SU739193A1 - Working implement of rotary excavator - Google Patents

Description

(54) WORKING ORGAP ROTARY EXCAVATOR

I

The invention relates to devices for excavating and moving soil, in particular, to the construction of an excavator worker.

A tool for laying a channel 15 is known, which includes a drive and a rotary working opal gan in the shape of a truncated cone with blades mounted on its large base for ejection of soil and equipped with cutting elements 1.

The blades for the ejection of soil in the Hades of angular plates with plate knives Yu are set at an angle to the axis of rotation of the rotor and emit soil from the channel torn off by the cutting elements.

The disadvantage of this design of the working body is that the plane transporting the cut soil to the point of release does not ensure the complete ejection of the soil, and an increase in the number of revolutions of the working body causes its dynamic overloads and an increase in the energy intensity of the soil discharge.

Known rotary working body of the excavator, including rotors mounted on the frame inclined relative to the longitudinal axis of the machine, one of which is made

auxiliary, and the other in the form of a truncated cone with cutting elements mounted on its circumference, and from the larger base of the outflow vanes with cutting elements 2.

The disadvantage of this working body is that it cannot ensure the cleaning of the canal without spilling the soil to the bottom of the trench.

The purpose of this invention is to increase the productivity of the working body by reducing the spillage of soil on the bottom of the trench.

The goal is achieved by the fact that the larger base of the truncated rotor cone is made with soil chambers formed by transverse partitions installed between the bases of the truncated cone, while the larger base of the cone is equipped with additional soil-emitting blades set at an angle to the rotor radius and placed between the soil chambers , and on the transverse partitions there are fastened blades emitting soil, which are installed along the course of the rotor rotation.

FIG. 1 shows a general view of a two-rotor working body of an excavator; in fig. 2 - rotor with soil chambers and discharge vanes, view from the side of a larger base; in fig. 3 - working body, side view.

The working body of the rotary excavator includes a drive shaft 1, a rotor 2, having the shape of a truncated cone. On the larger base of the rotor 2, the blade is ejected, and the ground 3 is mounted. On the conical surface of the rotor, on its smaller base and ejected, their blades, the cutting elements 4 are installed in the form of replaceable dish blades. The rotor 2, driven by a mechanical drive 5, is made with group chambers 6, which are formed by connecting their rotor rings with transverse partitions.

Between the soil chambers 6 installed additional emitting soil blades. The blades 3 form alternating pairs on a larger rotor base. This means that one of the blades of each pair is installed in the gap between adjacent ground chambers, and the other blade of the same pair is installed on the border with each ground chamber along the rotor rotor so that it forms a single plane with the corresponding transverse partition of the said chamber. Depending on the mechanical properties of the soil, the blades 3 are set at an angle of 7-24 ° to the axis of the rotor axis.

The device works as follows.

As the rotor 2 rotates, the elements 4 cut off the soil in the bottomhole, which is captured by the soil chambers 6 by the plane formed by the blade and the corresponding transverse partition of the chamber, is transferred to the discharge zone where it is ejected from the bottom by inertia.

The presence of blades 7 between adjacent ground chambers excludes overfilling of soil into the lower part of the channel.

Thus, the proposed mutual arrangement of the blades and soil chambers allows, on the one hand, to increase the working surface area of the ejected soil, on the other hand, it prevents the soil from pouring into the face, which generally allows to increase the excavation per unit of time.

Claims (2)

1. The patent of Italy No. 714028, cl. E 02 F, pub. 1966. 2. Authors certificate of the USSR for the application M 2559093, cl. E 02 F 5/08, 1976 (prototype).