FR2961058A1 - Single-grain seeder for culturing e.g. corn, has depression chamber sealed by dispensing disk, and exerting unit exerting constraint on obturating disk to maintain obturating disk in support against dispensing disk along angular portion - Google Patents

Abstract

The seeder has a depression chamber (1) sealed by a dispensing disk (10). The chamber and the dispensing disk are integrated in rotation around an axis (X). The dispensing disk separates the depression chamber from a seed tank (3) and comprises a series of holes formed regularly in a periphery of the disk. Each hole aspires a seed contained in the tank and maintains grain plated against the dispensing disk. An exerting unit (5) exerts constraint on an obturating disk (4) to maintain the obturating disk in a support against the dispensing disk along an angular portion.

Description

Single-seed seeder comprising a vacuum chamber including additional means for holding a shutter disk against a distributor disc.

The field of the invention is that of the design and manufacture of agricultural machinery. More specifically, the invention relates to a single-seed drill, of the vacuum type. Currently, there are, regarding the general principle of single-seed drills, several categories of selection boxes. Some are mechanical, other pneumatic vacuum or pressure. The present invention relates to single-seed drills of the category of vacuum selection boxes. In this category, there are two types of solution: fixed vacuum chambers with a rotating disc, and vacuum chambers rotating with the disc. The fixed vacuum chambers have the following advantages: they are of simpler design, and therefore less expensive. According to this design, the selector is placed on the disc just after the seed has been taken, the depression being cut at the joint and the ejector being placed on the disc at the level of this depression cutoff. However, these drills have the disadvantage of requiring a significant seal between the vacuum chamber and the disc. However, this seal is obtained by friction between the disc and a seal, or a part acting as a seal. It results therefore from the friction phenomenon wear and torque consumption. According to the technique of the rotating vacuum chamber, there is no more seal, so more friction and, therefore, no wear. In addition, the torque necessary for the rotation of the chamber is less than that required for the rotation of the disk in the solution of the planters with fixed vacuum chamber.

This type of seeder, however, has the disadvantage that cutting depression is much more difficult to achieve. Indeed, the cutoff device must be fixed inside a rotating assembly. The present invention relates to planters comprising a rotary vacuum chamber.

Regarding this technique, several solutions have been proposed by the prior art. A single-seeded seed drill of the type described by the patent document published under the number FR-2 198 354 is particularly known. According to the technique described by this document, the drill comprises a drum (the chamber) capable of rotating around a drum. a horizontal axis, this drum being associated with a seed tank and the inside of the drum being connected to a source of depression. A plate having a circle of perforation distributed at equal distance on a circle closes the drum, being arranged orthogonal to the axis of rotation of the drum. This plate is intended to be in contact with the seeds present in the tank. Inside the drum is disposed a shutter member against the inner face of the perforated plate, in the region of its lowest point. According to a first embodiment, the shutter member is constituted by a roller of elastic material rolling on the inner face of the perforated plate in the region of the suction holes, the roller being mounted on an arm rigidly connected to the axis. drum. According to a second embodiment, the shutter element is a vacuum plate which is applied by its edge against the inside face of the perforated plate in the region of the suction holes, this plate being rotatable and being provided on its edge with an elastic liner, at least from its side directed towards the perforated plate. The vacuum plate is slightly inclined relative to the perforated plate, so that the elastic lining bears against the perforated plate in the lower region thereof. These two solutions of the depression shutter element each have a disadvantage.

In the case where the shutter member is constituted by a roller, it is found in practice that the vacuum cut is too short and that, therefore, some seeds do not detach from the perforated plate. With the shutter elements in the form of inclined plates, it is found in practice that the depression cut is not quite straightforward. Indeed, the depression inside the chamber tends to move slightly the shutter plate of the perforated plate, which tends to maintain a residual vacuum between the shutter plate and the perforated plate. As a result, some seeds, particularly light seeds, are retained on the perforated plate by this residual depression. In both cases, there is a lack of reliability or, at the very least, a lack of precision as to the release of seeds into the furrow. However, in the field of semi-seed, for example for crops of corn, beet or sunflower, it is sought to implant the seeds individually respecting a predetermined spacing between the seeds deposited in the groove. This spacing is of great importance for a good profitability of the crop, the development and the quality of the plants to come being conditioned by an optimal spacing between the seeds. The invention particularly aims to overcome the disadvantages of the prior art. More precisely, the purpose of the invention is to propose a single-seeded seed drill with a vacuum rotating chamber which is more reliable and more precise than the solutions of the prior art. Another object of the invention is to provide such a single seed drill which does not generate an increase in the mechanical torque involved in the rotation of the rotating chamber. The invention also aims to provide such a single-seed drill which limits the wear phenomena of rotating parts involved in closing the vacuum.

