RU2129767C1 - Drill feed - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: vibratory feed of drill has frame on which hopper is mounted on brackets. Lower part of hopper terminates in rectangular neck. Feeding device with drill tube tips is connected to hopper from below through flexible suspensions. Feeding device drive is mounted on bracket. Inverted-V lip serves as bottom of hopper rectangular lower neck. Side walls of neck are arranged square to direction of vibrations of feeding device. Ports in smaller walls of neck are overlapped by meters adjustable in vertical, each provided with two ports. Vertical port coincides with port in smaller wall of hopper neck, and horizontal one is pointed towards bottom of feeding device housing. EFFECT: enhanced operation of drill feed owing to provision of mobility for entire upper layer of seeds in feeding device and possibility of adjusting thickness of layer. 6 dwg

Description

 The invention relates to agricultural machinery, in particular to seeders.

 Known sowing apparatus containing a hopper mounted on the frame, to its lower part is attached a sowing device with a sowing hole, a funnel and a seed divider, under which there are seed tubes and the drive of the sowing device [1].

 The disadvantage is the lack of a close relationship between the number of seeds received from the hopper in the sowing cells of the device and the number of seeds sown through the sowing hole, which leads to uneven accumulation of seeds in the cells, and therefore their sowing. This circumstance significantly increases the unevenness of sowing seeds with this sowing apparatus.

 Closest to the proposed one is a sowing device containing a hopper mounted on the frame and a vibrating sowing device suspended from below on flexible connections, at the bottom of which sowing holes are made so that the lower neck of the hopper is located inside it and the distance between the lower edge of the neck of the hopper and the bottom The sowing device determines the thickness of the seed layer in this device [2].

 The disadvantage is the direct contact of the seeds in it with the neck of the hopper along its entire perimeter. This circumstance violates the mobility of the upper layer of seeds in contact with the neck compared to the rest of the layer remote from the neck. In addition, a vertical column of seeds moving from the hopper presses on the seed layer in the sowing device, within the size of the neck. This leads to a violation of the mobility of the upper layer of seeds over its entire area and, ultimately, to a deterioration in the quality of the sowing apparatus due to an increase in the unevenness of sowing seeds with individual sowing holes. An important disadvantage is that the seed level in the sowing device is determined by the vertical distance between its bottom and the lower edges of the neck of the hopper. A change in the level in this apparatus / and this is extremely important when sowing seeds with different physical and mechanical properties / requires a change in their relative position, which naturally complicates the design of the sowing apparatus.

 The objective of the invention is to improve the quality of the sowing apparatus of the seeder by providing the entire top layer of seeds with the same mobility and the possibility of stepless regulation of the thickness of this layer.

 This task is achieved by the fact that, in contrast to the prototype, the bottom of the rectangular neck of the hopper of the rectangular shape, located inside the housing of the metering device, has a gable visor, and the large walls of the mouth are perpendicular to the direction of oscillation of the metering device, windows are overlapped in the small walls of the neck, overlapped by vertically adjustable dispensers ; each of which is made in the form of a box with two windows, and the vertical window coincides with the window in the small wall of the neck, and the horizontal one faces the bottom of the metering unit.

 In FIG. 1 shows a sowing apparatus, a side view with respect to the direction of movement of the seeder; in FIG. 2 - a hopper with a lower neck without sowing apparatus; in FIG. 3 is a side view of FIG. 2; in FIG. 4 shows a dispenser; in FIG. 5 is a section along AA of FIG. 4; in FIG. 6 is a flow chart of the sowing apparatus.

 The sowing apparatus of the seeder is made vibrating and contains a frame 1 on which the hopper 2 is fixed by means of brackets 3 / Fig. 1/. The lower part of the hopper 2 ends with a rectangular neck 4 / Fig. 2 /. A sowing device 6 with the tips of the seed tubes 7 is connected to the bottom hopper 2 from below through flexible suspensions 5. The drive 8 of the sowing device is mounted on the bracket 9. The lower mouth 4 of the rectangular shape has two large walls 10 and two small 11. Inside the neck 4 there is a gable visor 12. K dispensers 13 are attached to the small walls 11 of the neck 4. The small walls 11 are vertically longer than the walls 10 and have windows 14 / Fig. 3 /, the lower edges of which coincide with the lower edges of the slopes of the visor 12. The cross-sectional areas of the windows 14 provide the passage of such an amount of seeds that meets the highest standards of sowing. At the edges of the small walls 11 there are screws 15 for fastening the dispensers 13. The dispensers 13 have flanges in which oblong holes 16 are made, due to which the vertical positions of the dispensers 13 are changed / Fig. 4/.

