• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
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  • 优先权
    • 专利摘要:
    An agricultural machine (1) comprises a frame (2) carrying an arm (5) having first and second ends (6, 7) and being able to occupy a lateral position relative to the frame (2), a first unit (10) being connected at the arm (5) and extending laterally between the first and second ends (6, 7), a second unit (11) being connected to the arm (5) and extending laterally beyond the second end (7) , a device (12) connecting the second unit (11) to the arm (5) in the vicinity of its second end (7) and allowing it to pivot relative to the arm (5) about a second longitudinal axis (13) close the second end (7), a mechanism (14) animating members (15, 16, 17) of the first and second units (10, 11) and being carried by the arm (5) in the vicinity of the second end (7). ). According to the invention, the device (12) connects the first unit (10) to the arm (5) in the vicinity of its second end (7), allows the first unit (10) to pivot at work relative to the arm (5) around a first longitudinal axis (25) close to the second end (7), has an axle (26) facing upwards around which the mechanism (14) is pivotally mounted on the arm (5), and the mechanism (14) and at least one of the first and second units (10, 11) can, in a lateral position of the arm (5) relative to the frame (2), pivot jointly about said axis (26).
    公开号:FR3013557A1
    申请号:FR1361494
    申请日:2013-11-22
    公开日:2015-05-29
    发明作者:Sylvain Billard
    申请人:Kuhn SAS;
    IPC主号:
    专利说明:

    [0001] Description: The present invention relates to an agricultural machine, in particular an agricultural machine for harvesting plants, comprising: a chassis that can be attached to a motor vehicle that can move in a direction of travel, an arm connected to the chassis and extending between a first lateral end of the arm and a second lateral end of the arm, a first articulation device connecting the arm to the frame in the vicinity of the first lateral end, this first articulation device allowing the arm to be moved relative to to the frame between a working position, in which the arm extends laterally relative to the frame, and a transport position, in which the arm is pivoted relative to the frame so as to present, perpendicular to the direction of travel, a smaller footprint than in the working position, a first work unit connected to the arm and s' extending in particular, in the working position of the arm and in a direction perpendicular to the direction of travel, from the second lateral end towards the first lateral end, a second working unit connected to the arm and extending in particular, in the working position of the arm and in a direction perpendicular to the direction of travel and oriented from the first lateral end towards the second lateral end, from the second lateral end of the arm, a second articulation device carried by the arm in the vicinity of the second lateral end, the second articulation device connecting the second working unit to the arm, in the vicinity of the second lateral end, the second articulation device allowing the second work unit to rotate relative to the arm around a second geometric axis located near the second end lateral and oriented, when the arm is in the working position, substantially in the direction of travel, - a transmission mechanism for animating working members of the first and second work units, and being in particular carried by the arm in the vicinity from the second lateral end. Such a machine is known from EP 1 175 819 A2. On this machine, the first work unit can be articulated to the arm by means of an axis oriented substantially in the direction of travel. This axis is located substantially midway between the first and second lateral ends of the arm. The first work unit extends between these first and second lateral ends. This first work unit comprises working members which, during work, are animated by a transmission mechanism including carried by the arm in the vicinity of its second lateral end. This transmission mechanism comprises a housing carried by the arm near its second lateral end and a transmission extending at the front of the housing, towards the first work unit. In order to follow the movements of the first unit of work about its axis of articulation to the arm, this transmission must comprise articulated and / or sliding links. Such transmission, however, increases the complexity and the cost of the machine. Such a transmission also assumes regular maintenance and represents a source of failures. In addition, such a transmission limits the pivoting amplitude of the first unit of work about its axis of articulation to the arm. Indeed, its articulated and / or sliding connections have a range of angular variation and / or limited length. On this known machine, each work unit is able to pivot in a plane substantially perpendicular to the direction of advancement. In contrast, in a working position of the arm, each work unit has a constant orientation in a substantially horizontal plane. As a result, this unit of work is not able to retreat from an obstacle it encounters during work. In such a case, this unit of work may suffer serious damage. The present invention aims to provide an agricultural machine, including an agricultural machine for harvesting plants, which does not have the aforementioned drawbacks. For this purpose, the invention is characterized in particular by the fact that the second articulation device connects the first working unit to the arm, in the vicinity of the second lateral end, the second articulation device allows, during work, the first work unit to pivot relative to the arm about a first geometric axis 5 located in the vicinity of the second lateral end and oriented, when the arm is in the working position, substantially in the direction of travel. Thus, the first work unit is connected to the arm near the transmission mechanism. The first geometric axis around which the first work unit can pivot relative to the arm is located near the transmission mechanism. This arrangement allows, with a simple and inexpensive transmission mechanism, a large pivoting amplitude of the first work unit around the first geometric axis. At work, this first work unit can faithfully follow the profile of the terrain on which the machine is moving. The proximity of the transmission mechanism and the first geometric axis makes it possible to reduce the number of degrees of freedom possessed by the motion transmission to the working members of the first work unit. In particular, it is possible to remove a sliding link at the level of the transmission of motion from the arm to the working members of the first work unit. The invention is further characterized by the fact that the second articulation device comprises a pivot axis oriented upwards in the working position of the arm, the transmission mechanism is pivotally mounted on the arm about the axis. In a pivoting position, the transmission mechanism and at least one of the first and second work units can, in a position of the arm in which the arm extends laterally with respect to the frame, pivot jointly about said pivot axis. The possible pivoting of said at least one of the first and second 30 work units around the pivot axis allows this work unit to fade backwards in case of encounter with an obstacle. Said at least one of the first and second work units is thus preserved from significant damage. Furthermore, the pivotal mounting of the transmission mechanism on the arm about the pivot axis and its pivoting with said at least one of the first and second working units around the pivot axis, greatly simplify the transmission mechanism. . Indeed, the latter does not need to have a multitude of joints and / or a sliding connection at the level of the transmission of movement to the working members of said work unit to allow the pivoting of the latter around the body. pivot axis. The simplicity of the transmission mechanism provided by the invention results in improved machine reliability as well as reduced maintenance. Other features and advantages of the invention will emerge from the description below with reference to the accompanying drawings