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    • 专利摘要:
    The invention relates to a control device (18a, 18b, 22) for a seed drill, for feeding a seed unit (12) to a seed drill and intended to be mounted downstream of seed metering and transport means. This regulating device (18a, 18b, 22) comprises a seed fed supply zone (22a) (100) via a feed inlet connected to said metering and transport means, and a wheel (23) adapted to pick up seeds (100) in said reserve zone (22a), by means of at least one row of teeth, each tooth presenting from the rear towards the front in the direction of rotation of the wheel: - a substantially flat surface (36), extending over a length L and forming a toboggan; a tip, in the extension of said slide, having a portion curved towards the axis of rotation of said wheel; - A housing (35), formed in said curved portion, defining substantially an arc of radius of radius Ri and joining the slide of the previous tooth. Said length L is at least triple of said radius Ri.
    公开号:FR3050608A1
    申请号:FR1653847
    申请日:2016-04-28
    公开日:2017-11-03
    发明作者:Daniel Clochard;Nicolas Legaignoux
    申请人:SULKY BUREL;
    IPC主号:
    专利说明:

    Device for regulating seed distribution for seed drill, and corresponding seed drill. 1. Field of the invention
    The field of the invention is that of seed drills in line, especially for sowing cereals or legumes. The invention relates more specifically to the improvement of the distribution on the ground of the seeds at the time of their distribution, and concerns in particular the regulation of the distribution, downstream of a device for dispensing and dosing a sowing element. Seeds are here understood to mean seeds, and more generally any particles that can be distributed in the same way, for example fertilizer or seedling protection particles (slug pellets, for example). 2. Prior art and its disadvantages
    In the context of precision farming, it is desirable that seed distribution during planting be as regular and as accurate as possible. It is generally desired that the seeds be deposited in a furrow, at regular intervals, without lack or duplication.
    For this purpose, precision seed drills have been developed, often called precision seeders. These precision seeders are intended to specifically sow a predetermined type of seed (maize, beetroot, etc.). They are used for inter-row cultures larger than 25 cm. Each row is usually fed with seeds by an individual hopper connected to its own distribution, burial and re-pressing organs. These seeders are effective, but at a relatively high cost. They have specific means, able to seize seeds They are bulky, require many adjustments, a contribution in energy (in particular pneumatic, to provide a depression allowing to maintain the seeds one by one) adapted, and require seeds used to be precisely calibrated. Precision seeders are consequently expensive, and reserved for certain particular situations.
    In addition, the precision seeders lack versatility, and in particular have a footprint such that they do not allow the planting of certain seeds, for example wheat, for which an inter-row spacing of less than 25 cm is desired.
    There are also seeders "multigrain", or "online", used in particular for cereals, such as wheat or oats. They also make it possible to carry out direct sowing, the seeds being distributed to each sowing unit by means of a metering and transport device, fed by a hopper containing the seeds and directing the seeds towards the soil via a transfer duct. . Such a metering device is generally placed under the hopper, and is equipped with one or more wheels provided with cells or teeth forming lugs, able to receive a determined volume of seeds (the wheels being adapted to the type of seed to sow).
    These dosing and transport systems are designed to allow the seeds to be ejected in a relatively regular manner in the transfer duct so as to ensure their homogeneous distribution, in line, in the soil. However, it is found in practice that there are areas on a groove length where the seeds are absent or on the contrary deposited in packets. This uneven distribution of seeds results in an irregular distribution of the seedlings, and thus in a loss of yield for the farmer.
    Thus, while precision seeding with a precision seeder can reach 90 to 95% of well-placed seeds, it usually remains below 40% with an on-line seeder.
    To improve the accuracy of these seeders in line, the applicant proposed, to distribute the seeds more homogeneously, to regulate the seed distribution by adding a buffer tank arranged on the path of the seeds, between the metering device and transport and the end of the duct, near the ground. This approach is described in particular in patent document FR2691040, which thus presents a control system implementing a plurality of diabolos arranged at the output of the metering device. Diabolos seize the seeds right out of the feeder via a supply chute that serves as a buffer, to cushion the effect of package arrivals and seed gaps. The V-shape of the diabolo makes it possible to gather and imprison the seeds to align them one after the other, with a better precision.
    However, the control device is sensitive to shaking. It must be placed immediately after the feeder, and therefore remains far from the ground. As a result, a large part of the seed distribution regularity gain is here also canceled during the transport of the seed between the regulator outlet and the soil. In addition, blockages of seeds may appear in a diabolo, reintroducing gaps, followed by packets at the time of release.
    There is therefore a need for more efficient regulation, for the on-line seed drills, making it possible to limit the losses of regular seed distribution, without resorting to the complex means of the precision seeding machines, and in particular to pneumatic means for maintaining the seeds. .
    In particular, it is desirable to improve the accuracy of conventional seed drills, to approach the precision of precision seeders, without the complexity and bulk of the latter. 3. DESCRIPTION OF THE INVENTION The invention responds to this need by proposing a regulating device for a seed drill, intended to supply seed to a sowing unit of a seed drill and intended to be mounted downstream of means for dosing and transporting seeds, said regulating device comprising a reserve area fed with seeds via a supply inlet connected to said dosing and transport means.
    According to the invention, the regulating device comprises a wheel capable of taking seeds from said reserve zone, by means of at least one row of teeth, each tooth presenting from rear to front in the direction of rotation. wheel: a substantially flat surface, extending over a length L and forming a slide; a tip, in the extension of said slide, having a portion curved towards the axis of rotation of said wheel; a housing, formed under said bent portion, substantially defining an arc of radius of radius Ri and joining the slide of the previous tooth, and said length L is at least triple of said radius Ri.
