FR3001608A1 - Device for dosing and dispensing of e.g. manure, for agricultural machine, has closing unit, and partial closing unit that is retracted in total release position and is provided with active agents extending above agitator - Google Patents

Abstract

The device has a case (12) presenting an input opening (13) connected to a base of a hopper (11). An output opening (14) is arranged in the device along with a grooved rotary cam shaft (15) for distributing a set of particles e.g. manure. A closing unit (16) is arranged for partially closing the input opening to define two working positions (P2) such as a total release position of the input opening, and a partial release position of the input opening. A partial closing unit is retracted in the total release position and is provided with active agents extending above an agitator (17).

Description

Device for metering and dispensing particles for agricultural machinery FIELD OF THE DISCLOSURE The field of the invention is that of agricultural machines, and more specifically devices for dispensing and dispensing particles for agricultural machinery, also called metering devices (single-dose or multi-metering). More particularly, the invention relates to the feeders having a housing having a particle inlet opening connected to the base of a hopper, and an outlet opening of the particles, a fluted rotary distribution shaft distributing the particles to the opening Release. By particles, here we mean seeds for seeds, fertilizers, pesticides, and more generally any material in the form of particles and likely to be distributed accurately, especially in the field of agriculture. 2. PRIOR ART AND DIFFICULTIES There are currently various techniques used in such machines for agricultural machinery, in particular depending on the type of particles used, fertilizers, seeds of different sizes, etc. Some of the existing techniques implement a distribution box, placed under a hopper containing the particles to be distributed. This housing has a rotatable, rotatable distribution shaft, from which each flute collects one or more particles, and directs them outward at the desired rate. To accommodate the type of particles, different sizes and / or spline shapes on the splined rotatable timing shaft can be provided. Other techniques modify the shape of the fluted rotary distribution shaft itself. It is also possible to act on the speed of rotation of the shaft. However, a major disadvantage of these different techniques is that they are not effective for all types of particles, especially for some large particles. It may for example appear a compression of the particles behind the splined rotational distribution shaft, thus causing high wear splines and degraded operation as and when the dispenser. Another disadvantage of these techniques lies in the formation and accumulation of particulate dust in the bottom of the metering device, for certain types of particles, making firstly the inter-particle displacements very difficult, and thus slowing down their flow, and on the other hand can create blockages in the groove bearings. These disadvantages occur especially in the presence of certain fertilizers, which have the particular features of being corrosive, abrasive and friable, or in the presence of large seeds. 3. OBJECTIVES OF THE INVENTION The invention particularly aims to overcome these drawbacks of the state of the art. More specifically, it is an object of the invention, in at least one embodiment, to provide a new particle delivery technique that adapts more efficiently to different types of particles. Another object of the invention is, according to at least one embodiment, to provide a novel particle delivery technique limiting the destruction of certain friable particles, and consequently the particulate dust which can accumulate in the housing of distribution. The invention also aims, according to at least one embodiment, to provide a new particle distribution technique that is ergonomic and simple to handle.

In another aspect, the invention also aims to provide a new particle distribution technique, which is simple to implement, efficient and inexpensive. Thus, a particular object of the invention is to improve the distribution of particles of all types, seeds of different sizes, fertilizers, etc. 4. Presentation of the invention These objectives, as well as others which will appear later , are achieved by means of a device for dispensing and dispensing particles for agricultural machinery, comprising a housing having: - an inlet opening connected to the base of a hopper, - an outlet opening, a shaft fluted rotary distribution device distributing said particles to said outlet opening. According to the invention, such a device for metering and dispensing particles comprises means for partially closing off said inlet opening, so as to define at least two working positions: a position of total release of said opening of inlet, said partial closure means being retracted; and at least one partial release position of said inlet opening, said partial closure means being active and extending above an agitator element. Indeed, it is known to use an agitator element in the housing, applying a movement to the particles, so as to better distribute their flow on the rotary distribution shaft. A disadvantage of the use of this agitator lies in the fact that it is not adapted to certain types of particles, and participates in the crushing of these particles and the formation of dust particles, this dust accumulating then in the bottom of the housing and disrupting the flow of particles making inter-particle displacements very difficult.

According to the invention, it is therefore proposed to inhibit or reduce the effect of the stirrer, without, however, disassembling or disengaging it (this being possible, however, in variants), thus limiting the manipulations in the housing, partially blocking the particle inlet opening just above the agitator. For example, the closure means cover the agitator leaving accessible a supply width of the dispenser approximately 25 to 50% of the width of said outlet opening, or, in a particular embodiment, 30 to 60 mm.

