RU161568U1 - SOWING UNIT - Google Patents

Abstract

The sowing apparatus, comprising a hopper with a unloader and a seed chamber, a seed rate adjuster, a working body for moving seeds, characterized in that it has an additional seed chamber formed by a working body for moving seeds and a unloader, at the entrance and exit of an additional seed chamber there are curved projections to move the seeds, at a distance from each other, commensurate with the average twice the size of the seeds, opposite the protrusion at the exit there is a recess at a distance from the protrusion, commensurate with with a small seed size, the seed chamber is mounted with the possibility of movement in a vertical plane, and the seed rate adjuster is located with the possibility of kinematic interaction with the seed chamber, one of the side walls of the seed chamber being made stepwise, providing an asymmetric arrangement of seeds.

Description

The utility model relates to the field of agricultural engineering, in particular to the design of sowing devices, mainly for sowing seeds of a spherical shape.

Known pneumatic seeder containing a hopper for seeds, an air distribution system including a source of compressed air, a pressure stabilizer, a seed flow synchronizer associated with the drive wheel of the seeder, a communication channel communicating with the dispensers in the form of vortex chambers, each of which has a nozzle and a metering nozzle, sowing nozzles at the exit of the vortex chambers are made in the form of additional dispensers with an internal cavity in the form of a cone, pneumatically connected through an outlet with a hopper for yang, and having two nozzles, one of which is located at the top of the cone and directed towards each other, located on the opposite side against the outlet, and the seed flow synchronizer is pneumatically connected to the nozzles of additional dispensers and equipped with a pneumatic flow switch (Patent for the invention RU No. 2317671, IPC ⁷ A01C 7/04, published February 27, 2008. Bull. No. 6).

The disadvantages of the known pneumatic seeder are the complexity of the design of its sowing apparatus and their material consumption and, as a result, the complexity of the design and material consumption of the entire pneumatic seeder.

These disadvantages are due to the fact that the principle of operation of the known sowing devices is pneumatic. For their functioning, an air distribution system is required, including a source of compressed air. A metering device in the form of a vortex chamber and additional metering devices in the shape of a cone are difficult to manufacture, and their presence complicates the design of the metering devices, and therefore the entire seeder. In addition, since the vortex chambers and additional metering devices of the known pneumatic seed drill are cavities made in the housing, the blank for manufacturing the housing is a material-intensive part. The presence of the housing increases the overall material consumption of the structure of the known pneumatic seeder.

The closest effect to the claimed metering device is a vibrating metering device including a hopper with a unloader, a seed rate adjuster in the form of a sleeve with fingers driving the working body to move the seeds in oscillatory motion, the hopper has a seed chamber, the rear wall of which is made in the form of an elastic element rigidly connected to the hopper and the working body in the form of a wedge-shaped gutter, while the elastic element has a mechanism for adjusting its initial stiffness and amplitude and, at one of its ends, an elastic plate mounted with the possibility of interaction with the fingers of the setter and having a stiffness less than the stiffness of the elastic element, the unloader equipped with two plates for orienting the seeds along their longitudinal axis. (Patent for invention RU No. 2218696 IPC АСС 7/16, published December 20, 2003. Bull. No. 35 - prototype).

A disadvantage of the known sowing apparatus, adopted for the prototype, is that it does not allow to provide the necessary density of plants, which as a result, reduces the yield of sown crops.

This drawback is due to the fact that the known sowing device feeds seeds into the furrow due to continuous motion in the wedge-shaped bed of the working body. In this case, the seeds in the wedge-shaped bed of the working body are arranged in one row. This design of the sowing apparatus does not allow you to set and adjust, if necessary, the distance between the seeds to be sown in the furrow, and therefore does not allow you to provide a given distance between the seeds in a row, therefore, in the future, the specified arrangement of plants in a row.

In addition, the implementation of the working body in the form of a wedge-shaped trough, located horizontally, increases the overall size of the sowing apparatus and its material consumption.

The technical result of the utility model is to increase the uniformity of the distribution of seeds on the surface of the sown field with a single supply of seeds into the furrow.

