RU126251U1 - SOIL PROCESSING WORKING BODY - Google Patents

Abstract

1. The working body of the tillage implement, containing a spring curved stand made of sheet spring steel and fixed with its upper end on the transverse beam of the frame, a disk mounted on the lower end of the stand for rotation, characterized in that the spring curved stand, rigidly fixed in the lower part to the disk, mounted on the frame with curvature facing the direction of movement, and the vertical axis of rotation of the cutting unit intersects the concave surface of the disk buried in the soil in the lower part on the surface ty of the soil, thus eliminating the flaws with the angle of attack diska.2. The working body of the tillage implement according to claim 1, characterized in that the spring curved column can have both variable and constant section. The working body of the tillage implement according to claim 1, characterized in that when adjusting the angle of attack of the disk, the amount of its capture changes. The working body of the tillage implement according to claim 1, characterized in that the lower part of the spring strut with the disc is placed at an acute angle to the direction of movement of the discs, and the bearing assembly is placed on the concave side of the disc. The working body of the tillage implement according to claim 1, characterized in that when the disc is deflected to the side, left or right, the spring curved column works not only as a spring, but also as a torsion bar.

Description

The utility model relates to agricultural engineering, and can be used in agriculture for surface tillage.

A known utility model for patent RU 68839, including C-shaped racks made of sheet spring steel and fixed with their upper ends to the transverse beams of the frame, and at the lower ends are fixed disks for rotation and a leash connected to an adjusting rod mounted for movement and fixing the angle of attack of the disks. The disadvantage of this device is the difficulty of attaching a C-shaped spring strut to the transverse beams of the frame of the tillage implement, the lack of a mechanism that eliminates flaws.

A certificate for utility model RU 88240 is known, including an arched spring steel strut with an adjustable angle of attack and placement of the bottom of the strut at an angle of 30 ... 40 degrees to the horizontal, while the cutting disc is made with a cutting edge with a variable distance from the axis of rotation. The disadvantage of this device is the uncertainty of the position of the disk relative to the ground and the lack of a mechanism that eliminates flaws.

A utility model RU 90959 is known, including a cutting unit of a disk tillage implement with an axis of rotation of the rack, which intersects the axis of rotation of the disk and is offset from the lower point of the diameter of the disk to the concave surface of the disk in such a way that it passes through the center of gravity of the track left by the disk. However, the center of gravity of the track of the disk is an indefinite concept, therefore such a device’s arrangement needs to be improved.

For the prototype we accept US patent No. 6158523, class. 172/574, 2000, which contains U-shaped racks made of sheet steel spring and fixed with their upper ends to the transverse beams of the frame, and disks are rotatable fixed to the lower ends of the U-shaped racks.

The disadvantage of this device is that its angle of attack of the disks is not adjustable, therefore, such a device cannot be adapted to fields with different agricultural backgrounds (the presence of crop residues; stubble, grass, etc.), different soil and its moisture. U-shaped racks do not allow to install the cutting disc in a predetermined position, providing a fixed position of the vertical axis of rotation of the cutting unit, there is no mechanism eliminating flaws.

The objective of the proposed utility model is the creation of the working body of a tillage implement with a fixed vertical axis of rotation of the cutting unit, eliminating flaws, with the ability to adapt to different soil conditions, the ability to adjust the angle of attack of the disks when moving from one field to another while simplifying the design of attaching a curved sheet spring strut to the transverse beam of the frame and the disk of the tillage implement.

The technical result from the use of the claimed utility model is to expand the functionality in a new universal working body of a tillage implement, eliminating flaws when changing the angle of attack of the disc, with the possibility of using it both in fields with a different agricultural background for grinding and embedding crop residues in the soil, and to overcome obstacles (stones, dense soil, hummocks), due to elastic deformations of a spring curved sheet stand, which will improve the quality brabotki soil, process reliability.

The essence of the utility model is illustrated by the drawings: figure 1 shows the working body of a tillage implement (side view); Figure 2 shows the working body of the tillage implement (front view); Figure 3 shows a diagram of the installation of the angle of attack of the disk, eliminating flaws.

The working body of the tillage implement (Fig 1.2.3) includes a leaf spring curvilinear column 1 (acde) of variable or constant cross-section, made of a leaf spring of steel with curvature facing its movement and pivotally mounted on the frame. The spring curved strut 1 in the upper part by means of a bolt 2, washers 3, 4 and nut 5 is pivotally attached to the transverse beam of the frame 6 of the tillage implement. On the upper rectilinear end of the spring curvilinear stand, a rod 9 is attached by a bolt 7 with a nut 8 to adjust the angle of attack of the disk 10. The cutting unit, including the disk 10 with the hub 11, having an arm 12, is connected to the lower end of the spring curvilinear stand on its straight portion ed by two bolts 13 with nuts 14, and installed at an acute angle α to the direction of movement of the disk. The working part of the spring curved strut cd, is mounted at a distance A from the axis of the hub 11, and the vertical axis of rotation of the cutting oo assembly is located at a distance B from the axis of the hub (Fig. 1). The fixed position of the vertical axis of rotation of the cutting oo assembly is determined by the displacement of the hub axis 11 from the oo rotation axis (size B), depending on the angle of inclination of the disk to the vertical γ, the radius of its sphere R, diameter D, and the angle of inclination of the lower part of the leaf spring strut to the direction of movement. The vertical axis of rotation of the cutting oo node intersects the concave surface of the disk buried in the soil in its lower part on the soil surface, which eliminates flaws when changing the angle of attack of the disks, improving the quality of the soil treatment. Dimensions A and B are selected so that the axis of rotation intersects when the disk 10 is buried in the soil to a predetermined depth H, point K.

