RU2518454C1 - Working element for deep loosening of soil - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: working element for deep loosening of soil comprises a rack with a chisel. The rack has a width of 2.2-2.6 times less than the chisel width. On the side surface of the upper part of the rack the through mounting holes and the adjusting holes are made, located on the same vertical axis. The adjusting holes are formed under the mounting holes and are arranged in two rows opposite each other. The acute angle γ between the axis passing through the centres of the mounting hole and the adjusting hole, and the line passing through the centre of the mounting hole and the centre of the corresponding to it adjusting hole from the second row, is equal to 0° to 9°. On the side surface of the middle part of the rack the intermittent bands of wear-resistant material arranged parallel to each other and to the front surface of the middle part of the rack. The front surface of the middle part of the rack has a rounding. The end surface of the rack from the front side is made in the form of a hemisphere and comprises three rows of intermittent bands of wear-resistant material. The upper and lower surfaces of the lower part of the rack are arranged at an angle to the horizontal plane, forming a wedge shape of the nose part of the rack. The upper plane of the chisel has bands of wear-resistant material located perpendicular to the direction of movement.

EFFECT: reduction of traction resistance of deep tiller.

2 dwg

Description

The invention relates to agricultural machinery and is intended for deep loosening of re-compacted soil.

A well-known deep-ripper (RF patent No. 2110166, A01B 13/16, A01B 13/08), containing a frame with a hinged device, support wheels, a rack with two different inclined dihedral blades on the front part, a replaceable bit on its lower section and a loosening worker installed behind the rack an organ, which is made in the form of a bow of the anchor chain, the end links of which are connected by an adapter to the rack, and in the middle part of the link there are reinforced links with larger sizes than the links in the final sections of the link.

The disadvantage of this device is the increased frontal resistance of the rack in the transition zone of convergence of its variously inclined parts, which increases the traction resistance of the deep-ripper when interacting with over-compacted soil. The device is recommended for use in anti-erosion tillage, which is facilitated by the presence of the anchor chain.

The closest analogue to the claimed device relates to the working body of the deep-ripper (RF patent No. 2362286, АВВ 15/00), containing a stand with a welded arm to which a bit with a cutting plane is attached, side grooves are made in half of the bit, forming discharge windows and an additional cutting plane connected by a divider. The divider has a variable vertex angle, increasing from the beginning of the formed discharge windows and passing into the cutting plane.

The disadvantage of this device is the increase in friction of the re-compacted soil when interacting with the surface of the rack and bit, which increases the traction resistance of the deep-ripper in the direction of movement.

The objective of the invention is to reduce the traction resistance of a deep-ripper when interacting with over-compacted soil.

The problem is solved due to the fact that the working body for deep loosening of the soil, containing the stand to which the bit is attached, differs in that the stand has a width of 2.2-2.6 times less than the width of the bit, on the side surface of the upper part of the stand are made through mounting holes located on one vertical axis, and adjustment holes that are made under the mounting holes and are arranged in two rows opposite each other, with an acute angle γ between the axis passing through the centers of the mounting hole and lining hole, and a line passing through the center of the mounting hole and the center of the corresponding adjustment hole from the second row is from 0 ° to 9 °, on the side surface of the middle part of the rack there are discontinuous strips of wear-resistant material located parallel to each other and to the frontal surface of the middle part of the rack having a rounding, while its end surface on the frontal side is made in the form of a hemisphere on which three rows of discontinuous strips of wear-resistant material are made, the upper and NJ bottom surface of the rack are arranged at an angle to the horizontal plane, forming a wedge-shaped nose of the strut, wherein the top plane of the bit has a wear band material disposed perpendicularly to the direction of movement.

