RU2758110C1 - Seeding and planting machine - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: present invention relates to a seeding mechanism and a sower containing this seeding machine (1) for distributing grain-like products to or into the soil. The seeding machine contains a chassis (2), the first node for distributing the first grain-like product, which contains a main hopper (11) attached to the frame (20). The frame (20) can move relative to the specified chassis (2) and can take the so-called “lowered” position, which is the working position of the specified seeding machine (1), and the so-called “raised” position, which is the position for maintenance of the specified seeding machine (1). The frame can move from the specified “lowered” position to the specified “raised” position and vice versa. The seeding machine also contains a mechanism for tilting the specified frame (20), containing a folding quadrilateral (24) or a double quadrilateral connecting the specified frame (20) to the specified chassis (2). In this case, the mechanism for tilting the frame is located essentially perpendicular to the plane X-X' formed by the specified chassis (2), and is supported essentially perpendicular to the specified plane X-X' in the specified “lowered” and “raised” positions, as well as when moving from one position to another and vice versa.

EFFECT: invention will provide better access to the working bodies during their repair or replacement.

15 cl, 11 dwg

Description

The technical field to which the invention relates

[0001] The present invention relates to a metering device for the simultaneous distribution of at least one grain-like product, preferably several grain-like products, comprising at least a first mobile feed hopper. The present invention also relates to a planter comprising such a metering unit.

State of the art

[0002] In agriculture, planters for distributing grain-like products, such as seeds, fertilizers or agrochemicals, typically include a plurality of metering units located on a main chassis, which chassis typically contains multiple wheels for ground travel. These wheels can be mobile, raised or retracted so that they do not come into contact with the ground, for example, during maneuvers or when transporting the drill.

[0003] Seeders can be self-propelled, however, they are usually pulled or towed by an agricultural machine, such as a tractor. In such a case, they contain mechanisms for attachment to the agricultural machine or to the main chassis. They also usually contain mechanisms for cutting the furrow in the soil, mechanisms for re-filling it, one or more hoppers that are capable of storing and in operation unloading a grain product or different grain products for seeding or spreading, sometimes at the same time.

[0004] Seeders are usually equipped with one or more distribution units for distributing grain-like products to or into the soil, in most cases one distribution unit for each type of grain-like product, each of which possibly contains a mechanism for transporting grain-like products to the soil or works in interaction with him. The distribution unit, or each distribution unit, works in conjunction with or associated with a grain storage hopper.

[0005] It is a common practice to use automatic adjustments and demountable hoppers for planters that can simultaneously distribute different grain products. For example, EP 0140262 describes a seed drill comprising a seed hopper that pivots about its own axis, relative to a support chassis, along one axis that runs perpendicular to the chassis. The seed hopper can be tilted back to make it easier for the operator to lift and separate from the chassis for replacement. Likewise, EP 0729698 describes a double tank hopper mounted at the end of an arm that tilts about one axis and is driven by hydraulic cylinders.

[0006] In addition, document FR 2691039 describes a seeder comprising a hopper not attached to a frame. The seed hopper is mounted in such a way that it can be moved between the raised position, the working position, above the tillage implements, just behind the rear of the tractor to which the drill is connected, and the lowered position for filling and emptying the seed hopper or servicing the metering devices, while the seed the hopper is located behind the drill. It moves from one position to another by tilting or ramping by means of two substantially parallel arms that are pivotally suspended at different points on the planter and hopper chassis using a hydraulic cylinder connecting one of the arms to the end of the other arm.

[0007] Likewise, DE 4417964 describes a seed drill with a hopper not attached to a frame. The seed hopper is mounted in such a way that it can be moved between the first raised position, which is the working position, the lowered position for filling the seed hopper, and the second raised position for maintenance, in which the seed hopper and planter implements are raised and moved from one position to another with using a series of two parallelograms, each equipped with two levers attached to the articulated part of the planter frame in such a way that they can be moved. One of the two parallelograms is equipped with a third lever, which is attached to the articulated part of the chassis by means of a hydraulic cylinder and is connected to the hopper by a spring lever that allows the hopper to be lowered as it is emptied during the operation of the seeder.

[0008] However, the main disadvantage of this type of metering device is the lack of easy access for maintenance or replacement of various components, for example, a distribution unit or units for grain products. The main reason for this is the very close proximity of the metering unit components, usually under the main seed hopper, to keep the metering unit as compact as possible and to accommodate many other components on one planter.

Objectives of the invention

[0009] An object of the present invention is to provide a metering unit and planter with such a metering unit that do not have the disadvantages of the prior art.

[0010] The present invention is intended to provide an alternative to the solutions of the current state of the art.

[0011] The present invention provides a solution to facilitate access to metering unit components for inspection, maintenance or replacement, in particular without the need for hydraulic or pneumatic mechanisms.

