The present disclosure relates to a seeder to deposit and a seeding method of depositing seeds in trays or substrate in a pattern of seed positions.
Present day seeders are plagued by a less than full fill of the pattern of seed positions in trays or substrate. Seeds are a highly expensive commodity and waste also of tray or substrate space is undesired. To the best knowledge of the inventors of the present disclosure, the current state-of-the-art relies on visual inspection to determine whether seed positions in the pattern do not contain seeds, to thereafter manually augment seeds at untaken positions to fill the pattern. However, this is hampered, if a substrate layer is in an automated process laid over the already present substrate or on and in the tray. Consequently, this automated process must be interrupted for the visual inspection and manual augmentation, or the visual inspection is rendered impossible by the added layer of substrate.
US-2018/338409 relates to a seeding wheel, capable of seeding one line of seeds at a time. When a seed is missing in a seed holding position on or of the seeding wheel, a seeding wheel driving motor is accelerated, to ensure that a seed is released at an intended seed position at a predetermined distance from a previously deposited seed on, over or of the substrate or trays, to avoid missing release of a seed from the conveyor at any such designated or intended seed position. However, acceleration of the wheel is only a viable option for single line releasing seeding wheels forming conveyors, while drums depositing and releasing a plurality of lines of seeds at desired intermediate distances is much more efficient, because many more passes of the seeding wheel are required to even approximate full coverage with seeds of seed positions in the pattern. Also, keeping subsequently deposited lines of seeds parallel may prove to be cumbersome.
U.S. Pat. No. 9,661,805 relates to a system having a drum enabling deposition of multiple parallel lines of seeds at desired intermediate distances, and is therefore considered to constitute closer prior art. This disclosure encompasses a diagnostic module and a report module. The report module may be configured to generate a notification for communicating the information generated by the diagnostic module to an operator. The notification may take any suitable form including an alarm emitted through speaker, and/or text and/or graphics displayed through a display. In some embodiments, the notification may include a chart summarizing diagnostic information from an operator-defined time period including, for example, the number skips (i.e., the number of error signals associated with “absence of seed” detections), the number of multiple or excess seed deliveries (i.e., the number of error signals associated with “two or more seeds” detections), the projected yield of seedlings, and/or indication of the cause or source of the error signals.
The present disclosure provides a novel and inventive approach to achieving a full fill of the pattern of seed positions, with a seeder, configured to deposit seeds in trays or substrate in a pattern of seed positions, comprising:
a seed supply;
a conveyor configured to transfer seeds from the seed supply, with the seeds organized in the pattern of seed positions defined by seed holding positions of the conveyor, to the trays or substrate and release extracted seeds in the pattern of seed positions into the trays or substrate,
at least one detector comprising at least a light source, such as a light beam and/or an array of LED's, and a sensor, such as at least one camera and/or a line scanner, and configured to detect seeds at seed holding positions of the conveyor in transfer from the seed supply to the trays or substrate and generate a signal,
wherein the light source is obliquely oriented at seed holding positions of the conveyor, relative to a surface of the conveyor, to generate grazing light on or over the conveyor, for seeds to cast detectable shadows on the surface of the conveyor, and the sensor is oriented at the surface of the conveyor to detect shadows on the conveyor, cast by seeds at seed holding positions.
The present disclosure also relates to a seeding method of depositing seeds in trays or substrate in a pattern of seed positions, comprising:
supplying seeds;
using a conveyor to transfer supplied seeds, with the seeds organized in the pattern of seed positions defined by seed holding positions, to the trays or substrate;
releasing extracted seeds in the pattern of seed positions into the trays or substrate,
detecting seeds at any seed holding positions in the pattern, and
generating a signal;
wherein detecting seeds and generating the signal comprises generating grazing light on or over the conveyor, for seeds to cast detectable shadows on the surface of the conveyor, and detecting shadows on the conveyor, cast by seeds at seed holding positions.