    Thus, by considering as reference a radius of the wheel extending vertically downwards, it is possible to distinguish the following angular sectors (whose ranges may vary slightly, depending on the implementations): when the tooth is in a first position angular sector substantially between 0 and 90 °, said tip guides a seed present in the reserve area to said housing; when the tooth is in an angular sector substantially between 20 and 180 °, said housing receives and maintains said seed; when the tooth is in an angular sector substantially between 180 and 310 °, said seed slides progressively along the slide of the previous tooth; beyond that, the seed is released.
    The presence of a toboggan of relatively large length according to the invention has many advantages. The seed is not held strongly in the housing (at the risk of a possible blockage), but can quickly join the slide, which forms a zone of "relaxation", or "decompression", gradually guiding the seed, for better control the moment of his release.
    According to a particular embodiment, said wheel comprises at least two rows of teeth separated by a central space.
    The presence of at least two rows of teeth makes it possible to produce a compact control device because it makes it possible to transport at least twice as many seeds as a device comprising a single row. In addition, the presence of at least two rows of teeth can play a role of seed agitator in the reserve zone: indeed, when a row of teeth takes a seed in the reserve zone, the other seeds of the zone can be naturally pushed to the other row or rows of teeth.
    In this case, the teeth of a first row can in particular be arranged in staggered relation to the teeth of a second row.
    More generally, when the wheel comprises several rows of teeth, the latter are advantageously offset angularly relative to each other, to release regularly and alternately the seeds of each row.
    According to another particular aspect, said at least one row of teeth may be disposed at a distance from a wall of said device less than or equal to 1 mm.
    Thus, each row of teeth is placed closer to the wall of the housing, to allow no passage of seeds along this wall.
    According to a particular embodiment, each of said teeth has at least one side wall, at least on a portion of said housing.
    Such a wall can keep the seed inside the housing, without it can escape laterally, and if necessary guide the slide.
    According to another particular characteristic, said wheel can be rotated by a motor located at least partly inside said wheel.
    Thus, the regulating device forms a consolidated module capable of being fixed on moving elements such as seeding units of the drill. Such an engine may in particular be electric, and the speed of the motor can be slaved to the dose that comes from the dispensing and dosing means, in order to have a complete filling of the teeth. This speed can be proportional to the forward speed of the drill.
    According to a particular embodiment, said wheel is selected from a plurality of wheels each adapted to a type, a size and / or a dose of seeds to be transported.
    Thus, the wheels used can be interchanged when the variety and / or the dose of seeds to be sown varies.
    According to a particular embodiment, the regulating device comprises mobile means for retaining the seeds inside said housings of said teeth, delaying the release of each seed, which can take two positions: a position for retaining a seed, by defect; and a seed release position, said holding means being temporarily moved away from said wheel.
    These movable means can keep the seeds in the housing until the free end of the movable member is moved by one of the teeth. At this time, the seed can escape from the housing and fall substantially vertically in a transfer conduit to the ground. They thus allow to delay, and to synchronize, the releases of seeds.
    Said movable retaining means may for example comprise at least one blade comprising a bristle assembly of which at least the free portion extends substantially tangentially to the wheel and substantially vertically.
    Thus, the bristles of the broom hold the seed against the back of the tooth, until they pass into the release position, in which they are away from the wheel.
    According to a particular embodiment, said feeding inlet of said reserve comprises an inclined plane, directing the seeds to a step formed substantially at half height of said regulating device, so as to slow the seeds arriving in said reserve zone.
    This makes it possible to receive the seeds in the reserve without throwing them against the bucket wheel or creating a rebound effect. They are thus amortized in the reserve area. The invention also relates to a drill implementing at least one control device as described above. 4. List of Figures Other objects, features and advantages of the invention will appear more clearly on reading the following description, given as a simple illustrative and non-limiting example, in relation to the figures, among which: FIGS. FIGS. 1A and 1B illustrate two examples of application of a regulating device according to the invention: FIG. 1A: general view of a disc sowing unit of an on-line seed drill, implementing a regulating device according to FIG. invention; FIG. 1B: example of implementation on a coulter unit; Figure 2 is a schematic view of a first embodiment of a device for regulating the seed distribution according to the invention, during operation; FIGS. 3A to 3C are views of the wheel comprising two rows of teeth: FIG. 3A: three-dimensional view of the wheel; FIG. 3B: three-dimensional view of the wheel of FIG. 3A placed in the regulating device; Figure 3C: enlarged view of a bucket tooth; Figure 3D: sectional view of a tooth with sidewalls; FIGS. 4A and 4B illustrate two embodiments of the wheel teeth, provided with one or more side walls, for sowing two types of seeds: FIG. 4A: teeth with a side wall for sowing maize seeds; Figure 4B: teeth with two side walls for sowing wheat seeds; Figure 5 is a view of the device according to a second embodiment further implementing a substantially horizontal brush; FIGS. 6A to 6C illustrate the path of a seed during its transport by the toothed wheel, in simplified sectional views of FIG. 5: FIG. 6A: one of the seeds of the reserve is taken by a tooth; Figure 6B: the seed is held in the tooth, in the upper part, by the horizontal broom; Figure 6C: the seed is released, after being retained by the vertical broom. 5. Detailed Description of Embodiments of the Invention 5.0 General Principle of a Seeder
    An example of a disk drill implementing the invention is illustrated in FIG. A planter structure of this type is described in particular in patent document EP1212932 or EP2060163.