The essence of the invention

[0012] The present invention relates to a metering device for distributing grain-like products on or into the soil, comprising a chassis, a first unit for distributing a first grain-like product, which contains a main hopper attached to the frame, which can move relative to the chassis and can receive the so-called "lowered "Position, which is the working position of the metering unit, and the so-called" raised "position, which is the maintenance position of the metering unit, and which can be moved from the“ lowered ”position to the“ raised ”position and vice versa, and the metering unit also contains a mechanism for tilting a frame comprising a foldable quadrilateral or double quadrangle connecting the frame to the chassis, the tilting mechanism being substantially perpendicular to the X-X 'plane formed by the chassis and maintained substantially perpendicular to the XX' plane in the "lowered" and "raised" positions, and also when moving and from one position to another and vice versa.

[0013] According to particular embodiments of the present invention, the metering device of the present invention comprises at least one or any suitable combination of the following characteristics:

- a mechanism for tilting the frame, containing a lower arm, which is stationary and is integral with the chassis, on which there are two fixed lower pivot points around which the main connecting rod and the auxiliary connecting rod pivot, respectively, and the frame pivots relative to the main connecting rod in the first upper pivot point, and the auxiliary connecting rod pivots relative to the upper articulation arm at the second upper pivot point, the upper articulating arm being connected to the frame or to the main connecting rod, and the first and second upper pivot points are movable relative to said chassis,

- the distance between the lower pivot point below and the lower pivot point of the lower arm higher than the distance between the upper pivot point of the upper articulation arm and the upper pivot point at the top of the frame,

- the distance between the upper lower pivot point of the lower arm and the lower upper pivot point of the auxiliary connecting rod is less than the distance between the lower lower pivot point of the lower arm and the upper pivot point at the top of the frame,

- the lower arm contains a mechanism for supporting the pivot pin, the axis of which forms one of the two lower pivot points, and the upper articulating arm contains a mechanism for supporting the pivot pin, the axis of which forms the second upper pivot point, and the auxiliary connecting rod contains a mechanism for engaging the pivot pins ,

- the main connecting rod contains a mechanism for supporting the lower pivot pin, the axis of which forms one of the lower pivot points, and a mechanism for supporting the upper pivot pin, the axis of which forms the upper upper pivot point,

- the main connecting rod is integral with the frame by means of a bracket,

- the sowing device also contains a coupling mechanism containing a working bar to which the chassis is connected, as well as a mechanism for adjusting the vertical position of the specified sowing device, containing an adjustable parallelogram or an adjustable parallelepiped, located essentially horizontally and pivotally pivoting relative to the chassis in at least one pivot point, which is also the pivot point of the frame tilt mechanism,

- the first distribution unit for the first grain-like product also contains a first mechanism for distributing the first grain-like product in the form of a block that is integral with the frame and which therefore can be moved with the frame, while the metering unit also contains a first mechanism for transporting the first grain-like product to soil, integral with the chassis and therefore stationary relative to the chassis,

- the first mechanism for distributing the first granular product in the form of a block is attached to a lever attached to the frame and extending from the frame to the chassis, the lever being movable relative to the chassis and capable of engaging and disengaging with a fastener provided on the chassis and capable of supporting the lever,

- the metering unit also contains a second distribution unit for the second grain-like product, containing a first additional hopper, which is integral with the frame and therefore can be moved with the frame,

- the second distribution unit for the second grain-like product contains a second uniform distribution mechanism, which is integral with the frame and therefore can be moved relative to the chassis,

- the metering device also contains a third unit for distributing the third grain-like product into the soil, containing a second additional hopper, which is integral with the frame and therefore can be moved relative to the chassis, and which may contain a second mechanism for transporting the specified second grain-like product to the soil,

- a third unit for distributing the third grain-like product into the soil, additionally containing a third uniform distribution mechanism, which is integral with the frame or the second additional hopper and therefore can be moved relative to the chassis, and the seeding device additionally contains a third mechanism for transporting the third grain-like product to the soil, integral with the chassis and therefore stationary relative to the chassis.

[0014] The present invention also relates to a planter comprising one or more seeding units according to the present invention.

Brief Description of Drawings

[0015] FIG. 1 is a diagram illustrating a side view of a metering unit according to the present invention with the main hopper in a lowered position. FIG. 2 shows the same as in FIG. 1. In FIG. 3 is a schematic diagram of the main hopper of a metering unit according to the present invention. FIG. 4 is a diagram illustrating a side view of the metering unit of FIGS. 1 and 2, but with the main hopper in the raised position. FIG. 5 shows the same as in FIG. 4. In FIG. 6 is a diagram illustrating a rear view of a metering unit according to the present invention with the main hopper in a raised position. FIG. 7 is a diagram illustrating a cross-sectional side view of the tilting mechanism according to the present invention in a folded position. FIG. 8 is a diagram illustrating a side view of the tilting mechanism according to the present invention during deployment. FIG. 9 is a diagram illustrating a side view of the tilting mechanism according to the present invention in a deployed position. FIG. 10 is a diagram illustrating a first perspective view of the tilting mechanism according to the present invention in a deployed position. FIG. 11 is a diagram illustrating a second perspective view of the tilting mechanism according to the present invention in a deployed position.

