RU174407U1 - Plow body - Google Patents

Abstract

The utility model relates to the field of agricultural engineering, namely to the working bodies for tillage with a turnover of the reservoir. The plow body contains a stand, on which a ploughshare with a laid-on revolving bit and a blade are fixed, on the front working surface of which is deposited with wear-resistant filler material in the form of individual rollers with a layer thickness of 2-4 mm, located at a distance from each other in the direction of movement. New is that wear-resistant filler material is deposited from the cutting edge of the share and the cutting edge of the bit in the form of arcuate rollers parallel to each other, the radius of curvature of the rollers deposited on the surface of the share does not exceed the width of the share, and the radius of curvature of the rollers deposited on the surface of the bit does not exceed the width bits, while the centers of curvature of the arcuate rollers are located on the cutting edge of the share and the cutting edges of the working surface of the revolving bit, the distance between adjacent arcuate in faces on the surface of the share and the bit does not exceed 3 times the width of the deposited layer, the annular rollers of wear-resistant filler material are located around the mounting holes of the reverse bit, the share and the blade, while on both sides of the mounting holes of the bit along the edge of its front surface at an equal distance to each other from each other, two rows of ring rollers are symmetrically located with overlapping in the direction of movement. The utility model allows to reduce the wear rate of the working surfaces of the plow body in the areas of greatest friction intensity. 2 ill.

Description

The utility model relates to the field of agricultural engineering, namely to the working bodies for tillage with a turnover of the reservoir.

Known plow body, on the stand of which a ploughshare, blade and field board are fixed, the working surface of which in the zone of the highest specific pressure of the soil undergoes accelerated wear (G.N. Sineokov, I.M. Panov. Theory and calculation of tillage machines. M .: Engineering 1977, pp. 18-20).

A disadvantage of the known plow body is the high wear rate of the working surface of the ploughshare, the surface of the chest of the blade and the field board in the areas of greatest friction intensity, which increases its traction resistance and reduces its resource.

The plow body is known (RF Patent No. 2169998, MKI A01B 15/00, 2000), including a stand, a ploughshare, a blade and a replaceable sock, which is made with a frontal conical surface and is equipped with a chisel having two external conical surfaces connected to each other, one of which is conjugated to the conical surface of the toe, and the other on the end part of the bit is inclined to the first so that its generatrix lying in the vertical plane of symmetry of the cone makes an angle of 18-35 ° with the horizontal, and t erdosplavnym element, which increases the degree of crumbling of the soil in the longitudinal and transverse directions.

A disadvantage of the known plow body is the high wear rate of the working surface of the ploughshare, blade and field board in areas of greatest friction intensity.

The closest in technical essence to the claimed utility model is the plow body selected as a prototype, on the stand of which a blade, ploughshare and field board are fixed, and on the rear side of the ploughshare to be surfaced with a carbide element, on the front surface of the ploughshare toe and chest of the blade adjacent to sections of the wear-resistant additive material are located on the lateral working surface of the middle part of the field board and the heel surface with overlapping and offset from each other in the direction of movement rial in the form of annular and / or oval rollers with a layer thickness of 2-4 mm, the distance between adjacent annular and / or oval rollers is set to at least double the width of the deposited layer, while on the front surface of the share at an angle of 52 ° to its cutting edge at the same a distance from each other equal to 1 / 8-1 / 10 of the length of the cutting edge of the share, after wearing the share in the direction of movement, there are rectilinear rollers of wear-resistant filler material with a length of not more than half the width of the share, and on the surface of the field edge and lower support on the surface of the field board at a distance from each other with overlapping in the direction of movement are points of wear-resistant filler material (Patent for PM. No. 1452729, IPC А01В 15/06, 2014).

A disadvantage of the known plow body is the high wear rate of the working surface of the share having a replaceable bit and the working surface of the blade in areas of greatest friction with compacted soil.

The technical task of the utility model is to reduce the wear rate of the working surface of the share and the working surface of the blade in the areas of greatest friction with compacted soil.