which show an example of non-limiting embodiment of the machine according to the invention. In these drawings: FIG. 1 is a perspective view of an exemplary embodiment of a machine according to the invention coupled to a tractor; Figure 2 shows a view from the rear of the embodiment; Figure 3 shows another view from the rear of the exemplary embodiment; Figure 4 shows a perspective detail view of the exemplary embodiment; Figure 5 shows another detail view of the exemplary embodiment; FIG. 6 represents a view from above of the exemplary embodiment; Figure 7 shows another view from above of the exemplary embodiment. As shown in Figure 1, the machine (1) according to the invention is an agricultural machine for harvesting plants, including fodder. This machine (1) comprises a frame (2). The frame (2) is adapted to be attached to a motor vehicle (3) movable in a forward direction (A). In the remainder of the description, the notions "before", "back" and "behind" are defined with respect to the direction of advancement (A), while the notions "high" and "low" are defined with respect to the ground. According to the embodiment of Figure 1, the frame (2) is designed to be hooked to the hitch of a tractor (4), including the hitch at the rear of the tractor (4) . The machine (1) also comprises an arm (5) connected to the frame (2). The arm (5) extends between a first lateral end (6) of the arm (5) and a second lateral end (7) of the arm (5). The arm (5) is, in the vicinity of the first lateral end (6), connected to the frame (2) by a first articulation device (8). The first hinge device (8) allows the arm (5) to be moved relative to the frame (2) between a working position and a transport position. In the working position of Figures 1 and 2, the arm (5) extends laterally relative to the frame (2). According to the embodiment of the figures, in the working position, the arm (5) extends substantially perpendicular to the direction of advance (A). At least in the working position, the first lateral end (6) of the arm (5) is in the vicinity of the frame (2), while the second lateral end (7) is located at a greater distance from the frame (2) . According to the exemplary embodiment, in the working position of the arm (5), the second lateral end (7) extends out of the way of the motor vehicle (3) constituted by a tractor (4). In the transport position of the arm (5) shown in Figure 3, the latter is pivoted relative to the frame (2) so as to present, perpendicular to the direction of travel (A), a smaller footprint than in the working position. The machine (1) has a working mechanism (9). The working mechanism (9) comprises in particular a first work unit (10) connected to the arm (5). In the working position of the arm (5), this first working unit (10) extends, in a direction perpendicular to the direction of advance (A), from the second lateral end (7) of the arm (FIG. 5) towards the first lateral end (6). According to a rear view of the machine (1) at work, given in FIG. 2, the first working unit (10) extends in particular between the first and second lateral ends (6 and 7) of the arm (5). . According to this same rear view, the first working unit (10) extends substantially between the first and second lateral ends (6 and 7) of the arm (5). According to the exemplary embodiment, in the working position of the arm (5), the first working unit (10) extends mainly between the path of the motor vehicle (3) and the second lateral end (7) of the arm ( 5). During work, the first work unit (10) extends substantially perpendicular to the direction of advance (A). The working mechanism (9) also comprises a second work unit (11) connected to the arm (5). In the working position of the arm (5), this second working unit (11) extends in particular in a direction perpendicular to the direction of advance (A) and oriented from the first lateral end (6) towards the second lateral end (7), from the second lateral end (7) of the arm (5). According to the rear view of the machine (1) to the work given by Figure 2, the second work unit (11) indeed extends in particular from the second lateral end (7) of the arm (5) and mainly beyond arm (5). Following this same rear view, the second work unit (11) extends in the extension of the first work unit (10). During work, the second work unit (11) extends substantially perpendicular to the direction of advance (A). The machine (1) also comprises a second articulation device (12) carried by the arm (5) in the vicinity of the second lateral end (7) of the latter. The second articulation device (12) connects the second working unit (11) to the arm (5) in the vicinity of the second lateral end (7). The second work unit (11) is thus carried by the arm (5) substantially at the second lateral end (7) of the arm (5). The second articulation device (12) allows the second work unit (11) to pivot relative to the arm (5) around a second geometric axis (13) located in the vicinity of the second lateral end (7) and oriented in the working position of the arm (5), substantially in the direction of advance (A). Especially during work, the second work unit (11) can pivot about the second geometric axis (13) so as to follow the terrain profile. The machine (1) further comprises a transmission mechanism (14) for energizing working members (15, 16, 17) of the first and second work units (10 and 11). This transmission mechanism (14) is in particular carried by the arm (5) in the vicinity of the second lateral end (7).
    [0002] Each work unit (10, 11) is a plant harvesting unit. Each work unit (10, 11) has at least one working member (15, 16, 17). According to the exemplary embodiment, a working member (15, 16, 17) is a cutting member for mowing the plants. The cutting member is for example a cutting rotor rotatable about an axis of rotation (18) which, during work, is substantially vertical or slightly inclined forward. This cutting rotor is formed by a disk or drum provided with knives extending beyond the periphery of said disk or drum. The various working members (15, 16, 17) of a work unit (10, 11) are mounted on bearings arranged at more or less regular intervals on a bar (19) and are, in operation, rotated rapid by means of a gear train incorporated in a sealed housing containing a lubricant such as oil. By being rotated, the knives of a cutting rotor sever the plants rising above the ground. At work, there is a partial overlap between the working width of the first work unit (10) and the working width of the second work unit (11). The first work unit (10) has at least one first work member (16). The second work unit (11) has at least one second work member (17). According to the exemplary embodiment shown in FIGS. 1 and 2, the first working member (16) is, perpendicular to the direction of advance (A), at the level of the second lateral end (7) of the arm (5). ). According to this embodiment, the second working member (17) is located, perpendicular to the direction of advance (A), at the second lateral end (7) of the arm (5). A first working width of the first working member (16) overlies, at least partially, a second working width of the second working member (17). The first and second working widths are substantially identical. Each working width of a respective work unit (10, 11) is a continuous working width. The working mechanism (9) has a continuous working width. In addition, at least at work, the first and second work units (10 and 11) are offset relative to each other in the direction of advance (A). One (11) of the first and second work units (10 and 11) is located immediately behind the other (10) of the first and second work units (10 and 11). At work, at least one work member (16) of the first work unit (10) and at least one work member (17) of the second work unit (11) are located behind the work unit (11). other and at a short distance from each other. According to the embodiment of the figures, the first working member (16) and the second working member (17) are located one behind the other and at a short distance from one another. In the direction of advance (A), the first and second working members (16 and 17) are spaced from each other by a value less than their working widths. According to the embodiment illustrated in more