DE3824061A1 - Mobile agricultural seed device - Google Patents

Abstract

Mobile agricultural seed device with one or more supply containers for depositing seed grains in the ground, and with gutters which are arranged between the supply container and the ground and are oriented in parallel to the direction of travel and which are set in vibration by means of one or more drives. In order to meter exactly, by means of a device, the seed grains extracted from a supply container and deposit this metered seed in the ground at uniform intervals, it is proposed that the gutters be designed as distributing gutters for equalizing the seed grains or the grain stream, and that they be arranged between the supply container and the respective distributing gutter a regulatable metering member which can be driven in rotation and via which the quantity or number of seed grains to be discharged is determined.

Description

The invention relates to a mobile agricultural Sowing device according to the preamble of Claim 1.

Such a mobile agricultural sowing device is known from German patent specification 12 83 012. This seeding device has a storage container, seeding shares as well as gutters, which between the reservoir and arranged on the floor and parallel to the direction of travel are aligned, and by means of one or more Drives are set in vibration. By in The seed is metered in vibrating channels Form immediately taken from the storage container and in the seed furrows pulled by the coulters.

This seeding device has the decisive disadvantage on that through the gutter the seeds are not in sufficient form can be dosed from the reservoir can.

The invention is based, which from a Seeds removed from the storage container by means of a Dosing device precisely and with even Place this metered seed in the soil at intervals.

This object is achieved in that the Channel as distribution channel to even out the seeds or the grain flow is formed, and that between  the storage container and the respective distribution channel Rotatingly driven and controllable dosing element is arranged over which the quantity to be applied or Number of seeds is determined. As a result of this Measures will be the task of the distribution channel only the equalization of the dosed by the dosing Seeds assigned while the dosing organ amount of seeds to be spread or number of Seeds determined. The distribution channel is evened out in surprisingly simple amount the non-uniform flowing seed stream flowing through the central Dosing elements of the distribution channel are dosed. Through the Measures according to the invention make it possible for the first time surprisingly simple way with conventional seeders and the distribution trough a Precise placement of seeds without the actual single grain separation more conventional Achieve precision seeders. The distribution channel isolated the seeds dosed by the metering device. One can be done with the simplest of means Precision seeder for all types of seeds realize.

The non-uniformly flowing seed flow is therefore on Inlet of the distribution channel temporarily saved. Under the outlet of the inlet pipe, which in the coulter is located above the distribution channel constantly changing seed supply. From here then the seeds are pulled through the distribution channel. The Layer height of the seed in the gutter is evened out on the way to dropping. Ideally they are Grains individually one after the other. However, it is also easily conceivable that in the V-shaped distribution channel two or three seeds lie on top of each other. Crucial is that the layer height of seeds in the Distribution channel is possible evenly. Even with multiple grains lying one above the other result in a Uniformity of seed placement compared to  previous ones used in normal practice Seeding driving absolutely uncontrollable condition. By the vibration of the distribution channel becomes the Reduced friction between the grains. At the same time the grains receive a promotion to the delivery point. The grains are sorted as desired, so that they are in a row. At least is in this position the best possible distribution or storage in achieved extremely simple and surprising. In the area where the grains are still several times lying on top of each other creates an additional pressure that for sorting the grains one after the other. At a higher layer in the feed area of the distribution channel the flow rate of the grains is increased. It creates a liquid-like behavior that on Delivery point of the distribution channel largely independent of the Grain number per unit of time at a constant layer height leads from a grain. Because this process is not always for all seeds and all flow rates with the same frequency and the same amplitude of Distribution channel is reached, it is advantageous to in Adaptation to the seed, possibly also in Adaptation to the seed quantity, frequency and amplitude of the To be able to vary the distribution channel in order to match the layer height of a grain to come at the point of delivery.

What is special is an electrically generated vibration advantageous and leads to a particularly uniform Seed flow, whereby the small vibrations Seed no mechanical stress, which leads to loss which could result in germination, such as it is provided according to the invention if the respective Distribution channels over the drive in vibrations in the area from 30 to 120 vibrations / sec. be transferred. Around especially also cereals, such as wheat, barley etc. in narrow To be able to produce row spacing is according to the invention provided that the seeding device side by side arranged coulters that can be moved in an upright plane  has, and that each in the coulters Distribution channels are arranged.

In order to ensure that the the distribution channel evened out in a uniform manner and to reach distributed seeds in the soil the delivery point of the distribution channel as tight as it gets can be realized constructively, over the floor lie at low falling speed when hitting the To get seeds on the furrow so that the Grains cannot jump out of the furrow again. In addition, the filing can not be done in this way Impact of the seeds on the furrow wall or on the share body be falsified. A discharge height of is advantageous about 3 cm. Further details of the invention are the other subclaims, the sample description and the Take drawings. Here show:

Fig. 1 is a formed according to the invention A mobile agricultural seeding implement in a side view;

Fig. 2 shows the coulter according to the invention with the distribution channel in side view and in section and in an enlarged view and

Fig. 3 shows the coulter according to FIG. 2 without distribution channel in side view and in section.