ширины лемеха, а радиус закругления валиков, наплавленных на поверхности долота, не превышает

ширины долота, при этом центры закругления дугообразных валиков расположены на режущей кромке лемеха и режущих кромках рабочей поверхности оборотного долота, расстояние между соседними дугообразными валиками на поверхности лемеха и долота не превышает 3-кратной ширины наплавленного слоя, кольцевые валики износостойкого присадочного материала расположены вокруг крепежных отверстий оборотного долота, лемеха и отвала, при этом с двух сторон от крепежных отверстий долота по краю его лицевой поверхности на равном расстоянии друг от друга симметрично расположены два ряда кольцевых валиков с перекрытием в направлении движения.The task is achieved by the fact that the plow body, containing a stand, on which a ploughshare with an overhead working bit and a blade is fixed, on the front working surface of which is deposited with wear-resistant filler material in the form of individual rollers with a layer thickness of 2-4 mm, spaced apart from each other in the direction of movement, according to the utility model, wear-resistant filler material is applied from the cutting edge of the share and the cutting edge of the bit in the form of arcuate rollers parallel to each other, the radius is rounded ia rollers deposited on the surface of the share does not exceed

share width, and the radius of curvature of the rollers deposited on the surface of the bit does not exceed

the width of the bit, while the centers of curvature of the arcuate rollers are located on the cutting edge of the ploughshare and the cutting edges of the working surface of the revolving bit, the distance between adjacent arcuate rollers on the surface of the ploughshare and bit does not exceed 3 times the width of the deposited layer, the annular rollers of wear-resistant filler material are located around the mounting holes a reverse bit, a ploughshare and a blade, while on both sides of the mounting holes of the bit along the edge of its front surface at an equal distance from each other symmetrically arranged two rows of annular rollers with overlapping in the direction of movement.

The technical result of the utility model is to reduce the wear rate of the working surfaces of the plow body in the areas of greatest friction due to loosening and lowering the density of the contact layer of the soil when interacting with the surface of a wear-resistant additive material in the direction of movement.

The utility model is illustrated by drawings.

In FIG. 1 shows the location of the wear-resistant filler material in the form of arcuate rollers in the zone of greatest friction intensity of the working surface of the share and the location of the ring rollers; in FIG. 2 - the location of the arcuate and annular rollers of wear-resistant filler material deposited on the working surface of the bit.

The plow body contains a stand (not shown), on which a ploughshare 1 is fixed, an overhead revolving bit 2 and a blade 3.

ширины b1 лемеха 1.Wear-resistant filler material from the cutting edge 4 of the share 1 and from the cutting edges 5 of the bit 2 in the form of arcuate rollers 6 parallel to each other 6 of a layer thickness of 2-4 mm, with a radius r1 of curvature of the arcuate rollers 6 is applied to the working surface of the share 1 and the overhead bit 2; on the surface of the share 1 does not exceed

width b1 share 1.

ширины b2 долота 2. Центры О1 закругления дугообразных валиков 6 расположены на режущей кромке 4 лемеха 1. Центры О2 закругления дугообразных валиков 7 расположены на режущих кромок 5 долота 2. Расстояние S между соседними дугообразными валиками 6 и соседними дугообразными валиками 7 не превышает 3-кратной ширины В наплавленного слоя.The radius r2 of curvature of the arcuate rollers 7 on the surface of the bit 2 does not exceed

width b2 of the bit 2. The centers O1 of curvature of the arcuate rollers 6 are located on the cutting edge 4 of the share 1. The centers O2 of the curvature of the arcuate rollers 7 are located on the cutting edges 5 of the bit 2. The distance S between adjacent arcuate rollers 6 and adjacent arcuate rollers 7 does not exceed 3 times Width In the weld layer.

Ring rollers 8 of wear-resistant filler material are located around the mounting holes 9 on the front surface of the working bit 2, around the mounting holes 10 of the share 1 and around the mounting holes 11 of the working surface of the blade 3. On both sides of the mounting holes 9 of the working bit 2 along the edge of its front surface on equal to the distance T from each other, two rows of annular rollers 12 are symmetrically located with overlapping in the direction of movement V.

The implementation of the working surface of the plow body with the proposed layout of the rollers of the wear-resistant additive material in the areas of greatest friction intensity increases the rate of loosening of the near-surface contact layer of the soil by braking, crushing and chipping of particles at voltages exceeding the tensile strength of the compacted soil with a decrease in the mechanical effect on the base metal and the wear rate the working surface along the width of the share, the thickness of the bit and the thickness of the blade.