    This seed drill is supported on the ground by the sowing elements 12. In the side view of Figure lA, only one sowing element is illustrated. In fact, several similar sowing units are implemented in parallel.
    The drill is equipped with a hopper 13, fixed on a frame 11 and intended to contain the seed seeds. In the illustrated embodiment, the seed distribution is mechanically provided. Dosing devices 17a, 17b take the seeds from the bottom of the hopper 13, for example using a rotary dosing wheel.
    The distribution can also be pneumatic. In this case, a compressed air generator supplies a stream of compressed air to a distribution and dispensing head, and seeds picked up by the metering device are inserted into the air stream.
    Below the level of the frame 11, and secured thereto, is thus installed a series of sowing elements 12, only one of which is illustrated in FIG.
    In this embodiment, this sowing element comprises a carrying arm 121, connected to the frame 11 and carrying: a ground support wheel 128; a pair of sowing discs 129a, 129b each provided with a coulter, or skimmer 1210a, 1210b, capable of being fed with seeds via a flexible and flexible duct 151a, 151b and a control device 18a, 18b according to the invention described in more detail later; a pair of follower rollers 1211, adapted to roll on the ground and compact it. The invention can also be implemented on a coulter seed drill, as described for example in patent document FR2658380. FIG. 1B illustrates a coulter of such a drill, which is conventional in itself, comprising a body 2 at the base of which is mounted a profiled and arcuate wear part 3. The front part of the share is directed to the left in this figure.
    According to the invention, the share is equipped with a regulating device 4 (described in more detail later), receiving seeds from the hopper, in the same way as previously explained, via the duct 5. The device of regulation 4 delivers the seeds regularly in the body of the share 2, which directs them to the wear part 3 which forms a groove. 5.1 General Principle of the Invention The invention proposes an effective and simple solution to implement to allow a more homogeneous distribution of the seeds, in particular for seeds requiring to be deposited one by one in a groove on the ground, so aligned and at regular intervals, such as wheat, rapeseed, maize, beet, pea, etc.
    The general principle of the invention is thus based on the implementation of a mechanical drive control device (without pneumatic means, at the level of this control device, as opposed to the precision planters), in addition to a control device. dosing and transport (hereinafter referred to as a dosing device) conventionally used in a seeder. Such a control device is placed on the path of the seeds between the metering device and the means for planting seeds, or sowing means.
    Thus, the control device is placed "cut" or "in series", by analogy with the vocabulary of electricity, on the transfer conduit (151a, 151b or 5) which usually directly connects the dosing device to the means planting. This transfer duct is therefore decomposed into two parts, an upstream part, connecting the output of the metering device to the input of the regulating device, and a downstream part connecting the output of the regulating device to the earthing means.
    It should be noted that this "cut" of the transfer duct can be performed not only on a new seeding unit, but also on an existing seeding unit, to improve the accuracy thereof. It suffices to mount a regulating device according to the invention on the existing transfer conduit.
    The regulating device therefore receives the seeds delivered by the metering device. Despite the efforts made for the effectiveness of such devices, it happens that the seeds are delivered "in packets", and that there are moments without seeds delivered. The regulating device receives these seeds, keeps a "buffer" reserve, and delivers them to the planting means as regularly as possible, one by one and at regular intervals, as far as possible.
    The control device is close to the ground, relative to the position of the metering device which is at the base of the hopper (and preferably placed as close to the ground as possible). It can in particular be fixed on the sowing element, at the entrance of the cannula or the coulter which directs the seeds towards the ground: the gain of regularity offered by the system is thus preserved when the seeds are deposited on the ground. The seeds are sown following each other, regularly and unitarily or practically unitary.
    The treatment of the seeds is gravitational, for the catch and for the release of the seeds. It is purely mechanical, and does not require the presence of pneumatic means.
    The control device should not be confused with a dosing device, which it supplements, but does not replace. Both devices do not have the same functions. The metering device is placed directly under the hopper, and thus receives the seeds directly from it, which assumes a strong pressure, due to the mass of seeds present in the hopper. The regulating device, on the other hand, is a small-sized element, having, for example, a side face of the order of 10 cm × 10 cm and a width of 3 to 5 cm. It has a reserve of seed seeds, which contains only a few tens or hundreds of seeds (depending on the size of the seeds), which are therefore not subjected to high pressure.
    Thus, while the output accuracy (ie the respect of a seed distribution one by one with a time interval, or space, desired at ground level) of the dosing device is generally of the order of 40%, that of a regulating device according to the invention can reach of the order of 75% to 80% or more under certain conditions. In other words, the device of the invention makes it possible to obtain a precision close to that of a precision planter, without the complexity of the latter, and while offering a versatility on the different types of seeds.
    Such a control device comprises a wheel provided with at least one row of teeth forming buckets (each able to carry a seed), driven in rotation. This wheel, housed in a housing, draws the seeds from a supply of seeds supplied by the metering device, via an upstream part of a transfer duct, and transports them, in its buckets, to a downstream part of a transfer duct (for example the aforementioned cannula).
    According to the invention, the specific profile of the teeth of the wheel is adapted to ensure the taking of a seed, its maintenance and its delivery at the desired time. In particular, as detailed below, each tooth has a large flat surface, forming a slide, along which the seed moves progressively to control, in particular delay, the release of the tooth.
