DE102018200128A1 - Dosing device for granular material - Google Patents

Abstract

It is a metering device (12) for granular material such as seed grains (14), fertilizer o. The like. Revealed, which is approximately concentric with an at least partially approximately kreisbahn- and / or circular segment-shaped inner circumferential surface (16) of a housing (10) rotating Having by means of a drive motor (22) driven metering and / or conveyor disc (18). The disc (18) has at least one shoulder or recess (20) in the region of its outer circumference or edge region (34) for receiving at least one grain (14) to be separated over at least one revolution of the metering and / or conveying disc (18) , The at least one shoulder or at least one recess (20), in cooperation with a groove-shaped and / or oblique contouring of the inner circumferential surface (16), forms a conveying pocket for conveying a grain (14) or several grains (14) in the direction of an approximately tangential to the inner circumferential surface (16) adjoining or with the inner circumferential surface (16) in connection outlet port of the housing (10).
The metering and / or conveying disc (18) is equipped in the region of its outer circumference or edge region (34) with a plurality of elastic elements (40) which contact the inner circumferential surface (16) at least in sections and / or with rotating dosing and / or Slide conveyor disc (18) along the inner circumferential surface (16).

Description

The present invention relates to a metering device for granular material having the features of the preamble of independent claim 1.

For spreading and distributing many kinds of seeds, single grain sowing units are often used. In addition, there are numerous variants of so-called volumetric working distribution devices for granular material or sowing devices, in which the grain promotion can be done in particular by means of a supporting air flow. The metering of the grains into the air stream allows the variation of the grain volume flow. Nevertheless, in these sowing machines, the grain deposit on the seed coulters is often uneven, since both the accuracy of the grain metering and the regulation of the air flow are influenced only limited, which can lead to disadvantages in the staging allotment of the individual plants.

A device for separating and discharging granular material is from the DE 36 33 955 A1 known. A rapidly rotating hollow cylinder with cell-forming recesses receives granules by means of negative pressure from a grain supply, wherein the grains are pressed by means of centrifugal force into the recesses, while a brush scraper ensures the stripping of excess grains that fall back into the supply. At the intended delivery point, the negative pressure is cut off, so that the grains are discharged from the recesses by centrifugal force and gravity.

A through the EP 0 636 306 A1 Disclosed distribution unit for granular material such as seed comprises a housing with a circular path inner circumferential surface and a conveying device rotating therein. The conveyor has a plurality of openings in its outer region, which form a pocket in a first housing portion with the Gehäuseinnenmantelfläche in which the grains are urged and by centrifugal forces, supported by the conveyor, are conveyed in a circle until they are discharged in isolated form from the housing become.

The dosing devices mentioned are either modified Einzelkornsäaggregate, although allow a precise grain separation, but are limited to volumetric dosing seeders in their processing capacity and in their grain volume flow and / or relatively complex and prone to failure in their structure and function. The known accessories, which are intended to improve the regular delivery of seeds in volumetric metering machines, however, do not reach the singulation quality of conventional Einzelkornsäaggregate zoom.

Furthermore, the disclosure DE 10 2012 105 048 A1 a distribution unit for granular material, which can be used in particular as a seeding unit in a seeder. This known unit comprises a housing with an approximately circular path or circular segment-shaped inner circumferential surface. In the housing concentrically rotates a disc-shaped conveyor for the transported granular material or the transported seeds. An outlet opening adjoins the inner lateral surface of the housing approximately tangentially. The disk-shaped conveyor has openings or shoulders on its outer periphery which, in conjunction with the rotation of the disk and the air flow, provide for circular movements of the grains along the inner surface of the casing. In a dicing area remains by a contour adapted to the inner circumferential surface of the housing and under the influence of centrifugal forces only a single grain in the opening or in the shoulder of the disk-shaped conveyor, while excess grains are separated and fed back for renewed promotion in the first housing area.

The latter seeding unit has proven itself in practice and allows precise grain separation with volumetric grain promotion, but requires an exact adaptation of the circumferential recesses or openings of the rotating conveyor disc to the respectively conveyed and auszusäenden grain type. For relatively small grains that are carried in oversized openings, the exact grain separation is impaired, since it can not be ruled out that in some of the openings two, three or more grains transported and delivered simultaneously through the outlet opening. If, on the other hand, the openings or recesses are too small, the singling unit emits the grains just as irregularly as they were previously transported into the inlet opening.

