RU2583686C1 - Method for basic treatment, preparation of seed bed, soil decompaction and device therefor (versions) - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agricultural engineering, in particular to methods for basic and surface soil treatment in pre-sowing period and devices for their implementation. Method includes preparing a seedbed and decompression of soil working elements (4) made in form of clutches and/or arched and/or chisel rippers and/or disks. Working members (4) are arranged on frame (1) and have an upper and lower part of rack and provided with lifting and lowering of working bodies (4) when meeting with obstacles or without raising and lowering. Upper and lower racks are interconnected and adapted to lock releasably. After separation of upper and lower portions of rack stroke of rack bottom element acts on stop element with its upper part lifting working member (4) above the ground and latching lower part in catcher of top part or frame (1).

EFFECT: engineering solution is aimed at improving reliability of implementation process and reliability of operation of working members of tillers.

4 cl, 7 dwg

Description

The invention relates to agriculture, in particular to methods for primary and surface tillage in the pre-sowing period, including and for the preparation of the seed bed for sowing crops and seedlings of trees, as well as loosening the soil to a depth below the arable horizon.

A known method of tillage using a rotary tillage implement (a.s. USSR No. 1042629, IPC A01B 21/02, A01B 35/28, publ. 09/23/1983), comprising treating the soil with a horizontal drum made of discs that are interconnected rods with loosening teeth, while the teeth are located on the rods of the drum in a checkerboard pattern. In addition, additional teeth are installed on each of the rods, each of which is located between the other two with an angular displacement relative to them.

The disadvantage of this method is the poor preparation of the seed bed, insufficient loosening of the soil.

A known method of growing potatoes according to patent RU No. 2125783, IPC A01B 79/02, publ. 02/10/1999, for the implementation of which the topsoil is affected by a device for soil separation.

The disadvantage of this method is the insufficient grinding of lumps of soil (crushing lumps) as a result of exposure to the top layer of soil (in one pass of the unit) with only one device for soil separation. This worsens the crushing of the lumps and the separation of weeds from the soil, since the weeds remaining in the lumps remain in the soil and then vegetate.

A known method of primary and pre-sowing tillage and seedbed preparation according to the patent of the Eurasian Patent Office No. 018499, IPC A01B 15/16, A01B 23/06, A01B 35/24, publ. 08/30/2013, for the implementation of which they provide crushing of the soil by working bodies mounted on the frame using active auto-vibration of the discs. To implement the method using a rack made in the form of upper and lower parts. The parts of the rack are interconnected by means of a rotary axis and at least one destructible latch.

The disadvantage of this method and device is the low reliability of the technological process due to the fact that after the destruction of the latch the working body is deepened and with the bottom of the rack it rolls along the soil surface and oscillates along an arcuate path around the rotary axis as a result of contact of the working body with the soil surface and translational movement unit with working bodies. At the same time, the tractor driver, not receiving a signal about the destruction of the latch, continues processing, despite the deepening of the working body from the soil. The quality of processing is deteriorating as a result of the fact that the working body "rolls" on the surface of the soil, without providing the installed depth of processing with the established technology, i.e. decreases the reliability of the working body of the technological process. Alternating oscillations of the lower part of the rack with the working body around the rotary axis lead to premature wear and destruction of the rotary axis. In this case, the lower part of the rack with the working body, falling under the working bodies in the direction of movement of the unit, are destroyed and disable other working bodies and racks, i.e. the design does not have sufficient reliability of the functioning of the working bodies and their racks. The method described above is the closest analogue of the claimed method.

The technical result is an increase in the reliability of the technological process and the reliability of the functioning of the working bodies of tillage tools.

This goal is achieved by the fact that in the method of primary processing, preparation of the seed bed and softening of the soil by crushing by working bodies made in the form of paws, and / or arcuate and / or chisel-like cultivators, and / or disks located on the frame, with upper and lower parts of the racks, with raising and lowering the working bodies when meeting with obstacles or without raising and lowering the working bodies, according to the invention provide separation of the upper and lower parts of the rack during critical overloads as a result of meeting after the separation of the working body with an obstacle, the impact element of the lower part of the rack acts on the thrust element of its upper part to ensure that the working body rises above the soil and fixes the lower part of the rack in the catcher of its upper part or frame.

