SU983271A2 - Arrangement for eliminating hanging of rock or ore in ore chutes - Google Patents

Description

 The invention relates to the mining industry, namely, devices for crushing oversize and eliminating the freezing of the rock mass in mines and quarries. According to the main author. St. 659746, there is a known device for eliminating hang-ups of a rock mass in ore chutes, containing a console, forcibly moved out of the passage into the ore slide with a projectile installed at its end, a guide unit for reciprocating movement of a console in it, and an automatic ignition activation system for the projectile charge, the guide assembly is mounted on the perechic by means of a hinge and provided with a graduated scale rigidly fixed coaxially with the hinge, wherein: the scale is made with slots with fixed in them E t, and the guide unit is formed of risk (which is covered with a phosphorescent composition Ts

  A disadvantage of the known device is the narrow scope, i.e. ensuring the elimination of the mountain mass hangs only in vertical ore passes, since the starting

the pipe in it is rigidly mounted on the console and directed perpendicular to it coaxially with the axis of the ore pass. However, in practice, ore passes often take place inclined at angles to the vertical, and therefore the hangs formed in them cannot be eliminated with a manna device.

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In addition, the disadvantage of the known device is the relatively low accuracy of hitting the projectiles from hanging, since when the artery moves upward through the launch tube, the carrier console deviates from the horizontal due to the tilting moment due to the pressure of the powder gases on the end of the launch tube due to that. that the starting tube 20 is rigidly connected to the console. The purpose of the invention is to improve the technological capabilities by increasing the accuracy of

25 in inclined ore passes.

The goal is achieved by the fact that in the device the console is equipped with a hollow spherical head with a launch tube installed along

30 of its axis and the head is spring-loaded from inside, while the head is installed with the possibility of rotation and fixation.

FIG. 1 shows a diagram of the installation of the device in the walk and in the ore pass / in FIG. 2 - graduated scale / in FIG. 3 — an assembly for fastening the launch tube with a jet projectile on the carrier arm of the device; the assembly I in FIG. one.

In pt 1 of skip 2, a hinge 3 is installed, allowing the console 4 to rotate with the snapshot 5 installed at its end. In the roof of the walker 6) on the rack 7 coaxially to the hinge 3 a graduated scale 8 is fixed with slits 9 and fixed in them | ti 10 with phosphores1 deposited on them; On the top of the {cylinder 11 of the cantilever 4, along the axis there is a longitudinal risk12, also covered with a phosphorescent composition. .

A spherical opening 13 is placed in the load-carrying console 4 of the pilot assembly of the device, in which the spherical head 14 is placed with the projectile launch tube 15 passed through it 5. Moreover, the diameters of the pro-console and spherical head are chosen so that the head can freely rotate in the opening in any direction. The starting tube 15 is provided with an abutment 16 and is spring-loaded from the inside of the hollow spherical head 14 by a spring 17. A spherical opening 19 is also made on the spherical head 14 and the launch tube 15 from above, and the inner surface of the spherical head is shown on the pressing plate. The pressing plate 18 is connected to the console. 4 bolts 20. Plate 18, which is worn on the head, is tightened to the console with bolts 20, rigidly fixes the head 14 with the launch tube 15, and hence also the gear 5 relative to the console at a given angle to the vertical. Moreover, the thickness of the plate 18 and the size of its internal spherical opening 19 are selected in such a way that the possible angle of rotation of the spherical head 14 in the cantilever 4 in any direction and the deviation angle of the launch tube 15 from the projectile 5 from the vertical lies within a solid angle of 0-50 °.

The device works as follows.

The operator, determining the weak point of the hang, sets the required # 1 angle of rotation of the longitudinal axis of the console, counting from the longitudinal axis of the walk, turns the console. At this angle, combining the direction of the thread of the graduated scale with the longitudinal axis (.Risk). console and rigidly fixes its position. It then adjusts the direction of the arrow by turning the spherical head.

14c with the launch tube 15 passed through it in the opening 13 of the console 4 within a solid angle of 0-50 °, taking place from the vertical. This takes into account that the direction of firing coincides with the axis of the launch tube

15 and the deflection angle of the axis of the launch tube from the vertical depends on the angle of inclination of the ore-landing, the distance from the projectile to hang and the diameter of the ore-landing. But givesh bolts 20, rigidly fix the spherical head

14 in the installed position, and the launch tube 15 at the required angle. Then, a jet projectile is put on the launch tube, the console 4 is pushed into the ore slide for a predetermined distance, and an aimed shot is carried out. The angle of rotation of the launch tube is varied by turning the head 14 with the launch tube 15.

When fired, the projectile 5 moves along the launch tube 15 upward under the action of the pressure of the powder gases, thereby moving the tube downward (, return). An emphasis 16, rigidly connected to the launch tube 15, presses against the spring 17, compressing it. The spring is chosen so that the pressure force of the powder gases is completely quenched, and the horizontal QT bearing console does not deflect. .

The use of the device is proposed

design allows you to increase the TOR-.

The projectile hits in zarisann not only by eliminating recoil when fired, but also due to the possibility of adjusting the direction of fire, taking into account the distance to the hanging angle and diameter, ore landing. At long distances to hang (up to 100 m) and small diameters of the ore-landing (2 m of the shot, the projectile deviates from the target due to the force of gravity and the aerodynamic qualities of the projectile, which in turn leads to a sharp decrease in the accuracy of hitting.

In addition, the application of the proposed device expands its field of application for eliminating rock mass hang-ups in ore passes, as now the number of oblique ore passes through mines and quarries is constantly increasing. So, for example, out of 8 currently active and passable mine ore passes at the Tyrnauz Mining and Metallurgical Combine, 5 ore passes are broken, including vertical and inclined parts with an inclination angle of 5-15 ° from the vertical. The use of inclined ore passes. For transporting ore from the open-pit to the pit horizon

allows for the expense of additional crushing of ore when moving 2 times to reduce the cost of ore blasting in quarries by subsequent

, crushed it when moving on the rad / descent.

Claims (1)

Invention Formula A device for the elimination of the hangs of the rock mass in the ore chutes. auth. St. 659746, characterized in that, in order to raze the technological capabilities by increasing the accuracy of the nips in inclined ore passes, the console is equipped with a hollow spherical head with a starting tube installed along its axis and sub spring from the inside of the head, while the head is installed with the possibility of rotation and fixing. , ; Sources of information, 1 | rintye in attention during the examination 1. USSR Copyright Certificate 659746, cl. E 21 C 37/00, 1976 (prototype. I 1L % YShH 3 1 I F.Z Gunpowder