RU2707318C1 - Method for development of deposits of solid mineral deposits - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining industry and can be used in open development of deposits of solid minerals by means of quarry hydraulic excavator. Method for development of deposits of solid minerals includes extraction of blasted rock by quarry hydraulic excavator, having running trolley, rotary platform, working equipment, unloading linear conveyor and receiving rotary conveyor. Unloading of rock mass is performed from ladle to constant point with provision of conversion of cyclic nature of digging into continuous flow of loaded rock mass. When the rock mass moves by blades-scrapers along the receiving rotary conveyor, the fine fraction is separated on sieving vibrating grids installed in the annular bottom. Separated fine fraction accumulates in accumulator, from where via pipelines, by means of pneumatic conveying system, is supplied to tight bin of vehicle. In the presence of oversize inclusion in the rock mass, the scraper blade moves the oversizing on the grates, over the unloading opening to the oversize removal zone, and tilter is turned by means of hydraulic cylinder and shifts oversize inclusion into inclined tray, on which oversized inclusion slides to surface of bottomhole.

EFFECT: technical result consists in increase in the blown rock extraction process productivity, improvement of environmental efficiency due to reduction of dusting during loading and transportation operations, reduction of losses of fine fractions of valuable components.

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 quarry hydraulic excavator.

Known self-propelled powerful excavator that develops a face with a bucket. From the bucket, the material is unloaded into the loading descent, from which it enters the conveyors and through the tray is sent to the crushing and sorting mechanism, and then to the ring and transfer conveyors [1].

The disadvantages are the complexity and high material consumption of the design of an excavator equipped with a large number of conveying devices, as well as the lack of a function for separating fine fractions, the presence of which will lead to dust during overloading and subsequent transportation of the rock mass, as well as to a partial loss from blowing of small fractions having relatively high content of useful components.

There is a method of open development of solid mineral deposits, including obtaining conditioned fractions through a continuous extraction-classification process with the development of a layer-by-strip method of a mineral layer. The fine and fine fractions of the rock mass separated on the classification unit are sent through the pneumatic conveying system to the receiving containers of the vehicle [2].

The disadvantage of this method is the impossibility of mining excavation-classification unit arrays, composed of solid rocks.

A known method of developing solid mineral deposits using a mining complex, which consists in excavating the blasted rock mass with a ladle and unloading it into a receiving hopper, equipped with a classifier for separating lumpy rock mass and feeding it to the crusher, after which all the rock mass is fed through a feeder to an unloading conveyor [3].

The disadvantages of the method are the lack of the function of separating fine fractions, leading to dust during overloading and subsequent transportation of the rock mass, as well as to a partial loss from blowing of fine fractions having a relatively high content of useful components.

The closest in technical essence is an excavator - a mining complex for excavating rocks in quarries [4, 5]. The exploded rock mass is excavated by a quarry hydraulic excavator having a running trolley, a rotary platform, work equipment and a rock transporting device, including a linear discharge conveyor and a rotary receiving conveyor, consisting of a fixed and open from above body formed by a side wall and an annular bottom with a discharge window, and an internal rotating shell with scraper blades and an autonomous drive; unloading of the rock mass from the bucket to a constant point is carried out with By means of a system, by means of a control system and coordination of the interaction of equipment operation, conversion of the cyclical nature of digging into a continuous stream of overloaded rock mass.

The disadvantages of the excavator - mining complex are a decrease in productivity due to downtime in the case of loading an oversized inclusion in the rock conveying device by the bucket, the lack of a function for separating fine fractions, leading to dust during overloading and subsequent transportation of the rock mass, as well as to a partial loss from the blowing of small fractions having relatively high content of useful components.

The technical result consists in increasing the productivity of the process of excavating the blasted rock mass, increasing environmental efficiency by reducing dusting during loading and transport operations, reducing losses of small fractions of valuable components.

The technical result is achieved by the fact that in the method of developing solid mineral deposits, including the excavation of blasted rock by a hydraulic excavator with a running trolley, a swing platform, work equipment and a rock transporting device, including a discharge line conveyor and a receiving rotor conveyor, consisting of a fixed and open rotor conveyor on top of the case, formed by a side wall and an annular bottom with a discharge window, and an inner rotating shell with a blade with mi-scrapers and an autonomous drive, unloading the rock mass from the bucket to a constant point with the provision, through a control system and coordinating the interaction of the equipment, converting the cyclic nature of digging into a continuous stream of overloaded rock mass, while moving the rock mass with scraper blades along the receiving rotor conveyor, the fine fraction is separated on sieving vibrating gratings installed in the annular bottom, while the separated small fraction accumulates in the drive, and through pipelines by means of a pneumatic conveying system it is fed into the airtight hopper of the vehicle, and if there is an oversized inclusion in the rock mass, the scraper blade moves the oversized inclusion along the grates, above the discharge window into the oversized removal zone, and the oversized fixation sensor is triggered, and the tipper is activated by the hydraulic cylinder turns and shifts the oversized inclusion in the inclined tray, through which the oversized inclusion slides to the surface of the face.

