RU2335879C1 - Opener of tiller-seeder - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: opener includes A blade, receiver and distributor of sown material, arch of the space under the blade and reflector. The reflector is located under the distributor and has an inclination aside, reverse to movement direction of the opener. The distributor has form of cuneiform divider and is mounted in the space under the blade on way of outlet of sown material from the receiver. The reflector and the distributor are established throughout the height on a distance from each other. The distributor has inclination towards movement of the opener. The forward part of the distributor is located above the reflector. The receiver is executed in the form of the pipe having rectangular flow passage extended along the opener movement. The arch of the space under the blade contains right and left flaps fixed on lateral walls in the bottom part of the receiver. The reflector is attached to the flaps. A plate is mounted and fastened between right and left flaps at forward wall of the receiver. Fixed stop is provided under the plate. The distributor is made of polyamide. Besides, the distributor has contact to a back wall of the receiver to which it is attached by detachable connection. The extended cross-section partition is executed in receiver cavity, over the distributor.

EFFECT: increase of distribution uniformity of sown material.

6 cl, 4 dwg

Description

The invention relates to agricultural machinery, can be used in seeders-cultivators for the diversified sowing of grain and other crops, as well as the introduction of fertilizer during tillage with or without sowing.

Known openers for dispersed seeding and fertilizing - fertilizers (АСС 7/20: RU 2101906, 1998; RU 2164364, 2001; RU 2180993, 2002). Each of them has a lancet paw, a receiver and distributor of the sown material (seeds, seeds with tuks or tuks), as well as a arch for limiting from above the sublap space. The distributor is installed in the sublap space on the way of the seed to be sown from the receiver. In the said openers, the distributors are made, respectively, in the form of a trihedral pyramid or a wedge-shaped divider with gable lateral and rear faces, or in the form of a cone mounted pivotally, with the top up, with the possibility of moving its base along the bottom of the furrow, revealed by the lancet paw of the opener, that is, along sowing bed.

Each opener-counterpart does not provide a high-quality seed distribution in the sublapaceous space, which is especially evident when the lancet paw has a working width of about 300-420 mm (opener with such a paw, hereinafter - wide opener).

The prototype of the claimed device is a coulter for seedless, that is, scatter, sowing (RU 2234208 C2, IPC 7 A01C 7/20, publ. 2004.08.20). It includes a lancet paw, a receiver and a distributor of seed, a set of sublap space and a reflector tilted back to the direction of movement of the coulter and located under the distributor. The latter has the form of a gable wedge-shaped divider. In particular, the distributor is made in the form of two symmetrical quadrangular wings bent to the opposite sides, curved along the brachistochrone (along the curve of the fastest descent). It is located in the sublap space on the way of the seed to be sown from the receiver. Moreover, the distributor is mounted directly on the reflector and attached to it by the lower edges of its side walls (wings).

The presence of a reflector in the coulter prototype, on the one hand, prevents clogging of the distributor when the coulter is buried in the soil, and on the other hand, in comparison with the counterparts considered, it improves the quality of the spreading by conventional (not wide) coulters. However, the prototype does not provide proper uniformity of distribution of the sown material by the wide opener.

The reason for the lack of the prototype is a significant decrease in the speed of the particles of the sowing material by their friction when sliding along the reflector, arising immediately after the particles come off the distributor, which is fixed with its side walls-wings directly on the reflector.

The objective of the invention is to increase the uniformity of the distribution of seed material by a wide opener by creating conditions for the flight of particles of this material after they leave the distributor until they meet with the reflector and seedbed, that is, at least reduce the disadvantage noted in the prototype, eliminating its cause. Since during the flight of particles (in air) the friction forces mentioned above do not work.

This problem is solved in that the declared coulter of the seeder-cultivator, like its prototype, includes a lancet paw, a receiver and distributor of seed, a set of sublap space and a reflector tilted back to the direction of movement of the coulter. The distributor has the shape of a wedge-shaped divider and is installed in the sublap space on the way of the seed to be sown from the receiver. The reflector is located under the distributor. However, unlike the prototype, in the declared opener, the reflector and distributor are mounted remotely in height from each other. The distributor has a slope in the direction of movement of the opener, and the front of the distributor is located above the reflector.

The remote location of the distributor and reflector provides a space that separates them in height. The presence of such a space in combination with the other indicated features always creates the conditions for the flight of particles of the seed to be sown (in this space) after they leave the distributor until they meet with the reflector and the seed bed. The indicated location and slope of the distributor increases the initial height, therefore, and is the flight range of the particles of the seed to be sown, coming down from the side surfaces of the distributor in the back, the widest part of the sublap space. This effect improves the created conditions for the flight of material particles, which is especially important for a wide opener. Therefore, the above-mentioned new set of common essential features of the declared opener in all cases of its implementation ensures the achievement of the technical result noted in the task of the invention.

