法国专利FR3028212A1 PNEUMATIC AGRICULTURAL

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专利摘要:
A tire (3) non-inflatable agricultural tool (1) comprising a sole, a tread, and a pair of flanks connecting the sole to the tread. A first flank extends from the sole to the tread, while the second includes an inner portion extending from the sole to the tread and an outer portion projecting from the tread. The first sidewall and the tread are arranged to jointly maintain the outer portion of the second side in the extension of the inner portion).
公开号:FR3028212A1
申请号:FR1460861
申请日:2014-11-10
公开日:2016-05-13
发明作者:Olivier Phely；Denis Piou
申请人:Otico SAS；
IPC主号:

专利说明:

[0001] The invention relates to agricultural tools in general, and in particular tools for equipping a seeder.
[0002] A planter generally comprises several tools arranged one after the other: at least one head tool, typically a share, a disk or a tooth, arranged to open a groove in the ground; an intermediate tool, arranged to place a seed or a seed at the bottom of the furrow; one or more tail tools that close the furrow and / or tamp the soil near the furrow. We are particularly interested in tools that can close the furrow, at least in part.
[0003] The seeders can be used on raw land, that is to say on which the land has not previously been worked. In this case, the soil may be dry and friable, and / or soil littered with waste such as crop residues or roots, which complicates the operation of the seed drill. Specific tools are then used, capable of operating under these difficult conditions. These are usually designed to be very rigid. For the closure of the groove, it is conventionally used as a tool a rotating assembly of metal claws. When a tool of this type encounters a portion of wet or sticky ground, the claws are soiled and the tool becomes virtually ineffective.
[0004] The Claimant has set itself the goal of improving the situation. It proposes a non-inflatable tire for agricultural implement of the type comprising a sole, a tread, and a pair of sidewalls connecting the sole to the tread. A first of these flanks extends from the sole to the tread. The second comprises an inner portion extending from the sole to the tread and an outer portion projecting from the tread. The first sidewall and the tread are arranged to jointly maintain the outer portion of the second side in the extension of the inner portion. The proposed tire is able to penetrate hard floors. It allows to work the 5 rough grounds. In use, the proposed tire makes it possible to dispense with cleaning and / or plowing the ground before starting a new crop. The outer portion forms a more rigid portion of the tire, capable of penetrating the ground. In particular, this makes the tire in question robust and usable for closing furrows, even on rough ground. The rest of the tire, on the contrary, is quite flexible, which facilitates its cleaning, in particular by promoting the take-off of the earth. The proposed tire generally deforms during rolling while its outer portion remains in its initial orientation, which allows to break the surface layers of the ground, and to enter. The tire is suitable for sticky terrain, for example where the earth is wet. The earth that could adhere to it is peeled off by deformation movements. In short; the proposed tire has a self-cleaning character absent from conventional tools. The tread of the proposed tire can serve as a depth gauge: it follows the unevenness of the terrain so that the outer portion of the tire 25 penetrates the earth to a substantially constant depth. This makes it possible to dispense with the gauge wheels which are conventionally associated with the tail tools. The proposed tire has a dual dynamic behavior: locally, a deformation resistance to act on the solid earth, and overall malleability that reduces the risk of accumulation of this earth.
[0005] According to a second aspect of the invention, the Applicant proposes an agricultural tool comprising at least one wheel including a wheel body and a tire as defined above and mounted around the wheel body.
[0006] The wheel can be rotatably mounted about an axis, the axis being inclined at a non-zero angle with respect to the ground and / or inclined at a non-straight angle with respect to the direction of advance of the tool agricultural. The directions of application of the forces of the wheel to the ground can be adapted according to the conditions of the ground.
[0007] The agricultural implement may comprise at least two wheels each including a wheel body and a tire mounted around the wheel body. Each of the two wheels is rotatably mounted so that its respective axis of rotation is inclined at a non-zero angle to the ground.
[0008] The two wheels can be arranged symmetrically to one another with respect to a median plane, so that the first side of each wheel is directed towards the median plane. The two outer portions each push the earth laterally in directions directed toward each other. This configuration is particularly effective for closing furrows.
[0009] The two wheels can be arranged symmetrically to one another with respect to a median plane, so that the second side of each wheel is directed towards the median plane. The two outer portions each support the earth substantially vertically. This configuration is particularly effective for closing furrows by scraping the walls. The proposed tire and / or at least one of the tires equipping the proposed agricultural implement may have the following optional features, alone or in combination with each other: - The outer portion is rigid while the first sidewall and the strip rolling are flexible. The opposite behavior of these two parts of the tire, made in one piece, increases the performance of the outer part of the second sidewall for the penetration of the ground while the tread and the first side more easily evacuate the earth tending to accumulate on the outer surfaces of the tire. - The outer portion includes teeth distributed in its periphery. Each tooth behaves substantially independently of other teeth. In the case where one of them is twisted in contact with the earth, the next tooth remains in the extension of the inner portion of the second side without being dragged into an unwanted folding movement. - The outer portion has a height between 45% and 70% of a total height of the second sidewall. The outer