The signal may indicate at least one seed related aspect from a group at least comprising: empty seed holding positions, from which seed positions, that remain empty in the pattern of seed positions in the trays or substrate after transferring the supplied seeds to the trays or substrate, is deducible; presence of part of a seed at any seed holding positions; multiple seeds at any seed holding positions; seed coating at any seed holding positions. A coating may be detected by analyzing the shadow thereof, for example having a higher light intensity than in case of a seed. Multiple seeds and/or a broken (part of a seed) at any given seed position may be detected by the size of the shadow, for example relative to an average size of a single seed.
The method may further comprise using a filler for augmenting, after releasing the seeds into the trays or substrate and based on the signal, seeds in the trays or substrate at the seed positions in the pattern, of which it is deducible from the signal that these remain empty in the pattern of seed positions in the trays or substrate after transferring the supplied seeds to the trays or substrate. Also disclosed is a non-transitory computer-readable storage medium storing instructions, that when executed by a processor, cause the processor to perform the method.
This novel and inventive approach to achieving a full fill of the seed positions in the pattern involves an inspection of the seed holding positions on or of the conveyor, which transfers seeds from the supply to the trays or substrate. Thereby, determination whether a full fill is going to be achieved, can be automated. The end result is determined on the basis of the filling degree of the corresponding pattern of seed positions on or of the conveyor, instead of relying on checking of the end results, which may be hampered by a superposed layer of substrate. Moreover, the signal may indicate empty seed holding positions, from which seed positions, that remain empty in the pattern of seed positions in the trays or substrate after transferring the supplied seeds to the trays or substrate, is deducible. Thereby, a processor controlling the seeder or the filler itself can be accurately informed of the seed positions in the trays or substrate, that are anticipated to remain empty after the transfer, and seeds can be accurately augmented in precisely those seed positions in the trays or substrate that remain empty.
The present disclosure also involves a number of preferred embodiments, to which the scope of protection is by no means limited, were said preferred embodiments are set out in the dependent claims and detailed in the below embodiment description.
In a possible embodiment, the conveyor may comprise a transfer surface with arranged thereon or therein the seed holding positions in correspondence ing with the pattern of seed positions.
In an alternative or additional embodiment, the conveyor may comprise a seed transfer drum.
In an alternative or additional embodiment, the conveyor may comprise seed holders connected to an underpressure or vacuum connection for attraction of seeds. Then, if the seeder further comprises the transfer surface, the seed holders may be provided at the seed holding positions.
The seeder according to the present disclosure is such that the detector comprises a light source and a sensor, such as a camera. In such an embodiment, the light source is oriented at seed holding positions of the conveyor. As a further option, when the conveyor may further comprise a transfer surface, the sensor may be configured to generate the signal corresponding with absence of seeds at seed holding positions, based on absence of shadows from seeds on the conveyor. Then, at least the light source is obliquely oriented at the transfer surface to generate grazing light on or over the conveyor and/or more in particular on or over the transfer surface thereof, for a seed to cast a better detectable shadow on the conveyor. The sensor may be oriented at an essentially perpendicular orientation onto the surface of the conveyor, and may not need to be oriented at a seed holding position, but is oriented to detect shadows of seeds on or over the surface of the conveyor. In the above acknowledged prior art according to U.S. Pat. No. 9,661,805 the camera is disposed at the same side relative to seeds as the light source and configured to detect light reflected off seeds. In contrast, according to the present disclosure, the sensor, such as a camera, may focus on shadows cast by seeds on the conveyor, and more in particular on a transfer surface thereof, at a side opposite the light source relative to the seeds. This results in a higher contrast when determining the presence or absence of seeds at seed holding positions. By the simple and elegant measure of grazing light, shadows are enlarged representations (relative to the actual size of seeds) of the presence of seeds at seed holding positions, and facilitates detection considerably over the prior art, which even refers as computationally cumbersome processes, like triangulation, to sufficiently accurately be able to determine whether sufficiently large seeds are disposed at the seed holding positions. The signal may indicate at least one seed related aspect from a group at least comprising: empty seed holding positions, from which seed positions, that remain empty in the pattern of seed positions in the trays or substrate after transferring the supplied seeds to the trays or substrate, is deducible; presence of part of a seed at any seed holding positions; multiple seeds at any seed holding positions; seed coating at any seed holding positions. A coating may be detected by analyzing the shadow thereof, for example having a higher light intensity than in case of a seed. Multiple seeds and/or a broken (part of a seed) at any given seed position may be detected by the size of the shadow, for example relative to an average size of a single seed.
