SU1461827A1 - Working member of earth-moving machine - Google Patents

Abstract

This invention relates to earthmoving machines. The goal is to increase the productivity of the working body by reducing spills and increasing reliability. The working body includes a Yush, installed on a frame, and a gearbox placed on them by means of rollers. The latter is connected with a hollow shaft (B) 7, on which brackets with cutting elements and a screw tape (SL) 10 are fastened. In hollow B 7 there is a sleeve 11, in which the free end of guide B 12 is mounted. screw lugs arranged in increments equal to the pitch of SHL 10. Screw grooves are cut into the inner forming sleeve 11 with a groove equal to the winding pitch of SHL 10. The screw lugs on B 12 enter into engagement with the screw grooves of sleeve 11. At the lower end of B 12 perpendicular to the B 7 mounted stand, on which the console is fixed additional ADDITIONAL SHL 15 with rib 16. The free end 15 is set to SHL overlapping SHL lower end 10 and with the possibility of movement parallel with it. The soil to be transported goes from the SL 10 to the additional SL 15 and enters the rotor buckets in a continuous stream. 3 il. (L

Description

Vuz. 2

The invention relates to earth-moving machines of non-continuous action, in particular to auger-type side scrapers to an earth-moving machine for fragments of channels and trenches.

The aim of the invention is to increase the productivity of the working body by reducing spills and improving reliability.

FIG. Figure 1 shows the working body of the hydraulic motor 6, which, through the lower gear 4, transmits the rotational moment to the hollow shaft 7 of the auger. At the same time, a hydraulic cylinder 17 is connected to the hydraulic system through an electrohydraulic valve, which, when switching the electrohydraulic hammer, communicates the gearbox 4 and the hollow shaft 7 connected to it, reciprocating mixing. At the same time, rollers 3, rolling along the direction of Yush, to them 2,

leroy machine, general view; in fig. 2 - tO, due to their cut-outs, retain reducer I in FIG. one; in fig. 3 shows section A-A in FIG. one.

The working body of the earthmoving machine consists of a frame 1 connected to the base machine. On frame 1 rigidly fixed

the torus 4 from turning and together with the sleeve 11, sliding along the guide shaft 12, provide for a rectilinear reciprocating movement of the hollow shaft 7 and the main

rail guides 2, loose flanges 10. At the same time, the guides of which engage with recesses of the rollers 3 mounted on the housing of the gearbox 4 using axles 5. The gearbox 4 is driven by a hydraulic motor 6 with a hollow shaft 7, in which the cutting elements 8 mounted on the brackets 9, to which the main screw 10 is attached, are placed with a uniform pitch along the helical line. The lower end of the hollow shaft 7 is coaxially connected to the sleeve 11,

20

Due to its screw lugs sliding under the action of the axial force generated by the hydraulic cylinder 17, the screw shaft 1 rotates relative to the hollow shaft 7 along the screw grooves of the sleeve 11. At the same time, the additional schnekovo tape 15 is fixed on the guide shaft 12 tape 10, mounted on the hollow shaft 7, blocking it. The transported soil of the inner cavity of the cavity which is cut 25 dits from the main auger belt 10 to the additional cantilever screw strip 15 and enters the rotor buckets in a continuous stream. By moving the cantilever belt 15 relative to the main belt 10, the working length of the screw chucks is constant, with a pag equal to the winding pitch of the main auger belt 10. The sleeve I covers the guide shaft 12, on the outside of which the screw protrusions are cut.

Supplementary console screw tape 15 and a continuous stream enters the rotor buckets. By moving the cantilever belt 15 relative to the main belt 10, the working length of the screw-in slots of the sleeve with the possibility of tee tape is constant regardless of the amount of reciprocating movement of the hollow shaft 7.

making a complex movement, consisting of rotation around the longitudinal axis of the hollow shaft and the translational movement along this axis. The guide shaft 12 is associated with the frame 1 and has the ability to rotate around its longitudinal axis, for example, on bearings.

At the lower end of the guide shaft 12, perpendicular to the hollow shaft 7, there is a stand 13 with a stiffener 14, on which an additional auger tape 15 with a stiffener 16 is fixed to the cantilever, the winding pitch of which is equal to the winding pitch of the main auger tape 10. The free end the cantilever screw strip 15 overlaps the main screw tape 10, being parallel to it, with some displacement. In addition, the cantilever auger belt 15, due to the interaction of screw protrusions and grooves of the hollow and guide shafts, is able to move parallel to the main auger belt 10. The drive mechanism for reciprocating mixing of the hollow shaft 7 is carried out using a hydraulic cylinder 17, the cylinder of which is fixed to the frame 1 , and the rod is connected to the gearbox housing 4.

The device works as follows: From a hydraulic system, t gacha is given in

Turning the motor 6, which through the lower gear 4 transfers the rotational torque to the hollow shaft 7 of the auger. At the same time, a hydraulic cylinder 17 is connected to the hydraulic system through an electrohydraulic valve, which, when switching the electrohydraulic hammer, communicates the gearbox 4 and the hollow shaft 7 connected to it, reciprocating mixing. At the same time, rollers 3, rolling along the direction of Yush, to them 2,

at the expense of their cutouts, the gearbox 4 is kept from turning and, together with the sleeve 11 sliding along the guide shaft 12, provide a straight linear reciprocating movement of the hollow shaft 7 and fixed on it the main

shnekovry tape 10. At the same time, the direction of 5 shnekovry tape 10. At the same time, the direction 20

Due to its screw lugs sliding under the action of the axial force generated by the hydraulic cylinder 17, the screw shaft 1 rotates relative to the hollow shaft 7 along the screw grooves of the sleeve 11. At the same time, the additional schnekovo tape 15 is fixed on the guide shaft 12 tape 10, mounted on the hollow shaft 7, blocking it. The transported soil will be transferred from the main screw tape 10 to the finish from the main screw tape 10 to the additional cantilevered screw tape 15 and fed in a continuous flow into the rotor buckets. By moving the cantilever belt 15 relative to the main belt 10, the working length of the belt is constant regardless of the amount of return, regardless of the amount of reciprocating movement of the hollow shaft 7.

Claims (1)

Invention Formula 35 45 The working body of the earthmoving machine, including guides mounted on the frame, placed on them by means of rollers is a gearbox connected to a hollow shaft, brackets mounted on the hollow shaft 40 with cutting elements and a screw strip; a mechanism for reciprocating a hollow shaft; a sleeve housed in the hollow shaft; and a guide shaft connected to the frame, the free end of which is housed in the sleeve, characterized in that reduce spillage and increase reliability, the guide shaft is made with screw protrusions arranged with a tongue equal to the pitch of the auger tape, and the sleeve of the hollow shaft is made with screw grooves for interacting with screw protrusions pami of the guide shaft, which is provided with a perpendicularly mounted stand with an additional screw attached to it, the free end of which is installed with overlapping the lower end of the auger tape of the hollow hall and with the possibility of movement parallel to it. 50 J 6 2 5 FIG. 7 12 sixteen