Detailed description of the invention

[0016] In the following description and in the claims, the terms “top”, “bottom”, “above”, “below”, “top”, “bottom”, “vertical” and “horizontal”, “front” and “rear” refer to the normal position of the metering unit 1 according to the present invention and the elements of which it is composed during normal use, and in particular refer to his or their position, as shown in FIG. 1-11.

[0017] The metering device 1 according to the present invention is mounted on a chassis 2 which is either self-propelled or pulled or towed by an agricultural machine such as a tractor. The chassis 2 extends approximately horizontally in the plane XX 'and contains a front portion 3 which is defined in accordance with the direction D of movement of the metering unit 1 during normal use, as shown in FIG. 1. For towed sowing unit 1, this is the part that is located close to the rear of the agricultural machine. It is equipped with a trailing mechanism 4, which provides the ability to connect to and detach from an agricultural machine, as well as a rear part 5 located on the opposite side from the specified front part 3.

[0018] Preferably, the towing mechanism 4 comprises a working bar 41 to which the chassis 2 is connected by means of a mechanism for adjusting the vertical position of the metering unit 1 relative to the working bar 41 along the Y'-Y axis. This adjustment mechanism comprises an adjustable parallelogram 44 containing at least two rows of upper arms 42, preferably also two rows of lower arms 43, substantially parallel to the upper arms 42. Adjustable parallelogram 44 is articulated with the chassis 2 by means of at least one pivot point on the chassis 2, preferably by means of two pivot points, preferably by means of two groups of two pivot points, which allows the upper arms 42 and the lower arms 43 to pivot relative to the chassis 2.

[0019] The metering unit 1 also comprises a mechanism 6 for cutting furrows in the soil, preferably at an adjustable depth, which consists of or contains cutting discs and also preferably one or more gauge wheels 7 for adjusting the furrow depth according to their position, and also, possibly a means for shaping the bottom of the furrow.

[0020] The metering unit 1 may also comprise a mechanism 8 for compacting one or more granular products deposited on the bottom of the open furrow. Preferably, this mechanism 8 is and / or contains at least one press roller.

[0021] The metering unit 1 also includes a furrow backfill mechanism 10, which is or contains one or more closing discs or wheels that extend behind the furrow cutting mechanism 6 and the compaction mechanism 8, if any. Preferably, this mechanism 10 is located behind the metering unit 1.

[0022] Additionally, the metering unit 1 may comprise a debris removal mechanism 9 for removing crop residues, clods of soil or stones, which consists of or contains at least one rotating wheel located in front of the metering unit 1.

[0023] The metering unit 1 comprises at least one first distribution unit for a first grain-like product, which is preferably a seed or grain, capable of placing the first grain-like product in the gap of the furrow cutting mechanism 6.

[0024] This first assembly comprises a hopper 11, referred to as a "main" hopper, adapted for storing seeds to be sown and during operation for processing them, and which is preferably located in the upper part of the chassis 2, above the furrow cutting mechanism 6, at the same level with it or behind it, and in front of the mechanism 10 for filling the furrows.

[0025] The main hopper 11 may be of any suitable or possible size or shape to define its internal volume. Preferably, it has a substantially parallelepiped shape and comprises a front panel 12, a rear panel 13 opposite the front panel 12, a first side panel 14, a second side panel 15 opposite the first side panel 14, a bottom panel 16 and a top panel 17 opposite upper side panel 16 (Fig. 3), the upper panel 17 preferably opens or partially opens to allow loading of at least the first granular product, and can be closed and closed during operation with a movable cover.

[0026] The first distribution unit also comprises a first distribution mechanism 18 for evenly distributing the first grain-like product separately from the seeds to be sown, which during operation communicates with the main hopper 11, for example, through an opening, preferably one that can be closed, in the bottom panel 16 of the main hopper 11. This first even distribution mechanism 18 preferably employs a pneumatic principle in which the seeds are loaded one after the other using a vacuum or negative pressure onto a distributor disc with cellular holes arranged essentially vertically, rotating and releasing or extracting seeds one by one, by blowing out or closing the vacuum (negative pressure), or by mechanical extraction. For this purpose, the first distribution unit may comprise or act in conjunction with a suction and / or blowing mechanism.

[0027] The first spreading mechanism 18 is preferably located below the main hopper 11, with a furrow cutting mechanism 6 above and behind it, for example for spreading seeds by gravity. This first distribution mechanism 18 is configured to deposit the first granular product in the gap of the furrow cutting mechanism 6, thereby placing the first granular product in the open furrow. The first distribution mechanism 18 preferably cooperates or is associated with the first transport mechanism 19 during operation, which guides the seeds during their fall and prevents them from falling out of the furrow, the first transport mechanism 19 also advantageously cooperates with the mechanism for transferring seeds from the distribution disc of the first mechanism for distribution to the first mechanism 19 for transporting seeds into the soil.

[0028] Preferably, the main hopper 11 is attached by appropriate means to the rigid frame 20. The frame 20 is preferably attached to the outer surface of the front panel 12 of the main hopper 11, and possibly also to the outer surface of the bottom panel 16, and follows the outline of this panel (s) 12, 16 if this panel is not straight (these panels are not straight) (Fig. 3).