Additionally or alternatively, the seeder according to the present disclosure may be such, that the filler comprises a robot arm. Then, the seeder may be such, that the robot arm comprises a seed grabber. However, also possible, is a drum with the same pattern of holding positions with controllable vacuum connections to only attract seeds at seed positions in the pattern that are missing from the pattern, to augment the prior incomplete fill of the trays by the conveyor, for example a first drum for attracting seeds at all seed positions in the pattern and a selective second drum to augment the seeds missing from the pattern.
Additionally or alternatively, the seeder according to the present disclosure may comprise a controller connected to the detector and the filler, and configured to drive the filler based on the signal from the detector.
The basic method of the present disclosure is set out above.
Further, the seeding method may be such that the conveying involves using a transfer surface with arranged thereon or therein seed holding positions corresponding with the pattern of seed positions.
Additionally or alternatively, the seeding method may be such that the detecting involves using a light source and a sensor, such as a camera, and orienting the light source and the sensor at seed positions in the pattern.
When use of the transfer surface and orienting the light source and the sensor are embodied, the seeding method may further comprise, using the sensor, generating the signal corresponding with absence of seeds at the seed holding positions, based on absence of shadows from seeds on the surface.
Following the above reference to aspects of the present disclosure in terms and expressions of the appended claims, below an embodiment description is provided with reference to the appended drawing exhibiting potential embodiments of the present disclosure, to which the scope of protection for the present disclosure is by no means limited and may even encompass, in particular for specific juris dictions alternatives for aspects and features of appended independent claims. In distinct figures of the appended drawing the same or similar reference signs may be used to identify the same or similar features, aspects, element, components and functional groups thereof, even if referenced in relation to distinct embodiments. In the drawing:
According to the present disclosure a seeder 2 is provided, which is configured to deposit seeds 3 in trays 2 or substrate in a pattern 4 of seed positions. Seeder 1 comprises a seed supply 5 and conveyor drum 6 configured to extract seeds 3 from seed supply 5 with the seeds organized in the pattern 4 of seed positions and release extracted seeds into tray 2. In the shown embodiment, trays 2 move along and under conveyor drum 6. Alternatively, seeder 1 can be made to move over soil or substrate, to deposit seeds 3 in the pattern 4 in or in the soil or substrate.
Returning to the embodiment of
Seeder 1 further comprises a detection system with at least one detector configured to determine whether the conveyor drum 6 has not extracted a seed at any of the seed positions in the pattern 4 and generate a corresponding detection signal. Additionally or alternatively, the detector may generate a signal indicative of at least one seed related aspect from a group at least comprising: empty seed holding positions, from which seed positions, that remain empty in the pattern of seed positions in the trays or substrate after transferring the supplied seeds to the trays or substrate, is deducible; presence of part of a seed at any seed holding positions; multiple seeds at any seed holding positions; seed coating at any seed holding positions. A coating may be detected by analyzing the shadow thereof, for example having a higher light intensity than in case of a seed. Multiple seeds and/or a broken (part of a seed) at any given seed position may be detected by the size of the shadow, for example relative to an average size of a single seed.
This detection system is oriented at the conveyor drum. To achieve a full fill of the seed positions in the pattern 4 on or in trays 2 involves inspection of the conveyor drum 6, which transfers seeds 3 from supply 5 to trays 2. Thereby, determination whether a full fill is going to be achieved, can be automated. The end result in terms of seeds 3 at all seed positions in pattern 4 on or in trays 2 is determined on the basis of the filling degree of the corresponding pattern of seed positions on or of the conveyor drum 6. This avoids a need of having to check end results on or in trays 2.
Further, seeder 1 comprises an optional filler, here in the form of a robot arm 7, to augment seeds in trays 2 at empty seed positions 8, without seeds, based on the detection signal from the detection system.
More in detail, conveyor drum 6 comprises a transfer surface 9 with arranged thereon or therein seed holding positions 10 in a pattern corresponding with the pattern 4 of seed positions.
In an alternative or additional embodiment, the conveyor drum may be replaced by any suitable conveyor, such as a transfer plate.