portion thus penetrates deep into the earth. The crumbling of the earth is more efficient. - The outer portion has a profile which is refined in a radial direction oriented from the inside to the outside. The outer portion has a better operating behavior thanks to a wide base while the fine end penetrates more easily into the ground. During the penetration, the earth is spread on both sides of the outer part by sliding along the side surfaces. This operation is particularly advantageous for closing a groove. - The second side carries a lateral surface facing the outside of the tire and substantially continuous between the inner portion and the outer portion. Maintaining the alignment of the outer portion with the inner portion in operation is improved. The continuity allows a better distribution of the stresses in the second flank. The absence of irregularity limits the stress concentrations and the appearance of a deformation initiation zone during compression. In addition, the earth slides better along the lateral surface without clinging to it. - The first sidewall and the tread comprise an elastomer and the second sidewall comprises an elastomer, a thermoplastic elastomer and / or a thermoplastic hardness greater than that of the elastomer of the first sidewall and the tread. The difference in composition and hardness accentuates the difference in dynamic behavior between the outer part and the rest of the tire. This increases the performance of the outer portion of the second sidewall for the penetration of the ground while the tread and the first sidewall more easily evacuate the soil which tends to accumulate on the outer surfaces of the tire. The tire comprises an elastomer having a Shore A hardness of between 63 and 70. Such a hardness range has made it possible to obtain good performance on soils deemed impossible to work without prior earth work. In particular, heterogeneous fields comprising dry portions and wet portions can be worked by the same tire during a single operation. The first sidewall and the tread comprise an elastomer of Shore A hardness of between 50 and 65 and the second sidewall comprises an elastomer with a Shore A hardness of between 70 and 90. Such a difference in hardness between the different parts of a pneumatic is more specifically adapted to the proper functions of each of the parts, that is to say the penetration of the earth on the one hand, and the self-cleaning and the maintenance of the orientation of the outer portion of other go. - The sole, the tread and the pair of sidewalls jointly define an interior space. The tire further comprises an opening in fluid communication with the interior space with the outside. Such a tire, neither inflated nor inflatable, has a better flexibility for cleaning the outer surfaces without adversely affecting the penetration capacity of the outer portion. Other characteristics, details and advantages of the invention will appear on reading the detailed description below, and the attached drawings, in which: FIG. 1 shows a perspective view of a wheel equipped with a tire according to the invention; FIG. 2 shows an exploded perspective view of the wheel of FIG. 1; FIG. 3 shows an exploded side view of the wheel of FIG. 1; - Figure 4 shows a side view of the wheel of Figure 1; - Figure 5 shows a sectional view along the double segment V-V of Figure 4; Figure 6 shows a detail view of Figure 5; - Figures 7 and 8 each show a front view of a pair of wheels similar to that of Figures 1 to 6 in operation in two embodiments of a "V" assembly; and FIG. 9 is a view similar to FIG. 5 on which certain dimensions are referenced. The drawings and the description below contain, for the most part, elements of a certain character. They can therefore not only serve to better understand the present invention, but also contribute to its definition, if any. It is noted that elements such as tire profile geometry are difficult to define completely, other than by design. In the following, the wheel 1 is described using terms such as height, side, side, top, bottom, right and left in accordance with an orientation of the wheel in which the axis of rotation XX represents the lateral direction. horizontal. Nevertheless, and as will be described, for example, with reference to FIGS. 7 and 8, the wheel can be used under conditions in which this axis of rotation XX is not parallel to the ground, is not horizontal and / or n is not perpendicular to a direction of advance of the wheel. Figures 1 to 4 show an agricultural tool in the form of a wheel 1. The wheel 1 comprises a tire 3, a pair of flanges 5, 7, fasteners 9 and a bearing assembly 11. The wheel 1 has a rotation axis referenced XX. The wheel 1 has a median plane perpendicular to the axis of rotation XX. In the example described here, the two flanges 5 and 7 are similar and symmetrical to one another with respect to the median plane of the wheel 1. Each flange 5, 7 has a general disc shape with an inner face and an outer face.
[0010] Each of the flanges 5, 7 has a central opening which passes through it, from the outer face to the inner face. The opening has a substantially circular contour. The outline of the central opening protrudes from the outer face. Each of the flanges 5, 7 has through passages between the inner face and the outer face for the fasteners 9. The outlines of the through passages project from the inner face. In an assembled state, the inner faces of the flanges 5, 7 are mounted against each other. As shown in Figure 5, the outlines of the through passages of one of the flanges 5; 7 abuts against the corresponding contours of the through passages of the other of these flanges 5, 7. The central openings of the flanges 5, 7 are aligned along the axis of rotation XX. The two flanges 5, 7 are held together by means of the fasteners 9 arranged in the passages provided for this purpose. Here, the fasteners 9 comprise screw-nut torques. The head of the screw and the corresponding nut are in abutment against the outer face of one and the other of the flanges 5, 7, on the contour of the through passages. The assembly formed by the two flanges 5, 7, and the fasteners 9 can be seen as at least a part of a wheel body 2.
[0011] The wheel body 2 has a through opening centered on the axis of rotation XX. The parts of the wheel body 2 surrounding the opening form a hub of the wheel 1. This opening is shaped as an open housing adapted to receive the bearing assembly 11.
