RU199948U1 - Tillage unit - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to a device for surface tillage. The tillage unit includes a bob connected to a frame consisting of a central section and side sections hinged thereto; a beam with a towing device installed on it is attached to the stench in front; at the same time, there are spring blades on the bottom and side sections, and transport wheels are located in the lower part of the bottom, mounted on semi-axles with the possibility of adjusting the width of the transport track; roller carts with toothed strips and side wheels are installed on the side sections by means of parallelogram connecting mechanisms; front slat rollers and rear slat tandem rollers are fixed on the roller carts; in the middle part of each roller carriage there is a working body installed with the possibility of adjusting its depth, while the working body is made in the form of a replaceable string cassette with tillage elements fixed on it; on the bottom, along the perimeter and on the surface of the frame, a hydraulic system is installed.

Description

The utility model relates to agricultural engineering, in particular to a device for surface tillage.

Known cultivator for the RF patent for utility model No. 116303 (A01B 35/00, A01B 39/00, published on 05/27/2012), containing a central frame and hinged side frames, hydraulic cylinders for lifting and lowering the side frames, working bodies in the form of S- shaped spring struts with replaceable loosening paws, a trailer hinged to the brackets of the front beam of the central frame, support-transport wheels located on the brackets of the front beams of the frames with mechanisms for adjusting the depth of soil cultivation and hydraulic cylinders for transferring the cultivator to the transport position, located on the brackets of the rear beams of the frames, adjustable by height of spring-loaded press rollers, characterized in that the front, rear, longitudinal and load-bearing beams of the frames are made of square or rectangular pipes, the brackets of the support-transport wheels and the rear beams of the frames are connected by a brace, and one of the load-bearing beams is connected to the brace by a jumper, while in the side walls of the longitudinal beams are cut square holes into which the structural beams are inserted. The disadvantages of this technical solution include an unsuccessful system of folding and transfer from the transport to the working position, in which the hinges of the central frame are subject to constant wear, while the resulting dimensions do not allow the cultivator to be moved on public roads; there is no possibility of preliminary crushing of clods of a large fraction; there are no elements of finishing (finishing) tillage; the cultivator is absolutely flat, with elements of partial reinforcement with kerchiefs and braces, while there is no system for copying the soil surface relief. The well-known technical solution for the RF patent for utility model No. 116303 with a greater degree of probability will not be able to qualitatively prepare the soil for sowing agricultural crops.

The closest in terms of the number of essential features is a soil-cultivating unit according to the RF patent for invention No. 2441356 (А01В 49/02, published on February 10, 2012), which includes a bob pivotally connected to a frame consisting of a middle and articulated side sections on which support wheels are installed , racks with replaceable working bodies fixed on them, transport wheels, disc levelers, spiral bar rollers and folding mechanisms for the side sections of the frame, characterized in that the frame is attached to the frame lowering and connected by a hydraulic cylinder fixed to the frame and connected by a rod with a groove on the bracket of the frame , and the end sections of the frame are connected to the side sections of the frame by means of longitudinal horizontal hinges with the possibility of turning them hydraulically from the working position to the transport position and vice versa, while the side and edge sections of the frame are equipped with transport wheels having a drive for transferring them to the transport or working position. The disadvantages of this technical solution are: the bulkiness of the structure, which makes it difficult to move the unit on public roads; low reliability of hinge joints; the implementation of the supporting wheels prevents the use of the unit on wet soils, and also impairs the quality of soil cultivation; the lack of a preparatory row of working bodies does not allow rough cultivation of the soil immediately after plowing; the absence of a loop in the design of the unit for finishing soil cultivation.

The task of the claimed utility model is its versatility, i.e. the ability to perform various tillage operations to improve the quality of pre-sowing soil cultivation. At the same time, the proposed technical solution will help reduce the economic costs of purchasing other tillage machines that perform similar tillage processes, but each separately.

The problem is solved by the fact that the tillage unit includes a bar connected to a frame consisting of a central section and side sections hinged to it; a beam with a towing device installed on it is attached to the stench in front; at the same time, there are spring blades on the bottom and side sections, and transport wheels are located in the lower part of the bottom, mounted on semi-axles with the possibility of adjusting the width of the transport track; roller carts with toothed strips and side wheels are installed on the side sections by means of parallelogram connecting mechanisms; front slat rollers and rear slat tandem rollers are fixed on the roller carts; in the middle part of each roller carriage there is a working body installed with the possibility of adjusting its depth, while the working body is made in the form of a replaceable string cassette with tillage elements fixed on it; on the bottom, along the perimeter and on the surface of the frame, a hydraulic system is installed, consisting of hydraulic cylinders, tubes, high-pressure hoses, hydraulic line holders, fittings and hydraulic fittings.

