RU2714418C1 - Method for development of solid mineral deposits - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining industry and can be used in open mining of solid mineral deposits using a mining excavator. Method for development of deposits of solid mineral resources includes scooping of rock with a quarry excavator with a ladle, during which rock mass in the ladle can be sorted into a fine fraction passing through the sieving device, and a coarse fraction remaining in the ladle and unloaded into the dump truck. In order to intensify the process of separation of the fine fraction enriched with valuable components after sifting through the holes of the front perforated surface and the perforated surface of the bottom, the fine fraction of the blasted rock mass is pumped by gravity into chutes. By means of system of pneumatic conveying by pipelines fine fraction from chutes is supplied to tight bin of transport facility.

EFFECT: technical result consists in improvement of productivity of processes of extraction and sorting of exploded rock mass, reduction of losses of fine fractions of valuable components, improvement of environmental efficiency due to reduction of dusting during loading and transportation works.

1 cl, 4 dwg

Description

The invention relates to the mining industry and can be used in open pit mining of solid minerals using a mining excavator.

There is a method of forming the quality of ores during mining and ore ore for its implementation [1], which consists in the preliminary enrichment of substandard and conditioned ores by separating fine fractions enriched with a useful component from the ore ore ore.

The disadvantage of this method is the multi-operation and the need for additional equipment - ore ore.

Known excavator bucket [2], equipped with a fractional grate for sorting pre-blown material, by preventing the penetration into the bucket of coarse and oversized inclusions.

The design does not provide for the isolation of a fine fraction from the rock mass.

The closest in technical essence is a bucket with a screening device [3], which includes scooping rock with a mining excavator, the bucket of which includes two side walls and a connecting wall passing between them with a rear wall and a front wall with a cutting edge, during which the rock mass located in the bucket, it can be sorted into a fine fraction passing through a screening device and a coarse fraction remaining in the bucket and discharged into a dump truck, with two surfaces provided with openings and for the passage therethrough of fine fraction, a ladle equipped with a vibrator for enhancing the separation into fractions.

The disadvantages of the bucket with a screening device are the need for alternately unloading small and coarse fractions from the bucket, which leads to an increase in the cycle time of the excavator and a decrease in its productivity, as well as losses of the fine fraction from blowing and spilling during loading and transportation.

The technical result consists in increasing the productivity of the processes of excavation and sorting of blasted rock mass, reducing losses of fine fractions of valuable components, improving environmental efficiency by reducing dusting during loading and transport operations.

The technical result is achieved by the fact that in the method of developing solid mineral deposits, including scooping rock with a quarry excavator with a bucket, including two side walls, a rear wall passing between them and a front wall with a cutting edge, during which the rock mass located in the bucket can be sorted into a fine fraction passing through a screening device and a coarse fraction remaining in the bucket and discharged into a dump truck, while two surfaces are provided with openings for passage fine grades, the bucket is equipped with a vibrator to activate fractionation, to intensify the process of separating the fine fraction enriched with valuable components after sifting through holes, a rigidly fixed front perforated surface and a rigidly fixed perforated bottom surface, the fine fraction of the blasted rock mass is poured under the action of force gravity into the groove located in the lower part of the cavity of the anterior wall, and - into the groove located in the lower part of the cavity of the bottom, when open and bottoms, with the pneumatic conveying system through pipelines, a fine fraction from the gutters is fed into the airtight hopper of the vehicle, and the front perforated surface and the perforated bottom surface are provided with stiffeners located between the holes made in the form of slots, while the slots are made in the direction of movement of the fine fraction in the cavities of the front wall and the bottom, and the gutters are installed perpendicular to the stiffeners.

The possibility of forming the required sequence of actions by the proposed means allows us to solve the problem, determines the novelty, industrial applicability and inventive step of development.

A quarry excavator for implementing the method of developing solid mineral deposits is shown in the drawings.

In FIG. 1 is a general view of a mining excavator; in FIG. 2 - a bucket of a mining excavator in the process of scooping rock mass; in FIG. 3 - a bucket of a mining excavator in the process of unloading the rock mass; in FIG. 4 is a view A in FIG. 3, on an enlarged scale.