[0012] Each of the contours of the central openings of the flange 5, 7 is shaped into a flange. Each of these flanges form an axial abutment for the bearing assembly 11 so as to limit its sliding in the axial direction XX and to maintain it between the two flanges 5, 7. Here, the housing provided to accommodate the bearing assembly 11 is adapted to house a bearing assembly 11, or bearing block, known as such. The bearing assembly 11 is in the form of a cartridge ready to be installed in the wheel body 2, during the assembly of the flanges 5, 7 with each other.
[0013] The bearing assembly 11 has a bore centered on the axis of rotation XX and opening on each side of the wheel body 2. The bore of the bearing assembly 11 is arranged to be threaded onto an agricultural machine axle.
[0014] Each flange 5, 7 has a peripheral flange arranged to come into contact with a portion of the tire 3. Here, the flange takes the form of a folded annular flange. Each rim, seen in cross section, has a form of hook open towards the inner face. In the assembled state, the flanges 5, 7 hold between them a part of the tire 3 via their respective peripheral rim, seen in cross section, the hooks are closed towards each other in the image of a jaw for gripping a portion of the tire 3. Here, the flanges 5, 7 are obtained by stamping a metal plate.
[0015] The tire 3 has a generally annular shape centered on the axis of rotation XX. The tire 3 comprises a sole 21, a tread 23 and a pair of sidewalls 25, 27. The sidewalls 25, 27 connect the sole 21 to the tread 23.
[0016] The sole 21, the tread 23 and the flanks 25, 27 together define a free space 29. The free space 29 is of generally annular and continuous shape in the circumference of the tire 3. Here, an opening puts in fluid communication l free space 29 with the outside. Such opening is for example obtained by arranging a needle through the sole 21 during the molding of the tire 3. With this opening, the tire 3 is neither inflatable nor inflated. The non-inflated nature of the tire 3 makes it possible to facilitate the deformation of the first sidewall 25 and of the soleplate 23. Such deformations during the rolling of the tire 3 improve the take-off of the ground which can accumulate on the external surfaces of the tire 3 The opening placing the internal space 29 in communication with the outside of the tire 3 is not visible in the figures.
[0017] In the example described here, the tire 3 further comprises a heel 31. Seen in a cross section as shown in Figures 5 and 6, the heel 31 forms a projection of the sole 21 oriented radially inwardly of the tire 3 The heel 31 comprises a constriction 33 near the sole 21. The constriction 33 is extended by an enlarged portion 35 towards the center of the tire 3. In other words, the heel 31 has a profile in the form of a "mushroom". The heel 31 is arranged in correspondence of the shape of the wheel body 2, and in particular in correspondence of shape of the peripheral edges of the flanges 5, 7. As can be seen in FIG. 6, during the assembly of the flanges 5, 7, one on the other, the peripheral flanges of the flanges 5, 7 in the form of hooks grip the constriction 33 of the heel 31. The tire 3 is then held relative to the flanges 5, 7. Such cooperation avoids a separation of the tire 3 relative to the flanges 5, 7, in particular in a radial direction.
[0018] In variants, the tire 3 is devoid of heel 31. The wheel body 2 comprises a substantially cylindrical peripheral surface, or rim, around which the sole 21 of the tire 5 is slipped. The wheel body 2 may have an annular flange protruding from the rim on each side of the wheel body 2. Such annular flanges oppose the sliding of the tire 3 around the rim in the direction of the axis of rotation XX . The wheel body 2 can be obtained by assembling several pieces such as flanges or be formed in one piece. Reference is now made to FIGS. 5 and 6 in which the cross-sectional section of the tire 3 is visible. The wheel 1 shown in FIGS. 5 and 6 is in an uncharged state. By unloaded means here freed from external mechanical stresses, including those generated by the weight of the wheel and / or the agricultural machine on the ground. The tire 3 is in an undistorted state. The tire 3 is substantially unconstrained.
[0019] The first side 25 extends from the sole 21 to the tread 23. The second side 27 comprises an inner portion 51 which extends from the sole 21 to the tread 23 and an outer portion 53 projecting from the tread 23. In cross-sectional view, the outer portion 53 is substantially in the extension of the inner portion 51 in a radial direction.
[0020] The sole 21 and its heel 31 have a symmetry along the median plane of the wheel 1. Viewed in cross section, the profile of the sole 21 and the profile of the enlarged portion 35 of the heel 31 are here shaped in chevrons. In other words, the sole 21 and the widened portion 35 of the heel 31 have a generally annular shape, not strictly cylindrical. The two lateral halves of the sole 21, respectively of the enlarged portion 35 of the heel 31, are substantially frustoconical. Here, the diameter of the sole 21, respectively of the enlarged portion 35 of the heel 31, increases substantially continuously from its central portion to one and the other of its lateral ends. In addition to the hook shapes, the peripheral edges of the flanges 5, 7 have a shape correspondence with the chevron shapes of the sole 21 and the heel 31. The peripheral flanges of the flanges 5, 7 form a seat for the tire 3. The shape matching further limits the accidental sliding of the tire 3 in the direction of the axis of rotation X about the wheel body 2. Thus, the maintenance of the tire 3 is improved during operation. The risk that the peripheral flanges of the flanges 5, 7 deteriorate the heel 31, or even shear the constriction 33, is reduced. In variants, the sole 21 and / or the enlarged portion 35 of the heel 31 are substantially cylindrical in shape. According to the median plane of the wheel 1, the tire 5 has an asymmetry. Here, the first flank 25 has a height in the radial direction less than the height of the inner portion 51 of the second flank 27. The tread 23 connects a radial end of the first flank 25 to a radial end of the inner portion 51 of the second flank 27. The tread 23 has a generally frustoconical shape