The essence of the proposed technical solution is illustrated by drawings, which schematically show: Fig. 1 is a general view of the tillage unit in working position, FIG. 2 - frame with a block of spring blades, Fig. 3 - roller trolley, Fig. 4 - the working body of the tillage unit.

The tillage unit (Fig. 1) is a complex structure consisting of three levels.

The first level (Fig. 2) includes the following elements: a beam (1), a frame (2), a frame with a block of spring blades, consisting of a central section (3) and side sections (4, 5) pivotally attached to it, transport wheels ( 6), side wheels (7), hydraulic system (8), spring vane unit (9), telescopic rods (10), safety rods (11).

The snitch (2) on one side is attached to the beam (1) with a towing device installed on it, which allows the power tool to be connected to the tillage unit, and on the opposite side to the central section of the frame (3). In addition, the beam has a support for storing the tillage implement in the parking lot and a pocket for installing wheel chocks. In the snitch, there are devices for fixing the side sections in the raised (transport) position, preventing their spontaneous disclosure during movement. In the lower part of the bottom there are spring blades (9) intended for primary tillage, which are transferred from the transport to the working position by means of the hydraulic system (8) and set to the required working depth.

On the sides, telescopic rods (10) are attached to the bottom, connected by the opposite end with the side sections (4, 5), designed to protect the sections during operation from excessive bending at maximum load arising from the action of friction forces. The design of the rods allows them to fold like a telescope, which is very convenient during operation, since the telescopic rods do not need to be disconnected and connected every time the tillage unit is moved from working to transport position and vice versa.

Transport wheels (6) are installed in the lower part of the frame on semi-axles, each of which has three holes for adjusting the amount of their protrusion, which allows increasing or decreasing the width of the transport track. The side wheels (7) are attached to the side sections (4, 5) and serve as additional support for them in the working position.

The second level of the tillage unit is formed by roller carts (Fig. 3), which are attached in pairs to the side sections using a parallelogram mechanism. The main task of the roller carts is crushing the soil to a given depth with maximum copying of the soil surface relief. The width of the roller carts can vary depending on the total working width of the tillage implement and can be from 1.5 to 3 meters. Roller carts are equipped with slatted rollers, while the front rollers (12) are used for preliminary crushing of soil clods with a coarse fraction, and the rear rollers (13) - for subsequent crushing of soil clods into smaller fractions. Roller carts are designed in such a way that the bulk of the tillage implement evenly acts on the slatted rollers, which makes it possible to withstand the specified depth of soil cultivation. Front and rear slatted rollers are made of steel strip and have a width equal to the width of a roller carriage, while the diameter of the front rollers is 370 mm, and they interact with the soil surface with ribs located at an angle of 5 degrees, and the diameter of the rear rollers is 250 mm, and they interact with the soil surface with ribs at an angle of 6 degrees. Unlike the front rollers, the rear rollers are tandem, i.e. installed in two rows at a distance from each other.

After processing by the second row of rear rollers at a working speed of 12-15 km / h, the crushed mass of soil is thrown in front of the first row of rear rollers and is subjected to additional separation and crushing, thus creating a fine-crumbly mulched surface layer of soil, which is then smoothed with a finishing train of working bodies in the form of a toothed strips (14). Instead of a toothed bar, it is possible to use spring harrows, which are arranged in two rows and have their own independent adjustment of both individual rows and group ones. The use of harrow harrows is most relevant when working on wet soils, since they will not create an earthen shaft in front of them and force it onto the rollers. Another advantage of using a harrow is the ability to remove weeds from the surface of the field.

The third level of the tillage unit is a working body (Fig. 4), which consists of a replaceable string cassette (15) and tillage elements (16). At the same time, the number of rows of the replaceable string cassette and the set of tillage elements can vary depending on the requirements of the technological process and the desired result.

For example, the working body can be made in the form:

- a replaceable four-string cassette with soil-cultivating elements fixed on it in the form of an S-shaped rack with a duckfoot share 175 mm long;

- replaceable three-string cassette with soil-cultivating elements fixed on it in the form of an S-shaped rack with a duckfoot share, 250 mm long;

- replaceable two-string cassette with soil-cultivating elements fixed on it in the form of an S-shaped rack with a duckfoot share 250 mm long;

- replaceable four-string cassette with soil-cultivating elements fixed on it in the form of an S-shaped rack with a loosening chisel;

- replaceable two-string cassette with soil-cultivating elements fixed on it in the form of a double curl stand with a duckfoot paw 250 mm wide;

- replaceable two-string cassette with soil-cultivating elements fixed on it in the form of a double curl rack with a chisel-shaped paw;

- replaceable two-string cassette with tilling elements fixed on it in the form of a spherical disk on elastomeric holders;

- a replaceable four-string cassette with soil-cultivating elements fixed on it in the form of spring teeth.

