SU1447997A1 - Working member of earth-moving machine - Google Patents

Abstract

The invention relates to small-scale mechanization of earthworks and m. B, used for passages in cramped conditions for cable and other engineering communications. The goal is to increase productivity by improving soil removal. The working body of the earthmoving machine includes two cylindrical mills mounted on the frame. They are made in the form of hollow cylinders 6 with loading windows 8 and are located on the output shafts 4 with the possibility of counter-rotation. The cylinders 6 are connected with the drive shafts 4 by traverses 7. A transporting mechanism is placed in the cavity of each of the mills. It is made of tray 10 and the throwing blade 11, interconnected by means of a pre-compressed elastic element 12. At the moment of loading with soil, the upper part of the blades 11 contacts with the casing, which has an outlet window. The installation on the outer surface of the mills of the cutting teeth, and inside them of the transporting mechanisms, allows simultaneous destruction of the soil and its transportation. 2 hp f-ly, 5 ill.

Description

CD

FIEM

The invention relates to the construction, in particular to the means of small-scale mechanization of earthworks, and can be used to dig cable trenches and other utilities in cramped conditions.

The aim of the invention is to increase productivity by improving soil removal.

FIG. I depicts the working body, a general view; in fig. 2 is the same, side view; FIG. 3 - the same, top view; in fig. 4 - section A-.A. in fig. 2; in fig. 5 is a section BB in FIG. 3 (soil transporting device, ground sweeping process).

The working body includes a driving motor 2 mounted on paivie 1, connected with a gearbox 3, on the output shafts 4 of which framed ;; s 5, made in the form of hollow cylinders 6 connected with the drive shaft 7.

ten

The 12 throwing vanes 11 are in a compressed state. Having reached the outflow port 14 of the housing 13, the blades 11, as a result of the conversion of the energy of the compressed springs into the kinetic energy, move upward, giving the ground additional acceleration in the vertical direction. The use of flat springs 12 makes it possible to tear off trenches of greater depth by increasing the height of the throwing, and also improves the process of unloading the blades by reducing the time of unloading.

Freed from the ground blades at. in contact with the case 13, they are mixed to the lowest position, the springs are compressed, and the load-throwing cycle is repeated.

By adjusting the stiffness of the springs and changing their relative position, the height of the ground metan can be set. The range of methane soil depends on the angle. howl speed

The cylinders have discharge windows 8. 20 rotation of the working bodies 5; is set on the outer surface of the milling cutter fixed by changing the hour,: b1 rotation

cutting elements 9, and on the inside of the shaft drive motor 2

Direction of emission from: taglivala- with the position of the exhaust valve and housing 13 25

the surface of each cutter is placed transporting mechanism, made of tray 10 and throwing blade 11, interconnected by means of a pre-compressed elastic element 12.

Cylindrical milling cutters 5 are installed from 1 to 3 m ;; E) 1 m offset by angle (L / 2, where f is the angle formed by the lines of intersection of adjacent blades of the same milling cutter. Top - 3 T between each other.

using the mechanism 15.

In order to prevent KycKc i from accidentally getting into the ground on the operator on frame 1, a protective cover 16 with wing buttons is installed, equipped with a mechanism for changing the position of the wing buttons, hingedly 35

40

Part of the blades 1I is in contact with the casing 13, which has an outflow port 14. The casing is made of a horizontal disk, which is mounted coaxially with the gearbox shaft and can be rotated in the horizontal plane by means of the mechanism 15. The frame 1 has a protective casing 16 with the mechanism 17 that changes its angular rotation .

The earthmoving working body works as follows.

The engine 2 is turned on, the rotation from which is communicated by milling and throwing working bodies 5, installed rotatably in different directions, on the output shafts 4 of the gearbox 3. Due to the rotation of the milling throwing organs 5, g, the different moments are balanced in different directions. upon contact of the teeth 9 with the ground.

The operator tilts the tool into the soil mass to the height of the working bodies 5 by tilting and moving to the feed side (Fig. 1}. The tooth 9, mounted on the outer surface of the cylinder 6, cuts off the soil chips, which is fed through the loading windows 8 to the guide tray 10 and the throwing blade 11. At the time of the ze; -drucking with the ground, the ends of the blades co-operate with a horizontal casing made in the form of a disk with an outgoing window 14. At the same time, the flat springs 50

55

The rotation of the milling and metal organs 5 towards each other, as well as their installation with mutual displacement at an angle of θ (.J3 / 2 (where. Is the angle between metu1, their blades), allows us to perceive the cross-throwing of the soil, and the collision takes ux portions of the soil are excluded, as well as to carry out a trenching trench at smaller angles of methane (the angle of methane is the angle between the direction of discharge and the plane of the bottom of the trenches).

