UA113162U - DISPLAY OF THE DISC WORKING BODY OF THE SOIL TREATMENT UNIT - Google Patents

Abstract

The rack of the disk working body of the tillage unit is made in the form of a spatial structure having a curvilinear shape, formed by straight and radius sections of the rack, sequentially located from the place of installation on the frame of the tillage unit to the place of installation of the bearing. The shape of the rack is formed in series by the first straight section, the first radial section tangent to the first straight section, rounded in the form of an arc of a circle with a radius of 80% to 120% of the length of the first straight section, the second radial section, tangent to the first circle in the form of an arc of a circle with a radius of 180% to 220% of the radius of the first radius section, forming its upper arcuate spring part and forming a plane for mounting on the frame, and the second straight section tangent to the second radius d sockets forming its lower part and forming a plane for mounting the bearing assembly. The first radial section and the second radial section are located in front of the first straight section relative to the direction of movement of the tillage unit forward. The end of the second straight section is located behind the first straight section relative to the direction of movement of the tillage unit forward. Both ends of the stand have a distance from each other in the range of 200-250% of the radius of the second radius, the angle of inclination between the first straight section and the second straight section is in the range of 50-70 °. The end of the second straight section is offset relative to the first straight line by a distance not greater than the sum of the radii of the first radius section and the second radius section.

Description

The utility model belongs to agricultural engineering, in particular to soil tillage units for loosening and grinding the soil, containing disk working bodies mounted on a spring rack, and specifically to the structure of the rack of the disk working body of the soil tillage unit.

For the spring racks of tillage units containing disk working bodies, it is important to ensure their optimal stiffness, because excessive or insufficient stiffness can lead to a deterioration of their elastic properties, which ensure the quality of soil treatment and copying of field irregularities, including overcoming obstacles, and, as a final result, to the failure of racks and disc working bodies.

From patents (patent of Ukraine for a utility model Mo 71281, publ. 10.07.2012, bull. Mo 13, IPC

AO18 23/00; patent of Ukraine for utility model Mo 83639, publ. 25.09.2013, Bull. Mo 18, IPC

А0О18 21/00) known are the spring rack of the disc working body of the soil tillage unit and the soil tillage unit containing the disc working bodies, mounted on an elastic rack made in the form of a spatial structure having a curvilinear shape, formed by straight and radial sections of the rack, sequentially located from the place installation on the frame of the tillage unit to the place of installation of the disk working body.

The elastic rack of this design has a complex spatially curved shape, which makes its manufacture relatively technologically difficult. Also, the disadvantage of the racks of the disk working body of this type of tillage unit is that they have insufficient rigidity in the horizontal plane, which leads to unsatisfactory quality of tillage.

From patents (patent of the Russian Federation for a utility model Mo 83890, publ. 27.06.2009, Bull. Mo 18, IPC AO18 21/08, patent of the Russian Federation for a utility model Mo 88240, publ. 10.11.2009, bull. Mo 31, IPC АО1В 21/08, patent of the Russian Federation for a utility model Mo 126251, published 03/27/2013, Bull. Mo 9, IPC АО1В 21/00) are known tillage units containing disk working bodies mounted on a spring rack made in the form of a spatial a structure having a curvilinear shape, formed by straight and radial sections of the rack, sequentially located from the place of installation on the frame of the tillage unit to the place of installation of the disk working body.

In the mentioned patents, the spring rack is attached under the frame of the tillage unit, and its arc-shaped elastic part faces the direction of its movement.

The disadvantage of the racks of the disk working body of the tillage unit of this design is that the spring racks used in their design have excessive stiffness in the direction of movement, which worsens the tillage properties of the tillage unit, in particular leads to high energy consumption during its operation, does not allow to ensure sufficient quality of work and copying field irregularities. Also, the relatively low reliability of the rack under significant shock loads can be attributed to the disadvantages, which can lead to the breakdown of the racks and disc working bodies during operation.