In specific cases, the receiver is made in the form of a pipe having an elongated in the direction of movement of the opener, in particular a rectangular, flow-through section. The top of the distributor is located in the receiver. It has contact with its front or rear wall with the formation at the opposite (respectively, at the rear or front) and at each side wall of the passage for sowing material. The named embodiment of the receiver allows, at an acceptable concentration of the material flow in it, to provide the necessary seeding and (or) fertilizer rates by the wide opener mentioned above. Placing the upper part of the distributor in the receiver additionally increases the initial height, otherwise, the range of the flight of the particles of the sowing material coming down from the side surfaces of the distributor, increasing the uniformity of their placement along the width of the sub-breech space, even a wide opener. This enhances the main technical result of the invention.

In addition, the arch of the sublap space contains right and left flaps fixed to the side walls at the bottom of the receiver. The reflector is attached to the flaps. Between the right and left flaps at the front wall of the receiver is installed and fastened with them plate. A holder is attached to the front edge of this plate and to the receiver wall, connected to the lancet paw, for example, by two bolts. This allows these coulter elements to be performed in the form of a unified welded unit, which makes the coulter manufacture more technologically advanced and makes it cheaper.

In addition, under the plate installed between the flaps, there is a stop, on the cantilever part of which a distributor is mounted, which has contact with the front wall of the receiver. This makes it possible to rationally mount a distributor over the reflector, in particular, of a welded structure.

In addition, in another case, the distributor is made of polyamide (for example, grade PA6 210 / 311-15 OST 606-09-83), has contact with the rear wall of the receiver, to which is attached a detachable, in particular screw, connection. This improves the manufacturing quality of the distributor of a given shape and can reduce the cost of the coulter.

In addition, in the receiver cavity, above the distributor, an elongated transverse partition is made having upper and lower parts for dividing this cavity into front and rear channels. The upper part of the said partition is directed along the central axis of this cavity, and the lower one is deflected towards the front wall of the receiver so that the lower edge of the partition is above the area of the front end of the distributor. The said partition increases the reliability of ensuring the same concentration of material in the middle and in the peripheral parts of the strip sown by the coulter, including wide.

The invention is illustrated by drawings.

Figure 1 shows the declared opener with a distributor of welded construction, side view with local cuts, fragment; figure 2 is a section aa of figure 1; figure 3 - view B of figure 1, the vas deferens (situation), the shank of the paw, its rack and mounting bolts are not shown; figure 4 - the declared opener with a distributor of polyamide attached to the rear wall of the receiver having inside an elongated transverse partition (second example), side view with local cuts, fragment.

In the drawings (Figs. 1-4), the following position designations are adopted:

1 - lancet paw; 2 - receiver (assembly assembly); 3 - distributor; 4 - flaps of the arch of the sublap space; 5 - reflector; 6, 7 and 8 - front, rear and two side walls of the receiver; 9 - passage for seed to be sited between the upper part of the distributor and the three walls of the receiver; 10 - plate fixed between the flaps; 11 - holder; 12 - a bolt connecting the holder, rack and lancet paws; 13 - emphasis for mounting the distributor of the welded structure; 14 - screw mounting of the distributor of polyamide; 15 - spring stand; 16 - flexible vas deferens; 17 - the shield is elastic; 18 and 19 - the upper and lower parts of the elongated transverse septum (guide device); 20 and 21 are the front and rear channels of the receiver cavity.

The opener (Figs. 1-4) has a lancet paw 1, a receiver 2 and a distributor 3 of sowing material, a set of sublap space with left and right flaps 4, and a reflector 5, tilted back to the direction of movement of the opener. The distributor 3 has the shape of a wedge-shaped, in particular gable, divider. It is installed in the sublap space on the way of the seed to be sown from the receiver 2 (Figs. 1, 2, 4). The reflector 5 is located under the distributor 3. Moreover, the reflector 5 and the distributor 3 are installed remotely in height from each other, with the formation of space between them, in particular of variable height (Figs. 1, 4), for the flight of particles of the seed material coming down from the distributor 3 The latter has a slope in the direction of movement of the opener. At least the front part of the distributor 3 is located above the reflector 5. The receiver 2 is made in the form of a pipe having an opener elongated in the direction of movement of the coulter, in particular a rectangular section (Fig. 3). The upper part of the distributor 3 is located in the receiver 2 and has contact with its wall: front 6 (Fig.1-3) or rear 7 (Fig.4). The opposite, that is, in the first example, the back 7 (Fig.1-3), and in the second - the front 6 (Fig.4) and each side wall 8 has a passage 9 for the seed. This U-shaped passage is symmetrical with respect to the longitudinally vertical plane, the opener symmetry, which is necessary for the latter to work well.