This goal is achieved by the fact that in the first embodiment, a device for primary processing, preparation of the seed bed and softening of the soil, containing working bodies mounted on the frame, made in the form of paws, and / or arcuate and / or chisel-like cultivators, and / or disks located on racks having upper and lower parts, with the possibility of raising and lowering them relative to the frame when meeting with an obstacle provided by at least one main elastic element installed between and / or above the frame and each working device the gan on one side of the axis of oscillation of the working body is equipped with at least one additional elastic element, each of which is connected to the main elastic element by means of a rotary mechanism made in the form of traction, the upper and lower parts of which have a finger mounted for rotation moreover, one finger of the rotary mechanism is connected to the additional elastic element, and the other through the supporting element with the main elastic element and the rack, according to the invention, the upper and lower parts of the rack are connected with each other with the possibility of rupture or other type of destruction of at least one connecting element fixing them, the lower part of the rack has a shock element, its upper part has a stop element and a catcher is installed in the upper part of the rack or frame elements.

This goal is achieved by the fact that in the second embodiment, in the device for the main processing, preparation of the seed bed and softening of the soil, containing working bodies mounted on the frame, made in the form of paws, and / or arcuate and / or chisel-like cultivators, and / or disks located on racks having upper and lower parts, with the possibility of raising and lowering them relative to the frame when encountering obstacles, provided by at least one elastic element made in the structure of the rack or connected with it and frame According to the invention, the upper and lower parts of the rack are interconnected with the possibility of rupture or other type of destruction of at least one connecting element that fixes them, the lower part of the rack has a shock element, its upper part has a stop element and in the upper part of the rack or frame elements mounted catcher.

This goal is achieved by the fact that in the third embodiment, in the device for the main processing, preparation of the seed bed and softening the soil, containing working bodies mounted on the frame, made in the form of paws, and / or arcuate and / or chisel-like cultivators, and / or disks located on racks having upper and lower parts, according to the invention, the upper and lower parts of the rack are interconnected with the possibility of rupture or other type of destruction of at least one connecting element fixing them, the lower part the rack has a shock element, its upper part has a thrust element and a catcher is installed in the upper part of the rack or frame elements.

In FIG. 1 shows the basic elements of a device for implementing the method using loosening paws (side view); in FIG. 2 shows the basic elements of a device for implementing the method using disks (top view); in FIG. 3 shows a stand with the main and additional elastic elements in the form of plates and a disk working body mounted under the frame (side view); in FIG. 4 shows a stand with the main and additional elastic elements made in the form of plates and a working body in the form of an arc-shaped cultivator (side view); in FIG. 5 is a view A in FIG. 4 with the image of a catcher; in FIG. 6 shows a rack with an elastic element in its upper part, made relative to the frame from the side of the working body, an elastic element connects the upper part of the rack with frame structures, the catcher is installed in the upper part of the rack (side view); in FIG. 7 shows a stand that does not have an elastic element in its upper part, rigidly fixed relative to the frame, with a catcher mounted on the frame (side view).

The method of the main processing, preparation of the seed bed and decompression of the soil by crushing by working bodies made in the form of paws, and / or arched and / or chisel-like cultivators, and / or disks located on the frame, having interconnected upper and lower parts of the rack, is implemented as follows way.

Racks can be elastic with the ability to raise and lower the working bodies when faced with obstacles, for example when working on stony and / or heavy soils, or non-elastic, for example when used on light sandy and non-stony soils. In case of critical overloads, for example, as a result of a working body meeting an obstacle (stones and other extraneous inclusions), the upper and lower parts of the rack are disconnected by cutting, tearing or some other type of destruction of at least one connecting element connecting and fixing the two parts of the rack , for example, a threaded breakable retainer. After destruction of the connecting element of the racks, the lower part of the rack is displaced at high speed relative to its upper part, back in the direction of movement of the unit, and the percussion element of the lower part of the rack, by impacting the stop element of the upper part of the rack, forces the working body together with the lower part of the rack to perform rotation around point A of the impact, while ensuring the deepening of the working body from the soil. The rotation around the point A of the impact of the lower part of the rack with the working body is carried out until the latter is fixed in the catcher of the upper part of the rack.