The closest in terms of technical essence to the one claimed is the rack of the disk working body of the soil tillage unit (patent of Ukraine for a utility model Mo 58616, publ. 04.26.2011, bull. Mo 8, IPK АО1В 21/00, АО1В 21/08, АО1В 23/00, АО1В 61/00) is made in the form of a spatial structure that has a curvilinear shape, formed by straight and radial sections of the rack, sequentially located from the place of installation on the frame of the tillage unit to the place of installation of the bearing assembly of the disk working body.

The disadvantage of the well-known rack of the disc working body of the tillage unit is its significant stiffness when deflected back relative to the direction of movement of the tillage unit, especially when working on heavy and stony soils. This shortcoming is due to the non-optimal shape of the rack, and can lead to failure (breakage) of the racks and disc working bodies.

The basis of a useful model is the task of ensuring optimal rigidity of the rack due to optimization of its shape, which makes it possible to simultaneously ensure the quality of work and copying of field irregularities, including overcoming obstacles, thereby increasing its operational reliability and minimizing the possibility of failure (breakdown).

Another purpose of the useful model is to ensure high manufacturability of the rack of the disk working body of the tillage unit.

The task is solved by the fact that in the rack of the disk working body of the tillage unit, made in the form of a spatial structure having a curvilinear shape, formed by straight and radial sections of the rack, sequentially located from the place of installation on the frame of the tillage unit to the place of installation of the bearing assembly of the disc working unit, according to a useful model, the shape of the rack is formed by the first straight section located in series 60, the first radial section tangent to the first straight section, rounded in the form of an arc of a circle with a radius of 80 95 to 120 95 from the length of the first straight section, the second radial section tangent to of the first radius section, rounded in the form of an arc of a circle with a radius of 180 95 to 220 95 from the radius of the first radius section, which form its upper arc-shaped spring part and form a plane for installation on the frame, and a second straight section, tangent to the second radius section, which form its lower part and front plane for installing the bearing assembly, the first radius section and the second radius section are located in front of the first straight section relative to the forward movement direction of the tillage unit, the end of the second straight section is located behind the first straight section relative to the forward movement direction of the soil tillage unit, the two ends of the strut are spaced from each other in the range of 200-250 95 from the radius of the second radius section, the angle of inclination between the first straight section and the second straight section is in the range of 50-70", the end of the second straight section is shifted relative to the first straight section normal to it by a distance not greater than the sum of the radii of the first radius section and the second radius section.

An embodiment is possible, in which the first radius section and the second radius section have equal distances from the first straight section to the center of the circle of the first radius section and the second radius section.

It is expedient when the first straight section and the second straight section are made with the possibility of fastening, directly or through a connecting element, the first straight section to the frame of the tillage unit and the second straight section to the bearing unit of the disc working body.

The preferred version of the rack of the disk working body of the tillage unit is one in which at least two holes for fastening are made at the end of the first straight section and the end of the second straight section.

It is possible to attach it to the bearing unit of the disk working body located on the inner concave side of the disk of the disk working body.

The preferred option of use is the one in which the rack is fixed to the bearing unit of the disc working body, located on the inner concave side of the disk of the disc working body.

The preferred variant of execution is the one in which the rack is made in the form of a spring strip with rounded edges, made of elastic material, preferably spring steel.

It is expedient when the rack is made elastic in the direction of movement of the tillage unit forward, in the vertical and horizontal directions, with the possibility of ensuring oscillations of the disk working body.