[0029] The first mechanism 18 for distributing the first distribution unit may be attached to the chassis 2; however, it is also preferable to attach it to the frame 20 and thus attach to the main hopper 11. In embodiments in which the first distribution mechanism 18 comprises a mechanism for transferring the cereal products to the first transport mechanism 19, this transfer mechanism is also attached to the main hopper. hopper 11. They are attached to the frame 20 either directly or by means of a distribution mechanism 18.

[0030] The first dispensing mechanism 18 is preferably attached to an arm 21 that is attached to the frame 20 and extends from the frame 20 towards the chassis 2 substantially vertically from top to bottom, possibly at an angle (FIG. 4). Its free end 22, that is, the end opposite to the end attached to the frame 20, can be used to connect to and disconnect from the chassis 2, possibly with force, by means of a fastening mechanism 23 provided on the chassis, which has the advantage of providing a locking point on chassis 2 for frame 20.

[0031] For example, the free end 22 of the arm 21 can be equipped with one or more hooks, preferably pivotally, which engage with a transverse pin along the Z-Z 'axis provided on the chassis 2 and attached thereto, or with a latch on lever 21, which is connected to the centering pins located on the chassis 2. The free end 22 of the lever 21 can also be provided with a through hole, and the fastening mechanism 23 of the chassis 2 can also contain a fastening bracket, in turn containing a through hole, these holes are made with the ability to hold a removable pin or rod.

[0032] The frame 20 is movably connected to the chassis 2 of the metering unit 1 in such a way that the frame 20, and with it all connected components, for example, the main hopper 11, can pivot relative to the chassis 2, not by a simple pivot movement with a single pivot point, or one pivot axis on the chassis 2, but by the forward rotary movement of the metering unit 1 together with a substantially horizontal sliding movement.

[0033] The frame 20 can assume both a "lowered" position and a "raised" position, relative to the chassis 2, and can move from one position to another.

[0034] The lowered position is one in which the frame 20, and therefore at least the main hopper 11, is (are) substantially horizontal, substantially in the plane XX 'and close to the chassis 2, as shown in FIG. 1 and 2. This is the operating position of the main hopper 11 during normal operation of the drill 1 and the normal operating position of the drill 1 during normal operation.

[0035] In the raised position, the frame 20 and with it at least the main hopper 11 is in a substantially vertical position, substantially in the Y-Y 'plane, or substantially at an angle, substantially at a distance from the chassis 2, as shown in fig. 4-6. This is the position for servicing the drill 1.

[0036] Moving the frame 20, and with it the main hopper 11, from a lowered position, an operating position, to a raised position, a maintenance position, and vice versa, is accomplished by a tilting mechanism that is mechanical rather than pneumatic or hydraulic.

[0037] Preferably, the tilting mechanism acts as a folding parallelogram, without being strictly limited to a parallelogram in the geometric sense of the word. The tilting mechanism comprises an articulated quadrilateral 24, which is preferably not a parallelogram, but this is not impossible. The quadrilateral 24 has a shape substantially perpendicular to the plane formed by the chassis 2 and is therefore substantially located in the Y-Y 'plane, regardless of whether the frame 20 is in the lowered or raised position, and remains substantially in this perpendicular position when the frame 20 moves from lowered to raised position and vice versa.

[0038] The articulated rectangle 24 has the advantage of not only eliminating the need to use hydraulic or pneumatic mechanisms to move from one position to another, but also provides the frame 20 with a stable raised position that cannot be achieved by a simple pivot movement around one point. pivot or one pivot axis. This tilting mechanism further has the advantage that the frame 20 can be freely moved, easily providing access to the components of the metering unit 1 according to the present invention.

[0039] Preferably, the folding quadrilateral 24 includes a lower arm 29 fixed to the frame 2, a main connecting rod 30, an auxiliary connecting rod 31 and an upper articulating arm 32, and also contains four pivot points 25, 26, 27, 28 with which it is articulated lower and upper levers 29, 32 and connecting rods 30, 31. The lower lever 29 contains two lower pivot points 25, 26, fixed with respect to the chassis 2, around which the main connecting rod 30 and the auxiliary connecting rod 31 pivot, respectively, the main the connecting rod 30 also pivots relative to the frame 20 at the first upper pivot point 28, and the auxiliary connecting rod 31 pivots relative to the frame 20, and in particular relative to the upper articulating arm 32, at the second upper pivot point 27, with the first and second upper pivot points 27 and 28 can move relative to the chassis 2 when the frame 20 moves from its lowered position to its raised position and vice versa.

[0040] The foldable quadrangle 24 is substantially folded towards itself, or partially open when the frame 20 is in the lowered position (FIG. 7), and unfolds when it moves from one position to another (FIG. 8), and unfolded, or open when the frame 20 is in the raised position (FIG. 9) while maintaining a position substantially perpendicular to the X-X 'plane.