In order to at least reduce these problems, it makes sense in practice to replace the rotating in the housing conveyor disc when changing the seed and replace each with matching discs. Since a multi-row sowing machine for each coulter has a separate metering unit of the type described, a corresponding number of sets of interchangeable metering discs are required, which not only causes costs, but also requires a high logistics effort for each user.

An alternative possibility of adapting the rotating conveyor disc to different Grain size is determined by the DE 10 2014 216 370 A1 proposed by the recesses are provided on the outer circumference of the conveyor disc within releasably locked insert elements.

Another alternative way of adapting the rotating conveyor disc to different particle sizes is through the DE 10 2014 111 777 A1 proposed by the drive motor rotatably connected to a drive disc for varying an axial distance between the disc and the inner surface of the housing and thus an effective width of the conveyor pockets formed by the recesses in the axial direction of the axis of rotation of the drive motor is adjustable.

An axial adjustment of a cellular wheel is also in the DE 195 44 237 A1 disclosed.

Finally, the reveals DE 10 2015 114 145 A1 a metering device in which the grains are not isolated by means of pockets or recesses, but by means of brush-like chambers along a separating surface.

In order to reduce the structural complexity and in particular to avoid the proposed from the prior art to adapt to different operating conditions conversion or adjustment measures on the dosing and / or their storage, it may be regarded as a primary object of the invention, in metering units of the type as they are in the DE 10 2012 105 048 A1 are described, a simple and inexpensive to implement adaptability of the rotating metering or their interaction with corresponding mating surfaces in the housing to allow different grain sizes and / or contours. In particular, the metering units should be able to be used without great logistic effort for different grain types, sizes and / or contours, so that when applying different grain types, sizes and / or contours respectively the best possible separation quality can be achieved. In order to continue the achievable delivery accuracy and / or the grain distances are maintained in a volumetric grain promotion to an extent that thus approaches the grain dosage in terms of their separation quality of a single-grain dosage or this achieved in the ideal case, while a high grain volume flow should be possible, and preferably with a still simple structure, which is not susceptible to disturbances, and a simple function, as it is characteristic of volumetric metering drills.

These stated objects of the invention are achieved with the subject matter of independent claim 1. Features of advantageous developments of the invention will become apparent from the dependent claims.

In order to achieve the stated object, the invention proposes a dosing device for granular material, such as seeds, fertilizer or the like, also referred to below as a dosing unit, which may be part of a seed drill or a precision seed drill for the uniform application of seed. The metering unit which provides the basis for the present invention or the metering device which provides the basis for the present invention has a conveyor disc which is approximately concentric with an inner circumferential surface of a housing which is approximately circular and / or circular in shape and which is driven by means of a suitable drive motor. The drive motor may be, for example, an electric motor or a hydrostatic drive o. The like. Be, so that the rotating conveyor disc can be driven by electric motor or otherwise. Other variants of a drive motor come into question in principle, for example. A mechanical power transmission. The conveyor disc has at least one shoulder or at least one recess on its circumference or outer circumference or in the region of its outer circumference or outer circumference for receiving at least one grain to be separated over at least one revolution of the conveyor disc. The grains to be separated in this way are supplied to the housing of the metering unit or the metering device in a suitable manner, in particular by means of granular airflow. The at least one shoulder and / or the at least one recess form, in cooperation with a groove-shaped and / or oblique contouring of the inner circumferential surface or a portion of the inner circumferential surface along which the conveyor disc passes during its rotation, a conveying pocket for conveying one or more grains in the direction of an approximately tangentially adjoining the inner lateral surface outlet opening.

The present invention is essentially characterized in that the conveyor disc is provided in the region of its outer circumference with a plurality of elastic elements which contact the inner circumferential surface at least in sections and / or slide along the inner lateral surface or along the inner circumferential surface when the conveyor disc rotates. Due to the arranged on the outer circumference of the conveyor disc and / or there evenly distributed elastic elements reduced demands on the exact concentricity of the conveyor disc can be made without thereby the singulation quality is impaired. So is in the case of the similar metering devices known from the prior art, to ensure safe and exact separation, it is generally necessary for the metering disk or conveying disk to have the most precise concentricity or runout, since otherwise the contour is not sufficiently suitable for this purpose To separate grains as desired. However, this concentricity or this runout is not always readily achievable in practice due to unavoidable manufacturing tolerances.