New significant features:

1. The stand has a width of 2.2-2.6 times less than the width of the bit.

2. On the side surface of the upper part of the rack there are made through mounting holes located on one vertical axis and adjustment holes that are made under the mounting holes and are arranged in two rows opposite each other, with an acute angle γ between the axis passing through the centers of the mounting hole and adjustment hole, and a line passing through the center of the mounting hole and the center of the corresponding adjustment hole from the second row is from 0 ° to 9 °

3. On the side surface of the middle part of the rack are made intermittent strips of wear-resistant material located parallel to each other and the frontal surface of the middle part of the rack having a rounding, while its end surface on the front side is made in the form of a hemisphere on which three rows of intermittent strips wear resistant material.

4. The upper and lower surfaces of the lower part of the rack are located at an angle to the horizontal plane, forming a wedge-shaped shape of the nose of the rack, while the upper plane of the bit has strips of wear-resistant material located perpendicular to the direction of movement.

The technical result is to reduce the traction resistance of the deep-ripper by reducing the friction of the re-compacted soil when interacting with the surface of the rack and bit in the direction of movement.

The implementation of the rack of the deep-ripper 2.2-2.6 times wider than the width of the bit reduces the frontal resistance of the rack by reducing the friction of the re-compacted soil in the direction of movement.

The implementation on the side surface of the upper part of the rack through mounting holes located on the same vertical axis and the adjustment holes made under the mounting holes and arranged in two rows opposite each other, allows you to set an acute angle γ between the axis passing through the centers of the mounting hole and the adjustment hole, and a line through the center of the mounting hole and the center of the corresponding adjustment hole from the second row, equal to from 0 ° to 9 °, which reduces traction resistance glubokoryhlitelja in the moving direction by controlling the angle of the soil crumbling depending on soil type, the depth of its processing, but also the degree of compaction.

The implementation on the side surface of the middle part of the rack of discontinuous strips of wear-resistant material located parallel to each other and the frontal surface of the middle part of the rack, which is rounded, as well as the execution of its end surface on the front side in the form of a hemisphere on which three rows of discontinuous strips of wear-resistant material are made , reduces the traction resistance of the deep-ripper by increasing the degree of loosening of the near-surface contact layer of the compacted soil by cutting and chipping particles When friction with the frontal surface of the middle part of the rack and the side surface of the rack in the direction of movement.

In this case, the streamlined shape of the end surface from the front side of the middle part of the rack, made in the form of a hemisphere, reduces the degree of interaction with re-compacted soil due to its slipping in the direction of movement.

The location of the upper and lower surfaces of the bottom of the rack at an angle to the horizontal plane, with the formation of a wedge-shaped nose of the rack, in which the upper plane of the bit has strips of wear-resistant material located perpendicular to the direction of movement, reduces the traction resistance of the ripper by reducing friction of the compacted soil and its loosening in the contact layer by interacting with the upper plane of the bit.

Figure 1 shows the rack for deep loosening of the soil with holes for attaching the bit.

Figure 2 shows the surface of the bit, on which the strips of wear-resistant material are located perpendicular to the direction of movement: a) is a side view; b) - top view.

The working body for deep loosening of the soil contains a stand 1, to which the bit 2 is attached. The stand 1 has a width h of 2.2-2.6 times less than the width H of the bit 2. Through holes 5 are made on the side surface 3 of the upper part 4 of the rack 1 located on one vertical axis OO ′, and the adjustment holes 6, which are made under the mounting holes 5 and are arranged in two rows opposite each other. In this case, the acute angle γ between the axis passing through the centers of the mounting hole 5 and the adjustment hole 6, and the line passing through the center of the mounting hole 5 and the center of the corresponding adjustment hole 6 from the second row, is from 0 ° to 9 °. On the side surface 7 of the middle part 8 of the rack 1, discontinuous strips 9 are made of wear-resistant material located parallel to each other and the frontal surface 10 of the middle part 8 of the rack 1 having a curve R. Moreover, its end surface from the front side 10 is made in the form of a hemisphere, on which made three rows of discontinuous strips 11 of wear-resistant material. The upper 12 and lower 13 surfaces of the lower part 14 of the rack 1 are located respectively at an angle β and φ to the horizontal plane 15, forming a wedge-shaped nose of the rack 1. In this case, the upper plane of the bit 2 has strips 16 of wear-resistant material located perpendicular to the direction of movement V _dv .