detail in Figures 4 and 5, the transmission mechanism (14) comprises a housing (20) carried by the arm (5) in the vicinity of the second lateral end (7). This housing (20) has a first outlet (21) to at least one working member (16) of the first work unit (10). The housing (20) also has a second outlet (22) to at least one working member (17) of the second work unit (11). According to the exemplary embodiment, the first outlet (21) drives the first working member (16) placed at the second lateral end (7) of the arm (5). In addition, the second outlet (22) drives the second working member (17) placed at the second lateral end (7) of the arm (5). The first work member (16) transmits its rotational movement to the other work members (15) of the first work unit (10) by means of the gear train housed in the housing of the first work unit (10). Similarly, the second working member (17) transmits its rotational movement to the other working members (15) of the second work unit (11) by means of the gear train housed in the housing of the second work unit ( 11). The housing (20) is connected to a motor means for moving the working members (15, 16, 17) of the first and second work units (10 and 11). The motor means may be located on the motor vehicle (3) or on the machine (1) itself. According to the embodiment shown in Figure 5, the housing (20) has an inlet (23) connected to the motor means. This inlet (23) is connected to a first transmission shaft (24) shown schematically in Figure 4 and extending along the arm (5) towards the frame (2). This first transmission shaft (24) is moved from the motor means constituted by a power take-off of the tractor (4). The invention is characterized in particular by the fact that the second articulation device (12) connects the first working unit (10) to the arm (5), in the vicinity of the second lateral end (7). arm (5). In addition, the second hinge device (12) allows, during work, the first work unit (10) to pivot relative to the arm (5) around a first geometric axis (25), in particular to follow the terrain profile. This first geometric axis (25) is located in the vicinity of the second lateral end (7) of the arm (5). The first geometric axis (25) is located, perpendicular to the direction of advance (A), at the second lateral end (7). When the arm (5) is in the working position, the first geometric axis (25) is oriented substantially in the direction of advance (A). The proximity of the first geometric axis (25) and the transmission mechanism (14), both placed in the vicinity of the second lateral end (7) of the arm (5), allows a large amplitude pivoting of the first work unit ( 10) relative to the arm (5), especially during work. The amplitude of this pivoting is not limited by the transmission mechanism (14). The invention is also characterized in that the second articulation device (12) comprises a pivot axis (26) facing upwards in the working position of the arm (5). In addition, the transmission mechanism (14) is pivotally mounted on the arm (5) about the pivot axis (26). Finally, the transmission mechanism (14) and at least one of the first and second In a position of the arm (5) in which the arm (5) extends laterally with respect to the frame (2), the work (10 and 11) can pivot together about the pivot axis (26). This joint pivoting can in particular take place when the arm (5) is in the working position. Mounting at least one of the first and second work units (10 and 11) around the substantially vertical pivot axis (26) allows this work unit (10, 11) to fade backwards. in the event of a collision with an obstacle without significant damage. In this case, the joint pivoting of the transmission mechanism (14) prevents the shocks and jolts to which the work unit (10, 11) is subjected from being transmitted to the moving parts of the transmission mechanism (14). The reliability of the transmission mechanism (14) is improved.
    [0003] According to an advantageous characteristic of the invention, said at least one of the first and second work units (10 and 11) comprises a frame (27, 28), the frame (27, 28) carries at least one working member (15). 16, 17) being rotatable relative to the frame (27, 28) by means of the transmission mechanism (14) and about an axis of rotation (18) remaining, during working, at least substantially stationary relative to the frame (27, 28), the frame (27, 28) is carried by the arm (5), in an articulated manner, via a first bearing (29, 30) connected to the frame (27, 28) and having as axis the corresponding first or second geometric axis (25, 13) of said at least one of the first and second work units (10 and 11), and a second bearing (31) related to the first step (29, 30) and the arm (5) and having as axis the pivot axis (26). Said at least one of the first and second work units (10 and 11) is thus articulated to the arm (5) via two bearings (29 and 31, 30 and 31) arranged one after the other and between the arm (5) and the frame (27, 28) corresponding. Such an arrangement is simple and inexpensive. The first work unit (10) has a first frame (27). The second work unit (11) has a second frame (28). The first frame (27), respectively the second frame (28), is rigid, free of articulated sections to each other. The first frame (27) has a first beam (32). The second frame (28) has a second beam (33). At work, the first beam (32), respectively the second beam (33) extends substantially perpendicular to the direction of advance (A). In addition, it extends above the working members (15, 16, 17) of the corresponding work unit (10, 11). In view of the top of the machine (1) at work, the first beam (32), respectively the second beam (33), extends substantially between the lateral ends of the bar (19) carrying the working members (15, 16, 17) of the corresponding work unit (10, 11). As is apparent from FIG. 4, the first beam (32) comprises, at its lateral end close to the second lateral end (7) of the arm (5), a first gearbox (34). This first gearbox (34) carries the first work member (16) and allows to animate it around its axis of rotation (18). The second beam (33) comprises, at its lateral end adjacent to the second lateral end (7) of the arm (5), a second gearbox (35). This second gearbox (35) carries the second working member (17) and allows to animate it around its axis of rotation (18). The first frame (27) is carried by the arm (5) via in particular a first bearing (29) connected to the first frame (27). This first bearing (29) has as its axis the first geometric axis (25). The fixed part (36) of this first bearing (29) is connected to the transmission mechanism (14), while the rotating part (37) of this first bearing (29) is connected to the first frame (27). According to the embodiment of Figure 4, the fixed portion (36) of the first bearing (29) is connected to the housing (20). The rotating part (37) is connected to the first gearbox (34). The first outlet (21) of the housing (20) is connected to a first shaft (38) passing through the first bearing (29) and extending to transmission means (39) housed inside the first gearbox ( 34). The housing (20) and the first gearbox (34) are connected to each other substantially sealingly through the first bearing (29). The first shaft (38) is therefore advantageously protected from soiling. In addition, the risk that plants may wrap around the first shaft (38) during work is excluded. The first shaft (38) is coaxial with the first geometric axis (25). Such an arrangement makes it possible to dispense with a sliding and / or articulated connection (splines, gimbal) at the level of the transmission of movement between the first outlet (21) and the first gearbox (34). According to a similar arrangement, the second frame (28) is carried by the arm (5) via in particular another first bearing (30) connected to the second frame (28). This other first bearing (30) has as its axis the second geometric axis (13). The fixed part (40) of this other first bearing (30) is connected to the transmission mechanism (14), while the rotating part (41) of the other first bearing (30) is connected to the second frame (28). According to the embodiment of the figures, the fixed part (40) of the other first bearing (30) is connected to the housing (20).