In view of and starting from the above known prior art, the present invention provides a metering with metering or conveyor disc, which basically in a similar manner as the DE 10 2012 105 048 A1 may be constructed in which, however, along a circular path or between two pockets elastic elements such as, for example, brush-like elements are provided. With these elastic elements or with these brush-like elements now, for example, manufacturing tolerances and deviations from runout and concentricity can be compensated. In addition, the separating surfaces can be cleaned respectively by means of the elastic elements or the brushes. In addition, the seal between the metering or conveyor disc and the housing is always ensured without the need for special seals or the like.

As embodiments for the elastic elements are in particular in the radial direction on the outer circumference of the conveyor or metering projecting brushes in question. Since these brushes along the inner lateral surface of the housing of the dosing along or slide along it can be at a minimum distance, the optimal function of the rotating conveyor disc is guaranteed, even without an exact compliance with the concentricity and / or the constant gap between conveyor or metering and Gehäuseinnenmantelfläche must be respected.

Optionally, the elastic elements can also be aligned on the outer circumference in approximately radial direction protruding punch, which can yield elastically in abrading or slightly touching contact with the corresponding counter surface in the housing.

With a radial alignment of the brush or punch is meant an approximately parallel orientation to the front-side flat sides of the conveyor or metering disk. A slight inclination of the brush or punch may possibly be useful, if so better adaptation to the correspondingly shaped mating surface of the housing, i. its inner circumferential surface in the circulation area of the conveyor or metering disk can be achieved.

The elastic elements or brushes are expediently distributed over the outer circumference of the conveyor disk, wherein the areas in which the heels, entrainments or recesses arranged in the outer peripheral region of the conveyor disk are for carrying one or more grains are free of elastic elements or brushes.

As a result of the fact that the elastic elements or brushes slide along or slide along within the possibly existing groove of the inner lateral surface of the housing and possibly also bend there, since they can run in touching contact within the groove, not only the concentricity for the conveying or dosing disc ensures, but the groove or the mating surface on the inner circumferential surface of the housing, which is swept by the brush or elastic elements, is also cleaned of these.

The metering device or the metering unit with the conveyor disc rotating therein may in particular be an aggregate of the type as described in US Pat DE 10 2012 105 048 A1 is described. The invention provides for such dosing units or devices a simple and cost-effective compensation for manufacturing tolerances occurring without a manual or motorized adjustment would be mandatory when using the dosing for different grain sizes and / or grain contours. By the elastic elements or brushes on the outer circumference of the rotating metering or conveyor disc, the best possible separation quality can be ensured even when not exactly constant gap size when spreading the grains. Thus, in each case the respectively achievable delivery accuracy and / or the grain spacings to be realized in a volumetric grain conveyance can be maintained to an extent such that the grain dosage approximates to single dosing with regard to its dicing quality or ideally achieves this, while at the same time allowing a high grain volume flow. At the same time, metering units are made available that are simple in construction and hardly prone to malfunction.

The said and in particular from the DE 10 2012 105 048 A1 Known dosing unit for granular material such as seeds, fertilizer o. The like. Is equipped with a within a housing of the dosing and concentric with an approximately kreisbahn- and / or circular segment-shaped inner surface of the housing rotating conveyor disc, the at least one paragraph or a recess on her Circumference or on the outer circumference for receiving at least one grain to be separated over at least one revolution of the Has conveyor disc. The at least one shoulder or the at least one recess, in cooperation with a groove-shaped contouring of the inner lateral surface, forms a conveying pocket for conveying a grain or several grains in the direction of an outlet opening approximately tangential to the inner lateral surface.

In the metering device according to the invention it is provided that the elastic elements or brushes on the outer circumference of the metering or conveyor slide on corresponding counter surfaces or a groove along or strip, wherein the respective contact through the outer periphery of the conveyor disc with respect to the groove-shaped mating surface on the inner surface of the Housing results. On the basis of these embodiments, it is apparent that the gap for conveying the grain good can be formed over a wide variety of structural configurations. In the case of the parallel and / or oblique variants, the contour of the conveyor disc corresponds exactly or approximately to the contour of the counter surface of the inner lateral surface of the housing. The setting of the gap or the at least one shoulder or the least one recess on the outer circumference of the conveyor disc with respect to the groove-shaped mating surface on the inner circumferential surface of the housing via a corner has a defined angle in the rule. Preferably, the defined angle corresponds to a value of 90 °. However, it is conceivable that the angle over the corner profile can also assume any other values.