The method of developing solid mineral deposits is carried out using a mining excavator 1 with a bucket 2, including two side walls 3, 4 and rear wall 5 passing between them, front wall 6 with cutting edge 7, sifting fixture 8, pneumatic conveying system 9 with pipelines 10. Two surfaces 11, 12 of the bucket 2 are provided with holes 13 for passing a fine fraction through them. The bucket 2 is equipped with a vibrator 14 to activate fractionation. The bucket 2 has a rigidly fixed front perforated surface 15 and a rigidly fixed perforated surface 16 of the bottom 17, as well as a groove 18 located in the lower part 19 of the cavity 20 of the front wall 6, and a groove 21 located in the lower part 22 of the cavity 23 of the bottom 17. Front perforated the surface 15 and the perforated surface 16 of the bottom 17 are provided with stiffening ribs 24 located between the holes 13, made in the form of slots 25. The slots 25 are made in the direction 26 of movement of the fine fraction in the cavities 20, 23 of the front wall 6 and the bottom 17. The gutters 18, 21 are installed perpendicular to the 27 ribs 24. The rock mass is fed into the dump truck 28 and into the airtight hopper 29 of the vehicle 30.

The method of developing solid mineral deposits is implemented as follows.

The rock mass is scooped up by a mining excavator 1 with a bucket 2, including two side walls 3, 4, the rear wall 5 passing between them and the front wall 6 with a cutting edge 7, during which the rock mass located in the bucket 2 can be sorted into a fine fraction passing through the screening device 8 and the coarse fraction remaining in the bucket 2 and discharged into the dump truck 28. Two surfaces 11, 12 are provided with holes 13 for passing a fine fraction through them, and the bucket 2 is equipped with a vibrator 14 to activate the separation into shares After explosive loosening of the massif, valuable components are concentrated in the fine fraction of the rock mass, the preliminary isolation of which significantly affects the efficiency of mining operations. To intensify the process of separating the fine fraction enriched with valuable components after sifting through holes 13, a rigidly fixed front perforated surface 15 and a rigidly fixed perforated surface 16 of the bottom 17, the fine fraction of the blasted rock mass is poured under the action of gravity into the groove 18 located in the lower part 19 of the cavity 20 of the front wall 6, and into the groove 21, located in the lower part 22 of the cavity 23 of the bottom 17, when opening the bottom 17. The pneumatic conveying system 9 through pipelines 10 fine fraction I from the gutters 18, 21 is fed into the airtight hopper 29 of the vehicle 30. The front perforated surface 15 and the perforated surface 16 of the bottom 17 are provided with stiffeners 24 located between the holes 13, made in the form of slots 25. The slots 25 are made in the direction of movement 26 of the fine fraction in the cavities 20, 23 of the front wall 6 and the bottom 17, and the grooves 18, 21 are installed perpendicular to the 27 stiffeners 24.

The method improves productivity, provides enhanced functionality and improved technological efficiency by reducing the loss of valuable components during loading and transportation, as well as reducing the environmental load on the environment in the mining area.

Sources of information:

1. USSR author's certificate No. 1120104 of 10.23.1984. A method of forming the quality of ores during mining and ore ore for its implementation.

2. RF patent No. 2204657 dated 05/20/2003. Excavator bucket.

3. RF patent No. 2042015 of 08.20.1995. Bucket with sifter.

Claims (1)

A method of developing solid mineral deposits, including scooping rock with a mining excavator with a bucket, including two side walls, a rear wall passing between them and a front wall with a cutting edge, during which the rock mass located in the bucket can be sorted into a fine fraction passing through the screening device, and the coarse fraction remaining in the bucket and discharged into the dump truck, while two surfaces are provided with holes for passing a fine fraction through them, the bucket is equipped with n vibrator to activate the separation into fractions, characterized in that to intensify the process of separating the fine fraction enriched with valuable components after sieving through the holes of the rigidly fixed front perforated surface and the rigidly fixed perforated bottom surface, the fine fraction of the blasted rock mass is poured under the influence of gravity into a gutter located in the lower part of the cavity of the anterior wall, and in the trench located in the lower part of the cavity of the bottom, when opening the bottom, while the system During pneumatic conveying through pipelines, the fine fraction from the gutters is fed into the airtight hopper of the vehicle, the front perforated surface and the perforated bottom surface provided with stiffeners located between the holes made in the form of slits, while the slots are made in the direction of movement of the fine fraction in the cavities of the front wall and bottoms, and the gutters are installed perpendicular to the ribs.

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