    [0004] The rotating part (41) is connected to the second gearbox (35). The second outlet (22) of the housing (20) is connected to a second shaft (42) passing through the other first bearing (30) and extending to transmission means (43) housed inside the second housing referral (35). The housing (20) and the second gearbox (35) are connected to each other substantially sealingly through the other first bearing (30). The second shaft (42) is therefore advantageously protected from soiling. In addition, the risk that plants will wrap around the second shaft (42) during work is excluded. The second shaft (42) is coaxial with the second geometric axis (13). Such an arrangement makes it possible to dispense with a sliding and / or articulated connection (splines, gimbal) at the level of the transmission of movement between the second outlet (22) and the second gearbox (35).
    [0005] As it appears in FIGS. 4 and 5, the first frame (27) is carried by the arm (5) also via a second bearing (31) connected to the first bearing (29) and the arm (5). ). The fixed part (44) of this second bearing (31) is connected to the arm (5), while the rotating part (45) of this second bearing (31) is connected to the transmission mechanism (14). According to the exemplary embodiment, the rotating part (45) of the second bearing (31) is connected to the housing (20). As a result, the rotating part (45) of the second bearing (31) is connected to the fixed part (36) of the first bearing (29). In addition, the housing (20) is pivotally mounted on the arm (5) by means of the second bearing (31) having its axis pivot axis (26). Thus, the transmission mechanism (14), besides providing the animation of the working members (15, 16) of the first work unit (10), forms a carrier element of the first work unit (10). . By this carrier element, the first frame (27) of the first work unit (10) is directly carried by the arm (5). This design reduces the weight of the machine (1), more particularly the weight of the elements suspended relative to the frame (2). The transmission mechanism (14) and the first frame (27) form an assembly rigid in rotation in a plane perpendicular to the pivot axis (26). The transmission mechanism (14) therefore follows the movements that the first work unit (10) performs around the pivot axis (26). In a similar arrangement, the second frame (28) is carried by the arm (5) through the second bearing (31) also connected to the other first bearing (30). Indeed, the rotating part (45) of the second bearing (31) is connected via the housing (20) to the fixed part (40) of the other first bearing (30). Thus, the transmission mechanism (14), besides providing the animation of the working members (15, 17) of the second work unit (11), forms a carrier element of the second work unit (11). . By this carrier element, the second frame (28) of the second work unit (11) is directly carried by the arm (5). The transmission mechanism (14) and the second frame (28) form a rigidly rotating assembly in a plane perpendicular to the pivot axis (26). The transmission mechanism (14) therefore follows the movements that the second work unit (11) performs around the pivot axis (26). Thus, according to an advantageous characteristic of the invention, the second articulation device (12) is configured so that in a position of the arm (5) in which the latter extends laterally with respect to the frame (2), in particular in the working position of the arm (5), the transmission mechanism (14) and the first work unit (10) can pivot jointly about the pivot axis (26), and the transmission mechanism (14) and the second work unit (11) can pivot jointly about the pivot axis (26). The transmission mechanism (14) can thus be freed from a multitude of joints and / or a sliding connection at the level of the transmission of movement towards the working members (15, 16) of the first work unit. (10), as well as to those of the second work unit (11). In addition, each work unit (10, 11) is pivotable about the pivot axis (26) in the event of a collision of the working mechanism (9) with an obstacle. The joint pivoting of the transmission mechanism (14) and this work unit (10, 11) prevents the shocks and jolts to the working mechanism (9) from being transmitted to the moving parts of the transmission mechanism (14). According to the exemplary embodiment of the invention, the first work unit (10), the second work unit (11) and the transmission mechanism (14) can pivot jointly about the pivot axis (26). . During the work, the resistant forces experienced by the first work unit (10) and which tend to pivot it backwards relative to the arm (5) are thus to a greater or lesser extent compensated by the efforts resistant at the same time by the second work unit (11). The invention provides in particular that the transmission mechanism (14), the first frame (27) and the second frame (28) form an assembly rigid in rotation in a plane perpendicular to the pivot axis (26). According to an advantageous characteristic of the invention, the first geometric axis (25) of the first work unit (10) intersects at least substantially the pivot axis (26). This feature makes it possible in particular to link the inlet (23) of the housing (20) to a second transmission shaft (46) coaxial with the pivot axis (26) and to arrange, within the housing (20), a first gearbox gear (47) between said second drive shaft (46) and the first shaft (38). This feature also makes it possible to reduce the mechanical stresses experienced by the transmission mechanism (14), in particular by the second bearing (31) and the housing (20), when the first working unit (10) pivots around the first axis geometric (25). According to the exemplary embodiment, the first geometric axis (25) intersects the pivot axis (26). According to another advantageous characteristic of the invention, the second geometric axis (13) of the second work unit (11) crosses at least substantially the pivot axis (26). This feature makes it possible in particular to link the inlet (23) of the housing (20) to the second transmission shaft (46) and to arrange, within the housing (20), a second gear wheel (48) between this second transmission shaft (46) and the second shaft (42). This feature also makes it possible to reduce the mechanical stresses experienced by the transmission mechanism (14), in particular by the second bearing (31) and the housing (20), when the second working unit (11) pivots about the second axis geometric (13). According to the exemplary embodiment, the second geometric axis (13) crosses the pivot axis (26). It will also be noted in the embodiment of FIGS. 4 and 5 that each of the first and second geometric axes (25 and 13) at least substantially crosses the pivot axis (26). Moreover, the first and second geometric axes (25 and 13) are aligned. As is clear from FIG. 1, the first work unit 30 (10) has a first portion (49) arranged in the working position of the arm (5) and in a direction perpendicular to the direction of the arm. advancement (A) between the first lateral end (6) and the second lateral end (7).