whose apex is located beyond the first sidewall 25. The tread 23 carries an outer surface 61, opposite to the free space 29. Cross-sectional view , the tread 23 has a profile inclined at a non-zero angle relative to the axis of rotation XX. Thus, the diameter of the peripheral surface 61 increases from the first sidewall 25 towards the second sidewall 27. As seen in cross section, the tread 23 forms an angle (3 (Beta) with a radial plane. is measured, on a cross section, between the outer surface 61 and a line perpendicular to the axis of rotation XX passing through the first sidewall 25, as shown in FIG. 6. The angle (3 is between 00 and 90 The outer portion 53 of the second flank 27 is disposed substantially in the radial extension of the inner portion 51 of the second flank 27. The outer portion 53 may be viewed as an annular ridge, or a rim, projecting from the strip 10 23 and substantially coplanar with the inner portion 51 of the second flank 27. In the example described here, the second flank 27 carries a lateral surface 55 facing the outside of the tire 3. The lateral surface 55 is substantially continuous between the por 51 and the outer portion 53. Here, the lateral surface 55 is substantially planar and substantially perpendicular to the axis of rotation XX. Such continuity facilitates the penetration of the outer portion 53 into the earth. The absence of irregularity limits the risk of accumulation of bonded earth. From a dynamic point of view, the regularity of the lateral surface 55 limits the risk of occurrence of a folding initiation zone of the tire 3 under stress. In the example described here, the outer portion 53 of the second flank 27 carries a lateral surface 57 opposite to the lateral surface 55 and oriented towards the first flank 25. The lateral surface 57 has a generally frustoconical shape whose apex is located at the side surface 57, on the side of the first sidewall 25. Thus, the diameter of the side surface 57 increases from the first sidewall 25 towards the outer lateral surface 55. Cross-sectional view, the side surface 57 presents a profile inclined at a non-zero angle with respect to a radial plane. Cross-sectional view, the lateral surface 57 forms an angle α (Alpha) with a radial plane. The angle α is measured, in a cross-section, between the lateral surface 57 and a line perpendicular to the axis of rotation XX passing through the second sidewall 27, as shown in FIG. between 0 ° and 90 °. In the case of an outer lateral surface 55 perpendicular to the axis of rotation XX, the angle a also corresponding to the angle between the opposite lateral surfaces 55, 57 of the outer portion 53 of the second sidewall 27. The lateral surface 57 of the outer portion 53 of the second flank 27 is connected to the peripheral surface 61 of the tread 23 by a fillet. In other words, the angle between the lateral surface 57 of the outer portion 53 of the second sidewall 27 and the surface 61 of the tread 23 is substantially rounded. This makes it possible to limit the risks of appearance of an initiation zone or folding initiation. In operation, the peripheral surface 61 comes into contact with the ground 150 while the outer portion 53 is already sunk into the ground 150. The peripheral surface 61 forms a stop surface of the depression of the outer portion 53, so that the outer portion 53 operates at a substantially constant depth, following the unevenness of the ground 150. The peripheral surface 61 can replace an adjoining gauge wheel. In order to define the dimensions, in particular according to FIG. 8, the connection fillet is considered to belong to the lateral surface 57 of the outer portion 53 of the second flank 27. Consequently, the width of the base of the outer portion 53 represents here, about half the width 104 of the tire 3. The orientations of the lateral surface 55 and the lateral surface 57 give the outer portion 53 a peak-shaped profile. The radial end of the outer portion 53 is clipped. In other words, the outer portion 53 has a peripheral surface 59. The peripheral surface 59 is here substantially cylindrical. Viewed in profile, the peripheral surface 59 is substantially parallel to the axis of rotation XX. The peripheral surface 59 has a width 107 in the direction of the axis of rotation XX substantially less than the average thickness of the inner portion 51 of the second sidewall 27. In general, the shape of the profile of the outer portion 53 is chosen to facilitate the penetration into the earth during the rolling of the tire 3. The angle a is between 100 and 45 °, for example here about 25 °. The angle p is between 45 ° and 90 °, for example here about 74 °.
[0021] The outer portion 53 of the second flank 27 comprises teeth 63. The teeth 63 are distributed in the periphery of the outer portion 53. As appears in the upper part of FIG. 5, the outer portion 53 between the teeth 63 comprises a section of height lower than that of a tooth 63. The outer portion 53 of the second sidewall 27 is therefore discontinuous 5 according to the circumference of the tire 3. On the angular portions between two teeth 63, the peripheral surface 61 of the tread 23 is extends substantially over the entire width of the tire 3 and joins the outer lateral surface 55. In these angular portions, seen in profile, the peripheral surface 61 is straight. In variants, the angular portions of the tire 3 between two teeth 63 10 have an outer portion 53 which projects relative to the peripheral surface 61. In the example described here, the teeth 63 are twelve in number and equidistant from each other. others. In variants, the number of teeth 63 may be different. The teeth 63 may be heterogeneously distributed along the circumference of the tire 3. In the example described here, the angular portion occupied by a tooth 63 is substantially equivalent to the toothless angular portion and separates two adjacent teeth 63 . Viewed from the side and as shown in FIG. 4, the teeth 63 have faces 65 connecting the side surfaces 55 and 57 to each other. Each tooth 63 has two faces 65 opposite one another and each substantially facing a face 65 of a tooth 63 neighbor. The faces 65 of a tooth 63 are substantially symmetrical to one another in a radial plane passing through the middle of the tooth 63. In other words, the shape of the faces 65 is independent of the direction of rotation of the wheel 1 in operation. In