The depth of tillage when preparing the seed bed for potatoes is: for loosening paws and discs 0.12-0.25 m; for a mulching drum with a screw-like rolling element 0.08-0.12 m. When the soil is decompressed under potatoes, the depth of cultivation with cultivators is 0.4-0.7 m, mulching and / or rolling drums are up to 0.15 m.

The depth of tillage when preparing the seedbed for planting seedlings of different types and age of trees is: for cultivators, paws and discs 0.25-1.5 m; for a drum with a helical sealing element 0.12-0.5 m.

The elements of the device for implementing the method of preparing the seedbed are an aggregate, on the frame 1 (Fig. 1) of which on the racks 2, comprising or separately from the racks 2, the main elastic element 3, installed between and / or above the frame 1 and the worker body 4 in the form of disks (Fig. 2, 3) or paws (Fig. 1, 4). The rack 2 may or may not have elastic properties and can be rotated or not rotated. The main elastic element 3 is installed on one side of the oscillation axis 5 of the working body 4. On the opposite side of the oscillation axis 5 of the working body 4 (in front of the oscillation axis 5 in the direction of movement of the unit), an additional elastic element 6 is connected associated with the rotary mechanism 7. The upper part the rotary mechanism 7 (Fig. 3, 4) is made in the form of a cylindrical finger 8, which is covered, for example, by arched ends (not shown) of two additional elastic plates and / or rods 9, 10 and 11 of an additional elastic element 6 and whether in the form of separate arcuate girths, elastic or not having elastic properties (not shown). The lower part of the rotary mechanism 7 can also be made in the form of a cylindrical finger 12 with the possibility of rotation in the sleeve 13 or girths similar to the girths under the finger 8 (not shown). The sleeve 13 or the girths are connected to the support plate 14 (made in the form of a flat plate, corner, channel or profile of another shape), in the lower part of which is installed with the possibility of separation during critical loads on the working body 4 the lower end of the rack 2, to which the working body is attached 4 with a hub 15, made, for example, in the form of a disk. The hub 15 is fixed to the rack 2 by means of threaded connections 16. The rack 2, when installing the disks on it, can be rotated, with rotation around the vertical axis relative to the frame 1.

The right back part of the support plate 14 (Fig. 3) and the main elastic element 3 are connected to each other, for example, using at least one spacer sleeve 17 (rigid or elastic), the plate and / or washers 18, and threaded connections 19. Additional elastic plates and / or rods 9, 10 and 11 are connected to the rack 2 by means of threaded connections 20, and the axis of symmetry 21 of the rack 2 may coincide with the axis of symmetry of the threaded connections 20.

The left front ends of the assembly of the end of the additional elastic element 6 and the support plate 14 are interconnected by rods 22. To rotate the working body 4 and relative to the frame 1 around the vertical axis, a sleeve (not shown) is made in the latter, and is fixed on the upper end of the rack 2 bracket 23.

An additional elastic element located on one side of the axis of oscillation of the working body with the main elastic element 3 can be prefabricated in the form of an elastic non-metallic sleeve 17 and a spring 24, and the sleeve 17 can be installed inside the spring 24 (Fig. 4).

The unit for pre-sowing tillage can include passive-drive working bodies, for example spiral anti-erosion 25 (Fig. 1, 2) and / or packer rollers.

The upper part 26 and the lower part 27 of the rack 2 (Fig. 3-7) are interconnected by at least one, for example, a threaded breakable latch 28 with the possibility of breaking the connection between the parts 26 and 27 of the rack 2 at loads exceeding critical. To fix the lower part 27 of the rack 2 relative to the upper part 26 after breaking the connection between them under loads exceeding critical, a catcher 29 is made in the upper part 26 of the rack 2 or frame 1 (Fig. 6, 7), consisting of elastic guides 30 (Fig. .5) and directly of the catcher 31, fixing the position of the lower part 27 of the rack 2 relative to its upper part 26 after rupture, cutting, creasing, or any other type of destruction of the threaded lock 28. In this case, to improve the protection of working bodies on stony soils, the lower part 27 of the rack 2 can to have In other properties (heat-treated is made of high-quality metal). When working on light, non-stony soils, the lower part 27 of the rack 2 may not have elastic properties.