The work of the tillage unit is carried out as follows. First, large lumps are broken up with spring blades, then lumps of soil are crushed and crumbled by the front slatted rollers, followed by trimming of weeds and mixing of the soil by working bodies - stands or discs, then smaller lumps of soil are crushed and separated by the rear slat tandem rollers and finishing leveling the soil surface with a toothed bar in order to retain moisture and create the best conditions for the drill. These operations are carried out in one pass of the tillage unit, which combines the work of several types of cultivators, and sometimes, depending on specific soil and climatic conditions, provides an opportunity to abandon pre-sowing harrowing.

The proposed technical solution allows replacing several tillage tools with one, which is economically profitable, since the cost of purchasing additional replaceable string cassettes is significantly lower than the cost of purchasing several units of tillage equipment. The economic effect of using a tillage machine increases significantly when preparing the soil for sowing small-seeded crops such as flax, rapeseed, millet, mustard and camelina. In addition, the placement of transport wheels on the bottom allows for optimal placement of the tillage elements, which guarantees the complete absence of omissions, flaws, as well as overcompacted zones on the trail of the tillage machine.

Claims (17)

1. Tillage unit, including a bob connected to a frame consisting of a central section and side sections pivotally attached to it, characterized in that a beam with a towing device installed on it is attached to the bob in front, while on the boom and side sections there are spring blades, and in the lower part of the bottom there are transport wheels mounted on semi-axles with the possibility of adjusting the width of the transport track, and on the side sections by means of a parallelogram connecting mechanism, roller carts with toothed strips and side wheels are installed, while the front slatted rollers are fixed on the roller carts and rear slatted tandem rollers, and in the middle part of each roller carriage there is a working body installed with the possibility of adjusting its depth, while the working body is made in the form of a replaceable string cassette with tillage elements fixed on it, and on the bottom, along the perimeter and on the surface of the frame , mustache A hydraulic system has been installed, consisting of hydraulic cylinders, pipes, high-pressure hoses, hydraulic line holders, fittings and hydraulic fittings. 2. The tillage unit according to claim 1, characterized in that its design has a three-level layout: a frame, roller carts with toothed strips, working bodies. 3. The tillage unit according to claim 1, characterized in that the beam has a support for storing the tillage unit in the parking lot, as well as a pocket for installing wheel chocks. 4. The tillage unit according to claim 1, characterized in that there are devices for fixing the side sections in the raised position, preventing their spontaneous disclosure during movement. 5. The tillage unit according to claim 1, characterized in that the width of the roller carts is adjustable depending on the total working width of the tillage unit and ranges from 1.5 to 3 meters. 6. The tillage machine according to claim 1, characterized in that the front slatted and rear slatted tandem rollers have a width equal to the width of the roller carriage. 7. Tillage unit according to claim 1, characterized in that the front slatted rollers are made of steel strip, have a diameter of 370 mm and are made with the possibility of interaction with the soil surface by ribs located at an angle of 5 degrees. 8. The tillage unit according to claim 1, characterized in that the rear slatted tandem rollers are made of steel strip, have a diameter of 250 mm and are made with the possibility of interaction with the soil surface by ribs located at an angle of 6 degrees. 9. The tillage machine according to claim 1, characterized in that the rear slatted tandem rollers are installed in two rows at a distance from each other. 10. The tillage unit according to claim 1, characterized in that the working body is made in the form of a replaceable four-string cassette with tillage elements fixed on it in the form of an S-shaped rack with a lancet paw 175 mm long. 11. The tillage unit according to claim 1, characterized in that the working body is made in the form of a replaceable three-string cassette with mounted tillage elements in the form of an S-shaped rack with a duckfoot paw 250 mm long. 12. The tillage unit according to claim 1, characterized in that the working body is made in the form of a replaceable two-string cassette with tillage elements fixed on it in the form of an S-shaped rack with a duckfoot paw 250 mm long. 13. The tillage unit according to claim 1, characterized in that the working body is made in the form of a replaceable four-string cassette with the tillage elements fixed on it in the form of an S-shaped rack with a loosening chisel paw. 14. The tillage unit according to claim 1, characterized in that the working body is made in the form of a replaceable two-string cassette with tillage elements fixed on it in the form of a double curl stand with a duckfoot paw 250 mm wide. 15. The tillage unit according to claim 1, characterized in that the working body is made in the form of a replaceable two-string cassette with tillage elements fixed on it in the form of a double curl stand with a chisel-shaped paw. 16. The tillage unit according to claim 1, characterized in that the working body is made in the form of a replaceable two-string cassette with the tillage elements fixed on it in the form of a spherical disc on elastomeric holders. 17. The tillage unit according to claim 1, characterized in that the working body is made in the form of a replaceable four-string cassette with tillage elements fixed on it in the form of spring teeth.

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