RU2023358C1 - Combined fertilizer applying and seeding machine - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: machine has fertilizer doser 4 disposed in lower part of fertilizer hopper 3 and seed doser 9 disposed in lower part of seed hopper 8, which are provided with cells arranged over surfaces of dosers 4 and 9 in apexes of equilateral triangles. Chain drive 16 is positioned between dosers 4 and 9. Receptacles 5 made in the form of hollow tubes have upper ends connected with bottom of hopper 3 and aligned along straight line extending in parallel with axis of doser 4. Axes of receptacles 5 are disposed in planes of cross-sections of doser 4, with cross- sections being drawn through axes of cells, and at an angle one with respect to the other. The number of receptacles 5 is equal to that of planes of cross-sections of doser 4 drawn through cell axes. Receptacles 10 made in the form of hollow tubes have upper ends connected with bottom of hopper 8 and disposed in alignment along straight line extending in parallel with axis of doser 9. Axes of receptacles 10 are disposed in planes of cross-sections of doser 9 drawn through axes of cells having equal areas of bases at an angle one with respect to the other. The number of receptacles 10 is equal to that of receptacles 5. Fertilizer shoes 6 and seed shoes 11 are fixed to frame 1, with the number of shoes 6 and 11 being equal to that of receptacles 5 and 10. Shoes 11 are disposed on higher level than shoes 6. Coverers 7 are attached behind shoes 6, coverers 12 are fixed behind shoes 11. The number of coverers 7 and 12 is equal to that of shoes 6 and 11. Coverers 12 are disposed on level higher than coverers 7, which are positioned on the level higher than shes 6. Coverers 12 are positioned on the level higher than shoes 11. In the process of travel of machine shaft of rear wheels 15 drives dosers 4 and 9 into rotation to provide feeding of fertilizer from hopper 3 through doser 4 into receptacles 5 and through receptacles 5 onto furrow bottom by means of shoes 6, which cut these furrows, with fertilizer doses being dropped into furrows and disposed in apexes of equilateral triangles. Coverers cover fertilizer doses with soil layer having the thickness of 1-2 cm. Simultaneously doser 9 withdraws seeds one-by-one from hopper 8 into cells, from which seeds are delivered through receptacles 10 precisely onto soil covered fertilizer doses by means of shoes 11. Coverers 12 cover seeds with layer of soil. EFFECT: increased yield and simplified construction of machine. 9 cl, 4 dwg

Description

 The invention relates to agricultural machinery, in particular to combined machines for fertilizing and sowing.

 Known combined machine for tillage and sowing, containing a frame in the form of hollow racks, seed tube in the form of an elevator located inside the hollow racks, sowing apparatus in the form of a pipe with cells located at the vertices of equilateral triangles, a system for feeding and holding seeds in the sowing apparatus.

 The disadvantages of this machine are the lack of fertilizer, which leads to lower yields, and the complexity of the system for feeding and holding seeds in the sowing device.

 A combined tillage machine is known, comprising a frame with adjacent fertilizer and seed bins mounted on it, with metering devices in their lower parts, connected by a drive with support wheels, and common supply devices, a separate fertilizer hopper with a metering device in its lower part, connected by a supporting drive wheels, vertical uprights with main and additional blades, working elements, the tubular parts of which are connected to common supply devices, and the cutting parts - with additional blades E, rods, fixed rear extra blades.

 The disadvantages of this machine are the commonality of the feeding devices of adjacent hoppers for fertilizers and seeds, which leads to a decrease in the efficiency of the use of fertilizers and seeds, lower yields and significant losses of seed material, and the complexity of the design of the machine.

 The purpose of the invention is to increase productivity and simplify the design of the machine.

