RU2468561C1 - Coil seeding apparatus for sowing small-seeded crops - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: seeding apparatus comprises a body, a coupling installed on a driving shaft, a channelled coil and an orifice of fine-tooth profile, installed between the channelled coil and the coupling. The orifice profile is formed by cells, every of which has a front flat face inclined at the angle to the plane of the subsequent rear face and a rear face arranged in the form of a groove with a spherical surface in the form of a ball with a radius equal to ? of the seed diameter. Teeth of the orifice with fine-tooth profile are installed into a splint of a rectangular cross section formed by two sides and a base. The splint covers by its base and sides the orifice teeth along its circumference by the angle of 180° relative to its centre. At the same time the start of the splint is arranged above the horizontal axis of the orifice and is deviated from its vertical axis by the angle of 45° along with its rotation. At the same time the end of the splint is arranged below the horizontal axis of the orifice and is deviated from its vertical axis by the angle of 45° along with its rotation. The start and the end of the splint match with the plane stretching via the horizontal axis of the orifice. At the end of the splint, along its base edge, a shield is fixed. At the same time the shield is directed downwards from the splint base along the plane stretching via the horizontal axis of the orifice and matching with the start and end of the splint. At the start of the splint, along its base edge, a brush is installed. Free ends of the brush bristles are directed towards the orifice centre and lie in the plane stretching via the horizontal axis of the orifice and matching with the start and the end of the splint. The size of brush bristles equals 1/3 of tooth height. The splint is installed fixedly relative to the orifice and is rigidly fixed to the body of the seeding apparatus with the help of screws.EFFECT: invention makes it possible to increase evenness of distribution of small-seeded crop seeds along a seeding area, to reduce damage to seeds, to strictly comply with the set norm of seeding, to reduce consumption of seeds and wear of orifice teeth.3 cl, 5 dwg

Description

The invention relates to agricultural machinery, in particular to sowing apparatus for sowing seeds of small seeded crops.

Known coil metering device (utility model of the Russian Federation No. 13992 U1, MPK7 АСС 7/12, dated February 23, 2000), comprising a housing, a coupling, a grooved coil, a socket and ribs mounted between the coil and the coupling, the ribs located in the grooves of the coil, in which the working outer surfaces of the ribs of the washer are made in the profile of fine-toothed. The disadvantages of this sowing apparatus include jamming of seeds of a fine fraction in the profile of the fine-cut cutting, due to which there will be an inaccurate distribution of seeds over the sifting area, as well as the trauma of seeds of small-seeded crops, spontaneous outflow of seeds of small-seeded crops into the gap between the washer with the fine-cut profile and the bottom of the sowing machine , which will lead to instability of the seeding rate and increased consumption of expensive seeds of small seeded crops. All this leads to a decrease in the yield of sown crops and a decrease in the quality of seeds.

Known reel sowing apparatus (AS USSR No. 1212344, A01C 7/12, dated 10.05.83), comprising a housing, a sleeve, a grooved coil, a socket and ribs, covering part of the volume of the grooves of the coil, in order to improve the quality of sowing of small seeded crops by eliminating reseeding when changing the seeding rate, the ribs are mounted on a washer installed between the coil and clutch, and the socket is made of elastic material. The disadvantages of this sowing apparatus include the uneven distribution of seeds over the sifting area due to the poor sowing ability of the smooth surface of the washer, the spontaneous outflow of seeds of small seeded crops through the gap between the washer and the bottom of the sowing apparatus is possible, which will lead to instability of the seeding rate and increased consumption of expensive seeds of small seeded cultures. All this leads to a decrease in the yield of sown crops and a decrease in the quality of seeds.

Known coil metering apparatus (USSR AS No. 207507, A01C, from 05.11.66), comprising a housing with a rotatable bottom, a grooved coil with a sleeve and a socket, for the purpose of sowing small seeds without changing the grooved coil, ribs entering the grooves are made at the end of the socket coils. The disadvantages of this sowing apparatus include the uneven distribution of seeds over the sowing area, due to the inability of the reel sowing apparatus to sow seeds of different sizes, spontaneous outflow of seeds of small seeded crops through the gap between the washer and the bottom of the sowing apparatus, which will lead to instability of the sowing rate and increased consumption of expensive seeds of small seeds. All this leads to a decrease in the yield of sown crops and a decrease in the quality of seeds.