[0041] The lower arm 29 of the folding quadrilateral 24 is attached to the chassis 2 and extends from it at an angle upward to the rear of the chassis 2. It contains the lower pivot points 25, 26, which can be located in the same plane, for example, in the plane formed along the axis X-X ', however preferably not in the same horizontal plane, but in a plane that is angled to the X-X' plane. This then provides a lower lower pivot point 25 and an upper lower pivot point 26. The lower arm 29 preferably comprises a curved upper portion extending upwardly to the rear of the chassis 2, the upper end of which contains an upper lower pivot point 26.

[0042] Preferably, the lower pivot point 25 below is also the pivot point of the horizontal folding parallelogram 44 for vertical adjustment of the metering unit 1. This is preferably the pivot point between the chassis 2 and the upper arm 42 of the folding parallelogram 44.

[0043] The lower pivot point 25 of the bottom of the lower arm 29 attached to the chassis 2 is preferably spaced from the higher lower pivot point 26 by a distance greater than the distance between the lower upper pivot point 27 and the higher upper pivot point 28 of the upper articulation arm 32.

[0044] The main connecting rod 30 of the folding quadrilateral 24 is pivotable and movable, and it connects the chassis 2 to the frame 20. It can be pivotable relative to the chassis 2, and in particular relative to the lower arm 29 at the lower pivot point 25 below. and can be moved relative to the frame 20 at the higher upper pivot point 28.

[0045] The auxiliary connecting rod 31 is also pivotable and movable, and it connects the chassis 2 to the upper arm 32, which itself can be hinged and movable, and which connects the auxiliary connecting rod 31 to the frame 20 or connects the auxiliary connecting rod 31 to the main connecting rod 30. The auxiliary connecting rod 31 is pivotable relative to chassis 2, in particular relative to the lower arm 29 at the lower pivot point 26 above and relative to the upper articulating arm 32 at the lower upper pivot point 27. The upper articulating arm 32 can be stationary relative to frame 20 or can be moved at the higher upper pivot point 28.

[0046] Preferably, the auxiliary connecting rod 31 is shorter than the main connecting rod 30 so that the distance between the higher lower pivot point 26 and the lower upper pivot point 27 is less than the distance between the lower lower pivot point 25 and the higher upper pivot point 28.

[0047] Preferably, the length of the main connecting rod 30 is at least equal to or greater than the sum of the lengths of the auxiliary connecting rods 31 and the upper connecting rods 32, such that the distance between the lower lower pivot point 25 and the higher upper pivot point 28 is at least equal to or greater than than the sum of the distances between the lower lower pivot point 26, the lower upper pivot point 27 and the higher upper upper pivot point 28.

[0048] In addition to the lowered and raised positions, the quadrilateral 24 may assume at least one intermediate position in which the main connecting rod 30 is in a position in which the pivot points 26, 27, and 28 are aligned.

[0049] When the frame 20 is in the lowered position, the lower upper pivot point 27 and the upper upper pivot point 28 are substantially vertically aligned in the Y-Y 'plane. These pivot points 27 and 28 are located substantially on the same projected vertical line P1, P2, on the ground, or on the X-X 'plane. The projected points P1 and P2 of the upper pivot points 28 and 27, respectively, are in a relative position between the projected point P3 above the lower pivot point 26 and the projected point P4 below the lower pivot point 25 (FIG. 7).

[0050] When the frame 20, and therefore the main hopper 11, is raised, the main connecting rod 30 pivots about the lower lower pivot point 25 such that the upper upper pivot point 28 moves towards the front of the chassis 2 with a substantially horizontal sliding movement along the X-X 'plane. The projection P1 above the upper pivot point 28 moves forward and bypasses the projection P4 below the lower pivot point 25. At the same time, the auxiliary connecting rod 31 rotates about the above lower pivot point 26 and angles towards the top of the chassis 2, and then horizontally towards the rear of the chassis 2, allowing the lower upper pivot point 27 to move upwards and then towards the rear of the chassis 2. Then the projection P2 of the lower upper pivot point 27 moves back towards the projection P3 of the higher upper pivot 26 (Fig. 8 ). As the lower upper pivot point 27 moves, the main connecting rod 30 pivots again relative to the lower lower pivot point 25, but in the opposite direction, so that the upper upper pivot point 28 moves towards the rear of the chassis 2 with a substantially horizontal sliding movement, bypassing its relative position, which it occupied when the frame 20 was in the lowered position, until the lower upper pivot point 27 bypasses the relative position of the higher lower pivot point 26.

[0051] When the projection P2 below the upper pivot point 27 moves back towards the projection P3 of the above lower pivot point 26, the lower upper pivot point 27 reaches the unstable equilibrium point of the folding quadrangle 24 at which the projections P2 and P3 are aligned. The projection P1 below the lower pivot point 25 projects towards the rear of the chassis 2 beyond the projection P4 of the lower pivot point 25 to return to its relative position, which it occupies when the frame 20 is in the lowered position, between projections P3 and P4. The projection P2 below the upper pivot point 27 moves towards the rear of the chassis 2 and bypasses the projection P3 of the above lower pivot point 26 (FIG. 9).