Due to the design, the ability to perform a hollow cylinder 5 with loading windows 8, to install its outer surface of the cutting teeth 9, and on the internal transport devices, one working body simultaneously performs two functions: destruction, running it to transport it.

Thus, the outer surface of the cylinder 6 performs the function of destroying the soil, and the inner surface serves as transportation. When the casing is made in the form of a horizontal disc, the friction loss of the soil on the casing is reduced.

A trench fragment is made in several passes, with the soil being ejected simultaneously on both sides of the trench. The number of passes depends on the depth and width of the trench to be torn off.

0

The 12 throwing vanes 11 are in a compressed state. Having reached the outflow port 14 of the housing 13, the blades 11, as a result of the conversion of the energy of the compressed springs into the kinetic energy, move upward, making the ground accelerate in the vertical direction. The use of flat springs 12 makes it possible to tear off trenches of greater depth by increasing the height of the throwing, and also improves the process of unloading the blades by reducing the time of unloading.

Freed from the ground blades at. in contact with the case 13, they are mixed to the lowest position, the springs are compressed, and the load-throwing cycle is repeated.

By adjusting the stiffness of the springs and changing their relative position, the height of the ground metan can be set. The range of methane soil depends on the angle. howl speed

0 rotation of the working bodies 5; is set by the operator by changing the hour,: b1 of rotation

Direction of emission from: taglivala- with the position of the exhaust valve and housing 13

among themselves.

using the mechanism 15.

In order to prevent KycKc i from accidentally getting into the ground on the operator on frame 1, a protective casing 16 with wing buttons is installed, equipped with a mechanism for changing the position of the wing buttons, hingedly 5

0

g

0

five

The rotation of the milling and metal organs 5 towards each other, as well as their installation with mutual displacement at an angle of θ (.J3 / 2 (where. Is the angle between metu1, their blades), allows us to perceive the cross-throwing of the soil, and the collision takes ux portions of the soil are excluded, as well as to carry out a trenching trench at smaller angles of methane (the angle of methane is the angle between the direction of discharge and the plane of the bottom of the trenches).

Due to the design, the ability to perform a hollow cylinder 5 with loading windows 8, to install its outer surface of the cutting teeth 9, and on the internal transport devices, one working body simultaneously performs two functions: destruction, running it to transport it.

Thus, the outer surface of the cylinder 6 performs the function of destroying the soil, and the inner surface serves as transportation. When the casing is made in the form of a horizontal disc, the friction loss of the soil on the casing is reduced.

A trench fragment is made in several passes, with the soil being ejected simultaneously on both sides of the trench. The number of passes depends on the depth and width of the trench to be torn off.

Claims (3)

Invention Formula . The working body of the earthmoving machine, including two cylindrical mills mounted on the frame, placed on vertical shafts with counter-rotation, cutting elements mounted on the outer cylindrical surface, transporting mechanism placed in the cavity of the mills, cutter casing, ground thrower and drive of the mills with a vertical engine , characterized in that, in order to increase productivity by improving soil removal, the transport mechanism The cutters are made from the inside of each cylindrical cutter of the tray and the throwing blade, which are interconnected by means of a pre-compressed elastic element. 2. Working body according to claim 1, characterized in that the cylindrical mills are installed with mutual displacement at an angle oi j5 / 2, where y is the angle formed by the lines of intersection of adjacent blades of one milling cutter. 3. Working body according to claim 1, characterized in that the cutter casing is made of a horizontal DNA mounted coaxially with the drive gearbox shaft so that it can be rotated in a horizontal plane. Fue.f y yrr 9 s tn-lK ... „w / 4f y: / li. / a / / 3 Phage.Z - / / / -: 7; i F.2 i  4V tn-lK  th: "Ffii Ci ; - cs n  UP% vi c-j 3- -ii a: 5-6 0HanpaSASHue C LA soil Z /////// P ,,, QK U 9 FIG. five