    [0006] At work, this first portion (49) occupies a first working position. According to the exemplary embodiment, in this first working position, the first portion (49) extends substantially perpendicular to the direction of advance (A). According to an advantageous characteristic of the invention, in a position of the arm (5) in which the latter extends laterally relative to the frame (2), the first portion (49) can leave the first working position through a first rearward pivoting relative to the arm (5), about the pivot axis (26). This first pivoting can in particular occur in the working position of the arm (5). This first rearward pivoting places the first portion (49) of the first work unit (10) in a position relative to the arm (5) which is shown in FIGS. 4 and 6. This position is a safety position that the first work unit (10) can join when the first portion (49) hits an obstacle. This can especially occur in the event of collision between this obstacle and a working member (15, 16) and / or the frame (27) of the first portion (49). As is clear from FIG. 1, the second work unit (11) has a second portion (50) arranged in the working position of the arm (5) and in a direction perpendicular to the direction of advancement. (A) and oriented from the first lateral end (6) to the second lateral end (7), beyond the second lateral end (7). At work, this second portion (50) occupies a second working position. According to the exemplary embodiment, in this second working position, the second portion (50) extends substantially perpendicularly to the direction of advance (A). FIG. 6 shows that in a position of the arm (5) in which the latter extends laterally with respect to the frame (2), the second portion (50) can leave the second working position by means of a second pivoting forwardly relative to the arm (5), about the pivot axis (26). This second pivoting can in particular occur in the working position of the arm (5) visible in FIG.
    [0007] According to the exemplary embodiment, the first pivoting and the second pivoting are connected to each other. The first pivoting induces the second pivoting. Indeed, the first frame (27) and the second frame (28) form an assembly rigid in rotation in a plane perpendicular to the pivot axis (26). The machine (1) according to the invention advantageously comprises a first triggering means (51) arranged between the arm (5) and the first or second work unit (10, 11). The first triggering means (51) allows the first pivoting of the first portion (49), only when a force exerted on the first portion (49) causes a force on the first triggering means (51) exceeding a first predetermined threshold Thus, during work, the first triggering means (51) normally holds the first portion (49) in an orientation substantially perpendicular to the advancement direction (A). However, in the event of a collision with an obstacle causing a force greater than the first threshold on the first triggering means (51), the first portion (49) may fade towards its safety position. According to the embodiment of FIG. 4, the first triggering means (51) comprises a trigger cylinder (52) articulated to the arm (5) and to the first frame (27), more precisely to the arm (5) and to the housing (20) of the transmission mechanism (14). According to an advantageous characteristic of the invention, when the first triggering means (51) authorizes the first pivoting of the first portion (49), the first triggering means (51) induces an additional pivoting upwards of the first portion ( 49) around the first geometric axis (25). Thus, the working members (15, 16) of the first portion (49) are raised from the ground and can pass over an obstacle of the type stone or tree stump at the origin of the trigger. Any damage to the first work unit (10) is thus considerably reduced. According to the embodiment shown in Figure 4, a first cylinder (53) is articulated between the first frame (27) and the arm (5) or the transmission mechanism (14). A variation in length of this first jack (53) rotates the first work unit (10) around the first geometric axis (25). The first jack (53) is hydraulically connected to the trigger cylinder (52). In this way, when the release cylinder (52) allows the first pivoting about the pivot axis (26), it controls the first cylinder (53) so that it simultaneously raises the first portion (49) around the first geometric axis (25). According to an advantageous characteristic of the machine (1), it comprises a second triggering means (54) disposed between the arm (5) and the first or second work unit (10, 11). When the second portion (50) performs the second pivoting, the second triggering means (54) induces an additional upward pivoting of the second portion (50) about the second geometric axis (13). This additional upward pivoting of the second portion (50) reduces its friction surface to the ground, thus facilitating the joint pivoting of the first portion (49) rearwardly about the pivot axis (26). In addition, the additional pivoting upwards of the second portion (50) reduces the risk that the second portion (50) will hit, during its second pivoting forward, an obstacle located at the front of the machine ( 1). According to the embodiment of Figure 4, a second cylinder (55) is articulated between the second frame (28) and the arm (5) or the transmission mechanism (14). A variation in length of this second jack (55) rotates the second work unit (11) around the second geometric axis (13). The second jack (55) is hydraulically connected to the trigger cylinder (52). In this way, when the release cylinder (52) allows the first pivoting around the pivot axis (26), it controls the second cylinder (55) so that it simultaneously raises the second portion (50) around the second geometric axis (13). According to an advantageous characteristic of the invention, the machine (1) comprises a stop means (56) allowing the first rearward pivoting of the first portion (49) of the first work unit (10) from the first position working. Conversely, the abutment means (56) limits, or even prevents, a pivoting of the first portion (49) forwardly relative to the arm (5), about the pivot axis (26), since the first working position. Thus, the stop means (56) prevents the first portion (49) from colliding with parts of the frame (2) located at the front of the machine (1) and / or with parts of the motor vehicle (3). This advantageous effect will be understood on examining FIG. 6 on which a wheel of the tractor (4) placed in front of the first lateral end (6) of the arm (5) is distinguished. According to the exemplary embodiment, the abutment means (56) prevents such a collision between the working member (15) closest to the frame (2) and the tractor wheel (4) arranged on the same side. According to the representation given in Figure 4, the stop means (56) comprises for example a first portion (57) connected to the transmission mechanism (14) and a second portion (58) connected to the arm (5). These two parts (57 and 58) can pivot relative to each other about the pivot axis (26) freely in one direction but in a limited way in the other direction. The stop means (56) may further be configured to limit or prevent pivoting of the second portion (50) rearwardly relative to the arm (5) about the pivot axis (26). from a second position relative to the arm (5) occupied by the second portion (50) during operation of the machine (1). Thus, if during work the second portion (50) strikes an obstacle in front of it, the second work unit (11) retains its initially occupied position relative to the arm (5). In order to protect the second work unit (11) in such a case, the invention provides a third triggering means (59) connected to the frame (2). This third trigger means (59) allows the arm (5) to fade backwards relative to the motor vehicle (3), when a force exerted on the arm (5) causes a force on the third means. for