variants, the faces 65 of a tooth 63 are different. For example, one of the two faces 65 is a leading face, while the other is a trailing face depending on the direction of rotation of the wheel 1 in operation. Here, the faces 65 are mutually shaped so that, according to the side view shown in FIG. 4, the dimension of the circumferential tooth 63 is refined from its base connected to the tread 23 to its end. radial and at its peripheral surface 59. Such a configuration improves the penetration of the teeth 63 in the ground during the rolling of the tire 3. From a dynamic point of view, the discontinuity of the outer portion 53 of the second flank 27, here a configuration into a set of teeth 63, makes the angular portions of the outer portion 53 of the second flank 27 substantially independent. During the rolling of the tire 3, the movements and deformations of a tooth 63 are substantially independent of the movements and deformations of the teeth. teeth 63 neighbors.
[0022] Reference is now made to FIG. 9 to define dimensions of the tire 3. In FIG. 9, representing the tire 3 in the state mounted on the wheel body 2 and at rest, the following dimensions are referenced: - The diameter maximum 100 of the tire 3, taken between the peripheral surfaces 59 of diametrically opposite teeth 63. The maximum diameter 100 is between 300 and 600 millimeters, for example about 400 millimeters. - The maximum diameter 101 of the tire 3, between angular portions devoid of teeth 63 and diametrically opposed. The diameter 101 is between 260 and 525 millimeters, for example about 350 millimeters. The maximum diameter 102 of the tire 3 outside the outer portion 53. It will be noted that this dimension is taken at the base of the outer portion 53, that is to say, here substantially at half the width of the tire 3. The diameter 102 is between 250 and 500 millimeters, for example about 333 millimeters. The internal diameter 103 of the tire 3. It will be noted that this dimension is taken on the surface of the sole 21 oriented radially inwards, without heel 31, and at one lateral end of the section of the tire 3. The internal diameter 103 of the tire 3 in the mounted state substantially corresponds to the outer diameter of the wheel body 2. The inner diameter 103 is between 215 and 430 millimeters, for example about 284 millimeters. The outer width 104 of the tire 3. The outer width 104 is between 20 and 150 millimeters, for example about 50 millimeters. - The width 105 of the hub of the wheel body 2. The width 105 is smaller than the outer width 104 of the tire, here about 45 millimeters. - The average thickness 106 of the plate forming a flange 5, 7. The average thickness 106 has, here, a nominal value of 2.5 millimeters. - The width 107 of the peripheral surface 59 of the teeth 63. The width 107 is between 3 and 20 millimeters, for example about 6 millimeters. The thickness 108 of the tread 23. The thickness 108 is measured outside the connection areas with the other parts of the tire 5. Here, the thicknesses of the tread 23, of the sole 21 outside the heel 31, first flank 25 and the inner portion 51 of the second flank 27 are substantially equivalent. The thickness 108 is between 4 and 15 millimeters, for example about 10.5 millimeters. - The height of the outer portion 53 is deduced from the difference between the maximum diameter 100 and the maximum diameter 102. The height of the outer portion 53 is for example here about 33.5 millimeters. The height of the outer portion 53 is generally between 45% and 70% of the total height of the second flank 27 which is deduced itself from the difference between the maximum diameter 100 and the internal diameter 103.
[0023] For example here, the total height of the second flank 27 is about 58 millimeters, a height of the outer portion 53 of about 58% of the total height of the second flank 27. - The height of the teeth 63 is deduced from the the difference between the maximum diameter 100 and the maximum diameter 101. The height of the teeth 63 is for example here about 25 millimeters. The above-mentioned dimensional examples are combined in the embodiment shown in FIG. 5. In other embodiments, the dimensions are jointly selected while preserving the dynamic behavior of the tire 3 as subsequently described. For example, the proportions between the aforementioned dimensions are substantially equal to those of the embodiment of FIG. 5. The first sidewall 25 and the tread 23 are arranged in such a way as to hold together the outer portion 53 of the second sidewall 27 in the extension of the inner portion 51. The shape and composition of the first sidewall 25 and the tread 23 are jointly adapted to maintain in an axial direction XX of the outer portion 53 of the second sidewall 27. Under load , the outer portion 53 of the second flank 27 comes into contact with the ground 150 and undergoes significant constraints. The stresses are essentially oriented in radial directions. The maintenance provided jointly by the first sidewall 25 and the tread 23 opposes the deflection, or buckling, of the outer portion 53 of the second sidewall 27. The outer portion 53 of the second sidewall 27 is shaped to have a higher stiffness to that of the earth, so that the outer portion 53 sinks substantially in a radial direction in the ground 150. Nevertheless, when passing over essentially hard portions or pebbles, the outer portion 53 is deformed elastically without rupture. After an incident, she returns to her normal orientation. Unlike the 10 metal tools, no maintenance is necessary. Here, the outer portion 53 has a rigid dynamic behavior, while the first sidewall 25 and the tread 23 has a flexible dynamic behavior. Thus, the first sidewall 25 and the tread 23 may have a large deformation in a radial direction, under the effect of compression, while maintaining the outer portion 53 in an axial direction. The outer portion 53, in turn, has a small radial deformation under the effect of compression. In operation, the teeth 63 of the outer portion 53 concentrate the compressive force over a small area substantially corresponding to the peripheral surface 59. The penetration into the ground 150 is facilitated. In the example described here, the tire 3 is made in one piece. The tire 3 is made of elastomer, for example rubber or polyurethane. In the example described here, the tire 3 is made based on a single elastomer. The