RU2202164C2 - Spool-type seeding unit for small-seeded crops, including amaranth - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: seeding unit has casing, coupling, grooved spool and small-toothed washer. Coupling and spool are mounted on drive shaft. Small-toothed profile of washer is defined by cells, each having front face oriented radially with respect to washer axis of rotation, and rear face inclined at an angle to radius of subsequent front face. Front and rear faces are joined along arc of circle. Side faces of cells are inclined to washer end surfaces. Washer is mounted on spool pivot. Washer is connected to spool by means of pin, whose geometric axis of symmetry is extending in parallel with drive shaft axis. EFFECT: improved uniformity of distribution of small seeds along ridge and reduced consumption of valuable seeds. 4 dwg

Description

 The invention relates to agricultural machinery, in particular to sowing apparatus for sowing small seeds, such as poppy seeds, amaranth, etc.

Known metering apparatus of a combined seeder, comprising a hopper mounted on a frame, a metering device suspended from below on flexible suspensions, in the bottom of which there are sowing holes, and an adjustment pad located on top with similar holes, and under the bottom are the tips of the vas deferens and its oscillation drive, which in the center of the hopper of the metering device is a container for fertilizers, covered by a container for seeds, and the metering device is divided by vertical walls into three cavities: I tuk and extreme for seeds, in general, the bottom for all cavities, the sowing holes are arranged in a row, and on top of the bottom in each cavity there are pads with similar holes that are individually associated with adjusting devices, from the bottom to the bottom of the sowing device, under all sowing holes are fixed combined tips of the vas deferens, with each central fat tube of the tip connected to two adjacent end tubes for seeds (see Patent RU 2150805 C1, IPC ⁷ A 01 C 7/00, 7/02, A 01 B 49/06. The sowing apparatus of the combined seeder / A.A. Vishnyakov, A.S. Vishnyakov. - Declared 12/11/1998; publ. in bull. "Inventions. Utility Models" - 2000. - 17. - Part II. - S. 280).

 The disadvantages of this sowing apparatus include the fact that it does not provide a strict dosage of seed supply to the vas deferens and is unacceptable when sowing small norms, in particular when sowing amaranth of various types, the sowing rate varies from 300 g to 3 kg per hectare.

The closest analogue to the claimed object includes a reel sowing apparatus for sowing small seeded crops, comprising a housing, a clutch, a grooved reel, a socket and ribs mounted between the reel and the clutch, located in the recesses of the reel, in which the working outer surfaces of the washer ribs are made in fine-toothed profile (see utility model RU 13992 U1, IPC ⁷ A 01 C 7/12. Spool metering device for sowing small-seeded crops / A.E. Zimmerman, P.I. Pautov. - Declared 02.23.2000; published in bul. . "Invented I Utility Models. "- 2000 - 18 - Part II of -. S. 509). We have accepted this sowing apparatus as the closest analogue.

 The disadvantages of the described design of the sowing apparatus include jamming of seeds of a fine fraction in the profile of the fine-cut cutting. This leads to uneven distribution of seeds along the length of the sown row.

 The invention consists in the following.

 The problem to which the invention is directed is to increase the uniformity of the distribution of small seeds along the length of the row.

 The technical result is a reduction in the seeding rate of expensive seeds, such as amaranth, licorice, rapeseed, Eastern goat, small-seeded medicinal plants and other crops with a similar structure, size and shape of the seeds, and increase their productivity.

 The specified technical result in the implementation of the invention is achieved by the fact that in the known reel sowing apparatus for sowing small seeded crops, incl. of an amaranth containing a housing, a coupling and a grooved coil mounted on a drive shaft, and a washer with a fine-toothed profile, according to the invention, the finely toothed profile of the washer is formed by cells, each of which has a front face oriented radially to the axis of rotation of the washer and a back face inclined at an angle to the radius of the subsequent face, the said front and rear faces are conjugated along an arc of a circle, and the side faces of the cells are inclined to the end planes of the washer, the named washer is mounted on the spigot of the coil and connected to it in the middle pin, the geometric axis of symmetry of which is parallel to the axis of the drive shaft.

 Due to the fact that each cell of the fine-tooth profile is made as described above, and the washer is connected to the grooved coil by means of a pin, the above technical result is achieved.

 The invention is illustrated by drawings.

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

 In Fig.2 is a section aa in Fig.1, a cross section of the shaft of the metering device, the drive pin, grooved coil, clutch, socket and housing.

 Figure 3 presents the washer with a fine-toothed profile, side view.

 In FIG. 4 - section BB in figure 3, a section of the peripheral part of the washer with the cell.

 Information confirming the possibility of implementing the claimed technical solution is as follows.

 Reel sowing apparatus for sowing small-seeded crops, incl. Amaranth, (see Figs. 1 and 2) contains a steel stamped case 1, a grooved coil 2, a sleeve 3 and a socket 4. A grooved coil 2 is mounted on the drive shaft 5 and connected to it by a pin 6. Next to the grooved coil 2 on clutch 3 is placed on the drive shaft 5. Mutual axial displacements of the grooved coil 2 and clutch 3 on the drive shaft 5 are limited on one side by a pin 6, and on the other hand by a set of washers 7, 8 and a cotter pin 9. Together with the drive shaft 5, the grooved coil 2 with a coupling 3 can move in the axial direction of the shaft 5 over a wide range until fully retracted niya (extension) into the housing 1. By moving the drive shaft 5 changes the working length of the grooved coil 2. By changing the working length of the coil 2 regulate the number of large seeds sown, carried out by the grooves 10 of the coil 2. The shaft 5 together with the coil 2 and the coupling 3 is moved by a special lever installed in the seed box sector of the seeder (not shown).