These objectives, as well as others which will appear later, are achieved thanks to the invention which has for object a single seed drill, of the type formed of a vacuum chamber closed by a distributor disk, said chamber and said dispensing disk being integral in rotation about a first axis, said distributor disc separating said vacuum chamber from a seed tank and having a series of holes regularly disposed at its periphery, each of said holes being able to suck a seed contained in the reservoir and to keep it pressed against the distributor disk during its journey to an area outside said tank, said seed drill further comprising a shutter device cooperating with the face of the distributor disc located on the side of the vacuum chamber, the shutter device consisting of a shutter disc, rotating freely about an axis not parallel to the axis of the distri scorer and having a deformable peripheral ring to be pressed along an angular portion against the surface of the dispensing disc so as to be driven by the rotation of said dispensing disc to temporarily seal the holes to release the seeds successively in said outer zone, characterized in that it comprises additional means capable of exerting a stress on said shutter disk so as to maintain it in abutment against said distributor disk along said angular portion. Thus, thanks to the invention, it keeps steadily the shutter disc bearing against the distributor disk along the desired angular portion. In other words, by the implementation of the additional means according to the invention, it is no longer possible for the shutter disc to move away from its position in abutment against the disk of the dispenser under the effect of the depression .

In the angular portion along which the shutter disk bears against the disquedistributor, there is consequently no residual depression between the two disks and the seeds are thus released from the distributor disk reliably and accurately. Furthermore, the invention achieves this objective without causing a significant increase in the wear phenomena of the parts involved in closing the vacuum, or the rotational drive torque of the rotating chamber. According to an advantageous embodiment of the invention, said additional means comprise a rigid pressure roller rotatably mounted about an axis extending in the radial direction relative to said shutter disk. In this way, the simple and effective design solution is obtained to ensure a constraint on the shutter disk able to hold it in abutment against the distributor disc (in the desired angular portion). According to a preferred variant of the invention, said additional means comprise at least two rigid pressure rollers each rotatably mounted about an axis extending in a radial direction relative to said shutter disk, the axes of said two rollers extending in the vicinity ends of said angular portion. According to a second conceivable variant, said additional means comprise a series of rigid pressure rollers each mounted rotatably about an axis extending in a radial direction relative to said shutter disk, the axes of said rollers being evenly distributed angularly along said portion. angular. This second variant can certainly ensure a good distribution of the stresses exerted on the shutter disk in order to maintain it in support against the distributor disk in the desired angular portion. However, this second variant may involve some assembly constraints with regard to the hyper-droop of the rollers of the series against the shutter disk. According to an advantageous solution, said vacuum chamber being rotatably mounted around a hollow fixed hub, said one or more rollers are carried by a support piece fixedly mounted on said fixed hub. In this case, said shutter disk is advantageously rotatably mounted about an axis carried by said support piece. Preferably, said support piece comprises a plate, the axis of said one or more rollers being fixedly mounted on said plate.

This provides a simple support piece design and, therefore, inexpensive to achieve and implement. Note that the axis of said roller or rollers may alternatively be movable, (with in this case a pressurizing system by a spring).

Advantageously, said plate extends angularly inside said vacuum chamber on a range corresponding to said angular portion. Thus, a support piece is used whose size is adjusted to the angular portion envisaged.

Advantageously, said plate and the axis of said one or more rollers are metallic, the axis of said roller or said rollers being secured to said plate by welding. This provides a low cost assembly to manufacture and mount. However, any other technique ensuring rigid attachment of the axis of said roller or rollers on the plate can be considered. According to another additional feature, the single-seed drill comprises an ejector mounted on the side of the outer face of said distributor disk relative to the vacuum chamber, forming a ramp against which a seed is likely to come into contact.