triggering (59) exceeding a third determined threshold Thus, in the event of a collision of the second portion (50) with an obstacle placed in front of it, the second working unit (11) can pivot rearward with respect to the motor vehicle ( 3), about an axis (60) directed upwards and located for example at the frame (2). The arm (5) and the second working unit (11) are thus oriented as shown in FIG. 7. According to the embodiment of this figure, the third triggering means (59) is articulated between the arm ( 5) and the frame (2). It comprises for example a jack. The first hinge device (8) connecting the arm (5) to the frame (2) has the axis (60) directed upwards about which the arm (5) can pivot backwards. In addition, the invention can provide that at work, a collision of the first portion (49) with an obstacle causes a joint trip of the first and third triggering means (51 and 59). In this case, the first portion (49) pivots rearwardly relative to the arm (5), about the pivot axis (26) (Figure 6), while the arm (5) pivots backwardly. relative to the motor vehicle (3) (Figure 7). According to an advantageous characteristic of the invention, the second articulation device (12) allows each of the first and second working units (10 5 and 11) to pivot relative to the arm (5) in the working position, around its respective first or second geometric axis (25, 13) upwardly and downwardly from a horizontal position independently of the other of the first and second work units (10 and 11). This characteristic is particularly apparent from FIG. 2. Thus, each work unit (10, 11) is able to follow the profile of the ground well. Due to the independence of the respective pivots, the working mechanism (9) has a good ground adaptation, including with work units (10 and 11) of large width. In order to have a good quality of work, the machine (1) comprises a lightening means (61, 62) of the first and second work units (10 and 11). This is arranged between the arm (5) and at least one of the first and second work units (10 and 11). According to the exemplary embodiment, a first lightening means (61) is articulated between the first frame (27) and the arm (5) or the transmission mechanism (14). A second lightening means (62) is hinged between the second frame (28) and the arm (5) or the transmission mechanism (14). As shown in Figure 4, the first lightening means (61) comprises for example the first cylinder (53), while the second lightening means (62) comprises for example the second cylinder (55). According to an advantageous characteristic, the machine (1) is transposed from a working configuration (FIG. 1) to an operating and / or transport configuration (FIG. 3), by respective pivoting in the same direction, of the second unit. working (11) relative to the arm (5) and the arm (5) relative to the frame (2). The maneuvering configuration, not shown, is for example used to pass the first and second work units (10 and 11) over an obstacle or a windrow. It is located between the working configuration and the transport configuration. According to the exemplary embodiment, the first articulation device (8) comprises a hinge axis (63). In the working position of the arm (5), the hinge axis (63) is oriented substantially in the direction of advance (A). During work, the arm (5) can pivot up and down about the hinge axis (63), so that the first and second work units (10 and 11) move vertically to follow the terrain profile. To move from the working configuration to the maneuver and / or transport configuration, the arm (5) is pivoted upwards relative to the frame (2), around the hinge axis (63). To move from the working configuration to the maneuver and / or transport configuration, the second work unit (11) is pivoted relative to the arm (5) in the same direction as the arm (5) relative to the chassis ( 2), namely upwards around the second geometric axis (13). This kinematics makes it possible, for the maneuvers and / or for the transport, to raise the second unit of work (11) of the ground in important proportions. In addition, this kinematics allows easy transposition of the machine (1) to the maneuvering configuration and / or transport even when it is on a raised ground on the side where is the second work unit (11). According to an advantageous characteristic, the machine (1) is transposed from the working configuration to the transport configuration, by respective pivoting in the same direction, the second working unit (11) with respect to the arm (5), an angle of between 90 ° and 180 °, around the second geometric axis (13), and the arm (5) relative to the frame (2), about the hinge axis (63). Thus, in the transport configuration of the machine (1), the working mechanism (9) occupies a reduced width. With the arm (5) folded upwards relative to the frame (2), the working mechanism (9) has a reduced height, close to half of its total working width. According to the embodiment of Figure 3, the arm (5) extends substantially vertically or somewhat beyond the vertical in the transport configuration of the machine (1). The second work unit (11) is rotated about the second geometric axis (13) by an angle of about 180 °. This pivoting about 180 ° is facilitated by the shifting of the first and second work units (10 and 11) between them in the direction of advance (A). This same offset allows the second work unit (11) folded about 180 ° to extend behind the arm (5) and to fit more or less in the footprint of the latter, seen from the rear of the machine (1). According to another advantageous characteristic, the machine (1) is transposed from the work configuration to the transport configuration by pivoting upwards of the second work unit (11) with respect to the arm (5) in the working position, around the second geometric axis (13), an angle of between 90 ° and 180 °, and then pivoting upwardly of the arm (5) relative to the frame (2). Thus, the transposition of the working configuration to the transport configuration provides a first phase during which the first work unit (10) remains on the ground. During this first phase, the second work unit (11) is rotated around the second geometric axis (13). According to the exemplary embodiment, the angle of this pivoting is close to 180 °. The second work unit (11) then joins the position it finally occupies with respect to the arm (5) in the transport configuration of the machine (1). The second work unit (11) can thus be rotated without the machine (1) being destabilized, because the first work unit (10) serves as a ground support. Only in a second step, the arm (5) is pivoted upwardly about the hinge axis (63). The additional stability allowed by this sequencing of movements allows work units (10 and 11) of large width and / or work units (10 and 11) having, at work, a significant lateral offset relative to the motor vehicle (3). ). This sequencing also makes it possible to reduce the power that the machine (1) or the motor vehicle (3) must provide to drive the actuators necessary for the transposition of the working configuration to the transport configuration. According to the exemplary embodiment, the machine (1) according to the invention may comprise, besides an arm (5) and two work units (10 and 11) arranged on one side of the frame (2), a second arm (5). ') carrying two other work units (10' and 11 ') arranged on the other side of the frame (2). Such a design makes it possible to obtain a very large working width, for example between ten and fifteen meters.
    [0008] Of course, the invention is not limited to the embodiment described and shown in the accompanying figures. Modifications are possible, in particular as regards the constitution, the arrangement or the number of the various elements, by different combination of the above-mentioned characteristics, or by substitution of technical equivalents, without thereby going outside the scope of protection of the invention.