elastomer has a Shore A hardness of between 63 and 70, for example 65 Shore. In variants, the tire 3 is made from at least two materials of different hardnesses from each other. In this case, the tire 3 is made by molding or extruding two separate parts and then assembling them. For example, the first sidewall 25 and the tread 23 may be made based on an elastomer while the second sidewall 27 or the outer portion 53 is made based on another elastomer, a thermoplastic elastomer and / or or a thermoplastic. In one embodiment, the first sidewall 25 and the tread 23 comprise an elastomer having a Shore A hardness of between 50 and 65, for example 55 Shore. The second flank 27 comprises an elastomer having a Shore A hardness of between 70 and 90, for example 80 Shore. The use of a tire 3 whose second sidewall 27 has a hardness different from that of the tread 23 and the first side 25 makes it possible to accentuate the difference in dynamic behavior between the two parts of the tire 3. In particular, the outer portion 53 is made more rigid, while the first sidewall 25 and the tread 23 are made more flexible. The combination of the structure and the composition of the different parts of the tire 3 is refined according to the dynamic behavior of the desired tire 3. For example, specific combinations may be provided depending on the quality of the earth to be worked. Therefore, combinations of structures and compositions can be adapted depending on the climate and geographical areas in which it is intended to use the wheels 1. In operation, the wheel 1 can be mounted on an axle whose main axis is substantially horizontal and perpendicular to the direction of advance of the agricultural machine. A wheel 1 can be used alone or in combination of similar wheels 1. As a variant, a wheel 1, alone or in combination with other wheels 1, may be mounted on an axle whose main axis is inclined with respect to the horizontal and / or not perpendicular to the direction of advance of the agricultural machinery. Figures 7 and 8 show configurations in which two wheels 1 work jointly and whose rotational axes are inclined relative to the horizontal. Figures 7 and 8 each show an agricultural implement equipped with a pair of wheels 1 similar to that described so far. Such a tool can form, for example, the tail tool of a drill. The carrying structure of the wheels 1 is not shown. The pair of wheels 1 has, seen from the front, a configuration in "y". Such a configuration makes it possible, for example, to close a groove 151 at the bottom of which has been deposited a seed 153. When rolling next to the groove 151, the earth tends to be driven laterally to close the groove 151. A single wheel 1 could, alternatively, be enough to close the groove 151. Here, two wheels 1 roll on both sides of the groove 151. The two wheels 1 are symmetrical to each other along a vertical median plane YY and passing through the groove 151. The wheels 1 are not arranged vertically but instead oriented partially towards the ground 150. Their respective axis of rotation XX is substantially inclined relative to the horizontal. They form, for example, an angle between 50 and 150 with the horizontal. Thus, the combination of the inclination of the wheels 1 and the outer portions 53 makes it possible to close the groove 151 by bringing the soil simultaneously from each side of the groove 151. In addition, the indentations formed by the teeth 63 in the ground may constitute tanks that fill with water, rain or watering. This allows, for example, to improve the continuity of the water supply of the seed 153 between two rainy episodes.
[0024] In the configuration shown in Figure 7, the sides carrying the outer portion 53 of each of the wheels 1 are substantially opposite and are in the center of the configuration in "y". In other words, the two wheels 1 are mutually arranged symmetrically to each other with respect to the median plane YY and so that the second flanks 27 of each of the wheels 1 are arranged on the median plane YY side. Such an arrangement makes it possible to apply to the flanks of the groove 151 a force oriented substantially vertically from above the seed 153. The walls of the groove 151 are crumbled and cover the seed 153. Thus, even in the event of wind or rain in abundance, the risks that the seed 153 is carried away from the groove 151 are limited.
[0025] In the configuration shown in Figure 8, the sides carrying the outer portion 53 of each of the wheels 1 are disposed laterally outwardly of the configuration in "y". The two wheels 1 are arranged symmetrically to one another with respect to the median plane YY, so that the first sidewall 25 of each of the wheels 1 is oriented towards the median plane YY. The first flanks 25 of the wheels 1 are farther apart from each other than in the case of FIG. 7. Such an assembly makes it possible to apply to the flanks of the groove 151 two forces oriented laterally and in the opposite direction, one to the other from each side of the seed 153. The groove 151 then tends to be closed on itself. Again, even in the event of abundant wind or rain, the risk that seed 153 will be washed out of groove 151 is limited.
[0026] In variants that can be combined with the embodiments of FIGS. 7 and 8, the wheels 1 can be mounted in pairs in a "V" configuration seen from above. The wheels 1 are arranged at a non-zero angle relative to the direction of advance. Their respective axis of rotation XX is not perpendicular to the direction of advance. The plane of the wheels form for example an angle between 50 and 150 with the direction of advance. In this case, one of the sides of the envelope 3 pushes the ground. Such operation recalls the operation of a snow plow blade. A single wheel 1, as opposed to pairwise mounting, may also be inclined with respect to the forward direction and / or relative to the horizontal.
[0027] Heretofore, the operation of the tires according to the invention has been described in the context of the operation of a seed drill. The wheels according to the invention can not be limited to this use and can equip tools mounted on other types of agricultural tillage machines.
[0028] The invention is not limited to the examples of tires described above, only by way of example, but it encompasses all the variants that may be considered by those skilled in the art within the scope of the claims below.