Such an ejector makes it possible to ensure the release of the seed from the distributor disk, this in the case (may be frequent) or the seed would remain in place against the disk, even in the absence of depression. Other characteristics and advantages of the invention will appear more clearly on reading the following description of a preferred embodiment of the invention, given by way of indication and not limitation, and the appended drawings in which: FIG. 1 is a sectional view of a single seed seeder according to the invention; Figure 2 is a front view of the additional means of a single-seed drill according to the invention; FIG. 3 is a view of the obturator disc of a single-seed planter according to the invention; FIG. 4 is a view of a distributor disc of a single-seed planter according to the invention; FIG. 5 is a partial front view of a single-seed planter according to the invention, illustrating the mounting of a external ejector. As indicated above, the principle of the invention lies in the fact of implementing additional means preventing the shutter disk from moving apart, in an angular portion along which the shutter disc is supposed to bear against the distributor disk, to deviate from the distributor disk under the effect of the depression prevailing in the room. With reference to FIG. 1, a single-seed planter according to the invention comprises: a vacuum chamber 1; a distributor disc 10, closing the vacuum chamber; a fixed hub 2; a seed tank 3, fed with seeds via a conduit; a shutter device constituted by a shutter disc 4.

The vacuum chamber 1 is rotatably mounted on the fixed hub 2 by means of bearings 11. The disk 10 and the vacuum chamber 1 are integral in rotation about the axis X of the fixed hub. The distributor disk 10 separates the vacuum chamber from the seed tank 3, and has a series of holes 100 (FIG. 4) regularly disposed at its periphery, each of these holes 100 being able to suck a seed contained in the tank and maintain it. press against the distributor disk during its journey to an outer zone 31, in the lower part of the drill. The release of seed takes place in an angular range of between 90 ° and about 135 ° from the highest point of the disc (angular portion marked P in Figure 4).

The operation is therefore as follows: the vacuum chamber 1 is rotated on the fixed hub by drive means (not shown) integrally driving in rotation the disk 10 which slides in contact with the seeds contained in the reservoir 3. A depression is achieved in the vacuum chamber 1 through the fixed hub 2 which is hollow. Each unclosed holes 100 therefore form a passage for the depression made in the vacuum chamber, which tends to press a seed by suction on the side of the face of the disc facing the reservoir. At the approach of the outer zone 31, the shutter disk 4 closes the holes 100 on an angular portion P, which allows the seeds to be released successively in the outer zone.

More specifically, the shutter disk 4 is rotatably mounted in the vacuum chamber 1 about an axis X 'forming a non-zero angle with the axis X. The shutter disk 4 thus occupies a position inclined relative to the disk 10 such that this is clearly shown in FIG. 1. The shutter disk 4 has a peripheral ring 40 made of a deformable material, which tends to crush slightly against the distributor disk 10 in the angular portion P, so as to temporarily close the holes 100 of the disk distributor. The shutter disk 4 is dimensioned and mounted in the vacuum chamber so that the peripheral ring 40 bears against the distributor disk 10 (the peripheral ring being slightly pressed against the distributor disc), the shutter disc 4 being driven into position. rotation about the axis X 'by friction of the distributor disk 10 (and more precisely by the face of the distributor disk located on the side of the vacuum chamber) on the peripheral ring 40 of the shutter disk 4.

