RU2200630C1 - Automatic plant for concentration of ores and gravels - Google Patents

Abstract

FIELD: concentration of ores and minerals from ores and gravels by gravity static method. SUBSTANCE: automatic plant includes concentrate receiver, final concentration unit, sluice boxes with systems for making turns around horizontal longitudinal axes, concentrate accumulation sensors and reversible supports mounted on opposite sides; sluice box sides are made on cleaning-up side at angle of 90 deg. relative to bottom. Plant is also provided with power connection and disconnection system and flushing water system mounted above concentrate receiver. EFFECT: increased productivity; enhanced reliability, serviceability and wear resistance; reduced power requirements. 3 dwg

Description

 The invention relates to the field of mineral processing from ores and placers by the gravitational method of the static type.

 Known installations with a mechanized strip used in dragee production, the rotation of the locks on which is carried out using traction chains with roller clips and hydraulic pushers, as well as systems in which the locks are in the working mode of enrichment, and the strip is carried out alternately by transferring the locks using a crane hoist beams to a place rotating around the axis where another gateway is installed on top, and a strip from another gateway is installed at the bottom (Bert PO Technology of gravitational enrichment. - M .: Nedra, 1990, p.236).

 The rinse process at these plants is energy-intensive and time-consuming, designs with a high number of gears, which reduces performance, reliability, wear resistance.

Known tipping Medvedev-Naumov sluice with two troughs 0.6 m wide and 3.1 m long with a common side wall. Using a system of levers, the troughs periodically rotate around the horizontal transverse axis by 90 ^° to flush the concentrate (Reference for ore dressing, Basic processes. / Under the editorship of OS Bogdanov - M .: Nedra, 1983, p. 110).

 The disadvantage of this installation is that the rinsing is carried out along the gutters, across the stencils. This reduces the quality of removal of the concentrate and requires an increased amount of water.

 The closest in technical essence and the achieved result is an automatic installation for ore and placer enrichment, containing a gateway with a rotation system around the horizontal longitudinal axis, a power supply and shutdown system, a flush water system, a concentrate receiver with finishing units (Reference for ore dressing. Main processes / Under the editorship of Bogdanov O.S. - M .: Nedra, 1983, p. 110-111).

The installation contains a gateway, consisting of packets of decks, tilted in working condition at an angle of 0-3 ^o to the horizontal plane. The concentrate rinsing is carried out by turning the decks up to 45 ^o around the horizontal transverse axis and the water supply. The material that is washed off from the deck is sent to the concentrate receiver and then for refinement.

 The installation provides full automation of the process, but does not carry out high-quality accumulation of concentrate due to smooth decks and concentrate removal due to the cross transverse to the gateway when installing stencils.

 The aim of the invention is to increase productivity, reliability, availability, durability and energy saving.

This goal is achieved in that an automatic installation for ore and placer processing, comprising a lock with a rotation system around a horizontal longitudinal axis, a feed and power cut-off system, a flush water system, a concentrate receiver with fine-tuning units, is equipped with an additional lock with a rotation system around it according to the invention horizontal longitudinal axis, with locks installed on both sides of the concentrate receiver with fine-tuning units and equipped with fixed stencils, accumulation monitoring sensors concentrate and reversing bearings mounted on opposite sides of the horizontal supports of the longitudinal axes of each of the gateways, the gateways by beads spoloska formed at angles greater than 90 ^o to their bottoms, and the system is arranged above the flushing water receiver concentrate finishing settings.

 Installation allows simultaneous or sequential rinsing from locks depending on the degree of accumulation of concentrate. With successive rinsing, at the time of concentrate removal from one of the locks, the other is in the enrichment stage. This allows you to not interrupt the processing process.

 The proposed automatic installation for beneficiation of ores and placers is shown in the drawings.

 In FIG. 1 is a top view of the installation without a power supply and shutdown system; figure 2 is a front view of the installation; figure 3 is a view of figure 1.