The bit 2 is attached to the rack 1 with bolts (not shown) by aligning the holes 17 on the bottom 4 of the rack 1 and the holes 18 located below the bit 2.

The working body for deep loosening works as follows.

To change the depth of loosening the soil, it is necessary to combine the center of one of the mounting holes 5 by lifting the rack 1 along the vertical axis O-O ′.

To change the angle β of crumbling soil, it is necessary to establish the centers of one of the mounting holes 5 and two adjustment holes 6 with the formation of an acute angle γ from 0 ° to 9 °.

The implementation of the rack 1 of the deep ripper with a width h of 2.2-2.6 times less than the width H of the bit 2 reduces the drag of the rack 1 by reducing the friction of the re-compacted soil in the direction of movement V _dv .

The execution on the side surface 3 of the upper part 4 of the rack 1 of through mounting holes 5 located on the same vertical axis OO ′ and adjustment holes 6, made under the mounting holes 5 and arranged in two rows opposite each other, allows you to set an acute angle γ between the axis, passing through the centers of the mounting hole 5 and the adjustment hole 6, and a line passing through the center of the mounting hole 5 and the center of the corresponding adjustment hole 6 from the second row, equal from 0 ° to 9 °, which reduces traction glubokoryhlitelja resistance in the direction of travel V _dd by adjusting the angle of the soil crumbling depending on soil type, the depth of its processing, but also the degree of compaction.

The implementation on the side surface 7 of the middle part 8 of the rack 1 of discontinuous strips 9 of wear-resistant material parallel to each other and the frontal surface 10 of the middle part 8 of the rack 1 having a curve R, as well as the execution of its end surface from the front side 10 in the form of a hemisphere, on which is made of three rows of discontinuous strips 11 of wear-resistant material, reduces the traction resistance of the deep-ripper by increasing the degree of loosening of the near-surface contact layer of re-compacted soil by cutting and shearing of particle by friction with the front surface of the middle part 8 of the rack 1 and the side surface 7 of the rack 1 in the direction of movement V _dd.

In this case, the streamlined shape of the end surface from the frontal side 10 of the middle part 8 of the rack 1, made in the form of a hemisphere, reduces the degree of interaction with the re-compacted soil due to its slipping in the direction of movement of the V _engine .

The location of the upper 12 and lower 13 surfaces of the lower 14 of the rack 1, respectively, at an angle β and φ to the horizontal plane 15, with the formation of a wedge-shaped nose of the rack 1, in which the upper plane of the bit 2 has strips 16 of wear-resistant material, located perpendicular to the direction of movement V _dv , reduces the traction resistance of the deep-ripper by reducing the friction of the re-compacted soil and its loosening in the contact layer by interacting with the upper plane of the bit 2.

The proposed device allows to reduce the traction resistance of the deep-ripper by reducing friction of the surface of the rack 1 and the bit 2 with re-compacted soil in the direction of movement of V _engine .

Claims (1)

The working body for deep loosening of the soil, containing a stand, to which a bit is attached, characterized in that the stand has a width of 2.2-2.6 times less than the width of the bit, through the mounting holes are located on the side surface of the upper part of the stand, located on one vertical axis, and adjustment holes that are made under the mounting holes and are arranged in two rows opposite each other, with an acute angle γ between the axis passing through the centers of the mounting hole and the adjustment hole, and the line passing through the center of the mounting hole and the center of the corresponding adjustment from the second row, it is from 0 ° to 9 °, on the side surface of the middle part of the rack there are discontinuous strips of wear-resistant material located parallel to each other and the frontal surface of the middle part of the rack, having a rounding, its front surface on the front side is made in the form of a hemisphere on which three rows of discontinuous strips of wear-resistant material are made, the upper and lower surfaces of the lower part of the rack are located scrap to a horizontal plane, forming a wedge-shaped nose of the strut, the upper bit plane has a strip of wear-resistant material, arranged perpendicularly to the direction of movement.

Images