The above-described metering and / or conveying disc can, for example, a total of four recesses and these optionally associated driving stages for grain conveying and / or entrainment at the outer edge region - in the present context also referred to as outer circumference and / or outer peripheral region - the substantially flat metering and / or conveyor disc. This example. Four recesses and / or driving stages are in this case preferably distributed in each case by 90 ° over the disk, so that there is a symmetrical structure. Optionally, three such recesses and / or driving stages can be distributed over the peripheral region or edge region of the disc, wherein the recesses and / or driving stages are arranged distributed in this case in each case in a 120 ° division over the disc. Optionally, only two such recesses and / or driving stages can be distributed over the edge region, which are distributed in this case in each case in a 180 ° division over the disc. Other variants with five (72 ° pitch) or more recesses and Mitnehmerstufen are possible and, for example, by replacing the metering and / or conveyor disc respectively as needed used.

As already mentioned, the recesses and / or driving stages can be variably dimensioned, so that different dosing and / or conveying disks can be used and exchanged for each other for the separation of different grain sizes. Also conceivable, however, is an exchange of insert modules arranged thereon recesses and Mitnehmerstufen in corresponding locking receptacles in the disc, for example. Similar to DE 10 2014 216 370 A1 , resulting in a further extended variety of variants for all conceivable applications of dosing.

A face-side hub portion of the disc may optionally be provided with a plurality of rectilinear or curved wing portions or compartments or lands which extend toward the outer periphery, but which preferably do not fully reach it. These optionally to be understood wing sections that can be shaped differently, serve the air and / or grain steering, in particular the grain mixture, when the surplus grains are forced out of individual recesses and returned to the collection space.

Between the respective recesses arranged at 120.degree. Or 90.degree. Offset from one another and the respective associated driver stages, there are radially outwardly directed elastic elements along the outer edge region, in particular as a narrow row of brushes or punches, each of the total four (offset by 90 ° recesses) punch or brush rows covering an angular segment of slightly less than 90 ° between two adjacent recesses or driving stages. Each of these three or four rows of brushes may be formed, for example. From a plurality of individual, juxtaposed and closely spaced individual brushes, which thus cover the entire outer circumference of the disc and with a rotating metering and / or conveyor preferably lightly grazing on the Slip along the inner circumferential surface of the housing of the metering unit. The elastically yielding brushes can hereby be slightly bent, possibly counter to the direction of rotation.

• 1 zeigt eine perspektivische Ansicht einer Ausführungsvariante einer Dosiervorrichtung mit teilweise geöffnetem Gehäuse und darin rotierender Förderscheibe.
• 2 zeigt eine perspektivische Ansicht einer weiteren Ausführungsvariante der Dosiervorrichtung sowie einer darin rotierenden Dosier- und/oder Förderscheibe.
• 3A zeigt einen schematischen Längsschnitt der in 2 gezeigten Ausführungsvariante der Dosiervorrichtung.
• 3B zeigt einen Detailausschnitt des in 3A gezeigten Längsschnittes.

In the following, embodiments of the invention and their advantages with reference to the accompanying figures will be explained in more detail. The proportions of the individual elements to one another in the figures do not always correspond to the actual size ratios, since some shapes are simplified and other shapes are shown enlarged in relation to other elements for better illustration.

• 1 shows a perspective view of an embodiment of a metering device with partially open housing and rotating conveyor disc therein.
• 2 shows a perspective view of another embodiment of the metering device and a rotating therein metering and / or conveyor disc.
• 3A shows a schematic longitudinal section of the in 2 shown embodiment of the metering device.
• 3B shows a detail of the in 3A shown longitudinal section.

For identical or equivalent elements of the invention, the same reference numerals are used in the following usually. Furthermore, for the sake of clarity, only reference symbols are shown in the individual figures, which are required for the description of the respective figure. The illustrated embodiments are only examples of how the metering device according to the invention can be configured and do not represent a final limitation.