Known coil metering device (USSR AS No. 204754, A01C, dated 09.12.65) containing a housing, a clutch and a compensator, grain and small seed coils, in order to increase the uniformity of seeding of small seeded crops, the edges and edges of the groove have a curved shape with a concavity directed inward groove, the lower edge of the groove is made in radius. The disadvantages of this sowing apparatus can be attributed to the fact that the edges and edges of the grooves are made without regard to the size of seeds of small seeded crops, this will lead to uneven sowing of seeds over the sieving area, as well as the spontaneous outflow of seeds of small seeded crops through the gap between the washer and the bottom of the sowing device, which will lead to instability of the seeding rate and increased consumption of expensive seeds of small seeded crops. All this leads to a decrease in the yield of sown crops and a decrease in the quality of seeds.

Of those closest in technical essence, a spool meter is known for sowing small-seeded crops, including amaranth (RF Patent No. 2202164, MPK 7 А01С 7/12, dated 12.10.2000), comprising a housing, a coupling and a grooved spool and washer mounted on the drive shaft with a fine-toothed profile, the fine-toothed profile of the washers is formed by cells, each of which has a front face that is oriented radially to the axis of rotation of the washer, and a rear face that is inclined at an angle to the radius of the subsequent front face, while the said front and rear faces with are strained along an arc of a circle, and the side faces of the cells are inclined to the end planes of the washer, the washer mounted on the spindle of the coil and connected to it by means of a pin, the geometric axis of symmetry of which is parallel to the axis of the drive shaft.

Coil metering device operates as follows. Before filling the seed boxes, the grooved coils with the lever are fully extended from the seeding apparatus bodies. The required gear ratio and direction of rotation are set in the shaft drive. The drive of the sowing apparatus is carried out from the support wheel of the seeder. When the drive shaft rotates through the pin, the grooved coil is rotated. From the coil by means of a pin it receives rotation with a given frequency of the washer. When the hopper is filled with seed, each amaranth seed is placed in a cell. The remaining amaranth seeds slide down the side faces and remain in the body. Each seed rises up above the bottom of the casing and is thrown into the mouthpiece of the casing and through the seed tube attached to the mouthpiece is sent to the opener. Seeds are placed in a furrow opened by the opener. Seeds in the furrow are covered with soil and immediately rolled back with a coulter roller. This creates seed contact with the soil. The presence of soil moisture and a positive temperature provide seed germination and normal growth of amaranth plants.

The disadvantages of this sowing apparatus include the uneven distribution of seeds of small seeded crops over the sieving area due to the fact that the front and rear faces of the cells do not have recesses for seeds of small seeded crops, that is, they are made flat, which will lead to the removal of seeds from the cells to the sides during rotation washers, before they must get into the vas deferens, this will be especially noticeable at the top seeding, in which part of the cells will be left without seeds due to the flat faces of the cells, reverse rotation of the washer does not completely reduce the injury seeding, and even increases the injury to the seeds of small seeded crops due to the small gap between the teeth of the washer with a fine gear profile and the housing of the metering device, while there is increased wear of the teeth of the washer with a fine tooth profile due to jamming of seeds of small seeded crops between the teeth of the washer with a fine toothed profile and the housing apparatus during operation of the sowing apparatus, since the design of the sowing apparatus does not provide a device for removing excess seeds of small seeded crops, low the reliability of the sowing apparatus due to wear of the teeth of the washer with a fine-toothed profile, in addition, spontaneous outflow of seeds of small seeded crops through the gap between the washer and the bottom of the sowing apparatus is possible, which leads to instability of the seeding rate and increased consumption of expensive seeds of small seeded crops. All this leads to a decrease in the yield of sown crops and a decrease in the quality of seeds.

The claimed invention is aimed at eliminating the above drawbacks, and when using it, the following result was obtained: the uniformity of distribution of seeds of small-seeded crops over the sifting area is improved, the trauma of seeds is reduced, spontaneous outflow of seeds of small-seeded crops is eliminated in the gap between the washer with a fine-toothed profile and the bottom of the sowing apparatus, it is strictly performed established seeding rate, seed consumption is reduced, wear of the teeth of the washer with a fine-tooth profile is reduced, it rises above zhnosti work sowing apparatus. All this improves the quality of sowing, which leads to increased yields, saving seed and reducing production costs.

