RU2192311C2 - Ore sands processing line - Google Patents

Abstract

FIELD: mineral concentration; applicable in processing of placer and primary terrigenous and aquagenic deposits. SUBSTANCE: installed in front part of line is device for disintegration of initial material, and deslimer is installed at the outlet of said device. Deslimer is connected by its outlet with device for grading mineral to size. Connected with outlet of fine fraction classifier is drying device, and connected to outlet of medium fraction device are magnetic and gravity-type apparatuses. Located behind drying device is electrostatic apparatus, and behind magnetic and gravity-type apparatuses is finishing unit. EFFECT: higher efficiency processing of ore materials, and separation of floating and fine-particle gold. 1 dwg

Description

 The invention relates to mineral processing and can be used for processing both alluvial and indigenous terri - and aquagenic deposits.

 A well-known production line for finishing gold-bearing concentrates, including a complex for screening of concentrate materials according to narrow size classes, a complex of gravitational apparatus, a complex for trapping small grains of a valuable component, a complex of grinding classifying and dewatering apparatus. [Zamyatin O.V. and other enrichment of gold-bearing sands and conglomerates. - M .: Nedra, 1975, p. 168, Fig. 103].

 The disadvantage of the line is the complexity and energy intensity of the technological chain, which reduces the efficiency of ore processing and, in addition, does not solve the problem of the allocation of floating and thin gold.

 Closest to the technological essence of the claimed is a production line for processing bulk material, including a device for disintegration and classification by size, a complex of gravity dressing apparatus, a complex of magnetic and electrostatic dressing apparatus [patent 2098190, 03 V 9/00, 7/00] .

 The disadvantage of this line is also the complexity and energy intensity of the technological chain, which reduces the efficiency of processing ore material. In addition, it does not allow to allocate sludge and floating gold.

 The technical result of the invention is to increase the efficiency of processing ore material.

 The essence of the invention lies in the fact that the line for processing ore sands, including a device for disintegration and a device for classifying by size, gravity, magnetic and electrostatic devices, further comprises a deslamator, a drying device and a finishing unit, while the deslamator is installed between the device for disintegration and device for classification by size, a drying device is installed at the output of a small class of device for classification by size, electrostatic app arat is installed after the drying device, magnetic and gravitational devices are installed at the output of the middle class device for classification by size, and a finishing unit is installed after magnetic and gravitational devices.

 The present invention allows to simplify and reduce the energy intensity of the technological chain, to increase the efficiency of processing ore material, in addition, it provides the allocation of floating and thin gold.

 Deslamator provides purification of process water and the allocation of sludge, which contains a significant amount of floating and fine gold. These sludges are dried in a drying device, which then makes it possible to efficiently enrich them on an electrostatic apparatus (ESA).

 Since ESA works most effectively in the field of small classes, it is installed after the drying device installed at the output of the small class of the device for classification by size.

 Magnetic and gravity devices are connected to the output of a middle class device for classification by size, through which the largest part of the magnetic minerals passes.

 The finishing installation allows you to highlight a valuable component that is not caught by gravitational devices.

 The combination of these features increases the efficiency of the technological chain by capturing floating and thin gold and reducing the cost of the product.

 The drawing shows a diagram of a line for processing ore sands.

 This line includes a device for disintegration 1, installed in the head of the line and providing preparation of material for further processing, deslamator 2, installed at the output of device 1 and connected by the output to the device for classification by size 3, a drying device 4, connected by the output to the electrostatic apparatus 5, magnetic 6 and gravity 7 devices, lapping unit 8. The drying device 4 is connected to the output of a small class device for classification by size 3, and with the output of the middle class by the last connected magnetic 6 and gravity 7 devices. At the output of this complex, a finishing unit 8 is installed.

 The line for processing ore sand works as follows. A heterogeneous source material is fed into the hopper of the device for disintegration 1 for its disintegration, washing, separation of the clay component, after which the material enters the deslamator 2, where it is unwound, separated from sludges that adversely affect the efficiency of subsequent technological processes. Sludge from the deslamator containing a significant amount of sludge grains of valuable components, including fine and floating gold, enters the drying device 4, where it is freed from free water for further enrichment in ESA 5. The main material from the deslamator 2 enters the device for classification according to size 3, where it is divided into a number of classes, each of which is sent to the corresponding enrichment cycle. A small class enters the drying device 4, where it is prepared for subsequent electrostatic separation at ESA 5, which makes it possible to isolate a number of valuable associated components.

 The middle class is most effectively enriched on magnetic 6 and gravitational 7 devices, the tails of which are enriched in a finishing device 8.

Claims (1)

 A line for processing ore sands, including a device for disintegration and a device for classifying by size, gravitational, magnetic and electrostatic devices, characterized in that it additionally contains a dehumidifier, a drying device and a finishing unit, while the dehumidifier is installed between the device for disintegration and the device for size classification, the drying device is installed at the output of a small class of device for size classification, the electrostatic apparatus installed n after drying devices, magnetic and gravitational apparatus installed on the average output device class for classifying by size, lapping unit is installed after the magnetic and gravity aids.