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 hydraulic excavator for implementing a method for developing solid mineral deposits is shown in the drawings.

In FIG. 1 is a general view of a quarry hydraulic excavator in the process of scooping rock mass with a bucket; in FIG. 2 is a section AA in FIG. one; in FIG. 3 is a section BB in FIG. 2; in FIG. 4 is a general view of a quarry hydraulic excavator during unloading of rock from a bucket into a receiving rotor conveyor.

The method of developing solid mineral deposits is carried out using a quarry hydraulic excavator 1, which includes a running trolley 2, a rotary platform 3, working equipment 4 and a rock transport device 5. The rock transport device 5 includes a discharge line conveyor 6 and a receiving rotor conveyor 7, consisting of a fixed and open on top of the housing 8, formed by the side wall 9 and the annular bottom 10 with sifting vibrating gratings 11 and the discharge window 12, and the inner a rotating shell 13 with scraper blades 14 and an autonomous drive 15. The rock mass is unloaded from the bucket 16 to a constant point 17 by means of a control system 18 and coordination of the interaction of the equipment 19. From the accumulator 20, the fine fraction through pipelines 21 is fed into the pressurized system 22 the hopper 23 of the vehicle 24. Oversized inclusion 25 along the grid-irons 26 is advancing into the oversized removal zone 27. The oversized inclusion 25 is displaced along the inclined tray 28 to the bottom face 29 with the help of a tipper 30 with a hydraulic cylinder 31, after a signal from the oversize fixation sensor 32.

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

The blasted rock is excavated by a mining hydraulic excavator 1, having a running trolley 2, a rotary platform 3, work equipment 4 and a rock transporting device 5, including a discharge line conveyor 6 and a receiving rotor conveyor 7, consisting of a fixed and open from above casing 8 formed by a side wall 9 and an annular bottom 10 with a discharge window 12, and an inner rotating shell 13 with scraper blades 14 and an autonomous drive 15. Unloading the rock mass from the bucket 16 to a constant point at 17 it is secured by means of the control system 18 and adjusting the interaction of the equipment 19, converting the cyclic nature of digging into a continuous stream overloaded rock mass. When advancing the rock mass with scraper blades 14 along the receiving rotor conveyor 7, the fine fraction is separated on sieving vibrating gratings 11 installed in the annular bottom 10. The separated fine fraction is accumulated in the accumulator 20, from which it is fed through pipelines 21 to the pneumatic conveying system 22 into airtight hopper 23 of the vehicle 24. If there is an oversized inclusion 25 in the rock mass, the scraper blade 14 advances the oversized inclusion 25 along the grates 26 above the unloading window 12 zone 27 remove oversize. The oversize fixing sensor 32 is activated, and the tipper 30 is rotated by the hydraulic cylinder 31 and shifts the oversized inclusion 25 into the inclined tray 28, along which the oversized inclusion 25 slides to the face 29.

The method improves productivity, reliability, provides enhanced functionality and increased 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.

Information sources:

1. USSR author's certificate No. 1207399 of 01/23/1986. Self-propelled powerful excavator.

2. RF patent No. 2596157 from 08/27/2016. The method of open development of solid mineral deposits.

3. RF patent No. 2601660 dated 10.11.2016. A method of developing solid mineral deposits.

4. RF patent No. 2318964 dated 03/10/2008. Excavator.

5. Kazakov V.A., Kubyshkin I.P. Mining complex DK-2000 / Mining equipment and electromechanics. 2007. No. 12. S. 35-38.

Claims (1)

A method of developing solid mineral deposits, including excavation of blasted rock by a hydraulic excavator with a running trolley, a swing platform, work equipment and a rock transporting device, including a discharge line conveyor and a receiving rotor conveyor, consisting of a fixed and open from above body formed by a side wall and an annular bottom with a discharge window, and an internal rotating shell with scraper blades and an autonomous drive, unloading rock mass from the bucket to a constant point with the provision, through a control system and coordination of the interaction of equipment operation, converting the cyclic nature of digging into a continuous stream of overloaded rock mass, characterized in that, when rock mass is advanced with scraper blades along a receiving rotor conveyor, fine separation is performed fractions on sifting vibrating gratings installed in the annular bottom, while the separated fine fraction accumulates in the drive, wherefrom the pipelines are by means of a pneumatic conveying system it is fed into the airtight hopper of the vehicle, and if there is an oversized inclusion in the rock mass, the scraper blade moves the oversized inclusion along the grates, above the discharge window into the oversized removal zone, the oversize fixation sensor is triggered, and the tipper is rotated and shifted by the hydraulic cylinder oversized inclusion in an inclined tray, through which an oversized inclusion slides to the surface of the face.

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