The specified technical result is achieved through the use of the claimed reel sowing apparatus for sowing small-seeded crops, comprising a housing, a clutch mounted on the drive shaft, a grooved reel and a washer with a fine-toothed profile installed between the grooved reel and the clutch, and the washer-shaped profile of the washer is formed by cells. Moreover, each of the cells has a front flat face, inclined at an angle α to the plane of the subsequent posterior face, and a back face made in the form of a recess with a spherical surface in the form of a ball with a radius equal to 1/2 of the diameter of the seed. The teeth of the washer with a fine-toothed profile are placed in a rectangular tire formed by two sidewalls and a base. The tire overlaps with its base and sidewalls the teeth of the washer with a fine-tooth profile around the circumference of the washer with a fine-tooth profile at an angle of 180 ° relative to the center of the washer with a fine-tooth profile. The beginning of the tire is located above the horizontal axis of the washer with a fine toothed profile and deviated from the vertical axis of the washer with a fine toothed profile at an angle of 45 ° along the rotation of the washer with a fine toothed profile. The end of the tire is located below the horizontal axis of the washer with a fine toothed profile and deviated from the vertical axis of the washer with a fine toothed profile at an angle of 45 ° in the direction of rotation of the washer with a fine toothed profile. The beginning of the tire and the end of the tire coincide with the plane passing through the horizontal axis of the washer with a fine-toothed profile. A flap is fixed at the end of the tire along the edge of the base of the tire. The shield is directed down from the base of the tire along a plane passing through the horizontal axis of the washer with a fine-toothed profile and coinciding with the beginning of the tire and the end of the tire. At the beginning of the tire, a brush is installed along the edge of the base of the tire. The free ends of the bristles of the brush are directed towards the center of the washer with a fine-toothed profile and lie in a plane passing through the horizontal axis of the washer and coinciding with the beginning of the tire and the end of the tire. The size of the bristles of the brush is 1/3 of the height of the tooth. The tire is fixedly mounted relative to the washer with a fine-toothed profile, while the tire is fixed rigidly to the housing of the metering unit with screws. The distance between the sidewalls of the tire is greater than the thickness of the washer with a fine-tooth profile, and the height of the sidewalls of the tire is greater than the height of the teeth of the washer with a fine-tooth profile. The gap between the ends of the teeth of the washer with a fine-toothed profile and the base of the tire is less than 1/5 of the diameter of the seed. The width of the flap is equal to the width of the base of the tire, and the height of the flap is equal to the gap between the base of the tire and the bottom of the metering unit.

Graphic materials

Figure 1 shows a diagram of a diametrical section of a reel seeding apparatus for sowing small-seeded crops.

In Fig.2 shows a diagram, section AA in Fig.1, a cross section of the drive shaft of the metering device, washers with a toothed profile, tire, bottom and housing of the metering device.

Figure 3 shows a diagram of a washer with a fine-toothed profile and tire assembly.

Figure 4 shows a diagram of a bus.

Figure 5 shows the technological scheme of sowing bobbin sowing apparatus for sowing small seeds.