The following are based on the 1 to 3B The invention described in detail and with reference to a concretely usable embodiment variant comprises one within a housing 10 a metering device or a metering unit 12 for granular good like seeds 14 , Fertilizer o. The like. And approximately concentric with an at least partially approximately kreisbahn- and / or circular segment-shaped inner surface 16 of the housing 10 rotating metering and / or conveyor disc 18 that has at least one shoulder or recess 20 in the vicinity or in the region of its outer periphery for receiving at least one grain to be separated 14 over at least one revolution of the conveyor disc 18 having. The paragraphs or the recesses 20 are in the flat face of the disc 18 how this particular the 2 clearly recognizable.

The distance to be selected in practice of the metering and / or conveyor disc 18 from a counter surface of the inner circumferential surface 16 of the housing 10 can optionally by an adjustment, by selecting a suitable disc 18 and / or by adjusting a motor unit 22 be varied with an associated electric or hydrostatically operated drive motor. In the metering device or in the metering unit 12 in which the conveyor disc 18 rotates, it can be in particular a device or an aggregate of the type, as shown in the DE 10 2012 105 048 A1 is described. If the distance of the conveyor or metering disc 18 in the axial direction relative to the housing 10 should be adjustable, this adjustability in particular according to DE 10 2014 111 777 A1 or be formed in a similar or different manner.

The schematic perspective view of 1 illustrates the structure of such a metering device, which subsequently mostly as dosing 12 referred to as. The metering device or the metering unit can serve, in particular, as a seeding unit of an agricultural distributor or seeder, typically with a large number of such metering units 12 Is provided. The dosing unit 12 includes a housing 10 with an at least partially approximately circular path and / or circular segment-shaped inner circumferential surface 16 and an inlet opening 24 for a flow of air 26 and in that conveyed granular good or transported seed grains 14 , Furthermore, the metering unit comprises 12 in the case 10 concentrically rotating metering and / or conveyor disc 18 for that in the air flow 26 carried granular good or the seeds transported therein 14 as well as one in the 1 not clearly visible outlet opening, which is approximately tangential to the inner surface 16 connects and the seeds 14 or the granular material largely regularly to a seed line, a delivery line o. Like. Sends. In the illustrated embodiment, the conveyor disc 18 one, two or more regularly spaced driving stages 28 as well as immediately arranged recesses 20 for transporting granular material or seeds 14 respectively.

Optionally, the design of the driver stages 28 and / or the recesses 20 be in a way like this in the DE 10 2012 105 048 A1 is disclosed. A conceivable embodiment for the recesses and the associated Mitnehmerstufen is also found in the DE 10 2014 216 370 A1 disclosed; if it makes sense to vary the size of the recesses, for example, to adapt to different grain sizes of the seed to be separated, the recesses for receiving the seeds 14 also be formed by interchangeable inserts, as described in the last-mentioned document.

The in the air stream 26 carried seeds 14 of the Verteilgutes be through the straight and / or curved running inlet of the inlet opening 24 in the interior of the case 10 guided in which the rotating conveyor disc 18 form a kind of metering device for the equidistant delivery of the grains in the direction of and from the outlet. The in the case 10 subsidized and the seeds 14 carrying airflow 26 ensures that the grains along the inner surface 16 and first along the curved wall surface 30 move. As the inner surface 16 in the further course in the direction of the outlet opening an inclined housing surface 32 or an otherwise shaped groove-shaped structure whose dimensions are approximately the size of the individual grains 14 Correspond can be the grains 14 in the further course of movement between the wall surface 30 , along the inclined housing surface 32 and in the direction of the outlet opening to the conveyor disc 18 crowded, but where between the stage 28 and the inclined housing surface 32 in each case only a single grain 14 Takes place.

This grain steering is also achieved in that the groove-shaped structure or inclined housing surface 32 in the direction of rotation of the conveyor disc 18 tapered towards the outlet opening, in particular in its width. In addition, since the groove-shaped taper of the inner circumferential surface 16 in the direction of rotation of the conveyor disc 18 tangentially in the outlet opening, which is not recognizable here, individual grains are formed in each case 14 discharged at regular intervals through the outlet opening.