 The housing 1 is attached to the bottom of the seed box under the outlet for grain and small seeds. A socket 4 is inserted in one of the side openings of the housing 1, and a sleeve 3 enters the other hole. The grooved part 10 of the coil 2 extends from the housing 1 through the slots of the socket 4, the latter separating the working part of the coil 3 from the non-working one. The bottom 11 of the housing 1 is made in the form of a valve with an insert and a spring.

 A washer 12 is mounted between the grooved coil 2 and the coupling 3, the working outer surface of which is made with a fine-toothed profile 13 (see Figs. 1 and 3).

The fine-toothed profile 13 of the washer 12 (see FIGS. 3 and 4) is formed by the cells 14. Each of the cells 14 has a front face 15 oriented radially to the axis of rotation of the washer 12 and a back face 16 inclined at an angle to the radius of the subsequent front face 15. rear faces 15 and 16 are associated along a circular arc with a radius of more than half the size of sown seeds (d _3/2, see. Figure 3). This eliminates the jamming of seeds in cell 14 and the removal of two or more grains. The lateral faces 17 and 18 of the cells 14 are inclined to the end planes 19 and 20 of the washer 12. The angle of inclination λ of each cell to the lateral face 17 to the end plane 19 is set smaller than the sliding friction angle of the amaranth seeds on the polished steel surface. The lateral faces 17 and 18 of the cells 14 are mutually conjugated along an arc of a circle of radius r (see figure 4).

 To avoid crushing of amaranth seeds and single-grain removal, upper seeding is preferable, and the direction of rotation of the washer 12 is shown by the arrow in Fig. 3.

 The washer 12 is provided with a hole 21 on the end surface 20. The washer 12 of the hole 22 is mounted on the pin 23 of the grooved coil 2. The washer 12 is connected to the coil 2 by means of a cylindrical pin 24. The geometric axis of the pin 24 is parallel to the axis of the drive shaft 5. To ensure a reliable drive on the end face of the coil 2 above the pin 23 has a blind cylindrical hole 25. The pin 24 transmits torque from the shaft 5 to the washer 12. This design ensures the reliability of the drive of the washer 12 and eliminates leaks in mating x between the gouging coil 2, the washer 12 and the sleeve 3.

 Coil metering device operates as follows.

 Amaranth for fodder and food purposes is sown in a wide-row way with row spacing of 45 cm for rainfed (non-irrigated) and 60 ... 70 cm for irrigated agriculture. The sowing rate of seeds, for example, amber type Bagryany, is not more than 300 g / ha with a row spacing of 45 cm. Seeding depth is 2-2.5 cm. The field must be properly prepared. After the complete destruction of heat-loving and cold-resistant weeds, the field surface should be rolled. The use of herbicides is undesirable.

 Before filling the seed boxes, the grooved coils 2 with the lever are fully extended from the seeding apparatus bodies 1. In the drive shaft 5 set the required gear ratio and direction of rotation. The drive of the sowing apparatus is carried out from the support wheel of the seeder. When the drive shaft 5 is rotated through the pin 6, the grooved coil 2 receives rotation. From the coil 2, the washer 12 is rotated with the pin 24 at the specified frequency. When the seed hopper is filled with seed, each amaranth seed is placed in cell 14. The rest of the amaranth seeds along side faces 17 and 18 slide down and remain in the housing 1. Each seed rises up above the bottom 11 of the housing 1 and is thrown into the mouthpiece of the housing 1 and is sent to the coulter through the seed tube attached to the mouthpiece. 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.

 Thus, the single-grain removal of amaranth seeds and the uniform laying on the bottom of the furrow along the length of the row provide the specified density of amaranth plants. This eliminates the desiccation of the soil under dry conditions and clean crops under irrigation conditions.

 A production test of a seeder with the described rotary devices on amber-type crops of the Bagryany type showed a steady increase in green mass from 18 to 36% compared to the control (sowing with a SZ-3.6 grain seeder with restrictive flails on double-disc coulters).

Thus, the above information confirms the receipt of the claimed technical result and indicate the fulfillment of the following set of conditions when using the claimed invention:
- a tool embodying the claimed invention in its implementation, is intended for use in agricultural machinery;
- for the claimed invention in the form described in the independent clause of the claims below, the possibility of its implementation using the means and methods described above or known to the priority is confirmed;
- a tool embodying the claimed invention in its implementation, is able to ensure the achievement of considered by the applicants technical result.

 Therefore, the claimed invention meets the requirement of "industrial applicability".

Claims (1)

 Spool sowing device for sowing small-seeded crops, including amaranth, containing a housing, a clutch and a grooved coil mounted on the drive shaft, and a washer with a fine-toothed profile, characterized in that the fine-toothed profile of the washers is formed by cells, each of which has a front face oriented radially oriented to the axis of rotation of the washer, and the rear face, inclined at an angle to the radius of the subsequent front face, while the said front and rear faces are conjugated along an arc of a circle, and the side faces of the cells are inclined to the torus the main planes of the washer, the washer mounted on the spigot 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.

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