Thus, the approach of the invention makes it possible to partially close the inlet opening of the particles in the distribution box, thus modifying their flow, in order to avoid, on the one hand, the compression of certain particles behind the rotary splitting shaft and limiting, on the other hand, the formation and accumulation of particulate dust in the bottom of the distribution box. In addition, according to at least one embodiment of the invention, several partial closure positions are possible, for example to adapt to different types of particles. According to at least one embodiment of the invention, the partial closure means 20 comprise a trap that can selectively take: an open position, corresponding to the total release position; at least one intermediate position, corresponding to the partial release position, and a closed position, closing the inlet opening and allowing maintenance of the housing. Thus, the invention proposes to use a hatch intended to close the inlet opening of the particles in order to maintain the casing outside of its use, so as to partially close this inlet opening during the operation of the metering device. to change the flow of particles in the housing. Currently, this hatch is a maintenance hatch, which can take an open position for the use of the metering device and a closed position for its maintenance. According to at least one embodiment of the invention, this trapdoor furthermore becomes an adjustment trap according to the characteristics of the particles, by being able to take one or more intermediate positions of the trapdoor, so as to seal more or less inlet opening of the particles in the housing.

According to at least this embodiment, the solution of the invention does not require additional means and judiciously uses a mechanism for facilitating the maintenance of the housing, to improve the performance of use of the dispenser. According to one particular aspect of the invention, in at least one of the partial release positions, the closure means release an opening extending essentially above the rotational fluted distribution shaft, thus making it possible to feed the liner directly. particle distribution shaft. According to at least one embodiment of the invention, the device comprises locking means of the hatch in the intermediate position or positions. Indeed, the intermediate positions being the working positions of the dispenser, it is desirable to provide a locking of the hatch in each of these intermediate positions, so as to ensure a maintenance of the hatch in the chosen position, whatever the level of vibration suffered by this hatch in use. In particular, the hatch can be slidably mounted above the inlet opening, so as to be easily manipulated to move from one position to another.

For example, the locking means comprise at least one locking pin capable of cooperating with an opening or a complementary blind hole formed in the hatch. In another example, the locking means comprise at least one pin. According to at least one other embodiment of the invention, the partial closure means comprise a pivoting valve disposed above the inlet opening that can selectively take: an open position corresponding to the total release position ; at least one closed position corresponding to at least one partial release position. Thus, a pivoting valve is provided to partially seal the inlet opening of the particles when released, the valve being for example held against the wall of the hopper in its open position. This embodiment can be implemented, for example, when no hatch is provided for closing the particle inlet opening or when it is difficult to modify the operation of such a hatch. Moreover, this valve can be operated easily and therefore also allows, according to this embodiment, an easy implementation of the solution of the invention. In this case, an operation command from the outside can be provided, for example in the form of a handle and / or a lever. According to a particular aspect of the invention, the device comprises means for locating the release positions, facilitating the manipulations of the user when he chooses one of these positions.

For example, the locating means may be visual and include an indication of a release position number or a type of particles associated with a position ("seed", "fertilizer", ...). In another example, the locating means may also be tactile, and consist of a mark, for example in relief or recessed, allowing the user to locate a position number or a type of particles associated with a position (" seed "," fertilizer ",). 5. List of Figures Other features and advantages of the invention will appear more clearly on reading the following description of a preferred embodiment of the invention, given as a simple illustrative and non-limiting example, and attached drawings among which: - Figures la and lb illustrate a sectional view of a portion of a device for metering and dispensing particles according to a first embodiment of the invention, in two working positions; - Figure lc illustrates a sectional view of a portion of a device for metering and dispensing particles according to a first embodiment of the invention, in a maintenance position; FIGS. 2a and 2b illustrate a perspective view of a portion of a device for metering and dispensing particles according to a first embodiment of the invention, in two working positions (total release and partial release); FIG. 2c illustrates a perspective view of a portion of a device for metering and dispensing particles according to a first embodiment of the invention, in a maintenance position; - Figures 3a and 3b illustrate a sectional view of a portion of a device for metering and distribution of particles according to a second embodiment of the invention, in two working positions (total release and partial release). 6. DESCRIPTION OF EMBODIMENTS 6.1 General Principle As indicated above, the invention proposes a novel approach to the particle distribution by a device for metering and dispensing particles, in particular by modifying the flow of particles in the package of distribution, by means of partial closure of an inlet opening of the particles in said housing.