[0052] In this position, the frame 20, and therefore the main hopper 11, is in a raised position, locked by the top end of the main connecting rod 30 in contact with the frame 20 or a locking device, or on the main hopper 11 panel, blocking the frame 20 and the main hopper 11 in this position without the need for additional locking mechanisms.

[0053] To move the frame 20, and therefore the main hopper 11, from the raised position to the lowered position, the folding quadrangle 24 is folded in a movement opposite to that described for its opening. The main connecting rod 30 pivots about the lower pivot point 25 below the upper pivot point 28 in the direction of the front of the chassis 2 with a substantially horizontal sliding movement, while the auxiliary connecting rod 31 moves towards the front of the chassis 2 horizontally and then at an angle to the bottom of chassis 2, causing movement below the upper pivot point 27 towards the front and then the bottom of chassis 2. The projection P1 moves towards the front of the chassis 2, towards and past projection P4, while the projection P2 also moves towards the front of the chassis 2, in the direction of projection P4, and past projection P3, which is above the lower pivot point 26. As it moves below the upper pivot point 27, the main connecting rod 30 again pivots relative to the lower pivot point 25, but in opposite direction, calling a second movement of the above upper pivot point 28 towards the rear of the chassis 2 with a substantially horizontal sliding movement to return to its relative position, with the frame 20 and therefore the main hopper 11 moving to the lowered position. P1 and P2 are aligned on substantially the same vertical axis between P3 and P4.

[0054] For embodiments in which the first dispensing mechanism 18 is attached to the arm 21 of the frame 20, raising the frame 20 to its raised position allows the free end 22 of the arm 21 to disengage from the fastening mechanism 23 that secures it to the chassis 2, while movement of the frame 20 in the lowered position allows the free end 22 to engage with the fastening mechanism 23, which secures it to the chassis 2, thereby securing the frame 20 in the lowered position.

[0055] The tilting mechanism preferably comprises a double folding quadrilateral, two adjacent quadrangles, parallel and non-consecutive, with a common side (FIGS. 10 and 11) and located substantially perpendicular to the chassis 2. It can also be a double folding parallelogram where the two are adjacent parallelogram form a folding parallelepiped.

[0056] For embodiments in which the tilting mechanism comprises a double foldable quadrilateral, the lower arm 29 comprises a first side section 291 and a second side section 292 opposite and substantially parallel to the first side section 291, each comprising a mechanism for supporting a pivot pin 38, preferably comprising or comprising through holes, the axis of which forms an above lower pivot point 26. The upper arm 32 comprises a first side section 321 and a second side section 322 opposite and substantially parallel to the first side section 321, and also comprises a mechanism for supporting the pivot pin 39, preferably comprising or comprising through holes, the axis of which forms an upper pivot point 27 below. The auxiliary connecting rod 31 preferably comprises at each end a support mechanism, preferably a through hole, which engages Has a king pin 38 at one end and a king pin 39 at the other end. The main connecting rod 30 includes a first side section 301 and a second side section 302 located opposite and substantially parallel to the first side section 301, and also contains a mechanism for supporting the lower kingpin 40, the axis of which forms the lower pivot point 25 below, and a mechanism for supporting the upper pivot pin 41, the axis of which forms the upper upper pivot point 28 (FIG. 11).

[0057] Preferably, the main connecting rod 30 is attached to the frame 20 with a bracket 42, which in turn is attached directly to the frame 20, preferably with a fixing plate 43 attached to the frame 20 itself or to a panel of the main hopper 11. Preferably, the bracket 42 includes a first side section 421 and a second side section 422 opposite and substantially parallel to the first side section 421, containing a mechanism, such as through holes, for supporting the king pin 41.

[0058] Even if the upper articulating arm 32 can be connected to the frame 20 at the upper upper pivot point 28, for example by a through hole engaging the king pin 41 located at its end opposite to the lower upper pivot point 27 i.e. the opposite end with a through hole for supporting the king pin 39, it is preferably fixed directly to the frame 20, preferably by means of a fixing plate 43 supporting the bracket 42.

[0059] For embodiments of the present invention in which the first dispenser 18, and possibly also, if present, a mechanism for transferring the first cereal products to the first conveying mechanism 19 is attached to the arm 21 of the frame 20, the auxiliary connecting rod 31 may be bent or is bent so that in the lower position of the frame 20 it is placed against the first distribution mechanism 18, which provides the advantage of making a more compact metering unit 1.

[0060] It is also advantageous to provide mechanisms for automatically connecting and disconnecting between the first dispensing mechanism 18, or the grain transfer mechanism, if any, and the first conveying mechanism 19, and / or between the first dispensing mechanism 18 and the pneumatic system for feeding grain-like products from the main hopper 11 to the first mechanism 18 for distribution.

[0061] The metering unit 1 may also comprise a second distribution unit for a second grain product, which may also be seed or grain, but of a different type than the first grain product, allowing two types of crops to be planted simultaneously. However, the second granular product is preferably not a seed or grain, but a granular agrochemical or a mixture of granular agrochemical products such as fertilizers, herbicides, insecticides, nematicides, fungicides, slug pellets, or other equivalent pesticides.