The technical result is achieved in that the sowing apparatus, comprising a hopper with a unloader and a seed chamber, a seed rate adjuster, a working body for moving seeds, according to a utility model, has an additional seed chamber formed by a working body for moving seeds and a unloader, at the input and output of an additional protrusions of a curved shape for moving seeds are located at the seed chamber, at a distance from each other commensurate with the average doubled size of the seeds, opposite the protrusion at the exit is located EMKA spaced from the protrusion commensurate with an average seed size, seed chamber is movably mounted in a vertical plane, and a seeding rate setting unit is arranged to kinematic interaction with the seed chamber, wherein one of the sidewalls of the seed chamber is stepped, providing an asymmetric arrangement of seeds.

The novelty of the technical solution lies in the fact that the technical result is achieved due to the distinguishing features, i.e. the presence of an additional seed chamber formed by the working body for moving the seeds and the unloader, as well as the presence in the additional seed chamber at the inlet and outlet of the protrusions of a curved shape for moving seeds, and the location of the recess opposite the protrusion at the exit of the additional seed chamber at a distance commensurate with the average seed size , piece selection of seeds from their total mass is provided. Moreover, piece selection of seeds is provided with reduced material consumption of the design of the sowing apparatus. In addition, by setting the appropriate geometric parameters when designing the carving apparatus, the proposed technical solution will provide for the piece selection of both large seeds, for example peas, and small seeds, for example, alfalfa.

Installing a seed chamber with the ability to move in a vertical plane, and a seed rate adjuster with the possibility of kinematic interaction with the seed chamber ensures the supply of seeds by gravity to the place of their piece selection and at the same time piece-by-piece seed supply into the furrow after a predetermined time interval.

The execution of one of the side walls of the seed chamber stepwise provides an asymmetric arrangement of seeds in the seed chamber, which prevents arch formation in the seed chamber, i.e. provides a steady flow of technological operations - sowing seeds.

An analysis of the properties of the combination of features of the claimed device and the properties of the combination of features of the detected prototype and analogue showed that the combination of features of the claimed device enhances the property of the prototype - expands its functionality by providing a given distance between the seeds in a row when sowing seeds.

The essence of the utility model is illustrated by drawings. In FIG. 1 shows a schematically sowing apparatus, side view; in FIG. 2 - also, in section AA in FIG. one; FIG. 3 - also, in section BB in FIG. one; in FIG. Figure 4 shows schematically the seed and additional seed chambers of the sowing apparatus, in a position before sowing, side view; in FIG. 5 - also, when moving seeds into an additional seed chamber at the time of placing two seeds between the protrusions at its entrance, side view; in FIG. 6 - also, in the fully open position of the additional seed chamber of the sowing apparatus, side view; in FIG. 7 - also, in the position of placing two seeds between the protrusions at its entrance of the additional seed chamber of the metering apparatus, side view; in FIG. 8 - also, at the moment when the additional seminal chamber is filled with seed, side view. In FIG. 9 - also, at the moment of opening the additional seed chamber before the seed enters the furrow, side view; in FIG. 10 - also, at the moment the seed enters the furrow from the additional seed chamber.

The sowing apparatus includes a hopper 1 with a unloader 2 and a seed chamber 3, a seed rate adjuster 4, a working body 5 for moving seeds (Fig. 1). The working body 5 is equipped with two protrusions 6 of a curved shape, arranged sequentially one below the other, at a distance from each other commensurate with the average doubled seed size. The working body 5 forms, together with the unloader 2, an additional seed chamber 7 in the form of a recess made in the unloader 2, and located against the lower of the protrusions 6, that is, that located at the outlet of the additional seed chamber 7. The upper of the protrusions 6 of a curved shape, located on the working body to move the seeds 5, blocks the entrance to the additional seed chamber 7. The seed chamber 3 is mounted with the ability to move in a vertical plane using rollers 8 and a spring 9 placed between the stops 10. In As a result of the movement of the seed chamber 3, the volume of the additional seed chamber 7 changes, which is formed by a recess made in the unloader 2 and the space between the stops 6 (Fig. 1). To move the seed chamber 3, the seed rate adjuster 4 is installed with the possibility of kinematic interaction with the seed chamber 3. It consists of a shaft 11 placed in the supports 12, an eccentric 13 and a chain gear 14 connecting the seed rate adjuster 4 to the support wheel 15. In the lower part hopper 1 is a shutter 16, with which the flow of seeds from the hopper 1 into the seed chamber is blocked 3. One of the side walls of the seed chamber 3 is made stepwise, providing an asymmetric arrangement of seeds (Fig. 2). The seed chamber 3 along the perimeter is in contact with the working body to move the seeds 5 (Fig. 3) and is installed with the possibility of movement in a vertical plane.

