RU138148U1 - HARROW DISC TRIPLE - Google Patents

Abstract

1. A three-row disk harrow containing a frame with transverse beams on which spherical disks are located by means of individual racks, while the left and right-hand disk working bodies are installed on the first row, mirrored, wrenched located relative to the longitudinal axis, and the concavity of the third row of disks is opposite to the concavity disks of the second row, and the disks of the second and third rows closest to the longitudinal axis are directed by concavities to this axis, with each row of disks equipped with a synchronous adjustment mechanism the angle of attack of the disks, containing the adjustment plate, to which the disk rotation plates in the row are rigidly connected, characterized in that the extreme disk of the third row at the processing boundary is equipped with an independent discrete adjustment of the angle of attack, consisting of a leash, one end of the synchronous mechanism connected to the adjustment plate adjusting the angle of attack of the disks, and the other end - with the level of rotation of the extreme disk; at the same time, the leash contains a hole at one end for attaching to the adjustment bar, and at the other end a group of holes for discrete adjustment of the angle of attack. 2. Three-row disc harrow according to claim 1, characterized in that the discs in each row are mounted with a working surface at an angle of attack with an increase from the first to the third row.

Description

The claimed utility model relates to agricultural machinery, in particular to three-row disc implements designed for surface tillage.

The advantage of a three-row disc harrow is that the distance between the discs, both in a row and between rows, is optimal. To compensate for the distortion of the harrow due to the lateral reaction of the soil to the disk, one of the rows is made symmetrical. Half of the disks of this row are directed by the bulge in one direction, the other half of the disks are directed by the bulge in the opposite direction.

However, balancing lateral forces on different types of soils is difficult. As a rule, three-row disc harrows have poor directional stability, that is, they are easily warped, forming blemishes.

The disadvantages of three-row disc harrows, such as poor directional stability, distortion, can be minimized by choosing the right angle of attack indicator, which depends on soil moisture and hardness.

Known disk harrow [1] according to the patent for utility model No. 83890, comprising a frame with transverse beams on which spherical disks are mounted on racks, inclined to the horizontal, rotatably, facing in a direction of movement and arranged in three rows, characterized in so that on the first row there are left- and right-turning disk working bodies that are mirrored relative to the longitudinal axis, the spherical disks of the second and third rows are oriented identically in each row, while the concavity L disks of the third row are opposite to the concavity of the disks of the second row, and the racks of the disk working bodies are made arched from spring steel and pivotally mounted on the transverse beams of the frame.

The disk harrow [1] has 3 rows of disk working bodies, but the presence of the condition “spherical disks facing concavity in the direction of movement” suggests an angle of attack of the disks of more than 45 °, which increases the energy consumption for tillage.

Disc harrow refers to the asymmetric type of guns. To exclude the drive of the disk harrow to the side and improve the quality of its work, certain conditions are required under which the specified harrow will stably maintain directional stability.

Known disk harrow according to the patent for utility model No. 99680 [2], containing a frame with transverse beams, on which, using individual racks, in three rows, spherical disks are mounted mounted on a working surface at an acute angle of attack to the direction of movement. On the first row, left- and right-turning disk working bodies are installed, mirror-wise, they are located relative to the longitudinal axis, and the concavity of the disks of the third row is opposite to the concavity of the disks of the second row, while the disks of the second and third rows closest to the longitudinal axis are directed by concavities to this axis. The technical result of the claimed utility model "Disc Harrow" [2] is to reduce energy consumption for tillage and improve the quality of the disc harrow.

A common drawback of the known technical solutions, including the prototype solution, is the unsatisfactory quality of soil cultivation due to the fact that the leftmost disk (in the direction of travel) of the third row during operation of the implement, on the convex side of which there are no more disks of this row, leaves open deep groove. If the field on this side has already been worked, the deep furrow remains open. Practically during shuttle movement, a deep furrow remains on the field after every second pass of the gun. This reduces the quality of the disc harrow.

In addition, in the well-known disk harrow [2], the angle of attack of the disks is assumed to be the same on all rows of the disk harrow, which is insufficient to reduce energy costs for tillage and high-quality tillage.

