SU681157A1 - Working implement of a rotary trench excavator - Google Patents

Claims (2)

I The invention relates to earthmoving machines of non-direct action, and specifically to rotary trench excavators, which can be used to develop trenches and recultivate the soil on wide, building strips. A rotor trench excavator is known that includes a frame, a rotor with buckets and a drive and a dump conveyor, with an additional rotor mounted in the main rotor plane mounted on the main rotor and the conveyor mounted opposite to the main rotor dump conveyor, and the additional rotor has the possibility of vertical movement l. However, the working body, due to the need for multiple passes, makes the process of soil recultivation in the spur-of-land right of way either technologically impossible or inefficient. Known working body trench excavator, including the main rotor with toothed crowns mounted on the frame by means of support rollers, and eccentrically arranged additional rotors with unloading devices mounted on support frames connected with the frame of the main rotor 2, This design allows the size of the excavated trench to be increased without changing the size of the main rotor and can be used for land reclamation. However, the drive is directly in the ground unloading zone of the additional rotors and closes it. For the same reason, the angle of inclination of the discharge devices, which are in the form of fixed trays, is limited. Such a design of the drive to the unloading device cannot ensure the reliability of the ground load of additional rotors and, consequently, the reliability of the working process of the machine, and also limits the width of additional rotors and, accordingly, the width of the whole reclamation site. The drive unit of additional rotors and the gear rims of the main rotor are not sewn up from contact with the destroyed ground; The energy intensity of the soil destruction process with additional rotors is significantly higher than that of the main rotor, since they have a much greater frequency, vrasheni, which cause cutting, of the soil with very thin struts. The invention is to increase the reliability of the working body by eliminating contact between the ground and during lateral rotation. This is achieved by the fact that the additional rotors are mounted on frames with voE: their urine is encompassed and each of them is equipped with a ring gear, in the rie zone of which the main rollers interact with the ring rim of the main Ritor, which are made with a serrated surface, at the same time, the unloading devices are equipped with the law Olya of their movement, and the drive of the unloading device has a gear gear, which is installed with the possibility of interactions with the gear gear, of the additional rotor. FIG. 1 shows the proposed working body, side view, FIG. 2 - working body (tearing a quarter of the main rotor), front view} in FIG. 3 is given a view along arrow A in FIG. Ij in FIG. 4 is a view along arrow B in FIG. 1. The working body comprises a frame 1 on which the conveyor 2 and the main rotor 3 are mounted with buckets 4 and gear rims 5. The main rotor 3 is mounted on the support rollers 6. On the sides of the main rotor 3, extra rotors 7 are eccentric; resting through the rollers 8 with adjusting screws 9 on the supporting frames 10, which are interconnected: with themselves and with frame 1 and equipped with connectors 11. Discharge devices 12 are mounted inside each frame of the outer rotor 7. notched crown 13, cat It is connected with the gear rim 5 of the main rotor 3 by means of gear mechanisms, for example blocks of the shaft 14, mounted symmetrically on the rollers 6 of the main rotor, 3 so that one of the gears of these blocks is fixed on roller 6 and engages with the toothed rim 5 of the main rotor 3, and the Friend - with the toothed rim 13 of the additional rotor 7. The non boric shield 15 is equipped with knives 16, and installed overlapping them between the OHBHbnvi and additional rotors. The discharge devices 12 are movable, for example, in the form of hingedly hanging trays or conveyors equipped with a mechanical drive 17 mounted on the frame 10 of the additional rotor 7. The drive 17 is carried out from the gear ring 13 additional rotors 7. The development of the soil is carried out simultaneously by all three rotors. The soil destroyed by the additional rotors 7 goes to the unloading devices 12, which transport it to the buckets 4 of the main rotor 3. Buckets 4 develop the developed soil to conveyor 2, which delivers it to the dump. The proposed construction of a worker 0 {ghana will allow the use of rotary excavators. In soil reclamation works in wide bands. Drive units of additional rotors are located outside the zone of unloading of the soil and do not restrict its entry into the main rotor; the modes and, consequently, the energy intensity of the destruction of the soil by the main and additional rotors are the same or similar; gear crowns of the main and additional rotors are protected from contact with the destroyed ground. The use of the proposed working body will allow to expand the field of application of rotary trench excavators to increase the coefficient of their use by 2-2.5 times, while excluding the use of cyclic machines. Formula of the invention 1. The working body of a rotary trench excavator, comprising a main rotor with toothed rims, mounted on a frame by means of supporting rollers, and eccentrically located additional rotors with unloading devices mounted on supporting frames, associated with the frame of the main rotor, characterized by that, in order to increase the hope of the work of the working body by eliminating contact between the ground and the rotational drive, additional rotors are installed on the parma with the possibility of Each of them is equipped with a toothed crown, in the area of which the intersection with the toothed crown of the main rotor is located is located. and with them support rollers made with a toothed surface, with This unloading device is provided with a drive for mixing them. 2. The actuator according to claim 1, which is based on the fact that each drive of the unloading device has a gear gear, which is installed with the interaction with the gear ring of the additional rotor. YU Sources of information taken into consideration {later in the examination 1. USSR author's certificate number 338598, cl. Е О2 F 5 / О8, 197О, 2. USSR author's certificate No. 322469, class, Е О2 F 5 / О8, 197О. FIG. Fie.2 Phie.}