In the embodiments described below, the partial closure means are in the form of a flap or a pivoting flap. Other means providing the same function can of course be used, such as a removable plate. 6.2 1st Embodiment Considering a device for metering and dispensing particles comprising a hopper 11 and a housing 12, which has a particle inlet opening 13, connected to the base of the hopper 11, and an opening 14 of out of the particles. Furthermore, this housing 12 comprises a splined rotary distribution shaft 15, distributing the particles towards the outlet opening 14. According to this first embodiment of the invention, the housing also has an agitator 17, as well as a hatch cleaning device 18 for closing the casing allowing maintenance of the inside of the casing when it is open. This hatch 18 is therefore intended to remain closed during use of the device for dosing and dispensing particles. According to this first embodiment of the invention, means 16 for partially closing the opening 13 for entering the particles are in the form of a flap 16. This flap 16 may take at least three positions, of which at least two working positions P1 and P2, as shown in the sectional figures 1a and 1b, and a maintenance position, as shown in the sectional figure 1c. FIG. 1a illustrates a first working position P1, the so-called total release position of the particle inlet aperture 13, in which the partial closure means are retracted, that is to say that the hatch 16 is found in a fully open position. Indeed, it is found in this figure that the inlet opening 13 of the particles is completely released, so as to allow the entry of particles from the hopper. This position is the position conventionally provided according to the prior art. It is particularly suitable for seeds of small sizes and other sufficiently fluid particles. FIG. 1 b illustrates, for its part, a second working position P2, called the partial release position of the particle inlet opening 13, in which the partial closure means are activated, that is to say that the hatch 16 is in an intermediate position. Thus, it can be seen in this FIG. 1b that a part of the opening 13 for entering the particles is closed off by the hatch, only allowing the particles from the hopper to flow through the part freed from the opening 13 .

In this position of partial shutter P2, new according to the invention, it is observed that the hatch 16 extends above the stirrer 17, which therefore no longer receives particles to stir. This partial closure position P2 thus makes it possible to modify the flow of the particles coming from the hopper 11, into the housing 12, and more particularly the supply of particles onto the fluted rotary distribution shaft 15. This position P2 is suitable especially for large seeds, and for friable fertilizers. Indeed, in this way, the particles do not accumulate at the rear of the housing 12, and flow more easily to the outlet opening 14 of the particles.

In addition, the agitator 17 destroys less friable particles, and generates less particulate dust which accumulated, according to the prior art techniques, in the bottom of the casing 12, and the flow of the particles is not thus more braked by this dust. Blockages of the splined rotary distribution shaft 15 are also avoided. For example, the closure means cover the agitator leaving a supply opening width of the dispenser of about 25 to 50% of the total opening, in the illustrated embodiment about 30 to 60 mm, According to different variants of this first embodiment of the invention, several partial closure positions can be implemented, in order to take account for example of the different types of particles treated. Indeed, depending on the shape, the roughness, the density, ..., particles, a partial sealing position sealing more or less the inlet opening 13 of the particles may be preferred. The invention thus makes it possible, according to its various embodiments, to optimize the performance of the dosing and dispensing device both for fertilizer and for certain seeds having, for example, a low-fluid flow such as faba bean.

Finally, FIG. 1c illustrates a maintenance position, in which the inlet opening 13 of the particles is completely closed, preventing any arrival of particles from the hopper 11 into the housing 12, that is to say say that the hatch 16 is closed. In this position, the hatch 18 can be opened, thus allowing access to the interior of the housing 12. It should be noted that in this maintenance position, the splined rotary distribution shaft 15 is disengaged and does not work. . Figures 2a to 2c illustrate in perspective the different cases respectively corresponding to Figures la to lc. Thus, FIG. 2a illustrates the first working position Pi, the so-called total release position of the particle inlet aperture 13, in which the partial closure means are retracted, that is to say that the hatch 16 is in the open position. FIG. 2b illustrates a second working position P2, called the partial release position of the particle inlet aperture 13, in which the partial closure means are activated, that is to say that the hatch 16 is in an intermediate position. FIG. 2c illustrates a maintenance position, in which the inlet opening 13 of the particles is completely closed, preventing any arrival of particles from the hopper 11 into the housing 12, that is to say that the hatch 16 is closed. According to this first embodiment, the invention also provides locking means 21 of the hatch 16, to maintain the hatch 16 in the desired position, especially when the device for dosing and dispensing particles is in operation.

