RU2106495C1 - Method for development of placer deposits - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: this relates to opencast mining of deposits. According to method, operations are performed in following sequence. Deposit is divided into sections. Installed in initial section is generator of low-frequency oscillations, then this section is watered and oscillations are directed through it. Passing of waves through ground mass bring particles of loose material into oscillating motion and this results in stratification of ore and rock materials. After that, aforesaid section is dewatered, overburden material and upper layer of sand are removed. Lower layer of sand with concentrated minerals is excavated separately and delivered to benefication plant. In this succession of operations, mining of other sections of placer deposit is further proceeded. EFFECT: higher efficiency. 1 cl, 2 dwg

Description

 The invention relates to the field of the development of alluvial mineral deposits.

 Known methods of mineral processing using low-frequency vibrations in a liquid medium (see "Acoustic technology in mineral processing". M., Nedra, 1987, 232, pp. 6-13). With such oscillations, the medium, as the waves propagate, performs in-phase oscillations with the waves. In addition, there are known methods of mineral processing by separation of a mixture of ore particles by density by depositing methods (see "Guide to ore dressing. Basic processes" M., Nedra, 1983, S. 44-83).

 The closest analogue in technical essence and the achieved result is a method of hydraulic development of placer gold deposits, including overburden operations, transportation of gold-bearing sands to a washing device and gold beneficiation at locks (see Sulin G. A. "Technique and technology for opencast mining of placers" , M., Nedra, 1974, 232 pp.).

 The aim of the proposed invention is to increase the efficiency of the development of alluvial mineral deposits.

 This goal can be achieved by the fact that generators of low-frequency oscillations are installed on the site of the field, the site is flooded, and this area is scored. Sounding of the site is carried out by both surface and submersible sources, transmitting vibrations from the generator to the array. Surface placed on the surface of the site, and submersible sources are placed in the array, for example in the well. When placing a submersible source at the sand level, oscillations from the source propagate directly through the sand array. When the source is placed below the sand layer (in the raft rocks), the oscillations from the source propagate through the sand mass through the raft rocks, i.e. wave oscillations, passing through the rocks of the raft with minimal losses, go out into the sand layer and propagate through the sand array from the bottom up. During the propagation of low-frequency waves along the flooded sands of the site, particles of sand material come into oscillatory motion, while particles of material with a higher density will fall down and accumulate in the lower zone of the sand layer. After voicing, the site is drained, then peat and the upper layer of sand are removed, and the lower layer of sand is removed separately to the raft and fed for enrichment.

 In FIG. 1 shows a section through a section of an alluvial deposit in the initial stage of development; in FIG. 2 shows a section in the final stage of development of this section, where 1 is a generator of low-frequency oscillations, 2 is peat; 3 - sands; 4 - raft; 5 - the bottom layer of sand.

 The method is as follows.

 At the initial stage of development, a low-frequency oscillation generator 1 is installed on the field site, for example, with a submersible source (as shown in Fig. 1). This section is flooded, the generator is turned on, and the sound of the array is started by transmitting vibrations to the array and propagating waves along the flooded array. When waves propagate through an array, the particles composing this array come into vibrational motion. The particles of ore minerals in the sand layer have a higher density in comparison with the host particles containing them. Therefore, during oscillatory movements as the waves propagate over the flooded massif, particles of ore minerals sink to the lower part of the sand layer and concentrate near the raft 4. After voicing the area of the deposit, generator 1 is moved to another area, and the voiced area is drained (for example, by drainage ditches). After drainage in this area remove peat 2 and the upper part of the sand 3. They are stored in dumps. The bottom layer of sands 5, enriched with ore minerals, is removed separately and fed for enrichment (for example, a washing device). During the development of the first section, preparation (scoring) for the extraction of the next is carried out. These stages carry out the development of the field as a whole.

Claims (2)

 1. A method of developing alluvial deposits, including peat removal, preparation for excavation, excavation and sand enrichment, characterized in that low-frequency oscillation generators are installed on the deposit site, the plot is flooded, the area is dubbed, drained, peat and sand are removed, while the bottom a layer of sand is left, then the bottom layer of sand is removed to the raft and fed for enrichment.  2. The method according to claim 1, characterized in that the well with a submersible source of vibrations is buried in a raft, the source is placed at the bottom of the well, and the area is voiced through the rocks of the raft by spreading the vibrations from the source through the raft.

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