RU1798514C - Inflatable balloon cleaning complex - Google Patents

Abstract

Usage: the development of thin steeply falling vein deposits. SUMMARY OF THE INVENTION: A pneumatic balloon treatment plant comprises an actuator and support sections. The section air balloons are installed in the bottomhole and blockage rows, which are interconnected by a running box and a sliding mechanism. The steering guide has a spacer mechanism. The support platform of the latter is pivotally connected to the downhole traveling hydraulic cylinders with spacers. A power element is reinforced on the supporting platform. One end of the running gear box is pivotally connected with spacers of the bottom-hole series of pneumatic cylinders, and the other end is with enviable hydraulic cylinders of movement with spacers of the filling series. 2 ill.

Description

The invention relates to the mining industry and can be used in the development of thin steeply dipping vein deposits.

The purpose of the invention is to enable the development of thin steeply falling ore bodies with turbulent hypsometry.

In Fig, 1 shows the proposed complex, General view; figure 2 is the same plan view.

The treatment complex includes a Mechanized lining, consisting of separate sections, which include bottom-hole 1 and inlet 2 air cylinders, separated by a running gear 3. The movement mechanism (hydraulic cylinders) 4 is connected to a spacer 5 of bottom-hole air cylinders and

a guide 6 of the actuator located on the supporting platform 7. The power element 8 is attached to the supporting platform. The guide rake mechanism includes a support pad and a power element. Insertion of downhole pneumatic cylinders Using a longitudinal rod 9, it is connected to a running box, which is connected via a Travel Mechanism 4 to a spacer of blocking pneumatic cylinders 10. The running boxes of adjacent sections are hinged to each other and a ladder 11 is mounted in them. The pneumatic cylinders are connected to the spacer links 12 of the hinge mechanism associated with the frame 13 and the bundle of air cylinders 14, which gives them stability at their maximum mobility.

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. The connection of the movement mechanism with the support elements and the longitudinal rods with the running gear and the spacer is hinged.

Remote control of the support It is carried out from the remote control installed on the ventilation drift. It is possible to directly control each section from the undercarriage.

Mechanized lining sections are unfastened by a power element and due to the filling of compressed air with pneumatic cylinders.

The movement of the complex is carried out in three stages. .First stage - with the help of the movement mechanism, all supporting platforms with a guide are fed simultaneously. After that, the power element is unfastened from top to bottom section by section with visual control of the installation of the guide to move the actuator in the center of the treatment space. This is achieved due to the possibility of moving the guide in a plane parallel to the bottom due to the articulated connection of the movement mechanism with the support platform and the bottom-hole air cylinders. .

In the second stage, the movement of downhole pneumatic cylinders with a running box is carried out and in the third - blocking pneumatic cylinders. At the same time, the latter can be moved in a chess pattern - even and odd.

The use of a pneumatic balloon treatment complex allows to increase the efficiency of mining thin steeply dipping

vein deposits with complex troubled hypsometry, as it provides, due to the expansion mechanism and articulated joints, a centered arrangement of the guide to move the actuator in accordance with the changes in the hypsometry and curvature of the treatment space. This significantly expands the scope

treatment plant in the development of mineral deposits.

Claims (1)

SUMMARY OF THE INVENTION including support sections, the pneumocylinders of which are installed in the bottomhole and blockage rows, interconnected by the running gear and the movement mechanism, the rest associated with the guide of the executive body, in which, in order to ensure working thin steeply falling ore bodies with troubled hypsometry, the guide of the executive body is equipped with a thrust mechanism, made of a support platform pivotally connected by means of downhole traveling hydraulic cylinders with spacers to which the guide executive body is rigidly fixed, and a power element mounted on a support platform, while the running box with the downhole end is pivotally connected to the spacers of the downhole series of air cylinders by means of t g, and the second end - with spacers of a blocking row of pneumocylinders by means of blocking hydraulic cylinders of movement. .