Returning to the
More in detail, the detection system of seeder 1 according to the present disclosure, comprises at least one detector, formed by a at least one light source, possibly in the form of a light beam 12, for example comprising an array of LED's, and a sensor, such as one or more than one camera 13. The cameras may be embodied as a line scanner, in addition to or instead of distinct cameras 13. Light beam 12 is elongate and extends parallel to the length direction of conveyor drum 6. Light is emitted from light beam 12 towards conveyor drum 6, so that light source is oriented at seed holding positions 10 distributed in, over or on transfer surface 9 of conveyor drum 6. More in particular, the light source in the form of light beam 12 is obliquely oriented at the transfer surface 9, i.e. at an angle relative to a radial direction of the conveyor drum 6, to generate grazing light on or over the transfer surface 9. As a consequence, seeds 3 held at seed holding positions 10 cast shadows 14 on transfer surface 9, which can be detected using the sensor, for example in the form of the at least one camera 13 or line scanner. The camera(s) 13 or line scanner may be substantially radially oriented at the surface of the conveyor drum 6, whereby the sensor in the form of the at least one camera 13 or line scanner is configured to generate the detection signal corresponding with absence of seeds 3 at seed holding positions 10, based on absence of shadows 14 from seeds on the surface. However, presence or absence of seed at any particular seed position may alternatively for shadow detection also be achieved by detection of seed itself, for example based on recognition of surface texture of seeds, where a difference with surface texture of the conveyor drum may be detectable as a tell-tale sign of the presence or absence of seed at seed positions on the conveyor drum. More than one type of detection may be employed (shadow+seed surface texture, or any other). Detection may additionally or alternatively be directed at at least one seed related aspect from a group at least comprising: presence of part of a seed at any seed holding positions; multiple seeds at any seed holding positions; seed coating at any seed holding positions. A coating may be detected by analyzing the shadow thereof, for example having a higher light intensity than in case of a seed. Multiple seeds and/or a broken (part of a seed) at any given seed position may be detected by the size of the shadow, for example relative to an average size of a single seed.
In the representation of seeder 1 according to the present disclosure in
Although seeder 1 according to the embodiment of
Seeder 1 may comprise the controller for example in the form of a computer 17 (schematically represented as a box), connected to at least the sensor(s) 13 and the optional filler 7, and configured to drive the filler 7 based on the detection signal from the sensor(s) or simply monitor the detection signal, in particular indicating and identifying specific empty/vacant seed holding positions 10 of conveyor drum 6, and include as empty/vacant seed holding positions, those where seed coating or broken seed is held, from which future empty/vacant seed positions in the pattern 4 in or on trays 2 is deducible.
The above described exemplary embodiment of seeder 1 in
The seeding method is in this particular embodiment that the conveying is performed using transfer surface 9 with arranged thereon or therein seed holding positions 10 corresponding with pattern 4 of seed positions in trays 2 (or soil/substrate). The detecting involves using light source 12 and sensor 13, such as one or more than one cameras 13, and orienting light source 12 and the sensor 13 at seed positions in the pattern of seed holding positions 10 in or on conveyor drum 6. By using transfer surface 9 and orienting light source 12 and sensor 13 thereon, and by using the sensor 13, detection signal can be generated that correspond with absence of seeds at seeds holding positions of drum 6 which relates to future empty/vacant seed positions in pattern 4 on or in trays 2. This detection is in particular based on absence of shadows 14 from seeds 3 on conveyor surface 9, when light source 12 generates streak light over conveyor surface 9.
Evidently the present disclosure allow for many additional and/or alternative embodiments relative to those explicitly depicted in the appended drawings and described above in relation thereto. Consequently the scope of protection according to the also appended claims is by no means limited to the explicitly shown and described embodiments, but encompasses alternative and additional embodiments, even if not explicitly referred to, and also encompasses even obvious alternatives in certain jurisdictions for elements and components of the appended independent claims.
Number | Date | Country | Kind |
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2022432 | Jan 2019 | NL | national |
Filing Document | Filing Date | Country | Kind |
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PCT/NL2020/050032 | 1/22/2020 | WO | 00 |