Due to the fact that the shape of the rack is formed by the sequentially located first straight section, the first radial section tangent to the first straight section, rounded in the form of an arc of a circle with a radius from 80 95 to 120 95 from the length of the first straight section, the second radial section tangent to the first radial section a section rounded in the form of an arc of a circle with a radius from 180 95 to 220 95 from the radius of the first radius section, which form its upper arc-shaped spring part and form a plane for installation on the frame, and a second straight section, tangent to the second radius section, which form it the lower part and form a plane for installing the bearing unit, the first radius section and the second radius section are located in front of the first straight section relative to the forward movement direction of the soil tillage unit, the end of the second straight section is located behind the first straight section relative to the forward movement direction of the soil tillage unit, both ends of the strut have a distance one from the other in diap zones 200-250 95 from the radius of the second radial section, the angle of inclination between the first straight section and the second straight section is in the range of 50-707, the end of the second straight section is shifted relative to the first straight section to it along the normal by a distance not greater than the sum of the radii of the first radial section section and the second radius section, optimization of the shape of the rack is ensured from the point of view of elastic deformation of the rack during operation, optimal stiffness of the rack is achieved, such that the stress concentration in it does not exceed permissible values, which, in turn, helps to avoid failure (breakage) racks

Due to the performance of the rack of the described form, the amplitude of the rack's oscillations and its vibration during operation caused by the traction resistance of the tillage unit is also ensured, which, in turn, reduces the resistance of the soil and, accordingly, contributes to the growth of the productivity of the tillage unit as a whole.

The implementation of the technical solution does not require a significant change in the usual technology of manufacturing elastic racks or the use of a complex technological process in their manufacture due to the fact that the rack has a bend in only one plane, and its cross-section along the entire length is constant.

A useful model is illustrated by drawings, where in fig. 1 - rack of the disk working body, in fig. 2 - general view of the disc working body installed on the frame on the rack.

The rack of the disc working body of the tillage unit is made in the form of a spatial structure having a curvilinear shape, formed by the straight sections of the rack 1 and 4, and the radial sections of the rack 2 and 3, located sequentially from the place of installation 5 on the frame 6 of the tillage unit to the place of installation 7 on the bearing node 8 of the disk working body 9.

The shape of the rack is formed by the sequentially located first straight section 1, the first radial section 2, tangent to the first straight section 1, rounded in the form of an arc of a circle with a radius from 80 95 to 120 95 from the length of the first straight section 1, the second radial section 3, tangent to the first radius section 2, rounded in the form of an arc of a circle with a radius of 180 95 to 220 95 from the radius of the first radius section 2, which form its upper arc-shaped spring part 10 and form a plane for installation on the frame 6, and a second straight section 4, tangent to the second of the radius section C, which form its lower part 11 and form a plane for installing the bearing assembly 8 of the disk working body 9.

The first radius section 2 and the second radius section Z are located in front of the first straight section 1 relative to the forward movement direction of the tillage unit, the end 12 of the second straight section 4 is located behind the first straight section 1 relative to the forward movement direction of the soil tillage unit, both ends 12 and 13 of the rack have a distance I one from the other in the range of 200-250 95 from the radius of the second radius section 3.

The angle of inclination between the first straight section 1 and the second straight section 4 is in the range of 50-70".

The end 12 of the second straight section 4 is offset relative to the first straight line to it along the normal by a distance not greater than the sum of the radii of the first radius section 2 and the second radius section 3.

The first radius section 2 and the second radius section C have equal distances from the first straight section 1 to the center of the circle of the first radius section 2 and the second radius section 3.

The rack is attached directly or through a connecting element, with the help of fastening elements, for example bolts, with one end of the rack 13 to the rear vertical wall of the beam of the frame b of the tillage unit, and with the other end of the rack 12 to the housing of the bearing assembly 8

From the disk working body 9, for which at least two mounting holes are made at the end 13 of the first straight section 1 and the end 12 of the second straight section 4.

The upper arc-shaped spring part 10 of the rack is located above the frame 6 of the tillage unit, facing forward in the direction of movement of the tillage unit, and the mounting plane is installed on the frame 6 of the tillage unit. The lower part 11 of the rack is mounted on the bearing unit 8 of the disk working body 9 with a plane for attachment.

The rack is made by bending a spring strip with rounded edges made of spring steel with a width of 90 mm and a thickness of 14 mm.

Preferably, such a stand is intended for use with a disk working body 9 with a diameter of 566 mm.

The rack of the disc working body of the tillage unit works as follows.