Disc harrow according to the patent for utility model No. 99680 [2] for the totality of features adopted as the closest analogue.

The technical result of the claimed utility model is to improve the quality of work of a three-row disc harrow.

The technical result is achieved by the fact that in the harrow a three-row disk containing a frame with transverse beams on which spherical disks are located by means of individual racks, while on the first row there are left- and right-wrap disk working bodies, mirror-wise, located relative to the longitudinal axis, and the concavity of the disks of the third row is opposite to the concavity of the disks of the second row, and the disks of the second and third rows closest to the longitudinal axis are directed by concavities to this axis, with each row the disk is equipped with a mechanism for synchronously adjusting the angle of attack of the disks, containing an adjustment plate with which the disk rotation plates are rigidly connected in a row, according to a utility model, the outer disk of the third row at the processing boundary is equipped with an independent discrete angle of attack (NDR) mechanism consisting of a leash, one end connected to the adjustment plate of the mechanism for synchronously adjusting the angle of attack of the disks, and the other to the level of rotation of the extreme disk; however, the leash contains at one end a hole for attachment to the adjustment bar, and at the other end a group of holes for discrete adjustment of the angle of attack.

Moreover, the disks in each row are mounted with a working surface at an angle of attack with an increase from the first to the third row.

The list of figures illustrating the claimed utility model.

FIG. 1 is a diagram of a three-row disc harrow.

FIG. 2 is a view A in FIG. 1 - diagram of the mechanism of independent discrete adjustment of the angle of attack (NDR);

FIG. 3. - diagram of the leash 2.

FIG. 4 is a section BB in FIG. one;

FIG. 5 - scheme of the disk 1.1.

The list of positions.

1 - spherical disks,

1.1 - extreme spherical disk,

2 - leash

3 - fixing bolt,

4 - a rotary level,

5 - hole mounting to the adjusting plate,

6 - mounting holes to the turntable,

7 - an adjusting lath,

8 - lanyard,

9 - frame

10 - transverse beams,

11 - individual racks,

12 - a bolt of a rotary level.

A three-row disc harrow according to a utility model (Fig. 1) contains a frame 9 with transverse beams 10, on which spherical discs 1 are arranged in individual rows 11, in three rows. On the first row are left- and right-wrap disc working bodies located relative to longitudinal axis flipped, fluttered.

The concavity of the disks of the third row is opposite to the concavity of the disks of the second row, while the disks of the second and third rows closest to the longitudinal axis are directed by concavities to this axis.

Disks 1 in each row (1st row, 2nd row, 3rd row) are mounted with a working surface at angles of attack α. They can be installed with an increase from the first to the third row.

From the prior art [3] it is known that the installation of working disks with a working surface at an angle of attack with an increase from the first to the third row, namely: α ₁ <α ₂ <α ₃ , improves the quality of the three-row disc harrow: the first row takes care of most of the load, therefore, to reduce the load on the tractor, the angle of attack of the first row is set smaller, and in the next rows increase the angles, thereby providing overlap.

The angle of attack, established with an increase from the first to the third row, makes it possible to evenly cut the soil layers and completely (by 180 degrees) turn the cropped layers. The range of adjustment of the angle of attack of the disk lies within 15 ° -25 °.

The inventive harrow contains a synchronous adjustment mechanism (CP) of the angle of attack of the disks (Fig. 2). The CP mechanism is installed on each row of discs, and contains an adjusting plate 7 connected to the lanyard 8. With the adjusting plate pivotally, by means of bolts 12, are connected the straps 4 for turning the discs 1 in a row.

The outermost disk 1.1 of the third row at the processing boundary, in particular the leftmost disk in the direction of travel, is equipped with a mechanism of independent discrete angle of attack (NDR), consisting of a lead 2, one end connected to the adjustment plate 7 of the mechanism for synchronous adjustment of the angle of attack of the disks, and the other - with a bracket 4 of rotation of the extreme disk 1.1. The leash 2 (Fig. 3) contains at one end a hole 5 for attachment to the adjustment bar 7, and at the other end a group of holes 6 for discrete adjustment of the angle of attack. The leash 2 is connected with the adjusting plate 7 and the rotary plate 4 with a bolt of the rotary plate 12 (Fig. 4).