Such locking means 21, in the form of one or more pins, are illustrated in Figures 2a to 2c. For example, two pins are used, at both ends of the hatch 16, so as to maintain it in the desired position. Moreover, several openings are provided in the hatch 16, to keep it in fully open position P1, or in the closed position, as well as in the intermediate position or positions P2 of partial closure of the particle inlet opening 13 . According to another variant, not illustrated, the locking means 21 comprise at least one blocking pin capable of cooperating with an opening or a complementary blind hole formed in the hatch 16. In the same manner, several openings or blind holes are provided in the hatch 16, to maintain it in fully open position P1, or in the closed position, as well as in the intermediate position or positions P2 of partial closure of the inlet opening 13 of the particles.

For example, the different positions can be identified visually and / or tactilely, to facilitate manipulations of the user. This identification may for example consist of an intermediate position number or an indication such as "fertilizer", "seed" placed (e) for example with regard to different means of blocking. 6.3 2nd Embodiment It is considered, as in the first embodiment, a device for metering and dispensing particles comprising a hopper 11 and a housing 12 having a particle inlet opening 13, connected to the base of the hopper 11, and an outlet opening 14 of the particles. Furthermore, this housing 12 has a splined rotary distribution shaft 15, distributing the particles to the outlet opening 14. Finally, according to this second embodiment of the invention, the housing also has a particle stirrer 17. According to this second embodiment of the invention, means 16 for partially closing the opening 13 for entering the particles are in the form of a pivoting valve 16. FIGS. 3a and 3b illustrate this embodiment , in two working positions P1 and P2. In the position P1 of total release of the inlet opening 13 of the particles, illustrated in FIG. 3a, the valve 16 is retracted, for example held against a wall of the hopper 11, so as not to impact the flow of the particles from the hopper to the inlet opening 13. In an intermediate position P2 of partial release of the opening 13 of entry of the particles, illustrated in Figure 3b, the valve 16 is pivoted, so as to close a portion of the opening 13 of the particles.

In this position of partial closure, it is observed that the valve 16 extends above the stirrer 17, which therefore no longer receives particles to be agitated. This partial closure position thus makes it possible to modify the flow of the particles coming from the hopper 11, into the housing 12, and more particularly the supply of particles onto the fluted rotary distribution shaft 15. The same effects on the decompression of the particles and the limitation of dust formation are obtained only with the partial closure means in the form of the hatch 16 according to the first embodiment of the invention.

Again, according to various variants of this second embodiment of the invention, several partial sealing positions can be implemented, in order to take account for example of the different types of particles treated. Indeed, depending on the shape, the roughness, the density, particles, a partial closure position sealing more or less the inlet opening 13 of the particles may be preferred. Thus, the valve 16 being pivotable, it is possible to change its inclination so as to change the closure of the opening 13 of the particles. To do this, according to this second embodiment, locking means can be implemented, to maintain the valve 16 in the desired position (retracted so held against a wall of the hopper, or tilted at different angles to take several intermediate positions of partial release of the opening 13 of entry of the particles). A handle and / or a lever (not shown) may be provided, to allow the user to move this valve 16 remotely, from outside the device.

Claims (10)

REVENDICATIONS1. Device for metering and dispensing particles for agricultural machinery, comprising a housing having: an inlet opening connected to the base of a hopper, an outlet opening, a fluted rotary distribution shaft distributing said particles towards said opening output device, characterized in that it comprises means for partially closing said inlet opening, so as to define at least two working positions: a position of total release of said inlet opening, said means of partial filling being retracted; and at least one partial release position of said inlet opening, said partial closure means being active and extending over an agitator element. 2. Device according to claim 1, characterized in that said partial closure means comprise a trap which can selectively take an open position, corresponding to said total release position; at least one intermediate position, corresponding to said partial release position, and a closed position, closing said inlet opening and allowing maintenance of said housing. 3. Device according to any one of claims 1 and 2, characterized in that, in at least one of said partial release positions, said closure means release an opening extending substantially above said rotatable rotary shaft. 4. Device according to any one of claims 2 and 3, characterized in that it comprises means for locking said trap in the intermediate position or positions. 5. Device according to any one of claims 2 to 4, characterized in that said flap is slidably mounted above said inlet opening. 6. Device according to claim 4, characterized in that said locking means comprise at least one locking pin, adapted to cooperate with a complementary opening or a blind hole formed in said trap. 7. Device according to claim 4, characterized in that said locking means comprise at least one pin. 8. Device according to claim 1, characterized in that said partial closure means comprise a pivoting valve disposed above said inlet opening which can selectively take: an open position, corresponding to said total release position; at least one closed position corresponding to said at least one partial release position. 9. Device according to claim 1, characterized in that it comprises means for locating said release positions. 10. Device according to claim 1, characterized in that the width of the or at least one of said partial openings is 25 to 50% of the width of said outlet opening.