[0062] The second distribution unit is capable of distributing the second granular product onto or into the soil at least upstream of the furrow cutting mechanism 6, preferably downstream of the debris removal mechanism 9, if any, and / or in between the furrow cutting mechanisms 6.

[0063] The second distribution unit comprises a first hopper, known as a first additional hopper, which can take all possible or suitable sizes and shapes defining an internal volume, and is capable of containing, and during operation, processing one or more granular agrochemical products. The first additional hopper is preferably located in the upper part of the chassis 2, above, at the same level or behind the furrow cutting mechanism 6, in front of the furrow filling mechanism 10, preferably it is located in front of the main hopper 11 and is attached to it, so that the two hoppers can advantageously together occupy a common panel, or the first additional hopper can be an integral part of the hopper 11 or built into it. Therefore, the additional hopper is attached to the frame 20.

[0064] The second distribution unit comprises a second distribution mechanism 33 for evenly distributing the second grain-like product on or into the soil, which, during operation, communicates with the first additional hopper, for example, through an opening, preferably one that can be closed, in the lower panel of said additional hopper. The second uniform distribution mechanism 33 preferably operates in connection with the second transport mechanism, receives or contains it during operation, and may also include a transport mechanism for transferring the second granular product from the second uniform distribution mechanism 33 to the second transport mechanism.

[0065] The second mechanism 33 for evenly distributing the second distribution unit may be attached to the chassis 2; however, it is preferably also attached to the frame 20 using any suitable means. Thus, raising the frame 20 from its lower position to its upper position also allows the user of the metering unit 1 of the present invention to have easy access to the second mechanism 33 for even distribution for inspection, maintenance or replacement. Preferably, in these embodiments of the present invention, it is also advantageous to provide for the use of automatic connection and disconnection mechanisms between the second mechanism 33 for uniform distribution and the second transport mechanism.

[0066] The metering unit 1 may also comprise a third distribution unit for dispensing a third cereal product, which is preferably not a seed or grain, but a cereal agrochemical or a mixture of grain agrochemical products.

[0067] The third distribution unit is capable of distributing the second granular product onto or into the soil at least in between the furrow cutting mechanism 6 and / or after the furrow backfill mechanism 10 and / or after the furrow consolidation mechanism 8.

[0068] The third distribution unit contains a second additional hopper 34, which can be of any possible or suitable size or shape, defining the internal volume, and which is capable of containing, and in operation to process one or more granular agrochemical products. The second additional hopper is preferably located in the upper part of the chassis 2, above, at the same level or behind the furrow filling mechanism 10, preferably located behind the main hopper 11 and attached to it, so that the two hoppers 11 and 34 can preferably be located together on a common panels.

[0069] The third distribution unit comprises a third distribution mechanism 35 for evenly distributing the second grain-like product on or into the soil, which, during operation, communicates with the second additional hopper 34, for example, through an opening, preferably one that can be closed on the bottom panel of said hopper 34. This third distribution mechanism 35 preferably also operates in connection with the third transport mechanism 36, contains it or performs its function, and may also include a transfer mechanism for transferring the second grain-like product from the third distribution mechanism 35 to the third transport mechanism 36 ...

[0070] The third even distribution mechanism 35 may be attached to the chassis 2; however, it is preferably attached directly to the frame 20 using any suitable means, or to a second auxiliary hopper 34, which in turn is attached to the main hopper 11, which is also attached to the frame 20. Thus, by lifting the frame 20 from its lower position in its upper position, the user of the metering device 1 according to the present invention can also easily access the third mechanism 35 for uniform distribution for inspection, maintenance or replacement. Preferably, in these embodiments, the implementation of the present invention is also advantageous to provide mechanisms for automatic connection and disconnection between the third mechanism 35 for uniform distribution and the third transport mechanism 36.

[0071] Preferably, the third transport mechanism 36 is supported by an arm 37 which is stationary and attached to the chassis 2 and extends from the chassis 2 at a predominantly upward angle and toward the rear of the chassis 2.

[0072] A seeder according to the present invention comprises one or more seeding units 1 according to the present invention, preferably mounted on a carrier chassis that transports or tows an agricultural machine. The carrier chassis additionally contains a coupling mechanism for connecting to an agricultural machine that is transporting or towing it, or disconnecting from it. The planter preferably contains one or more wheels, preferably mobile, so that they can be lifted or retracted to avoid contact with the ground, for example, during maneuvers or when transporting the planter.