    This shape, if necessary combined with retaining means, for example a broom, allows the seed to be released (at the earliest) only after it has passed a horizontal line passing through the axis of the wheel. . In this way, the seed is subjected, in its fall, only to the effect of gravity, and drops substantially vertically as far as possible. It is not subject to deviations or centrifugal force, leaving the tooth early, which could cause rebounds on the edges of the cannula, and therefore positional offsets and / or delays. 5.2 Elements constituting the regulating device
    The various elements of the regulating device 1 according to a first embodiment are illustrated in FIG. 2, which represents the system being dispensed with seeds. This control device, compact in size, can easily equip a conventional sower unit equipped with a conventional metering device, so as to improve the accuracy and efficiency of the sowing operation.
    The regulating device is formed of a housing 22 comprising two communicating compartments 22a, 22b. The first compartment 22a forms a reserve of seeds, called "buffer reserve", where seeds are accumulating 100 from the metering device (not shown), while the second compartment 22b houses a wheel 23 with buckets, coming from the seeds 100 one by one in the buffer pool.
    The seeds 100 arrive, in this first embodiment, from the dispenser to the first compartment 22a of the housing 22 via a downstream portion of the transfer conduit 24a, secured to the top of the housing 22, and connected to an upstream portion of the conduit transfer 24b (or connected directly to an upper part of the cannula or ploughshare).
    The downstream portion 24a is here oriented (in the vicinity of the housing) in a direction opposite to the direction of rotation of the wheel 23, for example at an angle α between 15 ° and 35 ° relative to the vertical. This allows to slow down and guide the seeds, in cooperation with a wall 25, extending the downstream portion first with the angle, then vertically. This wall 25 isolates the arrival zone of the seeds of the wheel 23, the compartment 22a thus comprising a seed arrival zone and a seed gripping zone.
    The seeds are thus directed towards the gripping zone without interfering with the filling of the buckets of the wheel 23. It is in fact desirable to avoid, or at least to limit, the bouncing of seeds arriving in the buffer reserve, and in particular that seeds come to be doubled up in a tooth, or come to strike and eject a seed present in a tooth.
    An opening 29 may be provided, in the upper part of the housing, to allow the evacuation of air, especially in case of pneumatic supply. Additional means (not shown) forming "sock" can direct the air, possibly dust-laden, to the ground.
    According to another embodiment, illustrated in FIG. 5, the upstream portion 51 of the conduit bringing the seeds delivered by the metering device is substantially vertical. The seeds arrive on an inclined plane 52, forming for example an angle of the order of 35 to 50 ° with the vertical axis defined by the upstream portion 51 of the conduit. This inclined plane 52 directs the seeds towards a step 53, substantially horizontal, which extends downwards by a second inclined plane 54, also forming an angle β of the order of 35 ° to 50 ° with the vertical (the two planes inclined 52 and 54 forming between them an angle of between 80 and 100 °).
    The step 53 and the second inclined plane 54 may be formed in one and the same piece, and extend through a bottom portion 55, extending optionally under the wheel 23, and substantially defining the buffer reserve, the filling level of which optimum corresponds substantially to the position of the walk 53.
    The inclined plane 52, then the step 53, absorb a significant portion of the energy accumulated by the seed during its fall. There is thus little effect of rebounds, and the seizure of the seeds by the wheel 23 is not, or little, disturbed.
    This step (and possibly other elements) can be made of, or can carry, a damping material.
    It may be noted that an end portion 56 of the upstream portion 51 of the duct has a grid provided with openings for expelling the air, especially if the transfer of seeds is ensured pneumatically.
    It may be noted that an end portion 56 of the upstream portion 51 of the duct has a grid provided with openings for expelling the air, especially if the transfer of seeds is ensured pneumatically. Thus, the air under pressure is ejected before the regulating device, and does not disturb the operation of the latter, nor the flow of seeds in the downstream part of the conduit. This is particularly important for small seeds, especially for rapeseeds.
    The inclined plane 52 may extend in the extension of this portion 56.
    An arrival 58 of a complementary product, not requiring precise regulation, for example for an anti-slug product, can be provided (in the various embodiments). It is for example mounted on the housing so that this product is delivered above the upstream portion of the transfer conduit 24b. To prevent this complementary product from interfering with the seeds released, the inlet 58 may be mounted facing the hub of the wheel 23, in the case where it carries two rows of teeth.
    A drain hatch 40 (FIG. 3B) may also be provided for emptying the device, and for example for ridding the housing 22 of seeds that have been damaged, or have not been collected by the wheel 23.
    According to an alternative embodiment, this hatch 40 (or possibly another hatch) can lead directly or indirectly into the cannula. This makes it possible to short-circuit the regulating device, the seeds passing through the reserve zone and opening directly into the cannula (whose upper part is adapted to extend under the hatch), without passing through the wheel, without it is necessary to disassemble this regulating device. This can in particular be adapted to certain types of seeds that do not require, or are not adapted to, distribution via the wheel of the regulating device (for example, rye grass) and / or for high flow rates that do not require regulation.
    For example, the hatch can cooperate with a movable valve, extending substantially vertically when the hatch is closed, to form an upper portion of the conventional wall of the cannula, and moving and bowing when the hatch is open, for form, with the prolonged cheeks of the cannula, a funnel receiving the seeds directly from the reserve area.
    Thus, according to this approach, it is possible to regulate only when needed.