The metering device operates as follows. Pre-in the hopper 1 load the seeds. Then open the shutter 16 and the seeds under the action of their own weight come from the hopper 1 into the seed chamber 3, filling it. During the period of filling the seeds of the seed chamber 3, the seeds through the unloader 2 enter the input of the additional seed chamber 7. At the same time, two protrusions 6 of the working body 5 prevent the seeds from moving into the additional seed chamber 7. After filling the seed chamber 3, the shutter 16 is closed (Fig. 1).

When the seeder moves across the field during the sowing process, the support wheel 15 rotates and through the chain transmission 14 starts to rotate the shaft 11 with the eccentric 13 of the seed rate setter 4 (Fig. 4). The seed rate adjuster 4 is installed with the possibility of kinematic interaction with the seed chamber 3 through the eccentric 13. Under the action of the eccentric 13, the seed chamber 3, mounted with the possibility of movement in the vertical plane, moves downward using the rollers 8, compressing the spring 9 (Fig. 5). The rollers 8 provide a smooth movement of the seed chamber 3 relative to the working body to move the seeds 5. In this case, the gap at the entrance to the additional seed chamber 7 increases to the average seed size and the seeds fill the space between two protrusions 6 of the working body 5 one by one (Fig. 5) . Then, under the action of the eccentric 13, the seed chamber 3 moves to its lower position, while the additional seed chamber 7 moves to the lower position (Fig. 6). With further movement of the eccentric 13, the additional seed chamber 7 moves upward under the action of the spring 9, while two seeds remain between the protrusions 6 (Fig. 7). With further movement of the additional seed chamber 7 upward, the gap between the lower of the protrusions 6 and the unloader 2 increases. As a result, one of the seeds located between the protrusions 6 enters the additional seed chamber 7 and fills it (Fig. 8). During the further rotation of the eccentric 13 by 180 °, the seed chamber 7 is in the upper position under the action of the spring 9. Then, under the action of the eccentric 13, the seed chamber 7 starts to move down. In this case, the spring 9 is compressed. During this movement of the seed chamber 3 downward, the gap between the upper of the protrusions 6 and the unloader 2 increases and under the influence of its own weight the seed passes through it and again two seeds are located between the protrusions 6 (Fig. 9). With further movement of the seed chamber 3 down, the seed located in the additional seed chamber 7 enters the furrow (Fig. 10). Then, under the action of the adjuster, the seeding rate 4 and the spring 9, the seeding process is repeated.

Application of the utility model will allow: to eliminate the overspending of seeds during sowing, to provide the necessary density of plants and, as a result, to increase the yield of sown crops. This is especially important when sowing small norms (2 ... 3 kg), for example, alfalfa for seeds. In addition, reduce the size of the sowing apparatus and its material consumption.

Claims (1)

The sowing apparatus, comprising a hopper with a unloader and a seed chamber, a seed rate adjuster, a working body for moving seeds, characterized in that it has an additional seed chamber formed by a working body for moving seeds and a unloader, at the entrance and exit of an additional seed chamber there are curved projections to move the seeds, at a distance from each other, commensurate with the average twice the size of the seeds, opposite the protrusion at the exit there is a recess at a distance from the protrusion, commensurate with with a small seed size, the seed chamber is mounted with the possibility of movement in a vertical plane, and the seed rate adjuster is located with the possibility of kinematic interaction with the seed chamber, one of the side walls of the seed chamber being made stepwise, providing an asymmetric arrangement of seeds.

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