 This goal is achieved by the fact that the machine is equipped with one hopper for fertilizers and one hopper for seeds, the hopper for fertilizers and the hopper for seeds are separated and equipped with separate receivers, the fertilizer dispenser and the seed meter are made in the form of shafts with cells located on their surfaces at the vertices of equilateral triangles, the machine is equipped with a connecting element between the fertilizer dispenser and the seed meter, the upper ends of the fertilizer receivers are located on one straight line parallel to the axis of the fertilizer dispenser, the axes of the fertilizer receivers are located in the planes of the cross sections of the fertilizer dispenser drawn through the axis of the cells and at an angle to each other, while the number of fertilizer receivers is equal to the number of planes of the cross sections of the fertilizer dispenser drawn through the axis of the cells; the upper ends of the seed receptacles are located on one straight line parallel to the axis of the seed meter, the axis of the seed receptacles are located in the planes of cross sections of the seed meter, drawn through the axis of the cells with equal base areas, and at an angle to each other, while the number of seed receivers is equal to the number of fertilizer receivers ; the function of the vertical racks with additional blades and working elements is performed by the coulters for fertilizers and the coulters for seeds, the number of coulters for fertilizers is equal to the number of coulters for seeds and equal to the number of seed receivers, the level of arrangement of coulters for seeds is higher than the level of placement of coulters for fertilizers; the function of the rods is performed by zagrechachi, their number is equal to the number of openers for fertilizers and openers for seeds, the level of arrangement of zagrechatochny connected with openers for seeds is higher than the level of location of zagotachki associated with openers for fertilizers, while the level of arrangement of openers for fertilizers and openers for seeds is lower the level of location of the associated messengers.

 In FIG. 1 shows a diagram of a combination machine for fertilizing and sowing, side view; in FIG. 2 - the same, top view; in FIG. 3 is a diagram of a fertilizer dispenser and its cross section; in FIG. 4 is a diagram of a seed meter and its cross section.

 The combined fertilizer and sowing machine is equipped with a frame 1 (Fig. 1), front support wheels 2, a hopper 3 for fertilizers with a fertilizer dispenser 4, fertilizer receivers 5 and coulters 6 for fertilizers with shorting 7, a hopper 8 for seeds with a seed meter 9 , receivers 10 seeds and openers 11 for seeds with earthing 12, racks 13, roller 14, rear wheels 15, chain transmission 16 between the metering 4 and the metering 9, chain transmission 17 between the metering 9 and the shaft of the rear wheels 15.

The bins 3 and 8 are mounted on the frame 1 by means of racks 13. The length of each hopper is equal to the width of the frame 1. The walls of the bunker 3 are inclined at an angle of 30 ^about . The hopper 8 is equipped with a partition to prevent grinding of seeds, which is fixed inside the hopper 8, while the gap between the partition and the dispenser 9 must be smaller than the size of the seeds.

 The dispenser 4, located in the lower part of the hopper 3, can be made in the form of a hollow shaft with cells (Fig. 3); in the form of a shaft with drums fixed on it and located along its entire length with cells in them.

 The cells in the dispenser 4 are made in the form of truncated cones, the bases of which are ellipses, which is necessary for fertilizing in portions.

 The dispenser 4 located in the lower part of the hopper 3 can be made in the form of a shaft with drums fixed on it and located along its entire length with cells in them, while the cells are made in the form of truncated cones, the bases of which are circles; in the form of a solid shaft with cells in the form of recesses.

 The cells in the dispenser 9 can be arranged in groups in increasing order of the base area of the cells depending on the size of the seeds (Fig. 4). The hopper 8 with a similar arrangement of the cells of the dispenser 9 is made with the possibility of its movement along its axis and fixation of the cells with equal areas of the bases in different positions.

 Cells with equal base areas are located in dispensers 4 and 9 at the vertices of equilateral triangles. The number of cells with equal base areas in the dispenser 9 is equal to the number of cells in the dispenser 4.

The receivers 5 are made in the form of hollow tubes, the upper ends of which are connected to the bottom of the hopper 3 and are located on one straight line parallel to the axis of the dispenser 4, the axes of the receivers 5 are located in the planes of the cross sections of the dispenser 4, drawn through the cell axes, and at an angle of 60 ° ^to each other friend, which is necessary for the location of fertilizer portions at the vertices of equilateral triangles. The lower ends of the receivers 5 are located inside the openers 6, without touching their walls. The cross-sectional areas of the receivers 5 are larger than the base areas of the cells of the dispenser 4, which is necessary for the free passage of fertilizer portions. The number of receivers 5 is equal to the number of planes of cross sections of the dispenser 4 drawn through the axis of the cells.

