SU960382A1 - Bucket-wheel excavator - Google Patents

Description

 Fig 2; in fig. 8 is a diagram of the movement of rotors during operation.

The rotor excavator includes rotor boom 1, receiving 2 and dump 3 belt conveyors, superstructure 4 and working body 5 consisting of .Juzuh rotors 6, each of which is fixed on the shaft 7. Moreover, the shaft 7 of one of the rotors is shifted relative to the same shaft of another rotor.

On one side of the shafts 7 rotary gearbox 8 is installed, and on the other side are eccentric supports 9 fixed to the rotor boom 1 by means of the shafts 10.

On the rotor boom 1, electric motors 11 and main gearboxes 12 are installed, the output shafts 13 of which are spaced coaxially with the shafts 10 and serve as a support for the swivel gearboxes 8.

rotary gearboxes 8 and eccentric Qnop 9s are connected to the metal structure of the rotor boom 1 by means of hinged hydraulic cylinders 14. A receiving and feeding device 15 with a single-drum cylindrical feeder 16 mounted on a support: beam 17, hinged on a shaft, is mounted in the inner cavities of the rotors. 7 and support 18. The eccentric support 9, the support 18, the arrow 1 and the support beam 17 form a hinged parallelogram, which allows the pit. the body 16 remains parallel to the receiving conveyor 2 when moving together with the shaft 7 and the rotor 6.

When moving a rotary excavator on the face, its rotation and rotation of the research institute of the working body, the development of the step of the bottom is carried out. Moving the excavator to the bottom on the first rotor wheel, in the direction of its impending rotation, the required chip thickness / extension of the plungers of the hydraulic cylinders 14 of the second rotary wheel rotates the gearbox 8 and the eccentric support 9 relative to the common shaft axis 10 and 13, allowing each other to move roto. Rov on the value of thickness. The arrangement of the relative position of the rotors in the development of a step by vertical and horizontal chips; y1i is shown in FIG. 8, where 1 and 2. There are common axles of shafts 10 and 13. When developing a ledge of a vertical cut, the rotors are displaced relative to each other by chips

horizontally, the magnitude of the displacement is determined by the positions 1–1 and 2–1 when rotated in one direction and 2–3, 1–2 when rotated. in the opposite direction; V

In the development of a scarp, horizontal rotors are displaced vertically and are located in positions 1-1, 2-2, and 2-3, 1-3, respectively, when turning one to the other. parties.

 When the rotor rotates with the buckets, a scoop process occurs. The rotation of the rotors b is carried out from the electric motor 11 through the main gearboxes 12, shafts 13, rotary gearboxes 8 and shafts 7. From the buckets of each rotor wheel, the soil goes through the receiving-feeding device 15 and the feeders 16 to the common receiving conveyor 2, the dump conveyor 3 and further to conveyor system.

Thus, when the rotor boom rotates in any direction, two rotor wheels simultaneously participate in the work, which allows increasing the productivity of the excavator with the same rotor diameter.

Claims (2)

1. Career rotary excavator, including boom, receiving and dump; belt conveyors, a superstructure and a working body, made in the form of rotors mounted on shafts, in the internal cavities of which there are receptacle-feeding devices, similar to that, In order to increase productivity, the working body is equipped with rotary gears, mounted on one end of each rotor shaft, and placed on the other end of its eccentric support, pivotally connected to the boom via a hydraulic cylinder 2. An excavator according to claim 1, about the same and with the fact that the axis of the eccentric bearing and the rotary gear of one of the rotors is offset relative to the axis of the eccentric bearing VI, the rotary gear of the other rotor. Sources of information taken into account in the examination 1. USSR author's certificate number 563453, cl. E 02 F 3/18, 1974. 2. USSR author's certificate number 172244, cl. E 02 F 3/18, 1963 {prototype). If