-08|MOWING MACHINE CONTAINING AN IMPROVED FOLDING MECHANISM|
    TR2019/09262T| TR201909262T4|2016-06-10|2017-06-08|Cutting machine with an improved opening mechanism.|
    US15/616,966| US10561066B2|2016-06-10|2017-06-08|Cutting machine including an improved unfolding mechanism|
    EP17174941.9A| EP3254551B1|2016-06-10|2017-06-08|Agricultural machine having an improved unfolding mechanism|
    CN201720671547.3U| CN207783574U|2016-06-10|2017-06-09|Agricultural machinery|
    CN201710429631.9A| CN107484448A|2016-06-10|2017-06-09|Include the cutting machine of improved fold mechanism|
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