RU182718U1 - WORKING EQUIPMENT OF A SINGLE BUCKET EXCAVATOR - Google Patents

Abstract

The utility model relates to earthmoving machines, namely to the working equipment of single bucket hydraulic excavators and is designed to tear off the pipeline during repair. The purpose of the utility model is to expand the technological capabilities of known equipment. The proposed working equipment of a single-bucket excavator includes an arrow, a handle, an arm, on which a telescopic cylinder is mounted, having a hydraulic drive at the end of the rod with a milling drum and auger, which rotates and allows the soil to be mechanized to remove soil under the pipeline. 2 ill.

Description

The utility model relates to earthmoving machines, namely to the working equipment of single bucket hydraulic excavators and is designed to break off pipelines during repair.

The equipment of a single-bucket excavator is known [RF Patent, No. 2520307, IPC E02F 3/28, WORKING EQUIPMENT OF A SINGLE-BUCKET EXCAVATOR, / Demidenko A.I., Morash I.S.], which consists of a working tool mounted on a bucket, and a control cylinder for them.

However, the known device has the following disadvantage: the complexity of the work in the development of frozen and dense soils.

The closest technical solution to the utility model is the working equipment of a single-bucket excavator, containing a milling tool with a longitudinal cutting head, consisting of a drum with cutters fixed to it, and a vertical holder with a drive mechanism that provides rotational movement of the working body [URL: http: //mgp-st.com/frezy-rotornye-s-prodolnoi-rezhushhej-golovkoj (accessed: 03/21/2018)].

The disadvantage of this device is the difficulty of supplying working equipment under the pipe for digging during pipeline repair and the high complexity of technological operations.

The objective of the utility model is to eliminate identified shortcomings and expand the technological capabilities of working equipment.

The specified technical result is achieved by the fact that the milling working equipment of the excavator is mounted on a telescopic cylinder and therefore has smaller overall dimensions when lowering the working equipment into the pit.

The utility model is illustrated by the accompanying drawings, where in FIG. 1 shows a General view of the working equipment; in FIG. 2 scheme of work.

Excavator operating equipment includes an arrow 1, a handle control hydraulic cylinder 2, a handle 3, an equipment control hydraulic cylinder 4, levers 5 and 6 connected to a control hydraulic cylinder 4, a telescopic cylinder 8 held by a bracket 7, pivotally connected to a handle 3 and a lever 6. At the end a telescopic cylinder 8 is fixed hydraulic actuator 9 with a milling head 10, on which the cutters 11 and the screw 12 are located.

After digging the pipeline from above and on both sides, the excavator bucket is replaced with the proposed working equipment. Before starting to directly dig the pipeline, the handle and boom of the excavator are perpendicular to the pipeline. The rod of the equipment control hydraulic cylinder 4 is extended as far as possible, the working body is lowered. Then, the working equipment is lowered into the pit of the trench. By moving the rod of the hydraulic cylinder 4 upward, the telescopic cylinder and the working equipment rotate through an angle of 90 ° to the developed soil under the pipeline. The rotation of the milling head 10 is provided by a hydraulic actuator 9. The translational movement of the milling head 10 for the development and removal of soil from under the pipeline is provided by the telescopic cylinder 8. The cutters 11 mounted on the milling head 10 provide effective destruction of the developed soil, and the screw 12 - its removal from the development zone .

This embodiment of the device allows a mechanized way to dig the pipeline, which increases the safety of excavation, as well as expanding the technological capabilities of the excavator.

Claims (1)

Working equipment of a single-bucket excavator, containing an arrow, a handle hydraulic cylinder, a handle, an equipment control hydraulic cylinder, a hydraulic drive and a milling head with cutters and auger placed on it, which is connected to the handle using an arm and levers that can be rotated around the axis using the control hydraulic cylinder and hinges, characterized in that the milling head with a screw, driven into rotation by a hydraulic drive, is mounted on a telescopic cylinder.

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