The arrangement of holes 6.1 ... 6.n from the group of holes 6 is selected in such a way as to make step (discrete) adjustment of the angle of attack of the disk 1.1. For example, when installing bolt 3 in hole 6.1, the angle of attack of disk 1.1 may be equal to the angle of attack α of other disks in the row; when installed in the hole 6.2 - is equal, for example, α = 7 ° 30 '; when installed in the hole 6.3 α = 15 °. In this case, the angle of attack of the extreme disk 1.1 is chosen smaller than the angle of attack of the remaining disks. With a decrease in the angle of attack of the extreme left disk 1.1, its frontal projection area is reduced, i.e. the width of the processing (Fig. 5), which allows to obtain a narrower furrow and improve the quality of processing.

The work of the inventive three-row disc harrow.

At the edge of the field, the operator removes the locking device to fix the transport position, transfers the harrow from the transport position to the working position. Using the mechanism of synchronous adjustment (CP) of the angle of attack of the disks, sets a predetermined angle of attack for each row depending on the state of the soil. Each spherical disk cuts a layer of earth during operation, leaving a groove behind it, crushes and discards the excavated earth in the direction of its concavity, while sprinkling the furrows left by the front row disks and the discs of its row located on the concavity side of this disk.

The angle of attack of the leftmost disc 1.1. The third row, depending on the type of cultivated soil, is installed by fixing a fixing bolt 3 in one of the holes 6 of the lead 2. Moreover, the angle of attack of the extreme disk 1.1 is reduced in comparison with the angle of attack of the remaining disks, which reduces the width of the treatment with this disk. During operation, disc 1.1 forms an open narrow furrow. The leftmost drive 1.1. the third row, on the convex side of which there are no more disks of this row, cuts, shreds and discards enough land to sprinkle the furrows left by the disks of the front rows and the disks of its row located on the side of the concavity of this disk. At the same time, the last disk 1.1 of the last row at the boundary of the treatment leaves a shallow furrow, which practically does not stand out on the general agricultural background of the field.

Field treatment with disk harrows is usually carried out at high speeds. To eliminate flaws, gun passages are made with a slight overlap. Therefore, if the field is not processed on the side of disk 1.1, then its narrow furrow will be blocked by the next passage. If the field has already been processed on the side of disk 1.1, then this disk will go into the furrow left earlier.

Thus, the quality of tillage is improved.

The inventive three-row disc harrow is industrially applicable and can be widely used in agriculture for surface tillage under various soil conditions.

INFORMATION SOURCES.

1. Patent for utility model No. 83890 "Disk harrow" (published on June 27, 2009).

2. Patent for utility model No. 99680 “Disk harrow” (published on November 27, 2010) is the closest analogue.

3. Patent for utility model No. 129752 “Three-row disc harrow” (published July 10, 2013).

Claims (2)

1. A three-row disk harrow containing a frame with transverse beams on which spherical disks are located by means of individual racks, while the left and right-hand disk working bodies are installed on the first row, mirrored, wrenched located relative to the longitudinal axis, and the concavity of the third row of disks is opposite to the concavity disks of the second row, and the disks of the second and third rows closest to the longitudinal axis are directed by concavities to this axis, with each row of disks equipped with a synchronous adjustment mechanism the angle of attack of the disks, containing the adjustment plate, to which the disk rotation plates in the row are rigidly connected, characterized in that the extreme disk of the third row at the processing boundary is equipped with an independent discrete adjustment of the angle of attack, consisting of a leash, one end of the synchronous mechanism connected to the adjustment plate adjusting the angle of attack of the disks, and the other end - with the level of rotation of the extreme disk; however, the leash contains at one end a hole for attachment to the adjustment bar, and at the other end a group of holes for discrete adjustment of the angle of attack. 2. Three-row disc harrow according to claim 1, characterized in that the discs in each row are mounted with a working surface at an angle of attack with an increase from the first to the third row.

Images