SU901411A1 - Terracing machine - Google Patents

Description

(54) TERRACER

The invention relates to road building machines, namely, earth-moving machines such as bulldozers-terraces for the construction of terraces on slopes.

The terracer is well-known, which includes a base machine and a plow with a pusher, with the bars 1.

Disadvantages are low productivity due to the inability to perform work with continuous movements of the unit and insufficient stability of the unit with a solid blade.

The closest to the proposed invention in its technical essence and the achieved result is a terracer, which includes a basic tracked vehicle, a sectional blade, a support wheel and control hydraulic cylinders. The blade is made of two sections, one of which is rigidly mounted on the frame, and the other is fixed relative to it movably. The movable section is located in front of the upland caterpillar 2.

The disadvantage of the terrace is low productivity due to the inability to work with continuous aisles, since after the first pass it must return to its original position idle, as well as when building terraces on heavily aeroded slopes in connection with a set of terraces for filling small volumes of prisms .

The purpose of the invention is to increase productivity.

This goal is achieved by the fact that the blade is made of a middle section located perpendicular to the longitudinal axis of the base machine Q and from the left-hand and right-side sections installed in front of the caterpillars, which are interconnected by means of a rocker arm with adjustable draft and an axis of rotation located at sides of the middle section, with

15, the support wheel is self-aligning and connected to the middle section by means of a two-arm lever with its hydraulic cylinders turning in the vertical and horizontal planes.

2Q FIG. 1 shows a terrace, general view, from the side; in fig. 2 - the same in terms of; in fig. 3 is a view A of FIG. 2

The terracer consists of a base machine 1 with a transverse beam 2 on which frame 3 is hung. The frame is controlled by hydraulic cylinders 4 mounted on the base machine 1. A dump consisting of three sections — the middle 5 and two extreme 6 and 7 — is located in front of the frame 3. The middle section 5 is rigidly fixed to the frame 3 and mounted perpendicular to the longitudinal axis of the unit. The extreme sections are located in front of the tracks of the tractor 1, are fixed on the frame 3 and pivotally mounted at an angle in the plan — section 6 in the left-erecting section and section 7 in the right-extending positions. At that, sections 6 and 7 are kinematically connected to each other by means of adjustable grids 8 and a two-armed rocker arm 9, which is mounted on hinges 10 and located on the rear side of the middle section 5. Raising and lowering the outer sections 6 and 7 is performed by means of hydraulic cylinder II, which one end is attached to the bracket 12, and the other is attached to a two-arm rocker 9. On the middle section 5, there is a fork 13 on top with a vertical axis 14 of rotation. In the fork 13, a double-arm lever 15 is pivotally mounted, one end of which is connected to the hydraulic cylinder 16, and a self-adjusting support wheel 17 is fixed on the other. During operation, the support wheel 17 self-aligns in the longitudinal plane of movement of the unit. The support-wheel 17 is raised-lowered by a hydraulic cylinder 16, and rotated in the transverse plane by means of a hydraulic cylinder 18. The terracer works as follows. When operating on non-twisted slopes, the terraces are made in several continuous passes of the unit. At the same time, on the same slope, the terracer can work both to the right and left-lying positions. After installation of the unit to its initial position, one of the extreme sections is lowered with the help of hydraulic cylinder I1, and the other is maximally raised relative to the middle section 5. If the terrace is operated in the left-hand position, the left-hand section 6 is lowered, the right-left section 7 rises and vice versa. By the hydraulic cylinder 16, the support wheel 17 rises to a height corresponding to the optimum cutting depth under these conditions, and the hydraulic cylinder 18 is installed in front of the lowered section 6. Thereafter, the hydraulic cylinders 11, 16 and 18 are installed by the hydraulic distributor in the position "Neutral and the unit runs continuously along the entire head length production of terracing. In this case, the hydraulic cylinders 4 of the frame control are set to the position "Floating. When the machine moves, the lowered section forms a groove for the tractor's uphill caterpillar, and the ground cut by it moves along the middle section 5 and more of it is dumped in the raised section of the section 7 under the tractor's under-axle track. Thanks to this, it is greatly enhanced

transverse stability of the unit. At the end of the rut, the unit is deployed, and the working body is set to the right-hand position. For this, the hydraulic cylinder 11 lowers section 7, and section 6 rises. The support wheel 17 is mounted by hydraulic cylinder 18 in front of section 7. A second continuous passage is completed. If this is not enough, then the unit at the end of the ramp again, turns around, the working tool is moved to the left-dehumid position and the third pass is made. During the last pass, the terrace web is profiled; for this, the end sections are set flush with the middle section 5 and, with a small depth of cut, the unit makes a passage along the terrace.

When working on steep slopes, the terraces are made by a series of reciprocating movements of the unit. Ori the support wheel 17 is raised to its highest position. For a better and fast penetration of the working body into the ground, at the beginning of the movement, one of the outermost sections is lowered, and then raised, leaving it slightly below the middle section 5.

When the aggregate meets the ravines, it is necessary to pre-fill them. When filling the ravines with the proposed terrace, all three sections are installed on the same level. At the same time, if the unit is operating in the left-handed position, the right-hand section prevents the soil from sinking into the embankment (laterally) and contributes to the accumulation of a large amount of soil in front of the working body. This significantly reduces the time spent filling up the ravines.

The implementation of the working body of the terracer of three sections, the extreme of which displaces the soil in opposite directions, will significantly improve the efficiency of the proposed terrace and productivity of work. In addition, it significantly increases lateral stability and allows terracing with continuous aggregate passes on slopes of greater steepness than with existing terraces.

The proposed terracer can be used for terracing areas with different directions of slopes with access to them at least on one side. When using a terrace, idle reverse passages of the aggregate along the terrace are excluded, the terraces are arranged by continuous passes of the aggregate on steeper slopes, the time for filling the pro-mine is significantly reduced.

Claims (1)

Invention Formula Terracer including base tracked vehicle, sectional blade, supports