The latch 32 simultaneously fixes the side surface of the threaded latch 28 relative to the side surface of the hole of the lower part 27 of the rack 2 under the threaded destructible latch 28 (not shown), which prevents the possibility of spontaneous "turning" of the latch 28 and its release during self-oscillations of the working body 4. This prevents spontaneous the weakening of the connection of the upper 26 and lower 27 parts of the rack 2 in the process.

To ensure effective lifting of the working body 4 after rupture or another type of destruction of the destructible threaded retainer 28 as a result of the working body 4 meeting with an obstacle on the rear, in the direction of movement of the aggregate, at the end of the support plate 33, a stop element 34 is installed. The stop element 34 provides a shock impulse element 35 of the lower part 27 of the rack 2 after breaking destructible threaded retainer 28. At the same time, the thrust element 34, having threaded connections 36, provides an additional clamp of the lower part 2 relative to the racks 27 of the plate 14 of the upper portion 26 of the rack 2. To provide the necessary lifting height of the working body 4 and fixation of the catcher 29 at the rear end 33 of the support plate 14, a groove (not shown).

On light non-cohesive soils with granulometric composition, it is allowed to use simplified versions of struts 2 with one elastic element in the upper part 26 of strut 2 located on the side of the working body 4 (Fig. 6), or without an elastic element (Fig. 7) in the upper 26 and / or bottom 27 of rack 2.

The method is as follows.

The unit with the working body 4 in the form of paws, and / or arcuate and / or chisel-like cultivators, and / or disks is given the speed of translational motion (for example, using a mobile power tool).

When the working body 4 is deepened into the soil as a result of different density of soil aggregates, micro vibrations of the working body 4 are observed from the action of variable loads on it, on the one hand, and the action of moments from elastic forces F ₁ and F _{2 on the other} (Fig. 3, 4 ) Since the main 3 and additional 6 elastic elements are located on different sides from the axis of oscillations 5 of the working body 4, the vector of the resulting elastic force F ₂ to the movement of the first additional elastic element 6 is opposite to the vector of the resulting force F _{1 of the} main elastic element 3.

As a result of the action of the moments of multidirectional force vectors F ₁ and F ₂ relative to the axis of oscillations 5, the working body 4 returns to its original position and continues loosening the soil with high-frequency auto-vibrations to the treatment depth h _arr. (Fig. 4)

The resulting self-oscillations are intensified due to the interaction of the additional elastic element 6 with the elements of the rotary mechanism 7. In this case, the oscillation frequency is significantly increased. In the mode of high-frequency self-oscillations (auto-vibrations), the working body 4 works until it encounters another obstacle, then the process is repeated.

When faced with a major obstacle, such as a “balcony” stone, etc., as a result of which the working body 4 does not have the ability to climb up, and the load on the working body 4 increases due to the application of tractor pulling force to it and reaches values exceeding critical, completely destroys at least one of the threaded fasteners 28 connecting the upper 26 and lower 27 parts of the rack 2. The unlocked lower part 27 of the rack 2, under the action of the forces applied to it, is sharply displaced backward, in the direction of movement of the unit, and shock e the element 35 of the lower part 27 of the rack 2 hits the thrust element 34 of the upper part 26 of the rack 2. As a result of a sharp stop of the translational movement of the lower part 27 of the rack 2 after the impact, the lower part 27 of the rack 2 together with the working body 4 rotates around the point A of the impact, while shifting to the left along the groove of the end 33 of the base plate 14. Rising up the lower part 27 of the rack 2 entering the guides 30, falls into the trap of the catcher 29, where it is fixed above the soil surface.

Hearing the sharp sound of the impact of the shock element 35 of the lower part 27 of the rack 2 into the thrust element 34 of its upper part 26, the tractor driver stops the unit and restores the functionality of the rack 2 by connecting its upper 26 and lower 27 parts. At the same time, he removes the lower part 27 of the rack 2 from the trap of the catcher 29, and, replacing at least one destroyed threaded lock 28, connects the upper 26 part of the rack 2 and its lower part 27. Using the threaded connections 32 and 36, the tractor driver additionally fixes the upper part 26 of the rack 2 relative to its lower part 27.