权利要求:
Claims (15)
[0001]
REVENDICATIONS1. Pneumatic tire (3) non-inflatable agricultural tool (1) of the type comprising: a sole (21), a tread (23), and a pair of flanks (25, 27) connecting the sole (21) to the strip of bearing (23), characterized in that a first of these flanks (25) extends from the sole (21) to the tread (23), while the second (27) comprises an inner portion (51) which extends from the sole (21) to the tread (23) and an outer portion (53) projecting from the tread (23), and in that the first side (25) and the tread bearing (23) are arranged to jointly hold the outer portion (53) of the second sidewall (27) in the extension of the inner portion (51).
[0002]
A tire (3) according to claim 1, wherein the outer portion (53) is rigid while the first sidewall (25) and the tread (23) are flexible.
[0003]
3. Pneumatic tire (3) according to one of the preceding claims, wherein the outer portion (53) comprises teeth (63) distributed at its periphery. 20
[0004]
4. Pneumatic tire (3) according to one of the preceding claims, wherein the outer portion (53) have a height between 45% and 70% of a total height of the second sidewall (27).
[0005]
5. A tire (3) according to one of the preceding claims, wherein the outer portion (53) has a profile which is refined in a radial direction oriented from the inside to the outside.
[0006]
6. A tire (3) according to one of the preceding claims, wherein the second sidewall (27) carries an outwardly facing lateral surface (55) of the substantially continuous tire (3) between the inner portion (51) and the outer portion (53).
[0007]
7. A tire (3) according to one of the preceding claims, wherein the first sidewall (25) and the tread (23) comprise an elastomer and the second sidewall (27) comprises an elastomer, a thermoplastic elastomer and / or a thermoplastic hardness greater than that of the elastomer of the first sidewall (25) and the tread (23).
[0008]
8. A tire (3) according to one of the preceding claims, comprising an elastomer of Shore A hardness between 63 and 70.
[0009]
Pneumatic tire (3) according to one of the claims, wherein the first sidewall (25) and the tread (23) comprise an elastomer with a Shore A hardness of between 50 and 65, and in which the second sidewall (27) ) comprises an elastomer of Shore A hardness between 70 and 90.
[0010]
10. The tire (3) according to one of the preceding claims, wherein the sole (21), the tread (23) and the pair of sidewalls (25, 27) jointly define an interior space (29), the tire (3) further comprising an opening fluidly communicating the interior space (29) with the exterior.
[0011]
11. Agricultural implement comprising at least one wheel (1) including a wheel body (2) and a tire (3) according to one of the preceding claims mounted around the wheel body (2).
[0012]
Agricultural implement according to claim 11, wherein the wheel (1) is rotatably mounted about an axis (XX), the axis (XX) being inclined at a non-zero angle to the ground (150). ) and / or inclined at an angle not right relative to the direction of advance of the agricultural tool.
[0013]
13. Agricultural implement according to one of claims 11 and 12 comprising at least two wheels (1) each including a wheel body (2) and a tire (3) according to one of claims 1 to 10 mounted around the body wheel (2), each of the two wheels (1) being rotatably mounted so that its axis of rotation (XX) is inclined relative to the ground (150).
[0014]
Agricultural implement according to claim 13, wherein the two wheels (1) are symmetrically arranged relative to each other with respect to a median plane (YY), so that the first flanks (25) of the wheels (1) are oriented towards the median plane (YY).
[0015]
The agricultural implement according to claim 13, wherein the two wheels (1) are arranged symmetrically with each other with respect to a median plane (YY) and so that the second sidewalls (27) of the wheels (1) are oriented towards the median plane (YY).