According to the principle of the invention, a single-seed drill as illustrated by FIGS. 1 and 2 further comprises additional means 5 able to exert stress on the shutter disc 4 so as to hold it in abutment against the distributor disk 10 along the angular portion P. As described below, these additional means comprise at least one rigid pressure roller rotatably mounted about an axis extending in a radial direction relative to the shutter disk 4. According to the embodiment illustrated in FIGS. 2 to 4, the additional means 5 comprise two rigid pressure rollers 50 each rotatably mounted about an axis R, this axis R constituting a radial direction of the shutter disk 4. In addition, the axes R of the two rollers 50 extend in the vicinity of the ends of the angular portion P. It is noted that, according to another possible embodiment, additional means may comprise a series of rollers pr rigid spindles all mounted rotatably about an axis corresponding to a radial direction of the shutter disk, with the axes evenly distributed along the angular portion P, the rollers possibly counter-rotating relative to each other. According to the present embodiment, the rollers are mounted on a support part 51 fixedly mounted on the fixed hub 2 consisting of a metal plate having the following different zones. a ring 510 for fixing the support part 51 on the fixed hub 2; an intermediate zone 511 bearing the axis X 'around which the shutter disk is rotatably mounted; a plate 512. As shown in Figure 2, the plate 512 has a fan-like shape, extending angularly on a range corresponding to the angular portion P. According to the present embodiment, the rigid pressure rollers 50 are made in a plastic material and are each rotatably mounted on a metal axis 500 reported and welded to the plate 512 so as to extend in a radial direction of the shutter disk 4. The axes 500 of the rollers are thus fixedly mounted on the plate 512. Of course, the thickness of the metal plate constituting the support part 51 is intended to allow no deformation of the plate under the effect of the depression prevailing in the vacuum chamber and / or under the effect of the pressure of the rollers. According to another characteristic illustrated in FIG. 5, the single-seed drill comprises an ejector 6 mounted on the side of the external face of the distributor disc relative to the vacuum chamber. This ejector forms a ramp 60 against which a seed is likely to come into contact, until it is offset from the hole through which it is sucked. The action of this ejector is combined with that of the disc shutter so as to ensure that the seeds are released at the outer zone 31.10

Claims (10)

REVENDICATIONS1. Single-seed seeder, of the type formed of a vacuum chamber (1) closed by a distributor disk (10), said chamber and said distributor disk being integral in rotation about a first axis (X), said distributor disc separating said vacuum chamber of a reservoir (3) of seeds and having a series of holes (100) regularly disposed at its periphery, each of said holes (100) being able to suck a seed contained in the reservoir (3) and at the maintaining pressed against the distributor disk (10) during its journey to an outer zone (31) to said reservoir (3), said seed drill further comprising a shutter device cooperating with the face of the distributor disk (10) located on the side of the vacuum chamber (1), the shutter device being constituted by a shutter disc (4), rotating freely about an axis not parallel to the axis of the distributor disk (10) and having a peripheral ring (40) of formable to be pressed along an angular portion (P) against the surface of the dispensing disc (10) so as to be driven by the rotation of said dispensing disc to temporarily seal the holes (100) to release the seeds successively in said outer zone (31), characterized in that it comprises additional means (5) able to exert a constraint on said shutter disc (4) so as to hold it in abutment against said distributor disc (10) along said angular portion (P). 2. seed drill according to claim 1, characterized in that said additional means (5) comprise at least one rigid pressure roller (50) rotatably mounted about an axis (R) extending in a radial direction relative to shutter disk audit (4). 3. seed seeder according to claim 2, characterized in that said additional means comprise at least two pressure rollers (50) rigid each rotatably mounted about an axis (R) extending in a radial direction with respect to said shutter disk the axes of said two rollers extending in the vicinity of the ends of said angular portion (P). 4. seed seeder according to claim 2, characterized in that said additional means (5) comprise a series of rigid pressure rollers (50) each mounted rotatably about an axis extending in a radial direction relative to said disk. obturator, the axes of said rollers being evenly distributed angularly along said angular portion (P). 5. Single-seed seeder according to any one of claims 2 to 4, wherein said vacuum chamber is rotatably mounted around a fixed hub (2) hollow, characterized in that said roller or rollers (50) are worn. by a support piece (51) fixedly mounted on said fixed hub (2). 6. Single-seed seeder according to claim 5, characterized in that said shutter disc (4) is rotatably mounted about an axis (X ') carried by said support piece. 7. Single-seed seeder according to one of claims 5 and 6, characterized in that said support member (51) comprises a plate (512), the axis of said roller or rollers (50) being fixedly mounted on said plate ( 512). 8. seed seeder according to claim 7, characterized in that said plate (512) extends angularly inside said vacuum chamber on a range corresponding to said angular portion (P). 9. seed seeder according to one of claims 7 and 8, characterized in that said plate (512) and the axis of said roller or rollers (50) are metallic, the axis of said roller or said being secured to said platinum by welding. 10. Single-seed seeder according to any one of claims 1 to 9, characterized in that it comprises an ejector (6) mounted on the side of the outer face of the distributor disk relative to the vacuum chamber, forming a ramp against which a seed is likely to come into contact.