    An example of a wheel 23, particularly adapted to corn seeds, is shown, alone, in three dimensions in FIG. 3A. It is also shown placed in the second compartment 22b of the housing 22 in Figure 3B.
    This wheel 23 comprises at least one row of teeth forming buckets. According to a particular embodiment of the invention, the wheel 23 comprises two rows of teeth 31, 32 forming buckets positioned on either side of a central portion, or hub, 33. This hub 33 has a width for example greater than or equal to 1.5 times the size of a seed, so that such a seed penetrating the space defined by this hub can not get stuck there and be trained and distributed excessively. This large width allows the seed is redirected to the reserve, and not trained.
    The presence of two rows 31, 32 of teeth makes it possible to achieve a compact control device, without the speed of rotation being too high, because it can thus carry twice as many seeds as a device comprising a single row. In addition, the presence of two rows of bucket teeth acts as a seed stirrer in the reserve zone: when a row of buckets takes a seed from the reserve zone, the other seeds of the zone are naturally pushed to the other row of buckets.
    Each row of buckets 31, 32 is angularly offset, in other words staggered, so as not to affect the regularity of seed distribution. For example, the angular offset may be 360 / total number of buckets.
    The teeth of the wheel 23 each have a cavity, or housing, 35 forming bucket, or receptacle. That is, they preferably have a specific form, an example of which for maize is illustrated in FIG. 3C, thus enabling them to collect a seed in the seed bank, for example in the manner of spoon.
    The teeth may in particular have a curved shape, for example substantially spherical (or bowl), ensuring that the seed remains "trapped" in the bucket even in case of shaking or vibration (unlike existing diabolo or centrifugal type systems, which the seeds can be ejected in the presence of shaking and / or vibrations).
    The dimensions of a tooth, for an exemplary wheel, are reported in FIG. 3C. These dimensions are of course given by way of example, and may vary, in particular depending on the type of seed. The number of teeth depends on the diameter of the wheel.
    According to this particular embodiment, the external radius Re of the bucket is equal to its height H, while its internal radius Ri is equivalent to 0.6 times its height H. As this appears on the enlarged portion of FIG. inner radius is 5 mm, the outer radius 10 mm, and the bucket height is 9.3 mm.
    The back 36 of the tooth may be substantially flat, forming a slide, extending for example over a length L of 15 to 25 mm, on which the seed will move progressively when it leaves the receptacle 35. It is important that this slide has a length L relatively large, at least three times the radius Ri of the housing 35. In the example shown, this ratio L / Ri is of the order of 4, L is 20 mm.
    This slide is extended by a point defining a curved portion towards the axis of rotation of the wheel 23, particularly adapted to facilitate the seizure of a seed and / or to retain the seed in the housing 35, during the rise of the tooth .
    The receiving housing 35 of a seed is defined, in its inner portion adapted to receive a seed, by a circular arc of radius Ri. Schematically, it is formed by a first wall 351 (called the distal wall) defined by the inner part of the curved tip, a bottom 352 whose tangent is substantially radial, and a second wall 353 (called the proximal wall) joining the slide formed by the back of the previous tooth.
    As seen in width (as illustrated in the section of FIG. 3D), each tooth may present, over all or part of its length, at least one side wall 37, 38, having for example a height of between 1 and 3 mm, participating in maintaining the seed.
    In the case of a large seed, for example maize, only one side wall can be provided, on the side of the hub of the wheel. This configuration is illustrated in Figure 4A.
    For smaller seeds, for example wheat, walls may be used on either side of the tooth. This configuration is illustrated in Figure 4B.
    The dimensions, height and thickness of the walls, can be adapted to different types of seeds.
    Moreover, the wheel 23 is preferably made of a soft material that is not very aggressive for fragile seeds (for example rapeseeds), for example polyurethane.
    Wheels of different shapes and / or sizes, with variable number of buckets, or made of other materials, may be used depending on the type and size of seeds to be dispensed. The housing 22 may for this purpose include a flange able to open without tools so as to easily replace the wheels.
    As shown in FIG. 3B, the wheel is positioned in the second compartment 22b of the housing 22 so that each row of buckets 31, 32 is placed as close as possible to the walls 221 of the housing (for example with a space of the order of 1 mm), to prevent seeds from passing and / or getting stuck along these walls. In the same way, the space under the wheel is reduced (for example, not more than 2 mm) so as to prevent the passage of seeds to the transfer conduit 24b, as well as jams of debris, straw ends, etc. . To further reduce the risks, a broom (not visible in the figures) can also be provided at the bottom of the housing.
    A motor 39, for example of the electric type, drives the wheel 23 in rotation. It can be housed wholly or partially inside the wheel 23 forming with the housing 22 a compact module that can be easily mounted on sowing elements.
    According to a particular embodiment of the invention, it rotates at relatively low speeds, for example between 10 and 100 revolutions per minute. This speed can be controlled by the dose of seeds distributed by the dispenser so that the cups are always filled. For example, the seed level in the buffer pool may be about 4 to 8 times the number of buckets.
    In another embodiment, several (or all) regulating devices may be driven by a single motor. In this case, the wheel axes of the various devices are advantageously aligned.
    For corn, the reserve contains, for example, an average of one hundred seeds. However, the control device, even if it is designed to distribute the seeds one by one regularly, can accept situations of duplicate (seeds grouped by two or more) or lacks (seed absent) if necessary. It is thus very tolerant to load variations, and does not lock up in the event of overloading or underloading of the reserve. Tests show that such a regulating device can accept strong overdoses of 1.5 or 2 times the expected dose. In such a situation, a large number of duplicates will be issued, but the device will not lock.