The process of presowing cultivation of the soil or stubble cultivation (false sowing) is completed, for example, by rolling the soil with spiral anti-erosion and / or rolling rollers 25.

Providing the tractor driver with a sound signal in the form of a sharp sound of the impact of the shock element 35 of the lower part 27 of the rack 2 into the thrust element 34 of the upper part 26 of the rack 2, signaling a rupture of the upper 26 and lower 27 parts of the rack 2, allows the tractor operator to urgently restore the working body, which eliminates gaps in soil tillage, i.e. significantly increases the degree of reliability of the aggregate of the technological process of basic tillage, seedbed preparation and soil decompression.

The introduction to the device of three types of elements for fixing the position of the upper part 26 of the rack 2 relative to its lower part 27, such as destructible latch 28, at least one additional threaded latch 32 and additional threaded connections 36, which are pressed with the help of the stop element 34 the lower part 27 racks 2 to the support plate 14, can significantly increase the reliability of the design of the racks 2 and the working bodies 4 themselves and prevent their premature failure, i.e. can significantly improve the reliability of the functioning of the working bodies of tillage implements.

The lifting of the working body 4 from the soil and its fixation in the trap of the catcher 29 due to the impulse of impact of the shock element 35 into the thrust element 34 of the rack 2 allows the tractor operator to restore the device operability with little time, removing the working body 4 with the bottom of the rack 27 from the trap of the catcher 29, which increases the productivity of the unit on tillage.

Improving the reliability of the technological process and the functioning of the working bodies can improve the quality of soil cultivation, crop yields, improves the quality of agricultural products and the survival rate of tree seedlings.

Claims (4)

1. The method of the main processing, preparation of the seed bed and decompression of the soil by crushing by working bodies made in the form of paws, and / or arched and / or chisel-like cultivators, and / or disks located on the frame, on the upper and lower parts of the racks, with lifting and lowering the working bodies when meeting with obstacles or without raising and lowering the working bodies, characterized in that they provide separation of the upper and lower parts of the rack during critical overloads as a result of the meeting of the working body with an obstacle, after the disconnections act by the impact element of the lower part of the rack on the thrust element of its upper part with the provision of lifting the working body above the soil and fixing the lower part of the rack in the catcher of its upper part or frame. 2. A device for the main processing, preparation of the seed bed and softening of the soil, containing working bodies mounted on the frame, made in the form of paws, and / or arcuate and / or chisel-like cultivators, and / or disks located on racks having upper and lower parts , with the possibility of raising and lowering them relative to the frame when encountering obstacles, provided by at least one main elastic element installed between and / or above the frame and each working body on one side of the axis of oscillation of the working body is provided with at least one additional elastic element, each of which is connected to the main elastic element by means of a rotary mechanism made in the form of a rod, the upper and lower parts of which have a pivotally mounted finger, and one finger of the rotary mechanism is connected to the additional elastic element, and the other through the support element with the main elastic element and the rack, characterized in that the upper and lower parts of the rack are interconnected with the possibility of rupture or other type of discharge sheniya at least one coupling element fixing them, the lower part of the post has a striking element, the upper part has a stop element at the top of the rack or frame elements mounted catcher. 3. A device for the main processing, preparation of the seed bed and softening of the soil, containing working bodies mounted on the frame, made in the form of paws, and / or arcuate and / or chisel-like cultivators, and / or disks located on racks having upper and lower parts , with the possibility of raising and lowering them relative to the frame when meeting with obstacles, provided by at least one elastic element made in the structure of the rack or associated frame structures, characterized in that the upper and lower parts Toyko interconnected with the possibility of rupture or other type of failure, at least one coupling element fixing them, the lower part of the post has a striking element, the upper part has a stop element at the top of the rack or frame elements mounted catcher. 4. A device for primary processing, preparation of the seed bed and softening of the soil, containing working bodies mounted on the frame, made in the form of paws, and / or arcuate and / or chisel-like cultivators, and / or disks located on racks having upper and lower parts characterized in that the upper and lower parts of the rack are interconnected with the possibility of rupture or other type of destruction of at least one connecting element fixing them, the lower part of the rack has a shock element, its upper part has a thrust element, in the upper part of the rack or frame elements a catcher is installed.

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