An automatic installation for ore and placer enrichment contains locks 1, 2 with fixed cliches 3, 4. Gateways 1, 2 are installed on both sides 5 of the concentrate receiver 6 with lapping units 7. Head parts 8, 9 of locks 1, 2 are located under the feed system and power off 10. Gateways 1, 2 are installed with the possibility of rotation along their horizontal longitudinal axes 11, 12. Axes 11, 12 are installed in the supports 13, 14 of the frames 15, 16. Turning systems 17, 18 of the gateways 1, 2 are made in the form of hydraulic cylinders ( pneumatic cylinders) 19, 20. Monitoring sensors 21, 22 of accumulation are installed on locks 1, 2 I am concentrate. On the opposite sides 23, 24 from the supports 13, 14, reversible supports 25, 26 are installed. The sides 27, 28 of the locks 1, 2 from the sides of the strip 29, 30 are made at angles 31, 32 of more than 90 ^o to their bottoms 33, 34. The flush system water 35 is installed above the receiver of the concentrate 6 with fine-tuning 7 installations.

In the working position, in the enrichment process, the locks 1, 2 are installed at an angle of 2 to 12 ^o relative to the transverse axes 36 in the vertical planes 37, 38 and are located on both sides 5 of the concentrate receiver 6.

 Automatic installation for the enrichment of ores and placers works as follows.

When enrichment, locks 1, 2 with fixed stencils 3, 4 are oriented at an angle of 2 to 12 ^o relative to the transverse axes 36 in the vertical planes 37, 38 on both sides 5 of the concentrate receiver 6.

 A command is given to supply the enriched material that comes from the supply and shutdown system of power 10 to both gateways 1, 2 at the same time.

As the concentrate accumulates at gateways 1, 2, using control sensors 21, 22, a signal is sent to turn off the power supply either to each of the gateways 1, 2 separately, or both simultaneously. The control sensors 21, 22 provide a signal to the reversible supports 25, 26, which are installed on opposite sides 23, 24 from the supports 13, 14. The reversible supports 25, 26 are removed, freeing the sides of the strip 29, 30 to move the locks 1, 2 along their horizontal the longitudinal axes 11,12 using the rotation system 17, 18. The axles 11, 12 with locks 1, 2 are rotated in the supports 13, 14 of the frames 15, 16 using the hydraulic cylinders 19, 20. A command is given for the flush water system 35, which is installed between locks 1, 2 above the concentrate receiver 6 with fine-tuning units 7. On the sides 27, 28, which are made according to at angles 31, 32 greater than 90 ^o to their bottoms 33, 34, the concentrate enters from the head parts 8, 9 of the locks 1, 2 to the concentrate receiver 6, and from the rest of the locks 1, 2 to the finishing units 7. After the rinsing, the monitoring sensors 21, 22 give a command to the rotation system 17, 18, and the reversible supports 25, 26. Gateways 1, 2 return to their original position. When a flashing signal arrives at one of the gateways 1, 2, a flush occurs from one gateway 1, 2. At this moment, another gateway 1, 2 may be in the process of enrichment.

 The automatic installation can be used on industrial instruments of any type, at batch processing plants, showrooms, and in geological exploration. The installation allows you to save labor costs during operation, energy resources, it is reliable, has a material consumption and wear resistance.

Claims (1)

An automatic installation for ore and placer enrichment, comprising a lock with a rotation system around a horizontal longitudinal axis, a feed and shut off system, a flush water system, a concentrate receiver with fine-tuning installations, characterized in that it is equipped with an additional lock with a rotation system around a horizontal longitudinal axis at the same time, locks are installed on both sides of the concentrate receiver with fine-tuning units and are equipped with fixed stencils, concentrate accumulation control sensors and reversible supports and installed on opposite sides of the supports of the horizontal longitudinal axes of each of the locks, and the sides of the locks on the side of the strip are made at angles of more than 90 ^o to their bottoms, and the flush water system is installed above the concentrate receiver with fine-tuning settings.

Images