    Furthermore, the drive of the wheel 23 can be linked to the progress of the drill, proportionally. This gives the farmer the possibility to modulate or cut the distribution automatically and instantly if necessary (this can be the case in the ends of parcels, or in bends, etc.). The residual seeds transported in the transfer channel are then locked in the buffer pool and are selected only when the seeder (and thus the wheel) starts up again.
    This is an advantage over current systems, especially pneumatic seed drills, which always have a quantity of seeds in transit in the ducts, continuing to flow until complete emptying, and despite stopping seeder. In this case, the seeds fall to the ground where they gather.
    It may happen that seeds 100 are driven by the wheel 23 without being placed in one of the bucket teeth. For example, in the embodiment of Figure 2, a seed can be housed and driven between the two rows of teeth 31, 32 at the hub 33). In order to remedy this eventuality, it is possible to provide a central ejector 26, called a "scraper", taking for example the shape of a plane blade, extending above the hub 33. In contact with or near this hub, between the two rows of teeth 31, 32, it allows to return to the buffer pool the seeds not to be distributed.
    In this first embodiment, a flexible blade 27 is placed at the top of the housing 22, for example in an area where the wheel 23 has approximately performed between 1/4 and 2/3 of its rotation after seizing a seed. This broom 27 is provided to maintain and / or guide the seed along the slide 36 of the tooth of the wheel 23 until it escapes by gravity. That is to say that the combination of this slide 36 and a broom 27 (more generally a movable retaining means) makes it possible to optimize the control of the fall of the seed, which is delayed at least until at a point of rotation of the wheel where the gravity allows the seed to escape vertically in the transfer conduit 24b (the seed thus having crossed the horizontal axis passing through the axis of rotation of the wheel) .
    A suitable mechanism can ensure temporary removal of the blade 27, so that it deviates sufficiently from the wheel to release the seed at the desired release time, to synchronize optimized seed release. According to an effective approach, this temporary removal is ensured by a tooth (the one that contained the seed or a subsequent tooth, depending on the direction of rotation), the upper part (the furthest part of the axis of rotation of the wheel) just push and move the bristles of the broom. It is the teeth that control the movement of the bristles.
    In a second embodiment, shown in Figure 5, a second broom) 57 substantially horizontal, flexible, and in contact with the hub 33 and the series of teeth 31, 32 of the wheel. This broom 57 has the advantage of limiting the risk of blockage of the system, due to potential seed debris jamming under a more rigid element. In this embodiment, the scraper of the first embodiment is deleted.
    These brushes are relatively flexible, but have a sufficient stiffness allowing him to keep the part of his bristles in contact with the wheel substantially vertically, or more precisely substantially radial to the wheel, to maintain a seed 100 in place in the tooth despite the rotation of the wheel 23, at least until this seed exceeds a horizontal axis AH through the axis of rotation of the wheel. Thus, the seed is released only after having exceeded this horizontal axis AH, and falls vertically, being subjected to the effect of the gravity.
    The flexibility of the brushes 27, 57 can be adapted to all types of wheels and / or seeds.
    These brushes 27, 57 could possibly be replaced by one or more flexible blades, for example plastic or rubber.
    This regulating device can be arranged close to the ground, for example on the seed element itself. Thus, the transfer conduit 24b of the seeds to the soil, has a moderate length (for example 30 to 40 cm) to accompany the seeds without disturbing the regular spacing between them. It can have a smooth surface without asperity not disturbing the gravitational descent of the seeds.
    A regulating device according to the invention may be provided to control the exact dose of seeds sown for each row. In some cases, regulating devices will be used on some ranks only (eg 1 in 5), or a pair of rows, the other rows being closed (without seed). Classically, conventional seed drills deliver a seed every 12.5 cm, while a precision seeder deliver one seed every 75 cm. The invention makes it possible to approach the precision of a precision seed drill effectively, it may be desirable to use the same spacing between the seeds.
    The seeds 100 are finally deposited at regular intervals on the ground, the moderate length (of the order of 30 cm for example) of the transfer channel 24b does not disrupt their transport.
    Of course, the specific features or variants described in correspondence with one of the embodiments may be adapted and / or implemented in another embodiment. 5.3 operation
    The operation of the regulating device according to the invention is described below with reference to FIGS. 6A to 6C.
    These figures illustrate the path of a seed 6, the gripping by the wheel in a set of 66 seeds present in the buffer zone to the upper part of the housing, and then to its release. In these figures, for the purposes of the explanation, a single seed 6 is presented, in different successive positions. Of course, in practice, each tooth carries a seed.
    The seeds 100 present in the hopper are thus dosed and distributed by a metering device (not shown). They arrive more or less irregularly at the zone 22a of the housing 22 of the regulating device by the downstream portion of the conduit 24a. Seeds 100 are continuously collected at the buffer pool where they accumulate (66).
    A tooth 61 of the wheel, when in the lower portion of the housing 22, passes through the seed assembly 66 and selects (or catches) a seed 6, as shown in FIG. 6A. During the rotation of the wheel, the tooth 61 passes through a first angular sector SA1, substantially between 0 ° and 90 ° (0 ° corresponds to a radius of the wheel extending vertically downwards), in which the tip of the tooth 61 guides a seed 6 present in the buffer pool to the receiving housing of the seed. The shape of the tip is adapted to capture, as much as possible, a single seed, without damaging (rounded end).