The receivers 10 are made in the form of hollow tubes, the upper ends of which are connected to the bottom of the hopper 8 and are located on one straight line parallel to the axis of the dispenser 9, the axes of the receivers 10 are located in the planes of the cross sections of the dispenser 9, drawn through the axis of the cells with equal base areas, and at an angle 60 ^about each other, which is necessary for the location of seeds at the vertices of equilateral triangles. The lower ends of the receivers 10 are located inside the openers 11, without touching their walls. The cross-sectional area of the receivers 10 is greater than the largest base areas of the cells of the dispenser 9, which is necessary for the free passage of seeds. The number of receivers 10 is equal to the number of receivers 5.

 The coulters 6 are fixed by means of clamps on the frame 1 and are arranged to move along the axes of the receivers 5, which is necessary to bring the coulters 6 from the transport position to the working position and vice versa. The number of openers 6 is equal to the number of receivers 5.

 The coulters 11 are fixed by means of clamps on the frame 1 and are arranged to move along the axes of the receivers 10, which is necessary to bring the coulters 11 from the transport position to the working position and vice versa. The number of openers 11 is equal to the number of receivers 10. The level of arrangement of openers 11 is higher than the level of arrangement of openers 6.

 The earthenware 7 is fixed behind the openers 6, the number of earthing 7 is equal to the number of openers 6, the location of the earthing is higher than the level of the openers 6.

 Zagortachi 12 is fixed behind the openers 11, the number of zagotachki 12 is equal to the number of openers 11, the location level of the zagortachki 12 is higher than the location of the openers 11, while the level of location of zagortachi 12 is higher than the location of zagortachki 7.

 The roller 14 is mounted on the frame 1 and is made in the form of a shaft with rotating wheels, the width of which is 1.5-2 times larger than the size of the seeds, which is necessary to prevent compaction of the entire surface of the treated area. The number of wheels is equal to the number of openers 6 and openers 12.

 The machine may comprise a combined soil cultivating unit including cultivator paws 18, ploskorez paws 19 and disk harrow 20. The cultivator paws 18 and ploskorez paws 19 are arranged in rows, while the rows of plowshoot paws 19 are located behind the rows of cultivator paws 18. The rows of cultivator paws 18 and plowshaws 19 are tiered: the depth of loosening of the legs of the cultivator 18 is less than the depth of loosening of the legs of the plane cutter 19. The legs of the cultivator 18 and the legs of the plane cutter 19 are staggered, the number of legs of the cultivator 18 in rows b longer than the number of paws of a plane cutter 19.

 The disk harrow 20 is located behind the rows of paws of a plane cutter 19 and is made in the form of two interconnected disk batteries placed at an angle to the direction of movement. The depth of loosening of the disk harrow 20 is equal to the depth of loosening of the legs of the cultivator 18. The width of the disc harrow 20 is equal to the width of the legs of the cultivator 18 and the legs of the plane cutter 19 and depends on the tractor's pulling force.

 The combined tillage unit can be located in front of the fertilizer hopper 3 (Fig. 2), while the cultivator paws 18 and the plow cutter paws 19, and the disk harrow 20 are mounted on the corresponding rotary frames 21, pivotally connected to the frame 1 and equipped with hydraulic systems 22, leading them from the transport position to the working one and vice versa.

 The combined tillage unit can be made removable and mounted on frame 1 instead of bins 3 and 8 with racks 13, dispensers 4 and 9 and receivers 5 and 10, openers 6 and 11 with earthenware 7 and 12, roller 14 and chain transmissions 16 and 17, in this case, the frame 1 is equipped with a pivotally connected pivoting frame with rear wheels (not shown) and a hydraulic system (not shown), leading the pivoting frame from the transport position to the working one and vice versa. In this case, the shaft of the front wheels is connected by a chain drive with a dispenser 4 (not shown).