Based on the schematic perspective view of 2 who in 3A shown longitudinal sectional view of the housing 10 rotating metering and / or conveyor disc 18 as well as the detailed view of the 3B the specifics of the present invention and their differences from the already known from the prior art design variants are to be clarified.

While the schematic perspective view of 1 a first embodiment of the metering unit according to the invention 12 shows, illustrates the schematic perspective view of 2 another construction or embodiment of the dosing 12 with a different structure of the housing 10 and a more compact design of the motor unit 22 , Decisive, however, is the out of the case 10 removed and clearly visible here metering and / or conveyor disc 18 in the embodiment shown a total of four recesses 20 and associated with these Mitnehmerstufen 28 for grain conveying and / or entrainment at the outer edge area 34 (Also referred to here as the outer circumference and / or outer peripheral portion of the disc) of the largely flat metering and / or conveyor disc 18 having. The four recesses 20 and entrainment levels 28 are each 90 ° above the disk 18 arranged distributed, so that there is a symmetrical structure.

Optionally, also three such recesses 20 and entrainment levels 28 over the peripheral area or edge area 34 distributed in this case, each in a 120 ° division over the disc 18 are distributed (not shown here). Optionally, also two such recesses 20 and entrainment levels 28 over the edge area 34 distributed in this case, in each case in a 180 ° division over the disc 18 are distributed (here also not shown). Other (not shown here) variants with five (72 ° pitch) or more recesses and Mitnehmerstufen (not shown here) are possible and, for example, by replacing the metering and / or conveyor disc 18 realizable.

As mentioned earlier, the recesses can 20 and / or entrainment levels 28 be dimensioned or dimensioned variable, so that for the separation of different grain sizes each different dosing and / or conveyor discs 18 usable and interchangeable. Equally conceivable, however, is an exchange of insert modules arranged thereon with recesses and Mitnehmerstufen in corresponding locking receptacles in the disc 18 , in particular according to the DE 10 2014 216 370 A1 , resulting in a further extended variety of variants for all conceivable applications of dosing 12 results.

An end hub area 36 can according to 2 optionally with several curved wing sections 38 be equipped facing towards the outer edge area 34 extend, but preferably not quite reach. These optional wing sections 38 that are different, ie different than in 2 can be shown, serve the air and / or grain steering, in particular the grain mixture, when the surplus grains are forced out of individual recesses and returned to the collecting space.

Between the in the embodiment shown in each case at 90 ° angles offset from each other arranged recesses 20 and respective associated driver stages 28 are located along the outer edge area 34 radially outwardly facing elastic elements 40 especially as a narrow row of brushes 42 , wherein each of the four rows of brushes 44 an angular segment of slightly less than 90 ° between two adjacent recesses 20 or entrainment levels 28 covers. Each of these four rows of brushes 44 can according to the in 2 shown embodiment of a plurality of individual, juxtaposed and closely spaced individual brushes (here, for example. Shown: each twenty-four individual brushes in each row 44 ), which in such a way the entire outer circumference of the disc 18 cover and with rotating dosing and / or conveyor disc 18 preferably slightly grazing on the inner circumferential surface 16 of the housing 10 of the metering unit 12 slide along, as in the 3A and 3B can be seen in detail. The elastically flexible brushes 42 In this case, if necessary, can be easily bent against the direction of rotation.

The schematic longitudinal sectional view of 3A as well as the detailed longitudinal section of the 3B illustrate the arrangement of the rotating metering and / or conveyor disc 18 in the case 10 of the metering unit 12 , Due to the fact that the metering and / or conveyor disc 18 in the region of its outer circumference or on its outer edge region 34 with numerous elastic elements 40 in the form of brush rows 44 arranged brushes 42 is equipped, the inner circumferential surface 16 through these brushes 42 contacted, with the brushes 42 with rotating conveyor disc 18 along the inner circumferential surface 16 glide or slide along there. This configuration can be reduced requirements for the exact concentricity of the metering and / or conveyor disc 18 without affecting the quality of separation. As an exact concentricity or axial runout of the conveyor disc 18 in practice, due to unavoidable manufacturing tolerances usually not readily available, deliver the rows of brushes 44 the desired singulation quality by adding the grains 14 through the brushes 42 be prevented from entering the narrow gap 46 between the oblique peripheral surface 48 or edge chamfer of the disc 18 and in parallel inclined position to the peripheral surface 48 or bevel-oriented inner surface 16 to penetrate (cf. 3B) , Thus, the gap 46 not only sufficiently large to be a sliding contact between the inclined peripheral surface 48 or outer bevel of the disc 18 and the inner circumferential surface 16 of the housing 10 to prevent. In addition, an additional seal between the metering or conveying disc 18 and the housing 10 be waived.