Flaps 4 (FIGS. 1-4) together with the wings of the paw 1, which restrict the sub-silt space from above, are fixed below on the side walls 8 of the receiver 2. The reflector 5 is attached to the flaps 4. Between the right and left flaps 4, at the front wall 6 of the receiver 2, a plate 10 is installed and fastened with them (FIGS. 1, 3, 4), a holder 11 is attached to the front edge of which and to the wall 6 of the receiver 2, connected by two bolts 12 to the shank of the pointed arm 1. In the first example (FIGS. 1-3 ) under the plate 10 is provided, in particular, an abutment 13 attached to it. ra 13 fixed rail 3 having contact with the front wall 6 of the receiver 2. The distributor 3 (Figures 1-3) comprises two symmetrical concave side walls, wings, interconnected with the abutment 13 by welding.

In the second example (figure 4), the distributor 3 has contact with the rear wall 7 of the receiver 2, to which is attached a detachable, in particular screw, connection 14. Such a distributor 3 (figure 4) is made of polyamide, for example grade PA6 210 / 311- 15 OST 606-09-83, using a mold, which is rational for a large volume of coulter production.

In the examples considered (Figs. 1-4), the coulter has a spring strut 15, the lower part of which is clamped by bolts 12 between the shank of the lancet paw 1 and the holder 11. The strut 15 is connected to the frame, and the receiver 2 is connected to two flexible vas deferens 16, each of which connected with seed (grain) and fertilizer sowing devices of a seeder-cultivator (not shown). Below on the rear wall 7 of the receiver 2 there is an elastic shield 17 (Figs. 1, 3) designed to protect the distributor 3 from clogging with soil, and the particles of the seed to be sown from the bounce open from the furrow opened by the opener during operation.

The second example (figure 4) is designed to increase (maintain) the uniformity of the distribution of material along the width of the sowing strip in cases of deviations of the axes of the seed tubes 16 at the entrance to the receiver 2 from directions parallel to the central axis of its cavity (figures 1, 4), which takes place in seeders-cultivators. In this example (Fig. 4), an elongated transverse partition is provided in the cavity of the receiver 2, above the distributor 3. It has an upper 18 and lower 19 part. This partition divides the cavity of the receiver 2 into the front 20 and rear 21 channels, each of which is connected with the corresponding vas deferens 16. The upper part 18 of the partition is directed along the central axis of the cavity of the receiver 2, and the lower 19 is deflected towards its front 6 wall. Moreover, the edge of the lower part 19 of the partition is located above the area of the front end of the distributor 3. It has been experimentally established that the rational limits of the distance M, mm (Fig. 4) of this edge from the front wall 6 of the receiver 2 are determined by the ratio M = (0.9 ... 1,3) · N, where N is the distance from the front wall 6 of the receiver 2 to the front end of the distributor 3, mm Moreover, the deviations of the concentration of the material in the middle and peripheral zones of the sown strip do not exceed the permissible value.

The coulter, as part of a seeder-cultivator, operates as follows. In the working position, the opener (Fig.1-4) moves in the soil at a given depth of sowing. With an arrow paw 1, he cuts the soil layer and weeds, opens the furrow and compacts its bottom, forming a sowing bed. The soil layer, raised by the paw 1, bypasses its shank, stand 15 and the receiver 2 located behind it, resting on the wings of the paw 1 and flaps 4. The seed, for example, a mixture of seeds of a grain crop with a starting dose of tufts, along the front and rear seed ducts 16 (figures 1, 4), that is, two identical streams, enters the receiver 2.

In the first example (Figs. 1-3), the sowing material, leaving the seed tubes 16 and moving downward, is combined into one stream, evenly distributed over the bore of the receiver 2. Continuing movement, this material meets the distributor 3, flowing around its upper wedge-shaped part, is divided into three streams: left, right and middle, which through the U-shaped passage 9 (Figs. 1-3), provided for them, respectively, at each side 8 and rear 7 of the walls of the receiver 2, enter the sublap space.

Particles of material of the left and right flows, moving along the concave surfaces of the side-wings of the distributor 3 (Fig.2), change the direction of their movement. Having left the distributor 3, they scatter in the sublap space, respectively, to the left and to the right of its plane of symmetry. Particles of material coming from the front of the distributor 3, completing a flight in the air, meet with the reflector 5, sliding along it, slow down the speed (under the action of friction forces) and, rolling down from it along curved trajectories, lie on the sowing bed. Particles of material descending from the rest (rear) of the wings of the distributor 3, inclined forward, begin to fly from a greater height, fly in the air, respectively, to the right and left, for long distances and fall on the sowing bed near the wings of the lancet paw 1 (Fig. 1- 3), which increases the width of the sowing strip, bringing it closer to the largest width of the sublap space, even a wide opener.