    权利要求:
    Claims (16)
    [0001]
    REVENDICATIONS1. Agricultural machine (1), in particular an agricultural machine (1) for plant harvesting, comprising: a frame (2) attachable to a motor vehicle (3) capable of moving in a direction of travel (A), - an arm (5) connected to the frame (2) and extending between a first lateral end (6) of the arm (5) and a second lateral end (7) of the arm (5), - a first articulation device (5) 8) connecting the arm (5) to the frame (2) in the vicinity of the first lateral end (6), this first articulation device (8) allowing the arm (5) to be displaced relative to the frame (2) between a working position, in which the arm (5) extends laterally with respect to the frame (2), and a transport position, in which the arm (5) is pivoted relative to the frame (2) so as to present , perpendicular to the direction of advance (A), a smaller footprint than in the working position, a first u working unit (10) connected to the arm (5) and extending in particular, in the working position of the arm (5) and in a direction perpendicular to the direction of travel (A), from the second lateral end (5); 7) towards the first lateral end (6), a second working unit (11) connected to the arm (5) and extending in particular, in the working position of the arm (5) and in a direction perpendicular to the direction of advance (A) and oriented from the first lateral end (6) towards the second lateral end (7), from the second lateral end (7) of the arm (5), a second articulation device (12) carried by the arm (5) in the vicinity of the second lateral end (7), the second articulation device (12) connecting the second working unit (11) to the arm (5), in the vicinity of the second lateral end ( 7), the second hinge device (12) allowing the second unit working piece (11) to pivot relative to the arm (5) around a second geometric axis (13) situated in the vicinity of the second lateral end (7) and oriented, when the arm (5) is in the working position, substantially in the advancing direction (A), a transmission mechanism (14) for energizing working members (15, 16, 17) of the first and second work units (10 and 11), and being particularly supported by the arm (5) in the vicinity of the second lateral end (7), characterized in that the second articulation device (12) connects the first working unit (10) to the arm (5), in the vicinity of the second end lateral (7), the second articulation device (12) allows, during work, the first work unit (10) to pivot relative to the arm (5) around a first geometric axis (25) located in the vicinity of the second lateral end (7) and oriented, when the arm (5) is in the position of tr substantially in the direction of travel (A), the second articulation device (12) has a pivot axis (26) facing upwards in the working position of the arm (5), the transmission mechanism ( 14) is pivotally mounted on the arm (5) about the pivot axis (26), the transmission mechanism (14) and at least one of the first and second work units (10 and 11) can, in a position of the arm (5) in which the arm (5) extends laterally with respect to the frame (2), pivot jointly about the pivot axis (26).
    [0002]
    2. Machine according to claim 1, characterized in that said at least one of the first and second work units (10 and 11) comprises a frame (27, 28), the frame (27, 28) carries at least one housing member. the work (15, 16, 17) being rotatable relative to the frame (27, 28) by means of the transmission mechanism (14) and about an axis of rotation (18) 301 5 5 7 during the work, at least substantially stationary relative to the frame (27, 28), the frame (27, 28) is supported by the arm (5) in an articulated manner via a first bearing (29, 30) connected to the frame (27, 28) and axially corresponding to the first or second geometric axis (25, 13) of said at least one of the first and second work units (10 and 11), and a second bearing (31) connected to the first bearing (29, 30) and the arm (5) and having the axis of pivoting (26). 10
    [0003]
    3. Machine according to claim 1 or 2, characterized in that the corresponding first or second geometric axis (25, 13) of said at least one of the first and second work units (10 and 11) intersect at least substantially the pivot axis (26). 15
    [0004]
    4. Machine according to any one of claims 1 to 3, characterized in that the second articulation device (12) is configured so that in a position of the arm (5) in which the arm (5) extends laterally. relative to the frame (2), the transmission mechanism (14) and the first work unit (10) can pivot jointly about the pivot axis (26), and the transmission mechanism (14) and the second working unit (11) can pivot jointly about the pivot axis (26).
    [0005]
    5. Machine according to any one of claims 1 to 4, characterized in that the first work unit (10) comprises a first portion (49) arranged in the working position of the arm (5) and following a perpendicular to the direction of travel (A), between the first lateral end (6) and the second lateral end (7), in a position of the arm (5) in which the arm (5) extends laterally through relative to the frame (2), the first portion (49) can leave a first working position by first pivoting rearwardly relative to the arm (5) about the pivot axis (26).
    [0006]
    6. Machine according to any one of claims 1 to 5, characterized in that the second work unit (11) comprises a second portion (50) arranged in the working position of the arm (5) and in a direction perpendicular to the direction of advance (A) and oriented from the first lateral end (6) towards the second lateral end (7), beyond the second lateral end (7), in a position of the arm (5) in the arm (5) extends laterally with respect to the frame (2), the second portion (50) can leave a second working position via a second forward pivoting relative to the arm (5). around the pivot axis (26).
    [0007]
    Machine according to claim 5, characterized in that it comprises a first triggering means (51) arranged between the arm (5) and the first or second working unit (10, 11), the first triggering means ( 51) allows the first pivoting of the first portion (49) of the first work unit (10), only when a force exerted on the first portion (49) causes a force on the first triggering means (51) exceeding one first threshold
    [0008]
    8. Machine according to claim 7, characterized in that when the first triggering means (51) allows the first pivoting of the first portion (49), the first triggering means (51) induces an additional pivoting upwards of the first portion (49). first portion (49) around the first geometric axis (25).
    [0009]
    9. Machine according to claim 6, characterized in that it comprises a second triggering means (54) disposed between the arm (5) and the first or second work unit (10, 11), when the second portion (50) ) performs the second pivoting, the second triggering means (54) induces an additional upward pivoting of the second portion (50) about the second geometric axis (13).
    [0010]
    10. Machine according to claim 5, characterized in that it comprises a stop means (56) allowing the first rearward pivoting of the first portion (49) of the first work unit (10) from the first position of working, the abutment means (56) limits a pivoting of the first portion (49) forwardly relative to the arm (5), about the pivot axis (26), from the first working position.
    [0011]
    11. Machine according to claim 5, characterized in that the second work unit (11) comprises a second portion (50) disposed in the working position of the arm (5) and in a direction perpendicular to the direction of advancement (A) and oriented from the first lateral end (6) to the second lateral end (7), beyond the second lateral end (7), the machine (1) comprises an abutment means (56) limiting a pivoting the second portion (50) rearwardly relative to the arm (5), about the pivot axis (26), from a second position relative to the arm (5) occupied by the second portion (50) during the work of the machine
    [0012]
    12. Machine according to any one of claims 1 to 11, characterized in that the second articulation device (12) allows each of the first and second work units (10 and 11) to pivot relative to the arm (5). in the working position, around its first or second geometric axis (25,
    [0013]
    13), upwardly and downwardly from a horizontal position, independently of the other of the first and second work units (10 and 11). 13. Machine according to any one of claims 1 to 12, characterized in that it comprises a lightening means (61, 62) of the first and second work units (10 and 11) disposed between the arm (5). and at least one of the first and second work units (10 and 11).