To reduce the loads on the spring curved stand 1 in the area of its fastening on the bolt 2 to the frame 6 when swinging it on the axis of rotation of the cutting unit, the spring curved stand 1 rests on a substrate 15 having a protrusion (groove) for its positioning 16.

The bearing assembly (hub) 11 is located on the concave side of the disk, which reduces the likelihood of its meeting with the ground and further crushes clods of soil. The disk is mounted at an acute angle γ to the vertical (FIG. 2).

When changing the angle of attack of the disk β (Fig. 3, 3a), the disk 10 rotates without shifting to the side (left or right) relative to the vertical axis of rotation of the node of the cutting oo (point K) changing the value of its capture (the size of the treated strip on the soil surface from bmin bmax), which depends only on the diameter and radius of the sphere of the disk R. Since the disk 10 with such parameters of the axis of rotation of the cutting unit node does not shift to the side, there will be no flaws during the work of the working body of the tillage implement.

The working body of the tillage implement, including the working part of the spring cd, works as follows. When moving from one field to another, depending on the required depth of tillage and the state of the agricultural background (the presence of plant debris, moisture and soil density), the depth of treatment and the angle of attack of the disks β are established. When the machine is moving, the disk spontaneously penetrates to a predetermined processing depth H due to the set angle of attack β.

When the machine moves, the soil layer of a given size is separated from the monolith, it is shifted towards the furrow and crumbling.

When the disk 10 is hitting obstacles (dense soil, hump, pit, stone), the disk 10 moves flexibly back, up, down or to the side (left, right) due to the spring properties (elasticity) of the curved rack 1. This design reduces shock loads on bearing unit, while the disk returns to its original position, passing the ground and plant debris without clogging. The spring curved strut 1 in such conditions works not only as a spring, but also as a torsion bar, and the vibrations of the disk 10 reduce the traction resistance of the working body and improve the quality of the soil treatment.

The working body of the tillage implement can process the soil with leaf spring curved racks of both constant and variable cross-section.

The utility model will be widely used in agricultural engineering, in the production and operation of tillage implements, since a spring curved column 1, rigidly fixed in the lower part to the disk 10 and pivotally to the frame, with curvature facing the direction of movement, reduces shock loads on the hub 11 located on the concave side of the disk 10, the frame 6, the disk 10, recessed to a predetermined depth H, and a fixed position of the disk 10 eliminates flaws. Based on the foregoing, the proposed working body of the tillage implement contains a spring curved strut 1 made of sheet steel spring and fixed with its upper end to the transverse beam of the frame 6, and its lower end is connected to a disk 10 that can rotate. A significant difference from analogues of the proposed working body of the tillage implement is that the curved spring strut 1 is mounted pivotally on one bolt 2 and connected to change the angle of attack β pivotally with a transverse adjustment rod 9. The lower part of the curved spring strut 1 is placed under a sharp angle α to the horizontal, the vertical axis of rotation of the cutting oo node intersects the concave surface of the disk buried in the soil at the bottom on the soil surface, which eliminates ekhi when changing the angle of attack of the disks during the operation of a multi-row tillage machine, improving the quality of tillage.

The curvilinear spring strut 1 at the same time works not only as a spring, but also as a torsion bar, and vibration of the disc reduces traction resistance and improves the quality of soil cultivation.

Claims (5)

1. The working body of the tillage implement, containing a spring curved stand made of sheet spring steel and fixed with its upper end on the transverse beam of the frame, a disk mounted on the lower end of the stand for rotation, characterized in that the spring curved stand, rigidly fixed in the lower part to the disk, mounted on the frame with curvature facing the direction of movement, and the vertical axis of rotation of the cutting unit intersects the concave surface of the disk buried in the soil in the lower part on the surface ty of the soil, eliminating flaws when changing the angle of attack of the disc. 2. The working body of the tillage implement according to claim 1, characterized in that the spring curved column can have both variable and constant cross-section. 3. The working body of the tillage implement according to claim 1, characterized in that when adjusting the angle of attack of the disk, the magnitude of its capture changes. 4. The working body of the tillage implement according to claim 1, characterized in that the lower part of the spring strut with the disc is placed at an acute angle to the direction of movement of the discs, and the bearing assembly is placed on the concave side of the disc. 5. The working body of the tillage implement according to claim 1, characterized in that when the disc is deflected laterally, left or right, the spring curved column works not only as a spring, but also as a torsion bar.

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