The mobile agricultural sowing device is designed as a seed drill 1 . This seed drill 1 can be arranged behind a soil tillage implement designed as a rotary harrow 2 . The seed drill 1 and rotary harrow 2 form an order combination, which can be coupled via the three-point coupling elements 3 to the three-point linkage of a tractor in a known and therefore not shown manner.

The seed drill 1 has the trailing roller designed as a bottom roller 4 , which at the same time forms the chassis of the seed drill 1 . The drill 1 has the elongated and funnel-shaped storage container 5 . In the lower region of the elongated funnel tip 6 , the metering elements 7 are arranged side by side. These metering elements 7 are designed as metering wheels and are arranged in a rotationally fixed manner on the metering shaft 8 , which is driven via the drive mechanism 9 by the control gear 11 designed as a controllable drive 10 , which in turn is driven by the bottom roller 4 via the chain drive 12 . The quantity or number of seeds to be dispensed in connection with the regulating gear 11 is determined via the regulating lever 12 via the rotatingly controllable and controllable metering element 7 .

On the frame 13 of the drill 1 , the coulters 14 are arranged to be movable in an upright plane via the joints 15 . The coulters 14 are staggered in two transverse rows one behind the other and arranged next to each other with a row spacing from one another and evenly distributed over the working width of the seed drill 1 . The seed metered by the metering wheels 7 reaches the seed coulters 14 via the pipelines 16 and is deposited by them in the seed furrows 17 in the soil 18 drawn by the seed coulters 14 . The seed harrow 19 is arranged behind the coulters 14 . With the help of which the seeds deposited in the seed furrow 17 are again covered with earth.

The distribution channels 20 are arranged in the coulters 14 . The distribution channels 20 are arranged by means of the screws 21 in the coulters 14 below the respective seed inlet 22 in the coulters 14 . The coulter 14 has the inlet connection 23 . The inlet connection 23 is detachably fastened to the coulter 14 by means of the screw 24 . The distribution channel 20 is arranged in a swinging manner in the coulter 14 by means of the support 25 . The supports 25 have an angle of 25 ° to the vertical, based on the level of the distribution channel 20 . The distribution channel 20 is V-shaped in the lower region. Furthermore, the distribution channel 20 has the vibration drive 26 . The vibrations for the distribution channels 20 are generated by means of this vibration drive 26 . This vibration drive 26 is driven electrically. The vibration drive 26 receives its power supply and control supply via the cable 27 . The vibration drive 26 is connected via the cable 27 to an electrical or electronic control device 28 , which is preferably arranged on the tractor or on the seed drill 1 . The control device 28 and the vibration drive 26 receive the power supply via the cable 29 . The vibrations generated by the vibration drive 26 for the distribution channels 20 can be varied by means of the electrical or electronic control and regulating device 28 . The amplitude and / or oscillation frequency of the distribution channels 20 can thus be varied in adaptation to the corresponding seed (size, etc.) and / or seed quantity.

The outlet end 30 of the distribution channel 20 points counter to the direction of travel 31 of the seed drill 1 . Via the vibration drive 26 , the distribution channel 20 can vibrate in the range of 30 to 120 vibrations / sec. offset.

The metering elements 7 are arranged between the storage container and the respective distribution channel 20 . The quantity or number of seeds to be spread is determined via the rotatingly drivable and controllable metering elements 7 . By means of the distribution troughs 20 , the grain flow, which is generated by the metering element 7 and is fed to the seed coulters 14 , is evened out and the grains are separated.

The task and mode of operation of the distribution channels 20 arranged in the coulter 14 in connection with the metering element 7 is as follows:

The controllable drive 10 can be used to set the number or quantity of seeds to be spread, which are located in the storage container 5 and are to be deposited by the coulters 14 in the ground. The seed metered by the metering elements 7 is fed to the seed coulters 14 via the seed line tubes 16 . Below the Saatleitungsrohre 16 and the inlet end 22 of which is arranged in the sowing coulter 14 Saateinleitungsstutzen 23 is arranged Verteilrinne 20 in the coulter fourteenth The seed flow metered by the metering elements 7 reaches this distribution channel 20 . This non-uniformly flowing seed stream is therefore temporarily stored at the entry point 32 of the distribution channel 20 . Under the outlet 23 of the inlet pipe 23 there is a constantly changing seed supply. From here the seed 33 is then pulled through the distribution channels. The layer height of the seed 33 in the distribution channel 20 is evened out on the way to the drop point at the end 30 of the distribution channel 20 . Ideally, the grains lie one behind the other. But it is also possible that two or three grains lie one above the other in the V-shaped distribution channel 20 . It is crucial that the layer height is as uniform as possible during the application process or the application time. Even in the case of grains lying on top of one another several times, the seed placement will be made more uniform than the previous, absolutely uncontrollable state practiced in practice. The distribution troughs 20 separate the seeds; they act like the separation elements in a precision seeder. The vibrations generated by the drive 26 , which cause the distribution channel 20 to vibrate in the direction indicated by the arrows 33 , are advantageous and lead to a particularly uniform seed flow and individual seeds. Due to the small vibrations, the seeds are not exposed to mechanical loads that could lead to a loss of germination capacity. The outlet end 30 of the distribution channel 20 is at a height of approximately 3 cm above the furrow base of the seed furrow 17 . This results in a low falling speed of the seeds when they hit the seed furrow 17 so that the grains cannot jump out of the furrow again. In addition, the placement cannot be falsified in this way by impacting the seeds on the furrow wall and on the share body.