 The dispensers 13 are made so that vertical windows 17 and horizontal 18 are formed in their case, and when installing 13 on the small walls 11 of the neck 4, their vertical windows 17 coincide with the windows 14 in the small walls 11. At the same time, the horizontal windows 18 are facing the bottom of the case sowing device 6.

 The working process of the sowing apparatus of the seeder proceeds as follows.

 Seeds poured into the hopper 2 19 / Fig. 6 / due to their flowability, they enter its throat and with a gable visor 12 are divided into two flows, which through the windows 14 in the small walls 11 of the neck 4 and the vertical windows 17 enter the dispensers 13 and then through the windows 18 to the bottom of the sowing device 6. Spontaneous filling the sowing device with 6 seeds will occur until the tops of the seed slides reach horizontal windows 18 and block their free flow from the dispensers 13.

 When you turn on the drive 8 of the sowing apparatus due to its fluctuations, the seed material 19 will be aligned in the sowing device 6. And if during this alignment the top layer of seeds 20 is lower than the horizontal windows 18 of the metering unit 13, the seeds from the hopper 2 will gravity flow into the sowing device. This will happen in all similar cases until the top layer of seeds 20 reaches the level of horizontal windows 18 of the dispensers 13.

 In the process of operation of the sowing apparatus, the seed material 19 from the sowing device 6 through its sowing holes, tips of the seed tubes 7 and then through the seed tubes / in FIG. 6 not shown / will flow to openers. In this case, the upper layer of seeds 20 will fall and the seeds from the dispensers 13 will replenish its consumption. Moreover, the flow of seeds through the dispensers 13 from the hopper 2 will be determined by their flow rate through the sowing holes of the sowing device 6, i.e., a self-regulation process will be observed, ensuring the constancy of the upper level of seeds 20.

 The thickness of the seed layer in the sowing device 6 will be determined by the position of the metering device 13. Due to the elongated holes 16 made in the metering device 13, the latter can be raised or lowered, thereby adjusting the thickness of the seed material 19 in the metering device 6, which is extremely important when sowing seeds with different flowability.

 The horizontal windows 18 of the dispensers 13 are arranged vertically so that the upper layer of seeds 20 in the sowing device does not touch the lower edges of the large walls 10 of the neck 4. Direct contact with this layer is only the lower edges of the small walls 11 of the neck 4. However, their location coincides with the direction of oscillation sowing device 6, therefore, they can significantly affect the mobility of the upper layer of seeds 20. The cross-sectional area of the horizontal windows 18 of the dispensers 23 is incomparably smaller than the total area of the upper layer of seeds 20 seeded unit 6, and thus contact the lower edges of dispenser 13 with the boundary layer of the seeds is not appreciably disturb mobility topsheet 20 seeds.

 The design of the lower neck 4 of the hopper 2 and the metering device 13 excludes the pressure of the vertical column of seeds located in the hopper 2 on the top layer 20 in the sowing device 6. These circumstances ensure good mobility of the upper layer of seeds 20 in the sowing device 6 and create equal conditions for the passage of seeds through it sowing holes, which, ultimately, will improve the quality of the sowing apparatus when sowing seeds of various crops.

 The proposed metering device can be easily implemented in agricultural production.

Sources of information
1. A.S. N 393978, A 01 C 7/02, Bull. N 34, 08/22/73

 2. A.S. N 2086088, A 01 C 7 / 04.7 / 16, Bull. N 22, 08/10/97

Claims (1)

 The seeder sowing apparatus, comprising a hopper mounted on the machine frame, a sowing device suspended from below on flexible suspensions, with elongated sowing holes and seed tube tips mounted below them, the axial lines of the sowing holes coinciding with the direction of oscillation of the sowing device, and a drive for its oscillation, different the fact that the bottom of the lower neck of the rectangular hopper, located inside the housing of the metering device, is a gable visor, and large walls of the neck s are arranged perpendicularly to the oscillation of the sowing device in the walls of the neck of small windows are provided, overlapped vertically adjustable metering devices, each of which is provided with two windows, the vertical alignment with a window in the small wall of the hopper mouth, and the horizontal faces towards the bottom of the sowing device.

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