 Combined machine for fertilizing and sowing works as follows. When using the dispenser 9 in the form of a solid shaft with groups of cells, it is installed in a position at which the corresponding grain sizes of the cells coincide with the inlet openings of the receivers 10. The rotary frames 21, the coulters 6 with short cutters 7 and the openers 11 with short cutters 12 are brought from the transport position to the working .

 When the machine moves, the cultivator paws 18 cut the weeds and soillessly loosen the soil to a depth of 5-6 cm, the plane-cutter paws 19 rootlessly loosen the soil to a depth of 15-17 cm, the disk harrow 20 closes the weeds to a depth of 5-6 cm and levels the soil surface. The shaft of the rear wheels 15 rotates the dispensers 4 and 9, while the fertilizers are fed from the hopper 3 by the dispenser 4 in portions to the receivers 5, from where they fall through the coulters 6 into the furrows they make. Portions of fertilizers are located in the furrows at the tops of equilateral triangles. Zagortachi sprinkle fertilizer portions with a 1-2 cm layer of earth.

 At the same time, the metering unit 9 takes one seed from the hopper 8 into the cells, from where they fall through the receivers 10 and the coulters 11 exactly onto the fertilizer sprinkled with earth. Zagortachi 12 fill the seeds with a layer of earth.

 At the end of the sowing, the rotary frames 21, the openers 6 with earthing devices 7 and the openers 11 with earthing devices 12 are brought from the transport position to the working position.

Claims (9)

 1. A COMBINED MACHINE FOR FERTILIZER AND SEEDING, containing a frame with wheels mounted on it, a fertilizer hopper and a seed hopper with metering units in their lower parts, fertilizing and sowing elements, fertilizer and seed receivers, a connecting element between the wheel shaft and the metering unit, characterized in that the fertilizer dispenser and the seed meter are interconnected and each made in the form of a cylindrical element with cells located on its surface in a checkerboard pattern, moreover, the seed metering cells are located along the tsil -cylindrical element groups in series in ascending order of their base area, and the dispenser is fastened to the seed in the hopper is movable along its axis and fixation of cells with equal base areas in different positions.  2. The machine according to claim 1, characterized in that the connecting elements between the fertilizer dispenser, the seed meter and the wheel shaft are made in the form of chain transmissions.  3. The machine according to claim 1, characterized in that the fertilizer dispenser is made in the form of a hollow shaft with cells.  4. The machine according to claim 1, characterized in that the seed meter is made in the form of a solid shaft with cells.  5. The machine according to claims 1 and 3, characterized in that the cells in the fertilizer dispenser and the cells with equal base areas in the seed meter are located in the tops of equilateral triangles, while the number of cells with equal base areas in the seed meter is equal to the number of cells in the fertilizer meter .  6. The machine according to claim 1, characterized in that the fertilizer receivers are made in the form of hollow tubes, the upper ends of which are connected to the fertilizer hopper, and the axes of the fertilizer receivers are located in the planes of the cross sections of the fertilizer dispenser drawn through the cell axes and at an angle to a friend, while the number of fertilizer receivers is equal to the number of planes of cross sections of the fertilizer dispenser drawn through the axis of the cells.  7. The machine according to claim 1, characterized in that the seed receivers are made in the form of hollow tubes, the upper ends of which are connected to the seed hopper, and the axis of the seed receivers are located in the planes of the cross sections of the seed meter drawn through the axis of the cells with equal base areas, and at an angle to each other, while the number of seed receivers is equal to the number of fertilizer receivers.  8. The machine according to claim 1, characterized in that fertilizer-sowing elements are made in the form of coulters for fertilizers and seed coulters, while the number of coulters for fertilizer is equal to the number of coulters for seeds and equal to the number of seed trays, and the level of arrangement of coulters for seeds above the level of fertilizer coulters.  9. The machine according to claim 1, characterized in that the closing devices are made in the form of clippers, the number of clippers being equal to the number of coulters for fertilizers and coulters for seeds, and the level of arrangement of closers associated with coulters for seeds is higher than the level of clippers associated with coulters for fertilizers, while the level of placement of the coulters for fertilizers and the coulters for seeds is below the level of the location of the associated shorting.

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