    [0014]
    Machine according to any one of claims 1 to 13, characterized in that the machine (1) is transposed from a working configuration to a maneuvering configuration and / or a transport configuration, by respective pivoting of the same sense, of the second work unit (11) with respect to the arm (5), upwards around the second geometric axis (13), and the arm (5) with respect to the frame (2), around an axis hinge (63) oriented, in the working position of the arm (5), substantially in the direction of advance (A).
    [0015]
    15. Machine according to any one of claims 1 to 13, characterized in that the machine (1) is transposed from a working configuration to a transport configuration, by respective pivoting in the same direction, the second unit of work (11) relative to the arm (5), an angle of between 90 ° and 180 °, around the second geometric axis (13), and the arm (5) relative to the frame (2), around a hinge pin (63) oriented, in the working position of the arm (5), substantially in the direction of advance (A).
    [0016]
    Machine according to any one of claims 1 to 13, characterized in that the machine (1) is transposed from a work configuration to a transport configuration by pivoting upwards of the second work unit (11). relative to the arm (5) in the working position, around the second geometric axis (13), by an angle of between 90 ° and 180 °, then by pivoting upwards of the arm (5) relative to the chassis (2 ).
    类似技术:
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    同族专利:
    公开号 | 公开日
    CN105744825B|2018-07-10|
    DK3071008T3|2018-01-08|
    CN105744825A|2016-07-06|
    RU2662180C1|2018-07-24|
    EP3071008B1|2017-09-27|
    WO2015075356A1|2015-05-28|
    PL3071008T3|2018-03-30|
    FR3013557B1|2016-01-01|
    AR098407A1|2016-05-26|
    NZ719489A|2021-07-30|
    AU2014351686B2|2018-03-29|
    AU2014351686A1|2016-05-19|
    SI3071008T1|2018-01-31|
    RU2016124761A|2017-12-25|
    US20160255762A1|2016-09-08|
    EP3071008A1|2016-09-28|
    US9877423B2|2018-01-30|
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    CN107615972A|2017-09-30|2018-01-23|江苏大学|A kind of baler connection group rotating disk knife cutter device|
    FR3073705B1|2017-11-21|2019-12-20|Kuhn S.A.|AGRICULTURAL MACHINE WITH AN IMPROVED KINEMATICS SAFETY SYSTEM|
    FR3073704B1|2017-11-21|2019-12-20|Kuhn S.A.|AGRICULTURAL MACHINE HAVING A SIMPLIFIED SECURITY SYSTEM ALLOWING A TOOL OR TOOL GROUP CONNECTED TO A HITCH SUPPORT BY A CARRIER ARM OF CARRYING OUT A SECURITY MOVEMENT|
    法律状态:
    2015-10-23| PLFP| Fee payment|Year of fee payment: 3 |
    2016-10-24| PLFP| Fee payment|Year of fee payment: 4 |
    2017-10-20| PLFP| Fee payment|Year of fee payment: 5 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1361494A|FR3013557B1|2013-11-22|2013-11-22|AGRICULTURAL MACHINE, IN PARTICULAR A MACHINE FOR THE HARVEST OF PLANTS, COMPRISING TWO ARTICULATED WORKING UNITS JOINED TO A SINGLE ARM|FR1361494A| FR3013557B1|2013-11-22|2013-11-22|AGRICULTURAL MACHINE, IN PARTICULAR A MACHINE FOR THE HARVEST OF PLANTS, COMPRISING TWO ARTICULATED WORKING UNITS JOINED TO A SINGLE ARM|
    ARP140104269A| AR098407A1|2013-11-22|2014-11-13|AGRICULTURAL MACHINE, ESPECIALLY A MACHINE FOR THE COLLECTION OF VEGETABLES THAT INCLUDES TWO WORK UNITS ARTICULATED TO A SAME SIDE ARM|
    RU2016124761A| RU2662180C1|2013-11-22|2014-11-14|Agricultural machine, in particular machine for harvesting plant, comprising two driven working units that are articulated on a single lateral arm|
    AU2014351686A| AU2014351686B2|2013-11-22|2014-11-14|Agricultural machine, in particular machine for harvesting plant matter, comprising two driven working units that are articulated on a single lateral arm|
    US15/032,148| US9877423B2|2013-11-22|2014-11-14|Agricultural machine, in particular a machine for harvesting plants, comprising two driven work units articulated to a same lateral arm|
    NZ719489A| NZ719489A|2013-11-22|2014-11-14|Agricultural machine, in particular a machine for harvesting plants, comprising two driven work units articulated to a same lateral arm|
    EP14821705.2A| EP3071008B1|2013-11-22|2014-11-14|Agricultural machine, in particular machine for harvesting plant matter, comprising two driven working units that are articulated on a single lateral arm|
    DK14821705.2T| DK3071008T3|2013-11-22|2014-11-14|AGRICULTURAL MACHINE, ESPECIALLY MACHINE FOR PLANT HARVESTING, WITH TWO DRIVED WORKING UNITS LED CONNECTED WITH THE SAME LATER ARM|
    PCT/FR2014/052900| WO2015075356A1|2013-11-22|2014-11-14|Agricultural machine, in particular machine for harvesting plant matter, comprising two driven working units that are articulated on a single lateral arm|
    PL14821705T| PL3071008T3|2013-11-22|2014-11-14|Agricultural machine, in particular machine for harvesting plant matter, comprising two driven working units that are articulated on a single lateral arm|
    SI201430487T| SI3071008T1|2013-11-22|2014-11-14|Agricultural machine, in particular machine for harvesting plant matter, comprising two driven working units that are articulated on a single lateral arm|
    CN201480063477.2A| CN105744825B|2013-11-22|2014-11-14|Including the agricultural machinery of be driven two working cells, the especially plant harvester for being articulated with same side arm|
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