SU829988A1 - Method of holding filling mass - Google Patents

Description

The invention relates to the mining industry and can be used in the development of steeply dipping mineral deposits, with the laying of the worked out space.

A known method of holding a bookmark. massif during the development of steep formations, which consists in installing a mesh fence in the lava, which is suspended in the lava and move it after the movement of the working face fl].

The disadvantage of this method is the complexity of its installation and the high complexity of the work to hold the backfill array at the movement of the fence along the lava. In this case, the pouring of the filling material occurs, which narrows its carrying capacity.

There is also known a method of holding a backfill array, which consists in installing sections of a fence in the worked-out space consisting of upper and lower shields pivotally interconnected, wedged between the roof and soil under the influence of the backfill array. In this section of the fence.

the convex side is set from the backfill array G2]. The disadvantage of this method is the low reliability of holding the backfill array, as well as the high complexity of the construction of the fence in the lavas on steep seams.

The purpose of the invention is to increase the reliability of holding the filling array and providing remote erection of the fence during the gravity erection of the filling array on steep seams.

This goal is achieved by the fact that before installing the sections of the fence in the worked-out space, they are sequentially connected to each other on the ventilation drift, then the sections are lowered into the worked-out space as they are connected with the shields facing the filling array, while the lower boards are placed on the soil, and the upper shields are set at an angle to them with the shields, which are taken smaller than the angle of repose of the filling material.

In FIG. 1 schematically depicts a general scheme for holding a backfill array in lava on a steep formation (view of a crane plane); in FIG. 2 -

section Aa figure 1, on the FIG. 3 - section Bb figure 1, on the FIG. 4 - section Bb figure 1, on the FIG. 5 - se reading .G · -G in figure 1. The method is carried out with help

fencing device, which consists of the lower 1 and upper 2 shields connected by a hinge 3. The hinge is located near the soil of the worked-out space with the possibility of placing the lower shield 1 on the soil and filling it with filling material 4. The upper shield 2 is inclined towards the filling array 5, while the angle of inclination of the shield 2 with respect to the shield 1 is less than the angle of repose of the filling array 5, which allows the upper shield to be pressed more densely with the filling array to the roof of the worked out space.

The fence is assembled from wooden elements of appropriate strength, flat panels (frames) are made,. which are covered with a net, the bottom 1 - from the side adjacent to the soil so that the filling array contacts the soil through the net in order to obtain a small amount of friction, and the top 2 - from the side of the worked out space with some overlap to overlap places of increased formation thickness. Metal, wood and other joints 3 can be used to connect the upper and lower parts.

The method is as follows.

Each two pivotally connected panels represent a section of the fence, which are sequentially interconnected on the ventilation drift before the next bookmark cycle and, as they are connected, they are lowered into the worked out space with shields facing the overlay array, while the lower panels are placed on the soil. When moving sections along the bottom, Their upper shields do not touch the roof and set them at an angle to the lower shields, which are taken to be smaller than the angle of repose of the filling material.

After installation of the fence, filling material is supplied from the ventilation drift.

Upon receipt of the filling material in the worked out space (Fig. 3), the lower shield 1 is taken into the soil with filling material as the worked out space is filled from the soil to the roof. Under the influence of the mass of the filling material, the upper shield 2 is squeezed out in the roof until it comes in contact with the latter, the boards are wedged out and the fencing is maintained. The fence after installation remains in the worked out space.

The proposed design of the fence allows you to increase its self-retaining ability due to jamming with the backfill - an array of the lower shield and pressure in the roof of the upper shield.

Claims (1)

a massif in the lava on a steep reservoir (view of the crane plane); in fig. 2 section A-A in FIG. 1, in FIG. 3 section bb in FIG. 1, fig. 4, section bb in fig. 1, fig. 5 - section. Г-Г in FIG. 1. The method is carried out with the help of a fencing device, which consists of the lower 1 and upper 2 shields, interconnected by means of a hinge 3. The hinge is located near the soil of the worked-out space with the possibility of placing the lower shield 1 on the soil and filling it with backfill material 4, Upper shield 2 is inclined towards the filling mass 5, while the angle of inclination of the shield 2 relative to shield 1 is less than the angle of repose of the filling mass 5, which makes it possible to press the upper shield against the roof of the working mass more tightly of space. The fence is assembled from wood elements of appropriate strength, flat shields (frames) are made,. which are covered by the bottom 1 grid - from the side adjacent to the soil so that the filling array contacts the soil through the grid to obtain a small amount of friction, and the top 2 from the developed space with some overlap to block the increased thickness of the reservoir the joints of the upper and lower parts can be used metal, wood and other hinges 3. The method is carried out as follows: Calsdye two hingedly connected shields are a section of the enclosure that after are interconnected on the ventilation drift before the next bookmark cycle and, as they are connected, they are lowered into the worked-out space with shields turned in the direction of the overlay, with the lower shields being placed on the ground. When moving sections along the bottom, their upper shields do not touch the roof and set them at an angle to the lower shields, which take a smaller angle than the natural slope of the backfill material. After the guard is installed, the backfill material is fed from the vent. When the filling material enters the developed space (Fig. 3), the lower shield 1 is received in the soil by filling material as-the filling of the developed space from the soil to the roof. Under the action of the mass of backfill material, the upper shield 2 is pressed in the roof prior to contact with the latter, the shields are wedged and the barrier is self-contained. The fence after installation remains in the developed space. The proposed fencing design allows it to increase its self-retaining ability by pinching the stowing array of the lower shield and spreading it into the roof of the upper shield. The invention of the method of holding the backfill array, which consists in installing in the developed space sections of the fencing, consisting of upper and lower pitites that are articulated between each other and wedged between the roof and the ground under the influence of the backfill array, from which, in order to increase the reliability of retention of the backfill of the array and the provision of the remote erection of the fence during the gravity erection of the backfill array on steep seams, before installing the sections of the fence in They are successively connected to each other on the ventilation drift, then the sections, as they are connected to each other with shields facing the filling mass, are lowered into the developed space, while the lower shields are placed on the ground and the upper shields are set at an angle to the lower shields. which take smaller angle of repose of the filling material. Sources of information taken into account in the examination 1. Trofimov B, P, Deserted coal seizure. K, Technique, 1969, p. 4-46, 2, GDR Patent No. 96748, class 5 d 15/00, published 1973,