Claims (15)

1. Sowing device (1) for distributing grain-like products on or into the soil, containing a chassis (2), the first unit for distributing the first grain-like product, which contains a main hopper (11) attached to a frame (20), which can be moved relative to the specified chassis (2) and can take the so-called "lowered" position, which is the working position of the specified seeding unit (1), and the so-called "raised" position, which is the position for maintenance of the specified seeding unit (1), and which can be moved from the specified "Lowered" position to the specified "raised" position and vice versa, and the specified metering device (1) also contains a mechanism for tilting the specified frame (20), containing a folding quadrangle (24) or double quadrangle connecting the specified frame (20) with the specified chassis (2), wherein said tilting mechanism is located substantially perpendicular to the X-X 'plane formed by said chassis and (2), and is maintained substantially perpendicular to said X-X 'plane in said "lowered" and "raised" positions, as well as during movement from one position to another and vice versa. 2. The sowing device (1) according to claim 1, characterized in that the mechanism for tilting the frame (20) comprises a lower arm (29), which is stationary and is integral with the chassis (2), on which there are two fixed lower pivot points (25, 26), around which the main connecting rod (30) and the auxiliary connecting rod (31), respectively, pivot, and said frame (20) pivots relative to said main connecting rod (30) at the first upper pivot point (28), and said auxiliary connecting rod (31) pivots relative to the upper articulating lever (32) at the second upper pivot point (27), wherein said upper articulating lever (32) is connected to said frame (20) or to said main connecting rod (30) , and the specified first and second upper pivot points (27, 28) can be moved relative to the specified chassis (2). 3. The sowing device (1) according to claim 2, characterized in that the distance between the lower pivot point (25) and the higher lower pivot point (26) of the lower arm (29) is greater than the distance between the lower pivot point (27 ) the upper articulation arm (32) and the upper pivot point (28) at the top of the frame (20). 4. Seeder (1) according to any one of paragraphs. 2 or 3, characterized in that the distance between the lower pivot point (26) of the lower arm (29) and the lower upper pivot point (27) of the auxiliary connecting rod (31) is less than the distance between the lower pivot point (25 ) the lower arm (29) and the upper pivot point (28) at the top of the frame (20). 5. The sowing device (1) according to any one of paragraphs. 2-4, characterized in that the lower arm (29) contains a mechanism for supporting the pivot pin (38), the axis of which forms one of the two lower pivot points (26), and the upper articulating arm (32) contains a mechanism for supporting the pivot pin ( 39), the axis of which forms the second upper pivot point (27), and the auxiliary connecting rod (31) contains a mechanism for engaging said pivot pins (38, 39). 6. Seeder (1) according to any one of paragraphs. 2-5, characterized in that the main connecting rod (30) contains a mechanism for supporting the lower pivot pin (40), the axis of which forms one of the lower pivot points (25), as well as a mechanism for supporting the upper pivot pin (41), the axis which forms the upper pivot point (28) above. 7. Seeder (1) according to any one of paragraphs. 2-6, characterized in that the main connecting rod (30) is integral with the frame (20) by means of the bracket (42). 8. Sowing device (1) according to any of the previous paragraphs, characterized in that it further comprises a coupling mechanism (4) containing a working bar (41) to which the chassis (2) is connected, as well as a mechanism for adjusting the vertical position of said sowing device containing an adjustable parallelogram (44) or an adjustable parallelepiped located essentially horizontally and pivotally pivoting relative to the chassis (2) at at least one pivot point, which is also a pivot point of the frame tilt mechanism (20). 9. A metering device (1) according to any one of the preceding claims, characterized in that the first distribution unit for the first granular product also comprises a first mechanism (18) for distributing said first granular product in the form of a unit integral with the frame (20), and which therefore can be moved together with said frame (20), while said metering device also comprises a first mechanism (19) for transporting said first grain-like product to the soil, integral with the chassis (2) and therefore stationary relative to the chassis (2) ... 10. Sowing device (1) according to claim 9, characterized in that the first mechanism (18) for distributing the first granular product in the form of a block is attached to an arm (21) attached to the frame (20) and extending from said frame (20) to the chassis (2), wherein said arm (21) is movable relative to said chassis (2) and is capable of engaging and disengaging with the fastening means (23) provided on the chassis (2) and capable of supporting said arm (21). 11. Sowing device (1) according to any of the previous claims, characterized in that it further comprises a second distribution unit for a second grain-like product, comprising a first additional hopper, which is integral with the frame (20) and therefore can be moved relative to the chassis (2) ... 12. Sowing device (1) according to claim 11, characterized in that the second distribution unit for the second granular product comprises a second mechanism (33) for uniform distribution, which is integral with the frame (20) and therefore can be moved relative to the chassis (2 ), and may contain a second mechanism for transporting the specified second granular product to the soil. 13. Seeder (1) according to any one of paragraphs. 11 or 12, characterized in that it further comprises a third unit for distributing the third grain-like product into the soil, comprising a second additional hopper (34), which is integral with the frame (20) and therefore can be moved relative to the chassis (2). 14. Sowing device (1) according to claim 13, characterized in that the third unit for distributing the third grain-like product into the soil further comprises a third mechanism (35) for uniform distribution, which is integral with the frame (20) or the second additional hopper ( 34), and therefore can be moved relative to the chassis (2), and the specified metering device additionally contains a third mechanism (36) for transporting the specified third grain-like product to the soil, integral with the chassis (2) and therefore stationary relative to the chassis (2). 15. Seeder containing one or more seeding devices (1) according to any one of paragraphs. 1-14.

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