The vibration between the distribution channel 20 in the direction of the arrows 34 reduces the friction between the grains 33 . At the same time, the grains 33 are conveyed to the delivery point at the outlet end 30 of the distribution channel 20 . Here, the grains 33 sort as desired so that they lie one after the other in a row. At least in this position the best possible distribution or individual filing can be achieved. In the area in which the grains 33 are still superimposed several times, an additional pressure is created, which leads to the sorting of the grains 33 one behind the other. With a higher layer in the feed area of the vibrating channel, the flow rate of the grains 33 is increased. A liquid-like behavior is said to occur that leads to a constant layer height of one grain at the delivery point 30 of the distribution trough 20 largely independently of the number of grains per unit time. Since this process cannot be achieved for all seeds and all occurring conveying and grain quantities with the same frequency and the same amplitude of the distribution channel 20 , it is provided that in adaptation to the seed, under certain circumstances also in adaptation to the seed quantity, the frequency and the amplitude of the distribution channel 20 can be varied, which takes place via control direction 28 in order to arrive at the layer height of a grain at the delivery point.

In order to be able to react flexibly to all practical requirements and to meet practical requirements, the distribution channel 20 can be inserted and retrofitted in the corresponding coulters 14 . It is conceivable that the effort of some farmers with the distribution channel 20 in the coulters 14 is desired only when sowing particularly demanding crops, in particular if these are sown with small numbers of grains per unit area. With these small numbers of grains, relatively large row spacings, which are a multiple of the smallest possible row spacing, for example in the case of cereals, such as wheat, etc., of 8 cm and less are preferred. It is then then possible to equip only individual coulters of the seeder with the distribution trough 20 and only then to feed these seeds via the metering elements. In addition, should be included in the invention that the distribution channels 20 can be retrofitted to the coulters 14 . For this reason, the seed drills 1 are already equipped with seed coulters 14 , which can work both without the distribution channels and with distribution channels 20 .

If the coulters 14 are used with the distribution channels 20 , the seed pipe 23 is arranged in the coulters 14 .

However, as shown in FIG. 3, this coulter 14 can also be used without the distribution channel. For this purpose, instead of the inlet pipe 23 and the distribution channel 20 in the coulter 14 according to FIG. 3, the inlet connection 35 is arranged, which guides the seeds 36 directly to the end of the coulter 14 , so that they then in the seed furrow 37 produced by the coulter 14 can be filed in a conventional manner. The respective seed line pipe 16 , which are connected to the metering elements 7 of the seed drill 1 according to FIG. 1, is connected to the seed inlet connection 35 via a sleeve 38 .

Claims (6)

1. Mobile agricultural sowing device with one or more storage containers for depositing seeds in the ground with troughs arranged parallel to the direction of travel, arranged between the storage container and the ground, which are set into vibration by means of one or more drives, characterized in that the troughs as distribution troughs ( 20 ) designed to equalize the seeds or the grain flow, and that between the storage container ( 5 ) and the respective distribution channel ( 20 ) a rotatingly driven and controllable metering element ( 7 ) is arranged, by means of which the quantity or number of seeds to be applied is determined . 2. Sowing device according to claim 1, characterized in that the respective distribution channels ( 20 ) via the drive ( 26 ) in vibrations in the range of 30 to 120 vibrations / sec. be transferred. 3. Sowing device according to claim 1, characterized in that the sowing device ( 1 ) arranged next to one another and movable in an upright plane has coulters ( 14 ), that in each case the distribution troughs are arranged in the coulters ( 14 ). 4. Sowing device according to one or more of the preceding claims, characterized in that the outlet end ( 20 ) of the distribution channels ( 20 ) points against the direction of travel. 5. Sowing device according to one or more of the preceding claims, characterized in that the amplitude and / or the oscillation frequency of the distribution channel ( 20 ) can be varied in adaptation to seed size etc. and / or seed quantity. 6. Sowing device according to one or more of the preceding claims, characterized in that the vibrations for the distribution channel ( 20 ) are generated by an electrical / electronic and controlled oscillating drive ( 26 ).