LIST OF REFERENCE NUMBERS

10

casing

12

Dosing unit, dosing device

14

Grain, seed

16

Inner surface area

18

Conveying disc, metering disc, rotating metering and / or conveyor disc

20

Recess, heel

22

Motor unit, drive motor

24

inlet port

26

airflow

28

Mitnehmerstufe

30

wall surface

32

inclined housing surface, groove-shaped contour

34

outer edge area, outer circumference, outer peripheral area

36

hub area

38

wing section

40

elastic element

42

to brush

44

brush series

46

gap

48

oblique peripheral surface, chamfer

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 3633955 A1 [0003]
• EP 0636306 A1 [0004]
• DE 102012105048 A1 [0006, 0013, 0017, 0023, 0024, 0033, 0035]
• DE 102014216370 A1 [0009, 0027, 0035, 0041]
• DE 102014111777 A1 [0010, 0033]
• DE 19544237 A1 [0011]
• DE 102015114145 A1 [0012]

Claims (10)

Dosing device (12) for granular material to be conveyed, such as seeds (14), fertilizer or the like, with an approximately concentric to an at least partially approximately circular path and / or circular segment inner surface (16) of a housing (10) rotating, by means of a drive motor ( 22) driven dosing and / or conveying disc (18), the at least one shoulder or recess (20) in the region of its outer periphery or edge region (34) for receiving at least one grain to be separated (14) over at least one revolution of the metering and / or conveying disc (18), wherein the at least one shoulder or the at least one recess (20) in cooperation with a groove-shaped and / or oblique contouring of the inner circumferential surface (16) a conveying pocket for conveying a grain (14) or more grains ( 14) in the direction of an approximately tangential to the inner circumferential surface (16) adjoining or with the inner circumferential surface (16) in Verbindungu ng standing outlet opening of the housing (10), characterized in that the metering and / or conveyor disc (18) in the region of its outer circumference or edge region (34) is equipped with a plurality of elastic elements (40), which the inner circumferential surface (16) Contact at least in sections and / or with rotating metering and / or conveyor disc (18) along the inner circumferential surface (16) slide. Dosing according to Claim 1 in which the elastic elements (40) are formed by brushes (42) arranged in alignment with one another on the outer circumference of the metering and / or conveying disc (18). Dosing according to Claim 1 in which the elastic elements (40) are formed by stamps arranged in alignment with one another on the outer circumference of the metering and / or conveying disc (18). Dosing according to Claim 2 or 3 in which the elastic elements (40) or punches or brushes (42) project approximately in the radial direction. Dosing device according to one of Claims 1 to 4 in which the elastic elements (40) or punches or brushes distribute evenly over the outer circumference of the metering and / or conveying disc (18). Dosing device according to one of Claims 1 to 5 in that the elastic members (40) or punches or brushes (42) divide into a plurality of groups or rows of brushes (44) evenly distributed over the outer circumference of the metering and / or conveying disc (18) and from the shoulders or recesses (20) are separated from each other. Dosing device according to one of Claims 1 to 6 in which the elastic elements (40) or stamps or brushes (42) are distributed over the entire circumference of the metering and / or conveying disc (18), with the exception of the shoulders or recesses (20) which are free of elastic elements (40 ) or brushes (42). Dosing device according to one of Claims 1 to 7 in which the elastic elements (40) or punch or brushes (42) with rotating metering and / or conveying disc (18) along a groove or mating surface of the inner circumferential surface (16) of the housing (10) along and / or slide along. Dosing according to Claim 8 in which the elastic elements (40) or stamps or brushes (42) elastically deform when contact is made within the groove and / or the mating surface of the inner lateral surface (16) of the housing (10). Dosing according to Claim 8 or 9 in which the elastic elements (40) or punches or brushes (42) clean the groove or mating surface when they come into contact within the groove and / or the mating surface of the inner lateral surface (16) of the housing (10).

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