    In a second step, the tooth covers a second angular sector SA2, substantially between 90 ° and 180 °, in which the seed is received and maintained in the housing 35 (sectors SA1 and SA2 overlap, some seeds can be seized early (and thus kept in the housing soon), and other seeds later, without the operation being altered). This housing defines a cavity or bucket, effectively maintaining the seed, to prevent it from escaping during the rise of the tooth (despite, for example, vibration and shaking).
    Thus, after about 1/4 to 2/3 of rotation of the wheel 23, the seed 6, taken from the reserve, comes into contact with the bristles of the "horizontal" brush 57 (in the second embodiment), as visible in Figure 6B. For an additional 1/6 to 1/4 turn, it is held in a "tunnel" (or cavity) formed by the inner radius of the tooth in which it is placed, and the slide 36 formed by the back of the tooth 64 preceding the tooth 61, and the bristles 57.
    Then the tooth covers a third angular sector SA3 (Figure 6C), substantially between 180 ° and 310 °, wherein the seed, subjected to gravity, slides progressively along the slide formed by the back of the tooth 64 previous. The seed is in particular guided by the bristles 57, extending above and laterally.
    The seed 6 continues to slide on the slide 36, coming into contact with the second broom, said "vertical" broom 27, without forcing, always under the effect of gravity. The seed therefore leaves the housing and then moves slowly on the slide, being retained (and therefore its delayed fall) by the specific profile of the tooth, in cooperation with the action of the second broom 27 forming a tunnel (or a cavity) for the seed. This slide thus forms a "relaxation zone", which allows an exit as soon as possible of the housing of the tooth, whose shape is adapted accordingly. This prevents seed blockages in this housing, especially when several seeds have been seized at the same time.
    The seed thus remains on the back of the previous tooth 64, until the moment desired for release, that is to say a point of rotation of the wheel where the blade is pushed by the tooth which had taken the seed in the reserve, the force of gravity allowing the seed to escape vertically in the downstream transfer pipe 24b, in the fourth angular sector SA4, substantially between 310 and 360 °.
    The offset of the bristles can be ensured, at least in part, by the action of the next tooth 61, whose tip bears on the bristles, and pushes them back, facilitating the fall of the seed 6. This mechanism controls the synchronization seed release, each release being actuated by a tooth (by the next tooth, and more precisely by the tip forming the upper part of the housing of the seed considered, in the illustrated embodiment). In the case where several rows of teeth are provided, the bristles are sufficiently flexible and independent to ensure a differentiated treatment of each row (a part of the bristles being associated with a given row).
    In this embodiment, it is therefore the teeth that control the gradual transition from the retaining position to the release position, and the return to the retaining position. In variants, other displacement actuation means are possible, preferably controlled by the rotation of the wheel, to ensure synchronization.
    It should be noted that, in other embodiments, a regulating device according to the invention can dispense with the presence of retaining means. In this case, it is the specific form of the teeth, and in particular the long, essentially flat, back of the tooth, providing a toboggan function, which ensures the control of the release of each seed, this release being delayed by the moving the seed along this slide.
    权利要求:
    Claims (11)
    [1" id="c-fr-0001]
    1. A regulating device (18a, 18b, 22) for a seed drill, for feeding a seed unit (12) to a seed drill and intended to be mounted downstream of means for dosing and transporting seeds, said feeding device regulator (18a, 18b, 22) comprising a seed-fed reserve zone (22a) (100) via a supply inlet connected to the dosing and conveying means, characterized in that it comprises a wheel (23) adapted to collect seeds (100) in said reserve zone (22a), by means of at least one row of teeth, each tooth presenting from the rear towards the front in the direction of rotation of the wheel (23) a substantially planar surface (36) extending along a length L and forming a slide; a tip, in the extension of said slide, having a portion curved towards the axis of rotation of said wheel (23); a housing (35), formed under said curved portion, substantially defining an arc of radius of radius Ri and joining the slide of the previous tooth, and in that said length L is at least triple said radius Ri.
    [2" id="c-fr-0002]
    2. Control device (18a, 18b, 22) for seeder according to claim 1, characterized in that said wheel (23) comprises at least two rows of teeth (31, 32) separated by a central space (33).
    [3" id="c-fr-0003]
    3. Control device (18a, 18b, 22) for seeder according to claim 2, characterized in that the teeth of a first row (31) are arranged in staggered relation to the teeth of a second row (32).
    [4" id="c-fr-0004]
    4. Control device (18a, 18b, 22) for seeder according to any one of claims 1 to 3, characterized in that iadite at least one row of teeth is disposed at a distance from a wall (221) of said device less than or equal to 1 mm.
    [5" id="c-fr-0005]
    5. Seed control device (18a, 18b, 22) according to any one of claims 1 to 4, characterized in that each of said teeth has at least one side wall (37, 38), at least on a portion of said housing (35).
    [6" id="c-fr-0006]
    6. Control device (18a, 18b, 22) for seeder according to any one of claims 1 to 5, characterized in that said wheel (23) is rotated by a motor (39) located at least partly to inside said wheel (23).
    [7" id="c-fr-0007]
    Seed control device (18a, 18b, 22) according to one of claims 1 to 6, characterized in that said wheel (23) is selected from a plurality of wheels each adapted to a type, size and or a dose of seeds to be transported.
    [8" id="c-fr-0008]
    8. Control device (18a, 18b, 22) for seeder according to any one of claims 1 to 7, characterized in that it comprises mobile means for retaining the seeds inside said housing (35) of said teeth , delaying the release of each seed, which can take two positions: a holding position of a seed, by default; and a seed release position, said holding means being temporarily moved away from said wheel (23).
