RU1799959C - Bit of bull dozer agitator - Google Patents

Abstract

Usage: working bodies of earthmoving machinery for mining. Essence: protrusions 4 have a teardrop shape. The tail part of the protrusions 4 is bent upward and located on the side of the shank 1. The protrusions 4 are located vertically at a distance of O. ZZp from the rear surface 5, horizontally from the top of the working part 2 at a distance h, where h is the height of the working part. During operation, the protrusions 4 initiate artificial turbulization with the rotation of the vortices in the opposite direction of rotation of the opening laminar boundary layer. This reduces the intensity. the wear of the side surfaces 3. 2 ill.

Description

The invention relates to the mining industry and can be used to equip the working bodies of earth-moving machinery,

The purpose of the invention is to increase the durability of the side surfaces of the tool by reducing their wear rate by preventing tearing of the boundary layer and by removing high-frequency energy from the destructible array with partial wear of the tool nose.

On Fig, 1 shows the profile of the crown of the cultivator of a bulldozer; figure 2 is the same in plan.

The bulldozer ripper crown comprises a shank 1 and a wedge-shaped working part 2 formed by side surfaces 3 with longitudinal projections 4 and angled to each other with a wave-like rear surface 5 and a wave-like front surface 6, with a longitudinal protrusion 7, and longitudinal projections 4 on the side surface x 3 are made in the form of drop-shaped growths with curved tails up 8 and located in the zone of the beginning of separation of the laminar boundary layer 9.

In the process of introducing the bulldozer ripper crown with the toe of the front surface of the wedge-shaped working part 2 into the monolith of the destructible mass, a dispersed mass is formed, which starts to flow around all the working surfaces 3,5 and 6. Due to the roughness of the side surfaces 3 and the inherent laminar boundary layer 9 of the trend to natural turbulization, it begins to come off. However, longitudinal protrusions 4, made in the form of drop-shaped growths with curved tails up 8, mounted on the lateral surfaces 3 in the zone of the beginning of the separation of the laminar boundary layer 9, initiate artificial turbulence with the rotation of the vortices 10 in the direction opposite to the rotation of the tear-off laminar, boundary layer 9. Rolling on the lateral surfaces 3 with longitudinal protrusions 4, made in the form of drop-shaped growths with curved tails up, the turbulized vortices 10 from the dispersed mass due to the sufficiently high at the angular velocity, they adhere to the tear-off laminar boundary layer 9 and carry it along with them. At the same time, the separation of the boundary layer from the side surfaces is significantly reduced, which reduces the tool vibrations in the horizontal transverse plane, and therefore the tool wear is also reduced.

The described process is possible only with the installation of longitudinal protrusions 4, made in the form of drop-shaped growths with curved tails up in the zone of the beginning of separation of the laminar boundary layer 9,

the coordinates of which are determined by vertical 11, a value equal to 0.33 height 12 from the rear surface 5, and horizontally 13, a height value 12 of the toe of the wedge-shaped working part 2, deposited from the toe

tool.

If during the first period of operation of the bulldozer ripper crown, the removal of high-frequency energy from the crush zone 14, which is a natural formation in the form of a toroidal resonator, is carried out by the longitudinal protrusion of the front surface 6, then, after a certain amount of wear of the wedge-shaped working part 2, this function is taken over

longitudinal protrusions 4 of the side surfaces 3. In this case, the high-frequency energy generated due to the piezoelectric effect during shear deformations in the crush zone 14 is converted into heat without creating conditions for the growth of crystalline grains, which reduces the abrasive wear of not only the side surfaces 3 , but also the back surface 5 of the tool.

Claims (1)

The claims A bulldozer cultivator crown comprising a shank and a wedge-shaped working part formed by side surfaces with longitudinal protrusions and angled to one another with a wave-like rear surface and a wave-like front surface with a longitudinal protrusion, characterized in that, in order to increase the crown durability by reducing the wear intensity of the side surfaces, the longitudinal protrusions on the side surfaces are made drop-shaped with the tail parts bent upward, located on the side the tail of the crown, and the protrusions are located from the rear surface of the working part vertically at a distance of 0.33h, and from the top of the working part horizontally at a distance of h, where h is the height of the working parts.