SU1222847A1 - Power support unit - Google Patents

Description

The invention relates to mining and can be used in the underground mining of minerals with partial laying of the developed space, carried out by directional blasting of soil rocks on a special fence lining.

The purpose of the invention is to increase the reliability of the section by providing a compact form and maximum density of the filling mass and reducing the dynamic effects of flying pieces of rock on the fence and lining elements, preventing the rock from entering the subsurface space.

FIG. 1 shows a mechanized support section, side view; in fig. 2 - fencing structures; in fig. 3 - lines of equal dispersion of pieces of rock and the trajectory of their flight in the explosion and release of explosive charge; in fig. 4 - soil spreading curves.

The mechanized lining sections 1 are connected to the scraper conveyor 2 by means of a hydraulic jack 3 of movement. The fence 4 is mounted hinged on the support base, held in a predetermined position by a hydraulic jack 5 and consists of two shields — the top 7 and the bottom 8. The bottom shield 8 is flat and is set at a certain angle using a rigid adjustable pole 6. The top shield 7 has a curved surface and connected to the lower shield 8 sharnarno. The curvature of the surface of the fence is designed for braking of rock pieces flying at different trajectories at different speeds, i.e. the angle of the meeting with the fence of rock pieces should always be sharp. This achieves the braking of flying pieces, and not their simple reflection. The surface of the fence is lined with rubber 9. The bottom shield 8 is fixed at an angle of 65-75 °. The angles are chosen based on the fact that in the lower part the pieces fly along the path with a small radius of curvature. The meeting angle of these pieces of rock with the lower shield 8 of the fence is sharp, therefore no direct reflection of the pieces occurs and the rock is compactly placed under the shield of the fence.

Due to the fact that pieces of rock located closer to the center of charge fly at higher trajectories m and at different speeds, it is advisable to make a shield with a curvature of 2m, where m is the thickness of the reservoir. The braking of the flight of pieces of rock is achieved by imparting a curved trajectory to the flight, followed by friction of the pieces on the shield. The radius of curvature of the upper shield

the fence is obtained as a result of geometrical construction of the braking forces reaction taking into account the flight path of the pieces, and, consequently, achieving the optimum angle of their meeting with the fence. With the curvature of the upper shield, the effective braking zone decreases and a smooth transition from the upper shield to the lower one is not achieved. With curvature, there are structural difficulties associated with the bulkiness of such a shield.

The meeting angle of pieces of rock ft and the shield must be sharp and not exceed 15 ° for the following reasons. When a piece encounters a shield at an acute angle, the subsequent movement of the rock occurs at some distance with friction against the shield, which creates the effect

braking. At large meeting angles, a simple reflection is observed from the surface of the shield without braking, which does not give a compact form of the bulk rock mass. It is necessary to take into account the fact that the trajectories of movement of the pieces are not constant and vary from explosion to explosion. Therefore, in all cases, the sharp angle fi of meeting the pieces of rock and the shield can be achieved by giving a curved shape of the shield surface.

The bottom shield may remain flat.

in view of the fact that the kinetic energy of the rock flying along low trajectories (Fig. 3) is small and the curvature of the surface of the lower shield does not play a decisive role in braking the pieces. The total installation angle of the lower shield is 65–75 °. Such

the installation angle of the shield ensures the formation of a rock strip with an angle of repose of 68-72 °.

The required angle of inclination of the upper enclosure is set by the hydraulic jack 5 in accordance with the angle of repose of the bulk rock of this granulometric composition, also based on the formation hypersometry and the extracted power, and taking into account the minimum angle of encounter with the rock pieces.

When moving the lining sections, the upper fence should be lowered by a hydraulic jack 5, and in the working position it is pressed by the upper part to the roof to reduce dynamic loads when the rock pieces collide, and also to prevent it from entering the lava working space.

-Fig .2.

four

X

x

-

x,

Fig.Z

Claims (1)

SECTION OF A MECHANIZED FASTENER, containing a base on which a hydraulic stand is mounted, and a guard containing pivotally connected upper and lower shields, the last of which is pivotally mounted on the obstruction end of the guard, characterized in that, in order to increase the reliability of its operation, the lower shield is additionally its upper part is pivotally connected to the hydraulic stand by means of adjustable traction, and the upper one is curved, concave towards the blockage, and pivotally connected to the hydraulic stand by means of a hydraulic jack. Nd Nd Nd QO