    [9" id="c-fr-0009]
    9. Control device (18a, 18b, 22) for seeder according to claim 8, characterized in that said movable retaining means comprise at least one broom (27) comprising an assembly of bristles whose at least the free portion extends substantially tangentially to the wheel.
    [10" id="c-fr-0010]
    A control device (18a, 18b, 22) for a seed drill according to any one of claims 1 to 9, characterized in that said supply inlet of said reserve comprises an inclined plane (52), directing the seeds to a a step (53) formed substantially at mid-height of said regulating device (18a, 18b, 22), so as to slow the seeds arriving in said reserve zone (22a).
    [11" id="c-fr-0011]
    11. Seed drill comprising a plurality of sowing elements (12), each sowing element (12) comprising dosing and transport means, controlling the flow of the seeds at the outlet of a hopper (13) and delivering said seeds in a transfer duct (5) for supplying means for planting said seeds, each sowing element (12) also comprising a regulating device (18a, 18b, 22) mounted between said dosing and transport means and said setting means in the earth, close to the latter, said regulating device (18a, 18b, 22) comprising a seed-fed reserve zone (22a) via a feed inlet connected to said dosing and transport means by an upstream portion (24a) of said transfer conduit, characterized in that it comprises a wheel (23) adapted to collect seeds in said reserve zone (22a), by means of at least one row of teeth, each tooth presenting from back to the front according to the direction of rotation of the wheel (23); a substantially planar surface (36) extending along a length L and forming a slide; a tip, in the extension of said slide, having a portion curved towards the axis of rotation of said wheel; a housing (35), formed under said curved portion, substantially defining an arc of radius of radius Ri and joining the slide of the previous tooth, and in that said length L is at least triple said radius Ri.
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    同族专利:
    公开号 | 公开日
    EP3238519A1|2017-11-01|
    FR3050608B1|2018-11-16|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE254520C|1911-10-03|1912-12-09|Erhardt Ludwig|ADJUSTABLE SIZE CELLS FOR SOWING MACHINES|
    DE1051047B|1956-08-10|1959-02-19|Martin Schmidt|Precision seeder with a seed wheel arranged on the bottom outlet of the seed box|
    FR2273462A1|1974-06-07|1976-01-02|Feller Marc|Seed distributor for rice drill - endless belt travels around half periphery of distributor drum|
    EP0076219A1|1981-09-22|1983-04-06|Societe De Developpement Et Recherche En Machinisme Agricole - Soderma|Dibbling seed drill|
    CA2814221A1|2013-04-26|2014-10-26|Straw Track Manufacturing Inc.|Apparatus for metering seeds|
    GB1591794A|1976-10-28|1981-06-24|Rota Spoon Ltd|Seed dispensing device|
    FR2658380B1|1990-02-20|1992-06-19|Sulky Burel Sa|SEED GUIDING SHOE, ADAPTABLE ON A SEEDER SHOE.|
    FR2691040B1|1992-05-12|1999-03-05|Sulky Burel|SEED DISPENSING DEVICE FOR SEEDER.|
    US5549060A|1995-08-02|1996-08-27|Deere & Company|Mechanical seed meter|
    FR2817447B1|2000-12-05|2003-08-29|Sulky Burel Sa|DRILL|
    FR2923675B1|2007-11-16|2012-10-26|Sulky Burel|SEMOLINATING THE SIMULTANEOUS DISTRIBUTION OF GRANULAR SEEDS AND ELEMENTS, IN PARTICULAR FERTILIZERS|FR3072855B1|2017-10-27|2019-12-20|Sulky Burel|DEVICE FOR REGULATING THE SEED DISTRIBUTION FOR A SEEDER, AND CORRESPONDING SEEDER.|
    US10736264B1|2019-02-01|2020-08-11|Cnh Industrial Canada, Ltd.|Modular meter roller shaft system|
    US10750665B1|2019-02-01|2020-08-25|Cnh Industrial Canada, Ltd.|Meter roller system|
    US10757857B2|2019-02-01|2020-09-01|Cnh Industrial Canada, Ltd.|Meter roller insert system|
    法律状态:
    2017-04-27| PLFP| Fee payment|Year of fee payment: 2 |
    2017-11-03| PLSC| Search report ready|Effective date: 20171103 |
    2018-04-25| PLFP| Fee payment|Year of fee payment: 3 |
    2019-04-25| PLFP| Fee payment|Year of fee payment: 4 |
    2020-04-21| PLFP| Fee payment|Year of fee payment: 5 |
    2021-04-27| PLFP| Fee payment|Year of fee payment: 6 |
    2021-06-18| CD| Change of name or company name|Owner name: BUREL PRODUCTION, FR Effective date: 20210510 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1653847A|FR3050608B1|2016-04-28|2016-04-28|DEVICE FOR REGULATING THE DISTRIBUTION OF SEEDS FOR A SEEDER, AND CORRESPONDING SEEDER.|
    FR1653847|2016-04-28|FR1653847A| FR3050608B1|2016-04-28|2016-04-28|DEVICE FOR REGULATING THE DISTRIBUTION OF SEEDS FOR A SEEDER, AND CORRESPONDING SEEDER.|
    EP17168792.4A| EP3238519A1|2016-04-28|2017-04-28|Device for controlling seed distribution for seeder, and corresponding seeder|
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