The coil metering device for sowing small-seeded crops (Fig. 1, Fig. 2) comprises a housing 5 mounted on a drive shaft 6, a coupling 4, a grooved coil 1 and a washer 3 with a fine-toothed profile mounted between the grooved coil 1 and the coupling 4. A fine-toothed profile of the washer 3 is formed by cells 12 (FIG. 2, FIG. 3), each of which has a front flat face 18, inclined at an angle α to the plane of the subsequent rear face 19, and a rear face 19, made in the form of a recess with a spherical surface in the form of a ball with radius equal to 1/2 the diameter of the seed (d _c ), while the teeth of the washer 3 with a fine-toothed profile (FIG. 2, FIG. 3) are placed in a rectangular tire 10 (FIG. 4) formed by two sidewalls 21 and a base 20, with the tire 10 (FIG. 3 , Fig. 4) overlaps with its base 20 and sides 21 the teeth of the washer 3 with a fine-tooth profile around the circumference of the washer 3 with a fine-tooth profile at an angle of 180 ° relative to the center of the washer 3 with a fine-tooth profile, with the beginning of the tire 10 (Fig. 2, Fig. 3 ) is located above the horizontal axis of the washer 3 with a fine gear profile and deviated from the vertical axis of the washer 3 with a fine gear filet at an angle of 45 ° in the direction of rotation of the washer 3 with a fine-tooth profile, while the end of the tire 10 is located below the horizontal axis of the washer 3 with a fine-tooth profile and deviated from the vertical axis of the washer 4 with a fine-tooth profile at an angle of 45 ° in the direction of rotation of the washer 4 with a fine-tooth profile wherein the beginning of the tire 10 and the end of the tire 10 coincide with the plane passing through the axis of the washer 3 with a fine-toothed profile, while a shield 11 is fixed at the end of the tire 10 along the edge of the base 20 of the tire 10, while the shield 11 is directed downward from the base 20 of the tire 10 along the plane passing through the horizontal axis of the washer 3 with a fine-toothed profile and coinciding with the beginning of the tire 10 and the end of the tire 10, while a brush 13 is installed at the beginning of the tire 10 along the edge of the base 20 of the tire 10 (figure 2, figure 3, figure 4), while the free ends of the bristles of the brush 13 are directed to the center of the washer 3 with a fine-toothed profile and lie in a plane passing through the horizontal axis of the washer 3 with a fine-toothed profile and coinciding with the beginning and end of the tire 10, while the size of the bristles of the brush 13 is 1/3 of the height of the tooth of the washer 3 with a toothed profile. The tire 10 is fixedly mounted relative to the washer 3 with a fine toothed profile, while the tire 10 is fixed with screws 17 to the housing 5 of the metering device using the ears 16 (figure 2). The distance between the sidewalls 21 of the tire 10 is greater than the thickness of the washer 3 with a fine gear profile, while the height of the sidewalls 21 of the tire 10 is greater than the height of the teeth of the washer 3 with a fine gear profile. The width of the flap 11 is equal to the width of the base 20 of the tire 10, while the height of the flap 11 is equal to the gap between the base 20 of the tire 10 and the bottom 9 of the metering unit. The brush 13 is fixed to the beginning of the tire 10 along the edge of the base 20 of the tire 10 with screws 14 using the L-shaped plate 15 (figure 2, figure 3, figure 4).

A washer 3 with a fine-tooth profile is connected to the grooved coil 1 by means of a cylindrical pin 8 (Fig. 1). Pin 8 transmits torque from the grooved coil 1 to the washer 3 with a fine gear profile.

Coil sowing apparatus for sowing small-seeded crops works as follows: before filling seed boxes with seeds of small-seeded crops, the grooved coils 1 are fully extended from the bodies 5 of the sowing devices (Fig. 1). In the drive shaft 6 set the desired gear ratio. When the drive shaft 6 is rotated through the pin 2, the grooved coil 1 receives rotation. From the grooved coil 1, the washer 3 with a fine-toothed profile is rotated at a predetermined frequency by the pin 8. When the hopper is full, seeds from the seed box by gravity enter the housing 5 of the sowing apparatus (Fig. 1, Fig. 5) and fill the space around the coupling 4, tire 10 and washer 3 with a fine-toothed profile. When rotating the washer 3 with a fine-toothed profile, the seeds in the upper part of the washer 3 with a fine-toothed profile fall into the cells 12, each of which has a front flat face 18, inclined at an angle α to the plane of the subsequent posterior face 19, and a rear face 19 (Fig. 3) made in the form of a recess with a spherical surface in the form of a ball with a radius equal to 1/2 the diameter of the seed, and carried away to the beginning of the tire 10. The best entry into the tire 10 seeds sunk into the cell 12 of the washer 3 with a toothed profile, contributes to the location of the beginning of the tire 10 above the horizontal axis w yby 3 with a fine-profile, wherein the top bus 10 deviates from the vertical axis washers 3 with a fine-profile at an angle of 45 ° during the rotation of the washer 3 with a fine-profile. Excess seeds from the cell 12 of the washer 3 with a fine tooth profile before entering the tire 10 are cleaned with a brush 13 installed at the beginning of the tire 10 along the edge of the base 20 of the tire 10, while the free ends of the bristles 13 of the brush 13 are directed towards the center of the washer 3 with a fine tooth profile and lie in the plane passing through the horizontal axis of the washer 3 with a fine-toothed profile and coinciding with the beginning of the tire 10 and the end of the tire 10, while the size of the bristles of the brush is 1/3 of the height of the tooth, thereby ensuring a stable seeding rate and the absence of injury to the seeds. Premature loss of seeds from the cells 12 during the rotation of the washer 3 with a fine toothed profile in the tire 10 with seeds sunk into the cells 12 (Fig. 5) excludes the rectangular bus 10 formed by the base 20 and two sidewalls 21 (Fig. 4), with the tire 10 overlaps with its base 20 and sides 21 the teeth of the washer 3 with a fine-tooth profile around the circumference of the washer 3 with a fine-tooth profile at an angle of 180 ° relative to the center of the washer 3 with a fine-tooth profile. The loss of seeds from the cells 12 of the washer 3 with a fine-cut profile in the funnel of the vas deferens occurs at the end of the tire 10, while the best sowing of seeds of small-seeded crops is provided by the location of the end of the tire 10 below the horizontal axis of the washer 3 with a fine-tooth profile, while the end of the tire 10 is deviated from the vertical axis of the washer 3 with a fine gear profile at an angle of 45 ° in the direction of rotation of the washer 3 with a fine gear profile. Seeds located on the circumference of the base 20 of the tire 10, from the beginning of the tire 10 to the end of the tire 10 do not fall by gravity from the housing 5 of the sowing apparatus into the gap between the base 20 of the tire 10 and the bottom 9 of the sowing apparatus due to the installation of a flap 11 fixed to the edge of the tire 10 the base 20 of the tire 10, while the flap 11 is directed downward from the base 20 of the tire 10 along a plane passing through the horizontal axis of the washer 3 with a fine-toothed profile and coinciding with the beginning of the tire 10 and the end of the tire 10. The gap between the bottom 9 and the edge of the coupling 7 is minimal .