The disk working body 9 of the tillage unit, rotating in the bearing assembly 8 and sinking into the ground, perceives the load and transmits it through the lower part 11 of the rack to the upper arc-shaped spring part 10 of the rack, and then to the frame 6 of the tillage unit, on which it is mounted.

In the process of tilling the soil, during the translational working movement, the tillage unit carries out tillage operations, simultaneously making oscillations in the vertical and horizontal planes.

Due to its elastic properties, the rack performs a complex oscillating movement, which includes movement in the direction opposite to the forward movement of the tillage unit, in the vertical and horizontal directions (lateral oscillations), which ensures grinding of the soil, reducing the traction resistance of the tillage unit, and reducing the shock load on the bearing unit 8 disc working body 9.

When the tillage unit meets an obstacle, in particular, areas of the soil with variable relief (for example, a pit, a ledge) or a solid inclusion in the soil (for example, stones, compacted soil, dense lumps), the rack due to its elastic properties prevents damage to the disk working body 9 and extinguishes shock loads on the bearing assembly 8 of the disc working body 9 and on the frame 6 of the soil tillage unit, ensuring displacement of the disc working body 9 back, up, down or to the side (left, right).

In addition, the oscillation (vibration) of the rack of the disc working body 9 leads to a decrease in soil sticking and clogging with plant residues of the disc working body 9, the rack itself, and the tillage unit as a whole, contributes to its self-cleaning from them, and to reducing the load on the bearing unit 8 of the disc working body body 9.

The described technical solution has been researched, modeled, tested and practically used in the manufacture of tillage units for loosening and grinding the soil, containing disc working bodies mounted on a spring rack.

Claims (7)

USEFUL MODEL FORMULA 1. The rack of the disk working body of the tillage unit, made in the form of a spatial structure having a curvilinear shape, formed by straight and radial sections of the rack, sequentially located from the place of installation on the frame of the tillage unit to the place of installation of the bearing assembly of the disc working unit, which is distinguished by the fact that the shape of the rack is formed by the sequentially located first straight section, the first radial section tangent to the first straight section, rounded in the form of an arc of a circle with a radius from 80 95 to 120 95 from the length of the first straight section, the second radial section tangent to the first radial section, rounded in in the form of an arc of a circle with a radius from 180 95 to 220 95 from the radius of the first radius section, which form its upper arc-shaped spring part and form a plane for installation on the frame, and a second straight section, tangent to the second radius section, which form its lower part and form a plane for installing bearings of the node, the first radius section and the second radius section are located in front of the first straight section relative to the forward movement direction of the tillage unit, the end of the second straight section is located behind the first straight section relative to the forward movement direction of the soil tillage unit, the two ends of the rack have a distance from each other in the range of 200- 250 90 from the radius of the second radial section, the angle of inclination between the first straight section and the second straight section is in the range of 50-70", the end of the second straight section is offset relative to the first straight line normal to it by a distance not greater than the sum of the radii of the first radial section and of the second radius section. 2. Rack according to claim 1, which differs in that the first radius section and the second radius section have equal distances from the first straight section to the center of the circle of the first radius section and З0 of the second radius section. C. The rack according to claim 1 or claim 2, which differs in that the first straight section and the second straight section are made with the possibility of fastening, directly or through a connecting element, the first straight section to the frame of the tillage unit and the second straight section to the bearing unit of the disc working body 4. The stand according to claim 3, which is characterized by the fact that at least two mounting holes are made at the end of the first straight section and the end of the second straight section. 5. The rack according to item 3 or claim 4, which is characterized by the fact that it is fixed to the bearing unit of the disk working body located on the inner concave side of the disk of the disk working body. 6. A rack according to any of claims 1-5, which is characterized by the fact that it is made in the form of a spring strip with rounded edges, made of elastic material, preferably spring steel. 7. The rack according to point b, which is distinguished by the fact that it is made elastic in the direction of movement of the tillage unit forward, in the vertical and horizontal directions, with the possibility of ensuring the oscillation of the disk working body.