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同族专利:

公开号 | 公开日

HUE054028T2|2021-08-30|

EP3017967B1|2020-12-30|

DK3017967T3|2021-04-06|

RS61615B1|2021-04-29|

ES2862548T3|2021-10-07|

PL3017967T3|2021-07-12|

HRP20210491T1|2021-05-14|

US20160128266A1|2016-05-12|

FR3028212B1|2018-03-02|

EP3017967A1|2016-05-11|

US10660260B2|2020-05-26|

引用文献:

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EP2789477A1|2013-04-12|2014-10-15|Otico|Tyre for farming machines|

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DE2535703A1|1975-08-09|1977-02-17|Amazonen Werke Dreyer H|Roller for pressing seed and fertilizer into furrows - consists of cover piece on outside of which protrudes first and second compacting ring|

DE3122713C1|1981-06-06|1982-10-28|Amazonen-Werke H. Dreyer Gmbh & Co Kg, 4507 Hasbergen|Seed drill|

US4760806A|1986-05-22|1988-08-02|Deere & Company|Conservation opener|

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DE29715888U1|1997-09-04|1997-11-27|Kverneland Accord Gmbh & Co Kg|Ground pressure roller|

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DE10309663A1|2003-03-06|2004-09-16|Amazonen-Werke H. Dreyer Gmbh & Co. Kg|Sowing machine for seeds or fertiliser, includes extra roll between coulter and rolls used to press seeds etc in to soil|

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US7438006B2|2005-10-27|2008-10-21|Deere & Company|Agricultural seeding machine with compact furrow opener/closer|

DE102008036201B4|2008-08-02|2010-07-22|Der Landwehr Willi Auf|Pressure roller for seed drills|

US20110095597A1|2009-10-28|2011-04-28|Steve Knowles|Tire and Rim|

DE102013111357B4|2013-10-15|2015-11-05|Lemken Gmbh & Co. Kg|Seeder with multiple function roller|

US9474203B2|2014-09-29|2016-10-25|Cnh Industrial America Llc|Gauge wheel for an agricultural implement|EP3007909A4|2013-06-15|2017-03-01|Ronald Thompson|Annular ring and non-pneumatic tire|

CA2976055A1|2015-02-04|2016-08-11|Advancing Mobility, Llc.|Non-pneumatic tire and other annular devices|

DE102015118640A1|2015-10-30|2017-05-04|Lemken Gmbh & Co. Kg|Pinch roller for an agricultural seeder|

WO2018076069A1|2016-10-28|2018-05-03|Coalfields Engineering Pty Ltd|A press wheel for a seeding machine|

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法律状态:
2015-11-05| PLFP| Fee payment|Year of fee payment: 2 |

2016-05-13| PLSC| Publication of the preliminary search report|Effective date: 20160513 |

2016-11-21| PLFP| Fee payment|Year of fee payment: 3 |

2017-11-24| PLFP| Fee payment|Year of fee payment: 4 |

2019-11-26| PLFP| Fee payment|Year of fee payment: 6 |

2020-11-19| PLFP| Fee payment|Year of fee payment: 7 |

2021-11-29| PLFP| Fee payment|Year of fee payment: 8 |

优先权:

申请号 | 申请日 | 专利标题

FR1460861A|FR3028212B1|2014-11-10|2014-11-10|PNEUMATIC AGRICULTURAL|

FR1460861|2014-11-10|FR1460861A| FR3028212B1|2014-11-10|2014-11-10|PNEUMATIC AGRICULTURAL|

US14/936,019| US10660260B2|2014-11-10|2015-11-09|Agricultural tyre|

PL15193803T| PL3017967T3|2014-11-10|2015-11-10|Agricultural tyre|

RS20210323A| RS61615B1|2014-11-10|2015-11-10|Agricultural tyre|

ES15193803T| ES2862548T3|2014-11-10|2015-11-10|Agricultural tire|

DK15193803.2T| DK3017967T3|2014-11-10|2015-11-10|Tires for agricultural purposes|

EP15193803.2A| EP3017967B1|2014-11-10|2015-11-10|Agricultural tyre|

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