Claims (3)

1. Spool metering device for sowing small-seeded crops, comprising a housing, a clutch mounted on the drive shaft, a grooved coil and a washer with a fine-toothed profile installed between the grooved coil and the clutch, characterized in that the fine-toothed profile of the washer is formed by cells, each of which has a front flat a face inclined at an angle α to the plane of the subsequent posterior face, and a rear face made in the form of a recess with a spherical surface in the form of a ball with a radius equal to 1/2 of the diameter of the seed, while the washers with a fine-tooth profile are placed in a rectangular tire formed by two sidewalls and a base, and the tire overlaps the teeth of the washer with a fine-tooth profile with a base and sidewalls around the circumference of the washer with a fine-tooth profile at an angle of 180 ° relative to the center of the washer with a fine-tooth profile above the horizontal axis of the washer with a fine-tooth profile and deviated from the vertical axis of the washer with a fine-tooth profile at an angle of 45 ° in the direction of rotation of the washer with a fine-tooth profile, and the end of the tire is laid below the horizontal axis of the washer with a fine-toothed profile and deviated from the vertical axis of the washer with a fine-cut profile by an angle of 45 ° in the direction of rotation of the washer with a fine-tooth profile, with the beginning of the tire and the end of the tire coinciding with the plane passing through the horizontal axis of the washer with the fine-tooth profile, and on at the end of the tire, a flap is fixed along the edge of the base of the tire, directed downward from the base of the tire along a plane passing through the horizontal axis of the washer with a fine-toothed profile and coinciding with the beginning of the tire and the end of the tire, in addition, A tire is installed along the edge of the base of the tire with a brush, the free ends of the villi of which are directed to the center of the washer with a fine-toothed profile and lie in a plane passing through the horizontal axis of the washer and coinciding with the beginning of the tire and the end of the tire, and the size of the bristles of the brush is 1/3 of the tooth height, the tire is fixedly mounted relative to the washer with a fine-toothed profile and is rigidly fixed to the housing of the metering unit with screws. 2. The reel sowing apparatus for sowing small-seeded crops according to claim 1, characterized in that the distance between the sidewalls of the tire is greater than the thickness of the washer with a fine-tooth profile, while the height of the sidewalls of the tire is greater than the height of the teeth of the washer with a fine-tooth profile, and the gap between the ends of the teeth of the washer with a fine-tooth the profile and base of the tire is less than 1/5 of the diameter of the seed. 3. The reel seeding apparatus for sowing small-seeded crops according to claim 1, characterized in that the width of the flap is equal to the width of the base of the tire, and the height of the flap is equal to the gap between the base of the tire and the bottom of the seeding apparatus.

Images