The deposition areas of wear-resistant filler material in the form of arcuate and annular rollers with a layer thickness of 2-4 mm provide the necessary depth of loosening of the contact soil layer, sufficient to reduce the density and cohesion of the soil in the zone of greatest friction of the working surfaces of the plow body in the direction of movement.

As a result of impact interaction with the surface of the wear-resistant additive material at the applied soil cultivation speeds, the particles of the contact layer of the soil are braked, crushed and chipped in the direction of movement, which reduces its density and the wear rate of the working surfaces of the plow body in the zones of greatest friction intensity with the formation of stagnant soil zones inside and outside ring and oval rollers.

In this case, the less cohesive particles of the contact layer of the soil make mixed relative motion, including sliding, rolling, rotating and rolling the particles in the direction of motion, which reduces the mechanical effect of the active soil layer on the base metal and reduces its wear rate.

The implementation of the arcuate rollers of wear-resistant filler material from the cutting edge of the share and the cutting edges of the reverse bit increases the amount of crushing and chipping of the particles of the contact layer of the soil in the direction of movement while ensuring self-sharpening the cutting edge of the share and the cutting edges of the reverse bit between adjacent arcuate rollers.

The plow body works as follows.

When introduced into the soil, a share 1 with a patch bit 2 cut the layer of compacted soil to the required depth. The soil layer moving along the front working surface of the share 1 of the overhead bit 2 and the blade 3 in the direction of movement V interacts with the surface of the arcuate rollers 6 and 7 of the wear-resistant filler material and the surface of the ring rollers 8 and 12 with a layer thickness of 2-4 mm. Loosening of the near-surface contact layer of the soil under conditions of impact interaction of the contact layer of the soil with the surface of the deposited rollers 6, 7, 8 and 12 under the action of the forces of the dynamic pressure of the soil layer helps to reduce the density and cohesion of the soil in the active friction zone of the working surface of the ploughshare 1 with an extension bit 2 and the friction zone of the working surface of the blade 3 in the direction of movement V.

The formation of a layer of stagnant soil between adjacent arcuate rollers 6 and adjacent arcuate rollers 7 and zones 13 and 14 of stable self-sharpening of the cutting edges 4 and 5 between adjacent arcuate rollers 6 and adjacent arcuate rollers 7 with the formation of waviness of the cutting edges 4 and 5 reduces the wear rate of the soil cutting surface of the ploughshare 1 and bits 2.

The decrease in the wear rate of the front surface of the blade 3 and ploughshare 1 with the overhead bit 2, including the wing (not shown) and the chest of the blade 15, is achieved by reducing the density of the surface contact layer of the soil as a result of the interaction with the surface of the wear-resistant filler material of the arcuate rollers 6 and 7 and ring rollers 8 and 12 in the direction of movement V.

The utility model allows to reduce the wear rate of the working surfaces of the plow body in the areas of greatest friction due to loosening and lowering the density of the surface active soil layer with uniform depth of the working surface of the ploughshare 1 and bit 2 when processing compacted soil.

Claims (1)

The plow body, comprising a stand, on which a ploughshare is mounted with an overlaid revolving bit and a blade, on the front working surface of which is surfaced with wear-resistant filler material in the form of individual rollers with a layer thickness of 2-4 mm, located at a distance from each other in the direction of movement, different the fact that wear-resistant filler material is deposited from the cutting edge of the share and the cutting edge of the bit in the form of arcuate rollers parallel to each other, the radius of curvature of the rollers deposited on the surface of the share, n exceeds

share width, and the radius of curvature of the rollers deposited on the surface of the bit does not exceed

the width of the bit, while the centers of curvature of the arcuate rollers are located on the cutting edge of the ploughshare and the cutting edges of the working surface of the revolving bit, the distance between adjacent arcuate rollers on the surface of the ploughshare and bit does not exceed 3 times the width of the deposited layer, the ring rollers of wear-resistant filler material are located around the mounting holes a reverse bit, a ploughshare and a blade, while on both sides of the mounting holes of the bit along the edge of its front surface at an equal distance from each other symmetrically arranged two rows of annular rollers with overlapping in the direction of movement.

Images