Particles of the medium flow material through the passage 9 provided between the distributor 3 and the rear wall 7 of the receiver 2 (Figs. 1, 3) enter the sublap space and, falling in it, are placed on the seed bed, distributed in the middle zone of the strip sown by the opener. The uniform distribution of material in the middle and peripheral zones of the sown strip is ensured by the rational size of the passage 9 at the rear wall 7 of the receiver 2. An elastic shield 17 (Figs. 1, 3) prevents the distributor 3 from becoming clogged with soil and seeds, such as rebounding, from the under-ice space.

In the second example (figure 4), the seed material from the vas deferens 16 enters in the same streams into the front 20 and rear 21 channels, separated from each other by the upper 18 and the lower 19, deflected forward by the parts of the elongated transverse partition of the receiver cavity 2. The material flow passing through the front channel 20, is directed to the location zone of the front end of the distributor 3. This material flow through the passage 9, located between the front wall 6 of the receiver 2 and the distributor 3, enters the underlap space, meets the reflector 5, in by interacting with it and with flaps 4, it is distributed in width. Descending from the reflector 5, tilted back to the direction of movement of the coulter, particles of the material of this flow are placed on the sowing bed, filling the middle zone of the sowing strip.

The flow of material passing through the rear channel 21, lowering, uniformly fills its bore. Leaving the channel 21, he meets the top of the distributor 3, it is divided into two streams - right and left. Particles of the material of these flows, sliding along the sides of the distributor 3, enter the sublap space through the passages 9 provided at the side walls 8 of the receiver 2. Moving away from the distributor 3, the particles of material scatter, respectively, to the right and left, distributed along the width of the furrow open moving forward opener. When meeting with the seedbed, these particles are distributed in peripheral zones that are adjacent to the middle zone of the sown strip, ensuring uniform distribution of material across its width. Particles of material that leave the distributor 3 above the reflector 5, ending the flight, meet with the reflector 5 and, sliding along its surface, under the influence of friction forces slow down the movement and leave it on the sowing bed.

In each of the considered examples, the sowing material evenly distributed over the width of the sowing bed, that is, the compacted bottom of the furrow, open by a moving opener, is covered with loosened soil layers descending from the wings of the paw 1 and from the flaps 4 (Figs. 1-4). Behind the coulter, the soil covering the strip sown by it is leveled, compacted, etc. other working bodies, in particular a seeder-cultivator, in the composition of which a coulter is used.

The work of the coulter of the seeder-cultivator only when sowing or when applying fertilizer is carried out similarly to its work, discussed above.

Other examples of implementation of the claimed opener are possible. In particular, it can have a receiver 2, which is at the same time a rigid rack of a lancet paw 1 connected to the frame of the seeder-cultivator and to the seed tubes 16. The latter can be connected to the receiver 2 through its front 6, rear 7 or side 8 walls. In this case, the receiver 2 may have a different guiding device than that represented by the upper 18 and lower 19 parts of the elongated partition (Fig. 4).

Claims (6)

1. The coulter of the seeder-cultivator, which includes a lancet paw, a receiver and a distributor of sowing material, a set of sublap space and a reflector tilted back to the direction of movement of the coulter, while the distributor has the shape of a wedge-shaped divider and is installed in the sublap space on the way of sowing material from the receiver, and the reflector is located under the distributor, characterized in that the reflector and the distributor are mounted in height remotely from each other, and the distributor has a slope of the direction of movement of the opener, and above the reflector is the front of the distributor. 2. The opener according to claim 1, characterized in that the receiver is made in the form of a pipe having an elongated motion of the opener, in particular a rectangular, flow-through section, with the upper part of the distributor located in the receiver, has contact with its front or rear wall with the formation at the opposite and at each side wall of the passage for sowing material. 3. The coulter according to claim 2, characterized in that the arch of the sub-valve space comprises right and left flaps fixed to the side walls at the bottom of the receiver, the reflector attached to the flaps, and between the right and left flaps at the front wall of the receiver mounted and fastened with them there is a plate, to the front edge of which and to the receiver wall a holder is attached, connected to the lancet paw, for example, by two bolts. 4. The opener according to claim 3, characterized in that under the plate installed between the flaps, an emphasis is provided, on the cantilever part of which there is a distributor having contact with the front wall of the receiver. 5. The opener according to claim 4, characterized in that the distributor is made of polyamide, has contact with the rear wall of the receiver, to which is attached a detachable, in particular screw, connection. 6. The opener according to claim 5, characterized in that in the receiver cavity, above the distributor, an elongated transverse partition is made having upper and lower parts for dividing this cavity into front and rear channels, the upper part of the said partition being directed along the central axis of this cavity, and the lower one is deflected towards the front wall of the receiver so that the lower edge of the partition is located above the area of the front end of the distributor.

Images